JP2023019855A - game machine - Google Patents

Abstract

To provide a game machine capable of suitably performing control of movable means provided in the game machine.SOLUTION: A V winning device 531 includes a change-over piece 536. A main-side MPU performs control of the change-over piece 536 such that turning operation of the change-over piece 536 can be performed during an execution period of a V winning round game. A main-side MPU 82 performs control of the change-over piece 536 such that retraction position restoration for restoring the change-over piece 536 to a restoration position is performed on the basis of occurrence of a predetermined execution opportunity when operating power starts to be supplied.SELECTED DRAWING: Figure 270

Description

The present invention relates to gaming machines.

Pachinko machines, slot machines, and the like are known as types of gaming machines. In these gaming machines, it is known that an internal lottery is held based on the establishment of a predetermined lottery condition, and a privilege is given to the player according to the result of the internal lottery.

Specifically, the pachinko machine has a configuration in which a winning result is obtained in an internal lottery based on the entry of a game ball into a ball entry section provided in the game area, and a transition to a special game state. A configuration is known in which a transition is made to a special game state based on a game ball entering a part. Then, when the state shifts to the special game state, for example, opening and closing of a ball entry device provided in the game area is started, and game balls are paid out based on the entry into the ball entry device (for example, See Patent Document 1).

JP 2012-170465 A

Here, in the gaming machine such as the above example, it is necessary to appropriately control the movable means provided in the gaming machine, and there is still room for improvement in this respect.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a gaming machine capable of suitably controlling movable means provided in the gaming machine.

In order to solve the above problems, the invention according to claim 1 provides a movable means,
specific action executing means for controlling the movable means so that the specific action of the movable means is performed in a special game state;
Predetermined action executing means for controlling the movable means so as to perform a predetermined action of positioning the movable means at a predetermined position based on occurrence of a predetermined execution trigger when supply of operating power is started. and,
characterized by comprising

According to the present invention, it is possible to preferably control the movable means provided in the game machine.

1 is a perspective view showing a pachinko machine according to a first embodiment; FIG. 1 is an exploded perspective view showing the main components of a pachinko machine; FIG. It is a front view which shows the structure of a game board. (a) and (b) are explanatory diagrams for explaining display contents of the symbol display device when a game cycle is executed. (a) to (j) are explanatory diagrams for explaining main symbols and sub-symbols that are variably displayed in each symbol row. 1 is a block diagram showing an electrical configuration of a pachinko machine; FIG. FIG. 4 is an explanatory diagram for explaining contents of various counters and various storage areas; FIG. 4 is an explanatory diagram for explaining contents of a support mode; (a) is an explanatory diagram for explaining the first right/wrong table at low probability; (b) is an explanatory diagram for explaining the second right/wrong table at low probability; (c) right/wrong at high probability It is an explanatory view for explaining a table. (a) is an explanatory diagram for explaining the jackpot distribution table for the first special figure, (b) is an explanatory diagram for explaining the jackpot distribution table for the second special figure, (c) It is explanatory drawing for demonstrating the time saving distribution table for 1 special figure, (d) It is explanatory drawing for demonstrating the time saving distribution table for 2nd special figure. (a) It is explanatory drawing for demonstrating the content of each jackpot result, (b) It is explanatory drawing for demonstrating the content of each time saving result and ceiling time saving. (a) ~ (e) is a time chart showing how the time saving state is set by the time saving result or the ceiling time saving. It is a flowchart which shows the main process in main side MPU. 10 is a flowchart showing timer interrupt processing in the main MPU; It is a flow chart which shows the general map general electric control processing in main side MPU. It is a flow chart which shows normal figure fluctuation start processing in main side MPU. It is a flow chart which shows processing during normal figure decision in main side MPU. It is a flowchart which shows the special figure special electric control processing in main side MPU. It is a flowchart which shows the acquisition process of the holding|holding information in main side MPU. It is a flow chart showing a special figure fluctuation start process in the main side MPU. FIG. 10 is a flow chart showing processing for specifying a variable display period in the main MPU; FIG. It is a flow chart which shows processing during special figure decision in main side MPU. It is a flowchart which shows the special electric end processing in main side MPU. FIG. 10 is a flow chart showing subtraction processing of a high-probability state counter in the main MPU; FIG. It is a flow chart which shows setting processing for time saving results in main side MPU. It is an explanatory diagram for explaining the stop result of the special figure display unit and the stop result of the symbol display device. (a) The stop result of the first special figure display unit and the symbol display device in the case of the first time saving result in the game round triggered by the first reservation information which is the final game round of the normal game state or the time saving state (b) is a game round other than the final game round of the high probability state or the time saving state, and the first time saving result in the game round triggered by the first suspension information 1 is an explanatory diagram for explaining the stop result of the special figure display unit and the symbol display device, (c) the first special figure display unit and It is an explanatory view for explaining the stop result of the pattern display device. FIG. 11 is a flow chart showing variation pattern determination processing in the sound and light side MPU; FIG. FIG. 11 is a flow chart showing subtraction processing of a ceiling counter in the main MPU; FIG. It is a flowchart which shows the subtraction process of the time saving state counter in main side MPU. (a) ~ (e) is a time chart for explaining the execution order of the processing in the process during special figure determination. FIG. 11 is a flow chart showing subtraction processing of a variation selection state counter in the main MPU; FIG. (a) ~ (f) It is a time chart for explaining the relationship between the execution timing of the reach high frequency state and the time saving state triggered by the ceiling time saving. It is a flow chart showing a special figure fluctuation start process executed by the main side MPU in the second embodiment. It is a flow chart which shows processing during special figure decision in main side MPU. It is a flow chart which shows setting processing for time saving results in main side MPU. FIG. 11 is a flow chart showing subtraction processing of a ceiling counter in the main MPU; FIG. FIG. 11 is an explanatory diagram for explaining contents of various counters and various storage areas in the third embodiment; It is a flow chart showing a special figure fluctuation start process in the main side MPU. It is a flow chart which shows processing during special figure decision in main side MPU. FIG. 13 is a flowchart showing main processing executed by the main MPU in the fourth embodiment; FIG. It is a flowchart which shows the setting value update process in main side MPU. FIG. 16 is a flow chart showing main processing executed by the main MPU in the fifth embodiment; FIG. It is a front view of the game board in the sixth embodiment. (a) A longitudinal sectional view of the special winning device in a non-induced state, and (b) a longitudinal sectional view of the special winning device in a guided state. It is a vertical cross-sectional view for explaining the internal configuration of the distribution winning device. FIG. 4 is an explanatory diagram for explaining contents of various counters and various storage areas; (a) An explanatory diagram for explaining a first success/failure table, (b) an explanatory diagram for explaining a second success/failure table, and (c) an explanatory diagram for explaining a jackpot sorting table. , (d) is an explanatory diagram for explaining the time-saving distribution table, (e) is an explanatory diagram for explaining the small hit distribution table, (f) for explaining the contents of each small hit result It is an explanatory diagram. It is a flowchart which shows the special figure special electric control processing in main side MPU. It is a flowchart which shows the acquisition process of the holding|holding information in main side MPU. It is a flow chart showing a special figure fluctuation start process in the main side MPU. It is a flow chart which shows processing during special figure decision in main side MPU. It is a flowchart which shows the special electric end processing in main side MPU. It is a flowchart which shows the power failure monitoring process in main side MPU. It is a flow chart which shows processing during special figure decision performed in main side MPU in a 7th embodiment. FIG. 10 is a flow chart showing processing for specifying a variable display period in the main MPU; FIG. It is a flowchart which shows the subtraction process of the time saving state counter performed by main side MPU in 8th Embodiment. It is a flow chart which shows setting processing for time saving results performed by main side MPU in a 9th embodiment. FIG. 11 is a flow chart showing subtraction processing of a ceiling counter in the main MPU; FIG. (a) ~ (g) is a time chart for explaining the subsequent game state when the time saving result or ceiling time saving occurs in the time saving state. It is a front view of the game board in the tenth embodiment. FIG. 4 is an explanatory diagram for explaining contents of various counters and various storage areas; It is a flow chart which shows the 1st special figure special electric control processing in main side MPU. It is a flow chart which shows the 2nd special figure special electric control processing in main side MPU. It is a flow chart showing a special figure fluctuation start process in the main side MPU. FIG. 10 is a flow chart showing processing for specifying a variable display period in the main MPU; FIG. It is a flow chart which shows processing during special figure decision in main side MPU. It is a flow chart which shows end judging processing of a time saving state in main side MPU. It is a flow chart which shows setting processing for time saving results in main side MPU. FIG. 11 is a flow chart showing subtraction processing of a ceiling counter in the main MPU; FIG. It is a flow chart which shows left hitting information processing in sound light side MPU. (a) ~ (f) It is a time chart showing how the game round corresponding to the end in the time saving state is executed with the first suspension information as the execution target. FIG. 22 is a flow chart showing processing for specifying a variable display period executed by the main MPU in the eleventh embodiment; FIG. FIG. 22 is a flow chart showing processing for specifying a variable display period executed by the main MPU in the twelfth embodiment; FIG. FIG. 32 is a front view of a main controller in a thirteenth embodiment; FIG. 4 is an explanatory diagram for explaining how programs and data are set in a main-side ROM; It is an explanatory view for explaining a setting mode of each area in main side RAM. FIG. 4 is an explanatory diagram for explaining various storage areas provided in a work area for specific control and various storage areas provided in a work area for non-specific control; FIG. 4 is an explanatory diagram for explaining an electrical configuration for transmitting a command from the main side MPU to the sound and light side MPU; (a) to (d) are time charts showing how commands are transmitted. It is a flowchart which shows the main process in main side MPU. It is a flowchart which shows the process for setting confirmation in main side MPU. It is a flowchart which shows the setting value update process in main side MPU. To explain the details of the processing that is executed in the main processing when the supply of operating power is resumed after the power failure processing is executed while the setting value update processing or the setting confirmation processing is being executed. It is an explanatory diagram. 4 is a flowchart showing first management processing in the main MPU; It is a flowchart which shows the initialization process in main side MPU. It is a flowchart which shows the disconnection short circuit process in main side MPU. 10 is a flowchart showing first timer interrupt processing in the main MPU; It is an explanatory view for explaining the configuration related to the discharge of the game ball that has flowed down the game area. FIG. 11 is an explanatory diagram for explaining a configuration for inputting a detection result of a detection sensor to the main MPU; It is a flow chart which shows the entering ball detection processing in main side MPU. It is a flowchart which shows the acquisition process of the holding|holding information in main side MPU. It is a flowchart which shows the processing for fraud detection in main side MPU. It is a flowchart which shows the information clear processing in main side MPU. It is a flowchart which shows the fraud detection execution process in main side MPU. It is a flow chart which shows the electric power control processing in main side MPU. (a) A flowchart showing a special electric start process in the main MPU, (b) a flowchart showing a special electric open process in the main MPU, and (c) a flowchart showing a special electric closed process in the main MPU. It is a flowchart which shows the magnetism monitoring process in main side MPU. It is a flowchart which shows the fraud handling process in main side MPU. (a) to (h) are time charts showing how winning is monitored, taking the second actuation opening detection sensor as an example. It is a flowchart which shows the process for security in main side MPU. (a) to (h) are time charts showing how security signals are output to the outside. FIG. 10 is an explanatory diagram for explaining various areas of a non-specific control work area used for managing game histories; FIG. 5 is an explanatory diagram for explaining various areas of a calculation result storage area; (a) to (d) are explanatory diagrams for explaining display contents of the first to fourth notification display devices. 4(a) to 4(c) are explanatory diagrams for explaining display contents of the first to fourth notification display devices; FIG. FIG. 10 is a flowchart showing second management processing in the main MPU; FIG. It is a flowchart which shows the check process in main side MPU. 10 is a flow chart showing normal ball entry management processing in the main MPU. It is a flowchart which shows the result calculation process in main side MPU. FIG. 4 is a block diagram for explaining a configuration for display control of various display circuits by the main MPU; FIG. 4 is an explanatory diagram for explaining various buffers provided in a work area for specific control; It is an explanatory view for explaining an electric composition of display IC. 10 is a flowchart showing second timer interrupt processing in the main MPU; FIG. 14 is a flowchart showing setting processing for an eighth display data buffer in the main MPU; FIG. It is a flowchart which shows the process for a display in main side MPU. (a) to (i) are time charts showing how various displays are performed on the first to fourth notification display devices and the setting display device when supply of operating power to the main MPU is started. It is a flowchart which shows RAM clear processing in main side MPU. 10 is a flowchart showing information abnormality monitoring processing in the main MPU; FIG. 22 is a flow chart showing first timer interrupt processing executed by the main MPU in the fourteenth embodiment; FIG. It is a flow chart which shows the entering ball detection processing in main side MPU. It is a flowchart which shows the process for management in main side MPU. It is a flowchart which shows the acquisition process of the holding|holding information in main side MPU. It is a flowchart which shows the setting processing of the counter for prize balls in main side MPU. 10 is a flow chart showing normal ball entry management processing in the main MPU. (a) It is explanatory drawing for demonstrating the content of the support mode in 15th Embodiment, (b) It is explanatory drawing for demonstrating the content of a time saving state. (a) It is an explanatory diagram for explaining the data structure of the main side ROM referred to for controlling the gaming state, and (b) explaining the storage area of the main side RAM used for controlling the gaming state. It is an explanatory view for doing. It is a flow chart which shows processing during special figure decision in main side MPU. It is a flowchart which shows the special electric end processing in main side MPU. It is a flowchart which shows the process for high accuracy progress in main side MPU. FIG. 11 is a flow chart showing subtraction processing of a ceiling counter in the main MPU; FIG. It is a flow chart which shows setting processing for time saving results in main side MPU. FIG. 11 is a flow chart showing variation pattern determination processing in the sound and light side MPU; FIG. It is a flow chart which shows processing for time saving progress in main side MPU. 1 is a schematic diagram for explaining an outline of an electrical configuration of a game hall in which a large number of pachinko machines are installed; FIG. (a) is a rear view of the pachinko machine showing an enlarged external terminal plate and its surroundings provided in the back pack unit of the pachinko machine, and (b) for explaining the external output buffer provided in the main side RAM. It is an explanatory view, (c) is a block diagram for explaining the electrical configuration of the external terminal plate. 10 is a flow chart showing outer end processing in the main MPU; (a) to (g) are time charts showing how the output states of the first jackpot signal, the second jackpot signal, and the advantageous state signal are switched. It is a flow chart which shows subtraction processing for time saving in main side MPU. FIG. 4 is an explanatory diagram for explaining contents of various counters and various storage areas; FIG. 10 is a flow chart showing processing for specifying a variable display period in the main MPU; FIG. FIG. 11 is an explanatory diagram for explaining a game cycle period address table; It is a flowchart which shows the prefetching process in main side MPU. It is a flow chart which shows production control processing during time saving in sound light side MPU. It is an explanatory view for explaining the display contents of the pattern display device in the time saving state. (a) to (e) are time charts showing how the execution of the special hold display is restricted when a prefetch command corresponding to a predetermined reach is received. (a) is an explanatory diagram for explaining the contents of the time saving state in another form of the fifteenth embodiment, (b) is an explanatory diagram for explaining the contents of the time saving state in another form of the fifteenth embodiment be. It is a flow chart which shows setting processing for time saving results performed by main side MPU in a 16th embodiment. FIG. 11 is a flow chart showing variation pattern determination processing in the sound and light side MPU; FIG. (a) is an explanatory diagram for explaining the first right/wrong table for the low probability in the seventeenth embodiment; (b) is an explanatory diagram for explaining the second right/wrong table for the low probability; ) is an explanatory diagram for explaining a success/failure table for a high probability. It is explanatory drawing for demonstrating the content of a time saving state. It is an explanatory diagram for explaining the storage area of the main side RAM that is used to control the game state. It is a flow chart which shows processing during special figure decision in main side MPU. It is a flow chart which shows processing for time saving progress in main side MPU. It is a flow chart which shows setting processing for time saving results in main side MPU. It is a flowchart which shows the setting process for time saving results performed by main side MPU in another form of 17th Embodiment. FIG. 22 is an explanatory diagram for explaining the relationship between the value of the state determination counter and the game state in the eighteenth embodiment; It is a flowchart which shows the special electric end processing in main side MPU. It is a flowchart which shows the process for high accuracy progress in main side MPU. FIG. 11 is a flow chart showing subtraction processing of a ceiling counter in the main MPU; FIG. It is a flow chart which shows setting processing for time saving results in main side MPU. It is a flow chart which shows processing for time saving progress in main side MPU. It is a flow chart which shows subtraction processing for time saving in main side MPU. FIG. 10 is a flow chart showing processing for specifying a variable display period in the main MPU; FIG. It is an explanatory diagram for explaining the storage area of the main side RAM that is used to control the game state in the nineteenth embodiment. It is a flowchart which shows the special electric end processing in main side MPU. FIG. 11 is a flow chart showing subtraction processing of a ceiling counter in the main MPU; FIG. It is a flow chart which shows setting processing for time saving results in main side MPU. FIG. 11 is a flow chart showing variation pattern determination processing in the sound and light side MPU; FIG. It is a flow chart which shows processing for time saving progress in main side MPU. (a) ~ (f) is a time chart showing how the third time saving state is latent. FIG. 10 is a flow chart showing processing for specifying a variable display period in the main MPU; FIG. 10 is a flowchart showing pattern determination processing in the sound and light side MPU; (a) ~ (f) is a time chart for explaining the execution mode of the production in the time saving state. It is an explanatory diagram for explaining the storage area of the main side RAM that is used to control the gaming state in the twentieth embodiment. It is a flowchart which shows the special electric end processing in main side MPU. FIG. 11 is a flow chart showing subtraction processing of a ceiling counter in the main MPU; FIG. It is a flow chart which shows setting processing for time saving results in main side MPU. It is a flow chart which shows processing for time saving progress in main side MPU. (a) is an explanatory diagram for explaining the contents of the time saving state in the twenty-first embodiment, (b) is an explanatory diagram for explaining the time saving distribution table for the first special figure, (c) th It is an explanatory diagram for explaining a time-saving distribution table for 2 special figures. It is an explanatory diagram for explaining the storage area of the main side RAM that is used to control the game state. It is a flowchart which shows the special electric end processing in main side MPU. FIG. 11 is a flow chart showing subtraction processing of a ceiling counter in the main MPU; FIG. It is a flow chart which shows setting processing for time saving results in main side MPU. FIG. 11 is a flow chart showing variation pattern determination processing in the sound and light side MPU; FIG. It is a flow chart which shows processing for time saving progress in main side MPU. (a) ~ (h) is a time chart showing how the third time saving state is latent. It is a flowchart which shows the processing for time saving progress performed by main side MPU in 22nd Embodiment. FIG. 11 is a flow chart showing variation pattern determination processing in the sound and light side MPU; FIG. It is an explanatory diagram for explaining the storage area of the main side RAM used to control the game state in the twenty-third embodiment. It is a flow chart which shows setting processing for time saving results in main side MPU. It is a flowchart which shows the setting process for standby|waiting in main side MPU. FIG. 11 is a flow chart showing variation pattern determination processing in the sound and light side MPU; FIG. It is a flow chart which shows processing for time saving progress in main side MPU. FIG. 20 is a flow chart showing standby setting processing executed by the main MPU in the twenty-fourth embodiment; FIG. (a) It is explanatory drawing for demonstrating the content of the support mode in 25th Embodiment, (b) It is explanatory drawing for demonstrating the content of a time saving state. It is a flow chart which shows setting processing for time saving results in main side MPU. It is a flow chart which shows processing for time saving progress in main side MPU. It is an explanatory diagram for explaining the storage area of the main side RAM used to control the game state in the twenty-sixth embodiment. It is a flow chart which shows setting processing for time saving results in main side MPU. It is a flow chart which shows processing for time saving progress in main side MPU. It is a flow chart which shows the 3rd time saving setting processing in main side MPU. (a) ~ (j) is a time chart showing how the third time-saving state latents. It is a flow chart which shows setting processing for time saving results performed by main side MPU in a 27th embodiment. It is a flow chart which shows the 3rd time saving setting processing in main side MPU. (a) is an explanatory diagram for explaining the storage area of the main side RAM used for controlling the game state in the twenty-eighth embodiment, and (b) is an explanation for explaining the contents of the occurrence order storage area. It is a diagram. It is a flow chart which shows setting processing for time saving results in main side MPU. It is a flow chart which shows processing for time saving progress in main side MPU. (a) ~ (j) is a time chart showing how the third time-saving state latents. It is a flowchart which shows the setting process for time saving results performed by main side MPU in another form of 28th Embodiment. It is a flowchart which shows the setting process for time saving results performed by main side MPU in another form of 28th Embodiment. It is a flowchart which shows the setting process for time saving results performed by main side MPU in another form of 28th Embodiment. It is an explanatory diagram for explaining the storage area of the main side RAM used to control the gaming state in the twenty-ninth embodiment. It is a flow chart which shows setting processing for time saving results in main side MPU. It is a flow chart which shows processing for time saving progress in main side MPU. FIG. 32 is a flow chart showing setting processing for a time saving result executed by the main MPU in another form of the twenty-ninth embodiment; FIG. FIG. 32 is a flow chart showing setting processing for a time saving result executed by the main MPU in another form of the twenty-ninth embodiment; FIG. FIG. 32 is a flow chart showing time-saving progress processing executed by the main MPU in another form of the twenty-ninth embodiment; FIG. FIG. 32 is a flow chart showing setting processing for a time saving result executed by the main MPU in another form of the twenty-ninth embodiment; FIG. (a) It is explanatory drawing for demonstrating the content of the support mode in 30th Embodiment, (b) It is explanatory drawing for demonstrating the content of a time saving state. It is an explanatory diagram for explaining the storage area of the main side RAM that is used to control the game state. FIG. 11 is a flow chart showing subtraction processing of a ceiling counter in the main MPU; FIG. It is a flow chart which shows setting processing for time saving results in main side MPU. It is a flow chart which shows processing for time saving progress in main side MPU. (a) is an explanatory diagram for explaining the contents of the time saving state in another form of the thirtieth embodiment, (b) is an explanatory diagram for explaining the contents of the time saving state in another form of the thirtieth embodiment be. It is an explanatory diagram for explaining the electrical configuration of the pachinko machine in the thirty-first embodiment. (a) An explanatory diagram for explaining signals output from 0th to 2nd terminals of an input/output port, (b) an explanatory diagram for explaining the configuration of a control register, and (c) output data. (d) is an explanatory diagram for explaining the configuration of an input data register; (e) is an explanatory diagram for explaining data set in 0th to 2nd bits of a control register; (f) is an explanatory diagram for explaining the data set in the 0th to 2nd bits of the output data register; (g) is an explanatory diagram for explaining the 0th to 2nd bits of the input data register; FIG. 4 is an explanatory diagram for explaining data to be set; It is a block diagram which shows the electrical structure for performing drive control of the drive part for special electrics, the drive part for distribution entrances, and the drive part for switching. FIG. 4 is an explanatory diagram for explaining the relationship between a drive control signal, a reset signal, and the state of a target drive section; (a) to (f) are time charts showing the states of the target driving unit when the supply of operating power to the pachinko machine is started. It is a flowchart which shows the power failure monitoring process in main side MPU. (a) to (h) are time charts showing the state of the target driving unit when the supply of operating power to the pachinko machine is stopped. 4 is a flowchart showing port output processing in the main MPU; FIG. 10 is a flowchart showing distribution start processing in the main MPU; FIG. It is a flowchart which shows the processing for distribution in main side MPU. FIG. 10 is a flowchart showing special electric start processing in the main MPU; FIG. FIG. 10 is a flow chart showing special electric open processing in the main MPU; FIG. It is a flow chart which shows processing during special electric closing in main side MPU. It is an explanatory diagram for explaining the electrical configuration of the pachinko machine in the thirty-second embodiment. (a) An explanatory diagram for explaining signals output from 0th to 3rd terminals of an input/output port, (b) an explanatory diagram for explaining the configuration of a control register, and (c) output data. (d) is an explanatory diagram for explaining the configuration of an input data register; (e) is an explanatory diagram for explaining the data set in the 0th to 3rd bits of the control register; (f) is an explanatory diagram for explaining the data set in the 0th to 3rd bits of the output data register; (g) is an explanatory diagram for explaining the data set in the 0th to 3rd bits of the input data register; FIG. 4 is an explanatory diagram for explaining data to be set; It is a block diagram which shows the electrical structure for performing drive control of the drive part for special electrics, the drive part for distribution entrances, and the drive part for switching. FIG. 4 is an explanatory diagram for explaining the relationship between a drive control signal, a selection signal, a reset signal, and a state of a target drive section; FIG. 20 is a front view of a game board in the thirty-third embodiment; It is an explanatory diagram for explaining the electrical configuration of the pachinko machine. It is an explanatory view for explaining composition of main side RAM. It is a flowchart which shows the main process in main side MPU. It is a flowchart which shows the setting value update process in main side MPU. It is a flowchart which shows RAM clear processing in main side MPU. 10 is a flowchart showing timer interrupt processing in the main MPU; It is an explanatory diagram for explaining the processing that is executed during the start-up processing, during the game stop, during the input/output confirmation period, and in the game-enabled state among various processing set in the timer interrupt processing. FIG. 10 is a flow chart showing special electric open processing in the main MPU; FIG. It is a flow chart which shows the electric power control processing in main side MPU. FIG. 10 is an explanatory diagram for explaining program contents of input/output confirmation processing in the main MPU; It is a flowchart which shows the timer update process in main side MPU. It is a flowchart which shows the process for operation confirmation in main side MPU. It is a flow chart which shows the entering ball detection processing in main side MPU. It is a flow chart which shows an entering ball detection corresponding process in main side MPU. FIG. 11 is a flow chart showing an entering-ball notification command transmission process in the main MPU; FIG. (a) It is a flowchart showing the invalidation process in the main MPU, (b) is an explanatory diagram for explaining the post-confirmation invalidation period, the fluctuation display period of the special figure display unit, and the fluctuation period of the normal figure. (a) to (f) are time charts showing how the special electric incoming ball error notification is executed. (a) is an explanatory diagram for explaining the relationship between the timing at which a game ball that has entered a special electric winning device is detected and the processing that is executed based on the detection of the game ball, and (b) It is an explanatory diagram for explaining the relationship between the timing at which the game ball entering the second operation opening is detected and the process executed based on the detection of the game ball. (a) is an explanatory diagram for explaining the contents of an initialization notification screen, and (b) is a flow chart showing initialization notification processing in the sound and light side MPU. (a) to (g) are time charts showing how the incoming ball notification sound is output and how the special electric winning device is opened and closed during the input/output confirmation period. (a) to (h) is a time chart showing the relationship between the post-confirmation invalidation period and the timing at which the game ball enters the special electric winning device or the second operation opening after the input/output confirmation period ends. (a) to (f) After the input/output confirmation period is interrupted by stopping the supply of operating power, the interrupted input/output confirmation period is restarted by restarting the supply of operating power. is a time chart showing FIG. 32 is an explanatory diagram for explaining an input/output confirmation period and a post-confirmation invalidation period in the thirty-fourth embodiment; FIG. 11 is a flow chart showing an entering-ball notification command transmission process in the main MPU; FIG. (a) to (e) are time charts showing how a post-confirmation invalidation period is set. FIG. 22 is a front view of a game board in the thirty-fifth embodiment; It is a vertical cross-sectional view for explaining the internal configuration of the V winning device. It is an explanatory diagram for explaining the electrical configuration of the pachinko machine. It is an explanatory view for explaining composition of main side RAM. (a) is an explanatory diagram for explaining the content of the support mode, (b) is an explanatory diagram for explaining the success/failure table at low probability, and (c) is an explanatory diagram for explaining the success/failure table at high probability. It is an explanatory diagram. (a) is an explanatory diagram for explaining the jackpot distribution table for the first special figure, (b) is an explanatory diagram for explaining the jackpot distribution table for the second special figure, and (c) 5R It is explanatory drawing for demonstrating the content of a normal result, a 5R probability variation result, and a 16R probability variation result. It is a flowchart which shows the special figure special electric control processing in main side MPU. It is a flow chart showing a special figure fluctuation start process in the main side MPU. It is a flowchart which shows the round start processing in main side MPU. FIG. 10 is a flow chart showing processing during open round for the main MPU; FIG. It is a flow chart which shows processing in closing for a round in main side MPU. It is a flowchart which shows the process for switching in main side MPU. It is a flowchart which shows the round completion|finish processing in main side MPU. It is a flowchart which shows the process for operation confirmation in main side MPU. FIG. 11 is a flow chart showing evacuation position return processing in the main MPU; FIG. It is a flow chart which shows an entering ball detection corresponding process in main side MPU. 14 is a flow chart showing V winning ball entry detection handling processing in the main MPU. FIG. 11 is a flow chart showing an entering-ball notification command transmission process in the main MPU; FIG. (a) It is a flowchart showing invalidation processing in the main MPU, and (b) explains the invalidation period after confirmation, the invalidation period for V winning, the variable display period of the special figure display unit, and the variable period of the normal figure It is an explanatory diagram for. (a) to (g) are time charts showing how switching pieces are controlled. (a) It is a front view of the game board in 36th Embodiment, (b) It is explanatory drawing for demonstrating the structure of main side RAM. It is a flowchart which shows the process for operation confirmation in main side MPU. It is a flowchart which shows the process for switching in main side MPU. FIG. 11 is a flow chart showing an entering-ball notification command transmission process in the main MPU; FIG. 10 is a flowchart showing V winning confirmation notification processing in the main MPU. (a) to (h) are time charts showing how confirmation notification is performed. FIG. 32 is an explanatory diagram for explaining the configuration of a main controller in the thirty-seventh embodiment; It is an explanatory view for explaining composition of main side RAM. (a) An explanatory diagram for explaining the configuration of a first detection signal storage area, (b) an explanatory diagram for explaining the configuration of a second detection signal storage area, and (c) each of the output registers. FIG. 10 is an explanatory diagram for explaining the role of bits, and (d) is a flowchart showing RAM clear processing in the main MPU; It is a flowchart which shows the partial clear processing for non-specific control in main side MPU. FIG. 10 is a flowchart showing confirmation clear processing in the main MPU; FIG. 10 is a flowchart showing timer interrupt processing in the main MPU; 10 is a flowchart showing input/output confirmation processing in the main MPU; FIG. 11 is a flow chart showing a ball entry notification process in the main MPU; FIG. It is a flowchart which shows the process for operation confirmation in main side MPU. FIG. 10 is a flowchart showing invalidation processing in the main MPU; FIG. (a) is an explanatory diagram for explaining the configuration of a work area for specific control in the thirty-eighth embodiment, and (b) is a flowchart showing RAM clear processing in the main MPU. (a) It is an explanatory diagram for explaining the program contents of input/output confirmation processing in the main MPU, and (b) a flowchart showing input/output confirmation execution processing in the main MPU. It is a flowchart which shows the process for operation confirmation in main side MPU. (a) is an explanatory diagram for explaining the program contents of the input/output confirmation process of the main MPU in the thirty-ninth embodiment, and (b) is a flowchart showing the input/output confirmation execution process in the main MPU. (a) is an explanatory diagram for explaining the configuration of a work area for specific control, and (b) is a flow chart showing processing for transmitting an entering-ball notification command in the main MPU. (a) is an explanatory diagram for explaining the configuration of the main MPU in the fortieth embodiment; (b) is an explanatory diagram for explaining the role of each bit in the output register; (c) is an explanatory diagram for port output; FIG. 10 is an explanatory diagram for explaining data stored in the A register, the B register, the C register, and the DE register in confirmation processing; It is a flowchart which shows the main process in main side MPU. 10 is a flowchart showing timer interrupt processing in the main MPU; (a) is an explanatory diagram for explaining the contents of port output confirmation processing in the main MPU, and (b) is for explaining the number of repeated executions of the first output confirmation processing, the second output confirmation processing, and the third output confirmation processing. It is an explanatory diagram for. 10A and 10B are explanatory diagrams for explaining data stored in the A register before and after execution of the fourth output confirmation process; FIG. (a) to (g) are time charts showing how the special electric prize-winning device and general electric accessories are opened and closed.

<First embodiment>
A first embodiment of a pachinko game machine (hereinafter referred to as a "pachinko machine"), which is a type of game machine, will be described in detail below with reference to the drawings. FIG. 1 is a perspective view of a pachinko machine 10, and FIG. 2 is an exploded perspective view showing the main components of the pachinko machine 10. As shown in FIG. In addition, in FIG. 2, the structure in a game area is abbreviate|omitted for convenience.

The pachinko machine 10, as shown in FIG. 1, has an outer frame 11 forming an outer shell of the pachinko machine 10 and a game machine main body 12 attached to the outer frame 11 so as to be rotatable forward. . The outer frame 11 is formed by connecting wooden plates on four sides and has a rectangular frame shape. A pachinko machine 10 is installed in a game hall by fixing an outer frame 11 to an island facility. Incidentally, the pachinko machine 10 does not have to have the outer frame 11, and the pachinko machine 10 may have a structure in which the outer frame 11 is attached to the island facilities of the game hall.

As shown in FIG. 2, the game machine body 12 includes an inner frame 13, a front door frame 14 arranged in front of the inner frame 13, and a back pack unit 15 arranged behind the inner frame 13. ing. The inner frame 13 of the game machine main body 12 is rotatably supported with respect to the outer frame 11 . More specifically, the inner frame 13 can be rotated forward with the left side as the rotation base end side and the right side as the rotation tip side in a front view.

A front door frame 14 is rotatably supported by the inner frame 13, and is rotatable forward with the left side as the rotation base end side and the right side as the rotation tip side in a front view. In addition, the back pack unit 15 is rotatably supported by the inner frame 13, and is rotatable rearward with the left side as the rotation base end and the right side as the rotation tip side in a front view.

The gaming machine main body 12 is provided with a locking device at its turning tip, and has a function of locking the gaming machine main body 12 to the outer frame 11 so that it cannot be opened. It has a function of locking the door frame 14 with respect to the inner frame 13 so that it cannot be opened. Each of these locked states is released by unlocking the cylinder lock 17 exposed on the front surface of the pachinko machine 10 using an unlock key.

Next, the configuration of the front side of the gaming machine body 12 will be described.

The inner frame 13 is mainly composed of a resin base 21 that has substantially the same outer shape as the outer frame 11 . A substantially elliptical window hole 23 is formed in the central portion of the resin base 21 . A game board 24 is detachably attached to the resin base 21 . The game board 24 is made of plywood, and the game area PA formed on the front surface of the game board 24 is exposed to the front side of the inner frame 13 through the window holes 23 of the resin base 21 .

The configuration of the game board 24 will be described with reference to FIG. FIG. 3 is a front view of the game board 24. FIG.

An inner rail portion 25 and an outer rail portion 26 are attached to the game board 24 so as to partition a part of the outer edge of the game area PA. The guide rail is configured as A game ball shot from a game ball shooting mechanism 27 (see FIG. 2) attached below the window hole 23 in the resin base 21 is guided to the upper part of the game area PA by guide rails.

Incidentally, the game ball launching mechanism 27 includes a launch rail 27a extending toward the guide rail, a ball feeder 27b that supplies game balls stored in an upper tray 66a, which will be described later, onto the launch rail 27a, and a and a solenoid 27c, which is an electric actuator that shoots the game ball supplied to the guide rail toward the guide rail. When a shooting operation device (or shooting handle) 28 provided on the front door frame 14 is rotated, the solenoid 27c is driven and controlled, and game balls are shot.

The game board 24 is formed with a plurality of large and small openings penetrating in the front-rear direction. Each opening is provided with a general winning port 31, a special electric winning device 32, a first operating port 33, a second operating port 34, a through gate 35, a variable display unit 36, a special figure unit 37, a general figure unit 38, etc. ing.

Even if a ball enters the through gate 35, no game ball is put out. On the other hand, when a ball enters the general winning hole 31, the special electric winning device 32, the first operating hole 33 and the second operating hole 34, a predetermined number of game balls are paid out. Specifically, when a ball enters the first working port 33 or when a ball enters the second working port 34, three prize balls are paid out, 10 prize balls are put out when a ball enters a general prize winning port 31, and 15 prize balls are put out when a ball enters a special electric prize winning device 32. .

In addition, the number of prize balls is arbitrary, for example, the second operation port 34 may have a smaller number of prize balls than the first operation port 33, and the second operation port 34 may be the first operation port. The number of prize balls may be larger than 33. Also, it is not limited to a configuration in which both the number of prize balls when a ball enters the first operating port 33 and the number of prize balls when a ball enters the second operating port 34 are plural. Instead, it may be configured such that the number of prize balls is one when the ball enters the first operating port 33, and the number of prize balls when the ball enters the second operating port 34 is one. A configuration may be adopted, or a configuration may be adopted in which the number of prize balls for both is one.

In addition, an out port 24a is provided at the bottom of the game board 24, and game balls that do not enter various winning ports are discharged from the game area PA through the out port 24a. Further, the game board 24 is provided with a large number of nails 24b for appropriately dispersing and adjusting the falling direction of game balls, and various members such as windmills.

Here, the entry ball means that the game ball passes through a predetermined opening, and not only is the game ball discharged from the game area PA after passing through the opening, but also from the game area PA after passing through the opening. A mode in which the liquid continues to flow down the game area PA without being discharged is also included. However, in the following description, in order to clearly distinguish from the entry of game balls into the out port 24a, the general winning port 31, the special electric winning device 32, the first operating port 33, the second operating port 34, and the through gate 35 The entry of a game ball into the game ball is also expressed as winning.

The first operating port 33 and the second operating port 34 are unitized as an operating port device and installed on the game board 24 . Both the first working port 33 and the second working port 34 are open upward. Further, the two operating ports 33 and 34 are vertically aligned with the first operating port 33 facing upward.

A stage portion 36b is provided on the lower frame portion 36a of the variable display unit 36 below the pattern display device 41 so as to extend in the horizontal direction above the first operation opening 33, and the variable display is performed. In the left frame portion 36c, which is the left portion of the pattern display device 41 in the unit 36, there is an entrance of a warp passage that makes it possible to guide game balls flowing down the left area of the variable display unit 36 to the stage portion 36b. A portion 36d is formed. A center portion in the horizontal direction of the stage portion 36b is present vertically above the first operating port 33, and a lead-out portion 36e for leading out the game ball to the lower side of the stage portion 36b by its own weight is provided in the center portion. is formed. In this case, the game ball drawn to the stage portion 36b and drawn downward from the stage portion 36b from a region other than the lead-out portion 36e is difficult to enter the first operating port 33, but the lead-out portion 36e A game ball drawn downward from the stage portion 36b enters the first operation opening 33 with a high probability.

The first operating port 33 is open upward, and is not provided with a member such as an opening/closing member for preventing the game ball from entering the first operating port 33 . Then, in a situation where the game balls are shot in the same mode, the winning probability to the first operation opening 33 is constant regardless of the game state. In other words, the first operation port 33 is always capable of entering the game ball flowing down the game area PA toward the first operation port 33 .

The second operating port 34 is provided with a universal electrical accessory 34a as a guide piece consisting of a pair of left and right movable pieces. A game ball cannot enter the second operating port 34 when the universal electrical role 34a is closed, and the winning to the second operating port 34 becomes possible when the universal electrical role 34a is in the open state.

A through gate 35 is provided upstream of the second operation port 34 in the direction in which the game ball flows. The through-gate 35 has a through-hole (not shown) penetrating in the vertical direction, and a game ball entering the through-gate 35 flows down the game area PA after winning. As a result, the game ball that has entered the through gate 35 can enter the second operating port 34. - 特許庁

Based on the winning of the through gate 35, the universal electrical accessory 34a of the second operating port 34 is switched from the closed state to the open state. Concretely, as the winning prize to the through gate 35 as a trigger is performed, the general figure unit 38 is provided in the lower right corner which is the area where the game ball does not pass in the game area PA. Variation display of the pattern is performed in the general pattern display section 38a. Then, when the result of the general pattern correctness determination process is the electric role open winning and the stop result corresponding to the result is displayed and the variable display of the general pattern display unit 38a is ended, the state shifts to the general electric open state. In the common electric open state, the common electric accessory 34a is opened in a predetermined manner.

In addition, the normal figure display unit 38a is composed of a segment display device in which a plurality of segment light emitting units are arranged in a predetermined manner, but is not limited to this, and may be a liquid crystal display device or an organic EL display device. , CRT or other type of display such as a dot matrix display. In addition, as the pattern variably displayed in the normal figure display unit 38a, a configuration in which a plurality of types of characters are variably displayed, a configuration in which a plurality of types of symbols are variably displayed, a configuration in which a plurality of types of characters are variably displayed, or A configuration in which a plurality of types of colors are switched and displayed can be considered.

In the normal pattern unit 38, a normal pattern holding display portion 38b is provided at a position adjacent to the normal pattern display portion 38a. The number of winning game balls in the through gate 35 is reserved up to four, and the reserved number is displayed by lighting of the normal figure reservation display section 38b.

Winning to the first operation port 33 or the second operation port 34 is used as a trigger to perform the winning/failure determination process. Then, the result of the propriety determination process is clearly shown through the display effect in the special figure unit 37 and the symbol display device 41 of the variable display unit 36.

The special figure unit 37 is provided with a first special figure display portion 37a and a second special figure display portion 37b. In the first special figure display unit 37a, the variable display of the pattern is performed by performing the winning/failure determination process with the winning to the first operation opening 33 as a trigger. Then, a stop result corresponding to the result of the suitability determination process is displayed. In this case, there are jackpot results, time saving results and off results described later as a result of the success or failure determination process, but the contents of the stop result of the first special figure display unit 37a are the jackpot results, time saving results and off results, respectively. are different. The display of the stop result in the first special figure display portion 37a is maintained until the next game round is started and the first special figure display portion 37a starts the variable display of a new pattern. In addition, in the second special figure display section 37b, winning to the second operation opening 34 is used as a trigger, and winning/failure determination processing is performed, so that the variable display of the pattern is performed. Then, a stop result corresponding to the result of the suitability determination process is displayed. In this case, there are jackpot results, time saving results and off results to be described later as a result of the success/failure determination process, but the contents of the stop result of the second special figure display unit 37b are the jackpot results, time saving results and off results, respectively. are different. The display of the stop result in the second special figure display portion 37b is maintained until the next game cycle is started and the second special figure display portion 37b starts the variable display of a new pattern.

In addition, the first special figure display unit 37a and the second special figure display unit 37b are configured by a segment display device in which a plurality of segment light emitting units are arranged in a predetermined manner, but it is not limited to this Instead, it may be constituted by other types of display devices such as a liquid crystal display device, an organic EL display device, a CRT or a dot matrix display. In addition, as the pattern displayed in the first special figure display portion 37a and the second special figure display portion 37b, a configuration in which multiple types of characters are displayed, a configuration in which multiple types of symbols are displayed, and multiple types of characters A configuration in which is displayed, a configuration in which a plurality of colors are displayed, or the like is conceivable.

In the special figure unit 37, a first special figure reservation display part 37c and a second special figure reservation display part 37d are provided at positions adjacent to the first special figure display part 37a and the second special figure display part 37b. . The number of game balls winning the first operation port 33 is reserved up to four, and the reserved number is displayed by lighting of the first special figure reservation display section 37c. In addition, the number of game balls winning the second operation opening 34 is reserved up to four, and the reserved number is displayed by lighting of the second special figure reservation display section 37d.

More specifically, the pattern display device 41 is configured as a liquid crystal display device having a liquid crystal display, and display contents are controlled by a display control device, which will be described later. The pattern display device 41 is not limited to a liquid crystal display device, and may be a plasma display device, an organic EL display device, a CRT or other display device having a display surface, or a dot matrix display device. may

In the symbol display device 41, when the variation display of the pattern is performed in the first special figure display unit 37a based on the winning to the first operation port 33, the variation display of the pattern is performed according to it, and the second operation port When the variable display of the pattern is performed in the second special figure display part 37b based on the winning to 34, the variable display of the pattern is performed accordingly. In the symbol display device 41, not only the display effects triggered by the winning of the first operation port 33 or the second operation port 34, but also the display effects during the opening and closing execution mode, which will be described later, after a big win result, etc. is done.

Based on the winning to any of the operation ports 33, 34, the display is started at any of the special figure display units 37a, 37b and the symbol display device 41, and the stop result corresponding to the result of the success/failure determination process is displayed. The period from the end of the game to the completion of the processing during special figure determination in the main control device 71, which will be described later, corresponds to one game round.

In this pachinko machine 10, the winning/failure determination process is executed based on the winning to the operation openings 33 and 34, and when the result of the winning/failure determination process becomes a jackpot result, the opening/closing execution mode is entered. In the opening/closing execution mode, opening/closing control of the special electric prize winning device 32 is executed, and game balls are paid out by winning the special electric prize winning device 32 in the open state. Specifically, a predetermined number of round games are executed in the opening/closing execution mode. A round game is a game that continues until either one of the elapse of a predetermined open continuation period and the predetermined upper limit number of game balls winning the special electric winning device 32 is satisfied. That is. In this case, when the shooting operation device 28 is operated by the player, the game ball shooting mechanism 27 is driven and controlled so that one game ball is shot toward the game area PA every 0.6 seconds. , the open continuation period is set to 29 seconds, and the upper limit number is set to 10. Therefore, since the open continuation period of the round game is set to a time longer than the product of the firing cycle of the game ball and the upper limit number of one round game, the special electric winning device 32 has an upper limit in each round game. It can be expected that more game balls than the number will win. Also, the upper limit number of round games differs depending on the type of the jackpot result that triggered the shift.

A high probability mode and a low probability mode exist as the success/failure lottery mode of the success/failure determination process so that the probability of a big win resulting in a transition to the opening/closing execution mode is relatively high or low. In addition, in the pachinko machine 10, a plurality of types of support modes are set so that the manner in which the universal electronic accessory 34a of the second operating port 34 is in the open state differs from each other. Specifically, in the support mode, when compared in a situation in which game balls are continued to be shot in a similar manner to the game area PA, the frequency at which the general electric accessory 34a becomes an open state per unit time A high-frequency support mode (a first high-frequency support mode and a second high-frequency support mode, which will be described later) and a low-frequency support mode are set so that . The game state in a situation other than the open/close execution mode differs according to the type of combination of the win/fail lottery mode and the support mode. The game state includes a normal game state that is a low probability mode and a low frequency support mode, a high probability state that is a high probability mode and a high frequency support mode, and a low probability mode and a high frequency support mode. A time saving state is set. In the high-probability state and the time-saving state, the average period required for one game cycle to be completed is shorter than in the normal game state.

Both the first operating port 33 and the second operating port 34 are installed in the lower area PAU, which is the area below the variable display unit 36 in the game area PA. Further, the first working port 33 and the second working port 34 are unitized as a working port device in a state in which the first working port 33 faces upward and the second working port 34 faces downward in the vertical direction. It is In addition, the universal electrical accessory 34a of the second operation port 34 can be controlled to an open state with the winning of the through gate 35 as a trigger. It is located in a certain left area PAL. The game ball flowing down the left area PAL is guided to the lower area PAU, and the game ball guided to the lower area PAU is guided to the area where the first operating port 33 and the second operating port 34 are provided. can be Therefore, when the shooting operation is performed with the aim of winning the first working opening 33, not only can the first working opening 33 win, but also the second working opening 34 can win. When a shooting operation is performed with the aim of winning a prize in the second working opening 34, not only can the winning in the second working opening 34 occur, but also the winning in the first working opening 33 can occur.

When the game state is the normal game state, the support mode becomes the low-frequency support mode as described above, so that the second operation port 34 is less likely to win a prize, and the first operation port is more difficult to win than the second operation port 34. Winning to 33 is more likely to occur. Therefore, in the normal game state, basically, the execution target of the game round is the first special figure display portion 37a, and when the winning to the second operation opening 34 occurs accidentally, the second special figure display portion 37b is displayed. It becomes the execution object of the game round.

On the other hand, when the game state is the high-probability state or the time-saving state, the support mode becomes the high-frequency support mode as described above, so winning to the second operation port 34 is likely to occur. In this case, it becomes easier to win a prize in the second working opening 34 than in the first working opening 33 . However, as already explained, when the shooting operation is performed aiming at the winning to the second working port 34, the winning to the first working port 33 can occur, and it is guided to the lead-out portion 36e of the stage portion 36b. Since the game ball will enter the first operating port 33 with a high probability, even in the high-frequency support mode, the winning to the first operating port 33 will occur with the same frequency as in the low-frequency support mode. .

An effect for a game round is executed on the symbol display device 41 in a mode corresponding to the pattern of the special figure display portions 37a and 37b that are the execution targets of the game round. The display contents of the symbol display device 41 when the game round effect is executed will be described.

FIGS. 4(a) and 4(b) are explanatory diagrams for explaining the display contents of the symbol display device 41 when a game cycle is executed.

As shown in FIG. 4A, the display surface of the pattern display device 41 is provided with three pattern rows Z1, Z2, and Z3 of upper, middle, and lower rows as a plurality of display areas. Each of the symbol rows Z1 to Z3 is constructed by arranging main symbols and sub-symbols in a predetermined order. In other words, when a game cycle is executed, most of the display surface of the symbol display device 41 is used to display symbols in a variable manner.

FIGS. 5(a) to 5(j) are explanatory diagrams for explaining the main symbols and sub-symbols which are variably displayed in each of the symbol rows Z1 to Z3. As shown in FIGS. 5( a ) to 5 ( j ), the patterns, which are one type of pattern, include nine main patterns with numbers “1” to “9”, and shell-shaped patterns. It is composed of a sub pattern consisting of. More specifically, nine types of character patterns, such as an octopus, are assigned numerals "1" to "9", respectively, to form the main pattern.

As shown in FIG. 4(b), in the upper symbol row Z1, nine types of main symbols "1" to "9" are arranged in descending numerical order, and one sub-symbol is placed between each main symbol. are distributed one by one. In the lower pattern row Z3, 9 kinds of main symbols "1" to "9" are arranged in ascending numerical order, and one sub-symbol is arranged between each main symbol. That is, the upper symbol row Z1 and the lower symbol row Z3 are composed of 18 symbols. On the other hand, in the middle symbol row Z2, nine types of main symbols "1" to "9" are arranged in ascending order of numbers, and between the main symbol "9" and the main symbol "1" A main symbol of "4" is additionally arranged in the upper part, and one sub-symbol is arranged between each of these main symbols. In other words, only the middle pattern row Z2 is composed of 20 symbols with 10 main symbols arranged. Then, on the display surface, the symbols of each of the symbol rows Z1 to Z3 are variably displayed so as to scroll in a predetermined direction with periodicity. The symbol display device 41 is designed to stop-display three symbols for each of the symbol rows Z1 to Z3, and as a result, a total of nine symbols of 3×3 are stopped-displayed. As shown in FIG. 4A, the pattern display device 41 has five effective lines, namely, a left line L1, a middle line L2, a right line L3, a downward-sloping line L4, and an upward-sloping line L5. there is

When the pattern display device 41 performs the variable display of the symbols based on the winning of the first operation port 33 or the second operation port 34, the symbols of each of the symbol rows Z1 to Z3 are periodically scrolled in a predetermined direction. The variable display is started so as to Basically, the variable display is switched to the standby display in the order of upper symbol row Z1→lower symbol row Z3→middle symbol row Z2, and finally predetermined symbols are statically displayed in each of the symbol rows Z1 to Z3. is terminated with

When the variable display of symbols ends, and when the result of the success/failure determination process in the main controller 71, which will be described later, is a jackpot result, which will be described later, the same combination of symbols is formed on any of the activated lines L1 to L5. be. Also, if the result of the success or failure determination process is a time saving result described later, and if the time saving state is set with the time saving result as a trigger, one of the effective lines when the fluctuation display of the pattern ends A predetermined symbol combination (for example, "1.2.3", "3.4.1") is formed on L1 to L5, which is neither a combination of identical symbols nor a combination of ready-to-win symbols. In this case, since there are a plurality of types of time saving results as will be described later, the content of the combination of predetermined symbols also differs according to the types of time saving results. On the other hand, if the result of the success or failure determination process is a time saving result to be described later, and the setting of the time saving state triggered by the time saving result is not performed, when the fluctuation display of the symbol ends, the reach symbol A stop symbol is displayed for non-out-of-reach where no combination is formed. That is, if the result of the success/failure determination process is a time saving result to be described later, and if the setting of the time saving state triggered by the time saving result is not performed, the stop result in the symbol columns Z1 to Z3 is the success/failure determination process. result would be the same stopping result as if it were an outlier result.

As described above, in the configuration in which the symbols are varied and displayed in each of the symbol rows Z1 to Z3, an expected effect is set as the display effect of the symbol display device 41 when the game cycle is executed. The expected effect is a display state that makes the player think that the variable display state is likely to result in a big win, in the stage before the stop result is derived and displayed after the variable display of the symbols on the symbol display device 41 is started. say. There are two types of expectation effects: a ready-to-win display and an advance notice display for expecting the occurrence of the ready-to-win display and the occurrence of a big win in a stage before the occurrence of the ready-to-win display.

In the ready-to-win display, the combination of the ready-to-win symbols is displayed by stopping and displaying the symbols of the same kind in the upper symbol row Z1 and the lower symbol row Z3 among the plurality of symbol rows Z1 to Z3, and in that state, the remaining medium symbols are displayed. The column Z2 includes a display state in which symbols are displayed in a variable manner. In addition, in a state in which the combinations of ready-to-win patterns are displayed as described above, the patterns are displayed in the remaining pattern rows in a variable manner, and a predetermined character or the like is displayed as a moving image on the background screen to produce a ready-to-win effect. , the combination of the ready-to-win pattern is reduced or hidden, and a predetermined character or the like is displayed as a moving image on substantially the entire display surface to perform the ready-to-win effect. In game rounds that result in a big hit, symbols of the same kind as symbols forming a combination of ready-to-win symbols are stopped and displayed on the ready-to-win line in the middle symbol row Z2, and in game rounds that do not result in a big win, the ready-to-win symbols are displayed. A symbol of a different kind from the symbols forming the combination of is stopped and displayed on the reach line in the middle symbol row Z2.

In the advance notice display, after the symbol rows Z1 to Z3 start to display the symbols variably, all the symbol rows Z1 to Z3 are variably displayed, or some of the symbol rows Z1 to Z3 are displayed. A mode is included in which characters are displayed separately from the symbols on the symbol rows Z1 to Z3 in a situation in which symbols are variably displayed in the plurality of symbol rows Z1 to Z3 in Z3. In addition, it also includes a background screen in a predetermined mode different from the previous mode, and a pattern in the pattern rows Z1 to Z3 in a predetermined mode different from the previous mode. Such an advance notice display can occur in any game cycle when the reach display is performed or when the reach display is not performed, but it is higher when the reach display is performed than when the reach display is not performed. It is set to occur with probability.

On the display surface of the symbol display device 41, as shown in FIG. 4(b), a holding display area 42 and a state suggesting area 43 are set in addition to the symbol rows Z1 to Z3. A reserved display area 42 is set below the display surface of the pattern display device 41 . In the pending display area 42, an image is displayed for notifying the player of the number of pending information acquired by the main control device 71, which will be described later, based on the winning of the first operation port 33. 42a, and a second hold display area 42b displaying an image for informing the player of the number of hold information acquired by the main controller 71, which will be described later, based on the winning of the second operation port 34. . Reservation information is information that triggers the execution of the winning/failure determination process in the main control device 71, and is information that triggers the execution of a game round. Reservation information (hereinafter also referred to as first reservation information) acquired with the opportunity of winning the first operation port 33 becomes the execution opportunity of the game round in the first special figure display unit 37a, and the winning to the second operation port 34 Acquired pending information (hereinafter also referred to as second pending information) triggered by the second special figure display portion 37b is the execution trigger of the game round. A maximum of four pieces of the first reservation information are reserved and stored, and a maximum of four pieces of the second reservation information are also reserved and stored.

The number of first pending images G1 corresponding to the number of first pending information is displayed in the first pending display area 42a. In other words, if the number of first pending information stored is zero, the first pending image G1 is not displayed in the first pending display area 42a. In addition, if the number of the first pending information that is retained and stored is one, the first pending image G1 is displayed one, and if the number of the first pending information that is retained and stored is two, the first pending If two images G1 are displayed and the number of the first reserved information held and stored is three, three first reserved images G1 are displayed and the number of held and stored first reserved information is four. If so, four first reserved images G1 are displayed. When a plurality of first reserved images G1 are displayed, the plurality of first reserved images G1 are displayed side by side at regular intervals. Further, when the number of the first reserved information held and stored increases, the first reserved image G1 is displayed so as to increase toward the right, and the first reserved information serves as a trigger for starting a game round and is reserved and stored. When the number of the displayed first reserved information decreases, the first reserved image G1 is displayed so as to decrease toward the left.

The number of second pending images G2 corresponding to the number of second pending information is displayed in the second pending display area 42b. In other words, if the number of second pending information stored is zero, the second pending image G2 is not displayed in the second pending display area 42b. In addition, if the number of the second pending information that is reserved and stored is one, the second reserved image G2 is displayed one, and if the number of the second reserved information that is reserved and stored is two, the second hold is displayed. If two images G2 are displayed and the number of the second reserved information held and stored is three, the second reserved images G2 are displayed three times and the number of the second held information held and stored is four. If so, four second pending images G2 are displayed. When a plurality of second reserved images G2 are displayed, the plurality of second reserved images G2 are displayed side by side at regular intervals. In addition, when the number of the second reserved information held and stored increases, the second reserved image G2 is displayed so as to increase toward the right, and the second reserved information serves as a trigger for starting the game cycle and is held and stored. When the number of second pending information displayed decreases, the second pending image G2 is displayed so as to decrease toward the left.

In addition, in FIG. 4(b), the number of the first pending information stored is four, and the number of the second pending information is four. Four images G1 are displayed, and four second reserved images G2 are displayed in the second reserved display area 42b.

The state suggesting area 43 is set above the display surface of the pattern display device 41 . The state suggesting area 43 has a smaller display area than the display areas of the symbols in the symbol rows Z1 to Z3. In the state suggesting area 43, the symbols for the game round are variably displayed in the symbol rows Z1 to Z3 of the symbol display device 41, and the stop result corresponding to the result of the winning/failure determination process of the game round is not displayed. In some situations, a color switching display is performed. Specifically, a predetermined display color pattern is repeated such as red->blue->green->red->blue->green->red. Then, at the timing when the stop result corresponding to the result of the success/failure determination process is displayed in the symbol rows Z1 to Z3 and the fixed display (static display) is started, the game situation at that time and the stop corresponding to the result of the success/failure determination process are displayed. Results are displayed. In this case, if the result of the winning/failure determination process is a big hit result or a losing result, red is stop-displayed in the state suggesting area 43 . Also, if the result of the success or failure determination process is a time saving result that will be described later, when the time saving state is set with the time saving result as a trigger, the red color is stopped regardless of the type of time saving result, and the time saving When the setting of the time saving state triggered by the result is not performed, blue or green is stop-displayed according to the type of the time saving result. As described above, if the result of the success/failure determination process is a time saving result to be described later, and if the time saving state is not set with the time saving result as a trigger, the stop result in the symbol rows Z1 to Z3 is the success/failure determination process. In a configuration that can result in the same stop result as when the result is an outlier result, if the result of the success/failure determination process is a time saving result to be described later, the time saving state triggered by the time saving result is not set. By making the display content of the state suggestion region 43 different between the case and the case where the result of the success/failure determination process is a result of deviation, the result of the success/failure determination process is a time saving result to be described later, even if the time saving result It is possible to set different display contents as the entire display contents of the pattern display device 41 when the setting of the time saving state is not performed triggered by .

Returning to the description of the game board 24 (see FIG. 3), when the result of the win/fail determination process is a big hit result, the opening/closing execution mode is entered as already described. In the opening/closing execution mode, opening/closing control of the special electric prize winning device 32 is executed. The special electric prize winning device 32 includes a large prize winning opening (not shown) leading to the back side of the game board 24, and an opening/closing door 32a for opening and closing the big winning opening. The opening/closing door 32a is arranged in either a closed state or an open state. Specifically, the open/close door 32a is normally in a closed state in which game balls cannot win, and when a big hit result is selected in the winning/failure determination process, the opening/closing door 32a is switched to an open state in which game balls can win. ing. It should be noted that although it is not impossible to win a prize in the closed state, it may be configured to be in a state in which it is more difficult to win a prize than in the open state. Further, in the opening/closing execution mode, the symbol display device 41 executes a display effect corresponding to the opening/closing execution mode.

A front door frame 14 is provided so as to cover the entire front side of the inner frame 13 in which the game board 24 having the above structure is attached to the resin base 21 . As shown in FIG. 1, the front door frame 14 is formed with a window portion 61 through which substantially the entire game area PA can be viewed from the front. The window portion 61 has a substantially elliptical shape, and a window panel 62 is fitted therein. The window panel 62 is made of glass in a colorless and transparent manner, but is not limited to this, and may be made of a synthetic resin in a colorless and transparent manner. As long as it is visible, it may be colored and transparent.

A display light-emitting portion 64 is provided above the window portion 61 . A pair of left and right speaker units 65 are provided for outputting sound effects and the like according to the game state. An upper bulging portion 66 and a lower bulging portion 67 that bulge forward are vertically arranged below the window portion 61 . Inside the upper swelling portion 66 is provided an upper tray 66a that is open upward, and inside the lower swelling section 67 is similarly provided a lower tray 67a that is also open upward. The upper plate 66a has a function of temporarily storing game balls paid out from a payout device, which will be described later, and guiding them toward the game ball launching mechanism 27 while aligning them in a line. In addition, the lower tray 67a has a function of storing surplus game balls in the upper tray 66a.

Next, the configuration of the rear side of the gaming machine main body 12 will be described.

As shown in FIG. 2, on the back of the inner frame 13 (specifically, the game board 24), a main control device 71 that controls the main game is mounted. The main controller 71 has a main control board housed in a board box. In addition, the substrate box may be provided with a trace means for leaving a trace of its opening or provided with a trace structure for leaving a trace of its opening. As the trace means, a plurality of case bodies constituting the circuit board box are combined inseparably, and the structure of the joint part that requires destruction of a predetermined part when separating, and the adhesive layer that remains on the adhesion target when peeled off. A configuration is conceivable in which a sealing sticker that leaves a trace of the fact that it has been sealed is attached so as to straddle the boundary between a plurality of case bodies. Further, as the trace structure, a structure in which an adhesive is applied to the boundary between a plurality of case bodies constituting the board box is conceivable.

A back pack unit 15 is installed so as to cover the back side of the inner frame 13 including the main controller 71 . The back pack unit 15 includes a back pack 72 made of a transparent synthetic resin, and a payout mechanism 73 and a controller assembly unit 74 are attached to the back pack 72 .

The payout mechanism 73 includes a tank 75 to which game balls supplied from the island facilities of the game hall are successively replenished, and a payout device 76 for paying out the game balls stored in the tank 75 . The game balls paid out from the payout device 76 are discharged to the upper tray 66a or the lower tray 67a through a payout passage provided on the downstream side of the payout device 76.例文帳に追加The payout mechanism 73 is supplied with a main power supply of, for example, 24 volts AC, and is equipped with a back pack board having a power switch for turning the power ON and OFF.

The control device assembly unit 74 includes a payout control device 77 having a function of controlling a payout device 76, and a predetermined electric power required by various control devices, etc., is generated and output, and is accompanied by the operation of the shooting operation device 28 by the player. A power/shooting control device 78 is provided for controlling the launching of game balls. The payout control device 77 and the power supply/launch control device 78 are arranged one on top of the other in such a manner that the payout control device 77 is behind the pachinko machine 10 .

<Electrical Configuration of Pachinko Machine 10>
FIG. 6 is a block diagram showing the electrical configuration of the pachinko machine 10. As shown in FIG.

The main control device 71 has a main control board 81 that controls the main game. An MPU 82 is mounted on the main control board 81 . The MPU 82 includes a ROM 83 storing various control programs and fixed value data to be executed by the MPU 82, and a memory for temporarily storing various data when executing the control programs stored in the ROM 83. A RAM 84, an interrupt circuit, a timer circuit, a data input/output circuit, various counter circuits as a random number generator, etc. are incorporated. It should be noted that it is not essential that the ROM 83 and the RAM 84 are integrated into one chip for the MPU 82, and they may be individually integrated into chips. This also applies to MPUs of control devices other than the main control device 71 .

The MPU 82 is provided with an input port and an output port. An input side of the MPU 82 is connected to a power outage monitoring board 85 provided in the main control device 71, and a payout control device 77 is connected. A power supply/emission control device 78 having a function of supplying operating power is connected to the power failure monitoring board 85 , and power is supplied to the MPU 82 via the power failure monitoring board 85 .

Various sensors such as various winning detection sensors 86a to 86e are connected to the input side of the MPU82. The various prize detection sensors 86a to 86e include a detection sensor 86a provided in the general prize opening 31, a detection sensor 86b provided in the special electric prize winning device 32, a detection sensor 86c provided in the first operation opening 33, and a second operation A detection sensor 86d provided on the mouth 34 and a detection sensor 86e provided on the through gate 35 are included. Based on the detection results of these various winning detection sensors 86a to 86e, the MPU 82 determines the winning of each winning-corresponding ball winning section. Also, in the MPU 82, various lotteries are executed based on the winning of the first operation port 33 or the second operation port 34. FIG.

The output side of the MPU 82 is connected with a power failure monitoring board 85, a payout control device 77 and a sound emission control device 91. A winning ball command is output to the payout control device 77 based on the winning determination result to the winning corresponding winning ball portion. Various commands such as a variation command, a type command, and an opening command are output to the sound emission control device 91 .

On the output side of the MPU 82, a special electric drive unit 32b that opens and closes the open/close door 32a of the special electric prize winning device 32, a general electric drive unit 34b that opens and closes the general electric accessory 34a of the second operation opening 34, A figure unit 37 and a general figure unit 38 are connected. Incidentally, the special figure unit 37 is provided with a first special figure display portion 37a, a second special figure display portion 37b, a first special figure reservation display portion 37c and a second special figure reservation display portion 37d. are all connected to the output side of the MPU 82 . Similarly, the normal map unit 38 is provided with a normal map display unit 38a and a normal map reservation display unit 38b, but all of these are connected to the output side of the MPU82. Various driver circuits are provided on the main control board 81, and the MPU 82 executes drive control of various drive units through the driver circuits.

In other words, in the opening/closing execution mode, the MPU 82 executes drive control of the drive unit 32b for the special electric so that the special electric prize winning device 32 is opened and closed. In addition, when the general electric role opening winning of the general electric role 34a is won, the MPU 82 performs drive control of the drive unit 34b for the general electric so that the general electric role 34a is opened and closed. Moreover, display control of the special figure unit 37 is performed in MPU82 in the case of each game time. Further, when the lottery result as to whether or not the universal electric accessory 34a is in the open state, the MPU 82 executes the display control of the universal diagram unit 38. FIG.

The blackout monitoring board 85 relays between the main control board 81 and the power/launch controller 78, and also monitors the maximum voltage output from the power/launch controller 78, which is a stable DC voltage of 24 volts. The payout control device 77 controls the payout of prize balls and rental balls by the payout device 76 based on the prize ball command input from the MPU 82 of the main control device 71 .

The power/emission control device 78 is connected to, for example, a commercial power supply (external power supply) in a game hall or the like. Then, based on the external power supplied from the commercial power supply, the main control device 71, the payout control device 77, etc. are each generated with necessary operating power, and the generated operating power is supplied.

More specifically, the power supply/launch control device 78 is provided with a power-on power supply section 78a and a power-off power supply section 78b. The power-on power supply unit 78a is connected to, for example, a commercial power supply in a game hall or the like, and generates operating power in a situation where external power is supplied from the commercial power supply, and supplies the generated operating power. have a function. The power-off power supply unit 78b is composed of a capacitor, and supplies power from the power-on power supply unit 78a when the pachinko machine 10 is powered on (when power is being supplied from an external power supply). is charged by In addition, when the power supply of the pachinko machine 10 is in an OFF state or in a power interruption state (when the power supply from the external power supply is interrupted) such as when a power failure occurs in the commercial power supply, the power supply during power interruption 78b discharges the main power. Backup power is supplied to the RAM 84 of the control device 71 and the RAM (not shown) of the payout control device 77 . Therefore, even in this situation, the information stored in the RAM 84 of the main control device 71 and the RAM of the payout control device 77 is not erased while the backup power is supplied from the power supply unit 78b for power failure. stored in memory.

Here, the RAM 84 of the main controller 71 temporarily stores information on the current game state and the progress of the game, and the RAM of the payout controller 77 temporarily stores information on the number of unpaid prize balls. be done. In this case, the backup power is supplied to these RAMs from the power supply section 78b for power interruption as described above, so that the current game can be played even in a situation where there is no power supply from the power supply section 78a for power supply. It is possible to store and hold the state, progress of the game, and unpaid prize ball information for a predetermined period. On the other hand, the sound emission control device 91 and the display control device 101 are not supplied with backup power from the power supply during power failure 78b. Therefore, the information stored in the RAM 95 of the sound emission control device 91 and the RAM 105 of the display control device 101 is not backed up, and is destroyed or destroyed when the power supply from the power supply unit 78a is stopped. erased.

A relatively large capacity is ensured for the power supply section 78b for use during power failure, and the information stored in the RAM 84 of the main controller 71 before the power failure is retained for a predetermined period (for example, one day or two days). be. The power-off power supply unit 78b is not limited to a capacitor, and may be a battery, a non-rechargeable battery, or the like.

The power supply/launch control device 78 is provided with a power failure power supply unit (not shown) that is different from the power failure power supply unit 78b. In the power supply/launch control device 78, even after the stable 24 volt DC power supply becomes less than 22 volts, by discharging from the power supply unit for power failure, It is configured to maintain the output of 5 volts, which is the drive power source for the control system, at a normal value. As a result, the main controller 71 and the like can normally execute and complete the power failure processing.

The power supply/launch control device 78 is provided with a launch control section 78c in addition to various power supply sections 78a and 78b. A touch sensor 28a, a push sensor 28b, and a variable resistor 28c built in the firing operation device 28 are electrically connected to the firing control section 78c.

The touch sensor 28a has a built-in capacitor, and when the player's hand touches the outer surface of the operating handle and the capacitance of the capacitor changes, a predetermined electric signal corresponding to the detection of the handle operation is sent out by the firing controller 78c. output to Upon receiving the predetermined electric signal, the shooting control section 78c recognizes that the player's hand is in contact with the outer surface of the operating handle. In addition, the firing control unit 78c grasps whether or not the firing stop switch of the firing operation device 28 is operated according to the electric signal received from the push sensor 28b, and operates the operation handle according to the electric signal received through the variable resistor 28c. to grasp the amount of rotation operation.

The launch control unit 78c transmits a condition fulfillment signal in a predetermined signal form to the MPU 82 of the main control unit 71 when a predetermined game ball launch condition is satisfied. Specifically, the firing control unit 78c receives a signal from the touch sensor 28a indicating that the operation handle is being touched by the player, and a signal indicating that the firing stop switch is not manually operated by the player. is received from the push sensor 28b, a HI level condition establishment signal (signal corresponding to the establishment of the condition) is continuously transmitted to the MPU 82. If any of the above signals is not received, a LOW level condition satisfaction signal (a signal not corresponding to the condition satisfaction) is transmitted to the MPU 82 . However, the relationship between the LOW level and the HI level may be reversed. In addition to the above conditions, a condition that the ball lending device is connected to the pachinko machine 10 may be added as a condition for transmitting the condition establishment signal corresponding to the establishment of the condition.

In the MPU 82, when the HI level condition establishment signal is received and the shooting of the game ball can be permitted, a HI level firing permission signal (a signal corresponding to the firing permission) is sent to the firing control unit 78c. continue to send. When the MPU 82 does not receive a HI level condition establishment signal from the firing control unit 78c, the MPU 82 transmits a LOW level firing permission signal (a signal not corresponding to firing permission). The relationship between level and HI level may be reversed.

The shooting control unit 78c is electrically connected to the game ball shooting mechanism 27, and periodically drives and controls the game ball shooting mechanism 27 when receiving a HI level shooting permission signal from the MPU82. In this case, if the game ball is continuously supplied to the game ball shooting mechanism 27, one game ball is shot to the game area PA in a specific shooting cycle (specifically 0.6 seconds). be. In addition, since the shooting intensity is adjusted based on the signal received from the variable resistor 28c at the time of shooting, the game ball is shot with intensity corresponding to the amount of rotation of the operating handle.

The audio emission control device 91 includes an audio emission control board 92 on which an MPU 93 is mounted. The MPU 93 includes a ROM 94 storing various control programs and fixed value data to be executed by the MPU 93, and a memory for temporarily storing various data when executing the control programs stored in the ROM 94. A RAM 95, an interrupt circuit, a timer circuit, a data input/output circuit, etc. are incorporated. Based on the command received from the main control device 71 , the MPU 93 drives and controls the display light emitting section 64 and the speaker section 65 and transmits the command to the display control device 101 .

A display control device 101 includes a display control board 102 on which an MPU 103 is mounted. The MPU 103 includes a ROM 104 storing various control programs and fixed value data to be executed by the MPU 103, and a memory for temporarily storing various data when executing the control programs stored in the ROM 104. A RAM 105, an interrupt circuit, a timer circuit, a data input/output circuit, etc. are incorporated. The MPU 103 controls the pattern display device 41 based on the command received from the sound emission control device 91 .

Although not shown, the display control board 102 includes a video display processor (VDP), a character ROM, a video RAM, etc. in addition to the MPU 103 . The VDP is a kind of drawing circuit that directly operates an image processing device as a liquid crystal display driver incorporated in the pattern display device 41 . The VDP intervenes in the reading and writing of data in the video RAM, reads image data to be stored in the video RAM from the character ROM at a predetermined timing, and causes the pattern display device 41 to display the image data. The character ROM plays a role as an image data library for storing character data such as symbols displayed on the symbol display device 41 . This character ROM holds bitmap format image data of various display patterns, a color palette table to be referred to when determining the expression color of each dot of the bitmap image, and the like. The video RAM is a memory for storing display data to be displayed on the pattern display device 41, and the display content of the pattern display device 41 is changed by rewriting the content of the video RAM.

In the following description, for convenience of explanation, the MPU 82, ROM 83 and RAM 84 of the main controller 71 will be referred to as the main MPU 82, main ROM 83 and main RAM 84, and the MPU 93, ROM 94 and RAM 95 of the sound emission control device 91 will be referred to as the sound and light side. The MPU 93, the sound and light side ROM 94 and the sound and light side RAM 95 are called, and the MPU 103, the ROM 104 and the RAM 105 of the display control device 101 are called the display side MPU 103, the display side ROM 104 and the display side RAM 105.

<Electrical configuration for performing various lotteries in the main MPU 82>
Next, an electrical configuration for performing various lotteries in the main MPU 82 will be described with reference to FIG.

The main side MPU 82 uses various counter information during the game to set the winning lottery, the display setting of the special figure display units 37a and 37b, the setting of the symbol display of the symbol display device 41, the display setting of the normal figure display unit 38a, and the like. Specifically, as shown in FIG. 7, a winning random number counter C1 used for the lottery of winning occurrence, a type random number counter C2 used when determining the jackpot result type and the time saving result type, A reach random number counter C3 used for reach generation lottery when the pattern display device 41 fluctuates, a random number initial value counter CINI used for initial value setting of the hit random number counter C1, special figure display parts 37a, 37b and pattern display A variation type counter CS that determines the variation display period in the device 41 is used. Furthermore, a general electric random number counter C4 is used for lottery to determine whether or not the general electric accessory 34a of the second operating port 34 is in the general electric open state. The counters C1 to C3, CINI, CS, and C4 are provided in the various counter areas 84b of the main RAM 84. FIG.

Each of the counters C1 to C3, CINI, CS, and C4 is a loop counter that adds 1 to the previous value each time it is updated and returns to "0" after reaching the maximum value. Each counter is updated at short time intervals. The information corresponding to the hit random number counter C1, the type random number counter C2, and the reach random number counter C3 is stored in the special figure reservation provided in the main side RAM 84 when the winning to the first operation opening 33 or the second operation opening 34 occurs. Stored in area 84a. The special figure reservation area 84a includes a first special figure reservation area 111, a second special figure reservation area 112, and an execution area 113 for special figures.

The first special figure reservation area 111 comprises a first area 111a, a second area 111b, a third area 111c and a fourth area 111d. Each numerical value information of the type random number counter C2 and the reach random number counter C3 is stored in one of the areas 111a to 111d as first reserved information. In this case, in the first area 111a to the fourth area 111d, when the winning to the first operation opening 33 occurs a plurality of times in succession, the first area 111a→second area 111b→third area 111c→third area Each numerical value information is stored chronologically in the order of the 4 areas 111d. Since the four areas 111a to 111d are provided in this manner, up to four winning histories of game balls to the first operation opening 33 are reserved and stored. In addition, the number that can be reserved and stored in the first special figure reservation area 111 is not limited to four and is arbitrary, and may be another plurality such as two, three, or five or more. , may be singular.

The second special figure reservation area 112 comprises a first area 112a, a second area 112b, a third area 112c and a fourth area 112d. Numerical information of the type random number counter C2 and the reach random number counter C3 are stored as second reserved information in one of the areas 112a to 112d. In this case, in the first area 112a to the fourth area 112d, when the winning to the second operation opening 34 occurs a plurality of times in succession, the first area 112a→second area 112b→third area 112c→third area Each numerical value information is stored chronologically in the order of the 4 areas 112d. Since the four areas 112a to 112d are provided in this way, up to four winning histories of game balls to the second operation opening 34 are reserved and stored. In addition, the number that can be reserved and stored in the second special figure reservation area 112 is not limited to 4 and is arbitrary, and may be another plurality such as 2, 3 or 5 or more , may be singular.

Execution area 113 for the special figure is an area in which pending information of the target for performing the success/failure determination and distribution determination is stored when the variable display is started in one of the special figure display units 37a and 37b. Specifically, when starting the variable display of the first special figure display unit 37a, the reservation information stored in the first area 111a of the first special figure reservation area 111 is moved to the execution area 113 for the special figure. be. On the other hand, when starting the variable display of the 2nd special figure display part 37b, the reservation information stored in the 1st area 112a of the 2nd special figure reservation area 112 is moved to the execution area 113 for special figures.

Information corresponding to the general/universal random number counter C4 is stored in the general/universal pattern reservation area 84c when a winning to the through gate 35 occurs. The general pattern reservation area 84c includes a first area 114a, a second area 114b, a third area 114c and a fourth area 114d. is stored in one of the areas 114a to 114d as reserved information on the general map side. In this case, in the first area 114a to the fourth area 114d, when winning to the through gate 35 occurs multiple times in succession, the first area 114a→second area 114b→third area 114c→fourth area Numerical information is stored chronologically in the order of 114d. Since the four areas 114a to 114d are provided in this manner, up to four winning histories of game balls to the through gate 35 are reserved and stored. In addition, the number that can be reserved and stored in the normal drawing reservation area 84c is not limited to 4 and is arbitrary, and may be another plurality such as 2, 3 or 5 or more. may be An execution area 115 for a normal map is provided in the normal map reservation area 84c. The general pattern execution area 115 is an area in which reservation information for which the general pattern correctness determination process is performed when the variable display is started in the normal pattern display section 38a is stored. Specifically, when the variable display of the normal map display unit 38a is started, the reservation information stored in the first area 114a of the normal map reservation area 84c is moved to the execution area 115 for the normal map.

Each of the above counters will be described in detail.

First, the general electric random number counter C4 will be described. The general electric random number counter C4, for example, is configured to be incremented by 1 in order within the range of 0 to 250, and return to "0" after reaching the maximum value. The general electric random number counter C4 is periodically updated, and is stored in the general drawing reservation area 84c at the timing when the game ball wins the through gate 35.例文帳に追加Then, at a predetermined timing, a general/universal pattern correctness determination process for determining whether or not to control the general/universal electric accessory 34a to the open state is performed based on the stored value of the general/universal electric random number counter C4.

As already described, the pachinko machine 10 is set with a plurality of types of support modes so that the modes of support provided by the general electric accessory 34a are different from each other. FIG. 8 is an explanatory diagram for explaining the content of the support mode.

In the support mode, the frequency at which the general electrical accessory 34a of the second operating port 34 becomes an open state per unit time when compared with the situation where the game ball is continued to be shot in a similar manner to the game area A high-frequency support mode and a low-frequency support mode are set so that the is relatively high and low. A first high-frequency support mode and a second high-frequency support mode are set as high-frequency support modes.

As a determination mode in the case where the general pattern suitability determination process is executed for determining by lottery whether or not the general electric role 34a is in the open state, the probability of winning the electric role open is relative. There is a high probability mode on the general map side and a low probability mode on the general map side so that it is relatively high and low. In the low-probability mode of the general map side, the probability of being elected to open the electric role in one general pattern correctness determination process is 1/2, whereas in the high-probability mode of the general map side, the general pattern correctness judgment is performed once. In the process, the probability of winning the electric role open is 4/5.

When the normal pattern suitability determination process is executed, the variable display of the pattern is started in the normal pattern display section 38a. In this case, as the variation period of the general pattern, which is the duration of the variation display times in which the variation display of the pattern is executed in the general pattern display section 38a, a long period and a short period are selected so that the period is relatively long and short. exists. The long term is 10 seconds whereas the short term is 1 second.

When the variable display time of the normal pattern display unit 38a ends, the normal map display unit 38a displays the stop result corresponding to the determination result of the normal pattern correctness determination process that triggered the execution of the variable display time. . In this case, when the determination result of the general/universal pattern correctness determination process is a result of deviation, the stop result corresponding to the result is displayed on the general/universal pattern display unit 38a, and the transition to the general/universal power open state does not occur. When the reservation information on the side of the general pattern is stored in the general pattern reservation area 84c, the reservation information on the side of the general pattern is newly subjected to the general pattern propriety determination process, and is newly displayed in the general pattern display unit 38a. A variable display time is started. On the other hand, if the determination result of the general pattern correctness determination process is the result corresponding to the electric role open winning, the stop result corresponding to the winning result is displayed on the general pattern display unit 38a, and the transition to the general electric open state is performed. Occur.

As execution modes for the general electric open state, there are a high expectation mode and a low expectation mode so that the degree of expectation of a game ball entering the general electric accessory 34a is relatively high or low. In the low-expectation mode, the short opening of the universal electrical accessory 34a occurs once. The duration of the short opening is 0.7 seconds. As already explained, the shooting cycle of the game ball is 0.6 seconds. Even if it does occur, the number of hit balls is about one. The general electric open state also ends when the number of game balls entering the second operating port 34 reaches 10, which is the upper limit number of the general electric side, but when short open occurs once As described above, even if a game ball enters the second operating port 34, it is about one, so the upper limit number of game balls on the power supply side will not enter the second operating port 34.

In the high expectation mode, the long opening of the universal electrical accessory 34a occurs three times. The duration of the long open is 2 seconds. As already explained, since the game ball shooting cycle is 0.6 seconds, when the general electric accessory 34a is opened once for a long time, about 3 game balls enter the second operation opening 34. obtain. Then, in the general electricity open state of the high expectation mode, the long opening occurs three times with an interval period (specifically, 1 second) on the general electricity side in which the second operating port 34 is in the closed state. Therefore, when the high-expectation mode general electric open state occurs, about nine game balls can enter. In addition, as described above, the general electric open state ends when the number of game balls entering the second operation port 34 reaches 10, which is the upper limit number of the general electric side. When the open state occurs, the event that the general electric open state ends can occur when the upper limit number of game balls on the general electric side enter the second operation opening 34 .

As described above, in the configuration in which the determination mode of the general pattern suitability determination process, the execution mode of the general pattern fluctuation period and the general electrical open state in the general pattern display unit 38a are set, in the low frequency support mode, the general pattern suitability determination process The judgment mode of is a low probability mode on the general map side, the fluctuation period of the general pattern is a long period, and the execution mode of the general electric open state is a low expectation mode in which short opening occurs once. In addition, in the first high-frequency support mode, the judgment mode of the general pattern correctness determination process is the high probability mode on the general pattern side, the fluctuation period of the general pattern is short, and the execution mode of the general pattern open state is long open 3 times It becomes a high expectation mode that occurs. In addition, in the second high-frequency support mode, the judgment mode of the general pattern correctness judgment process is the low probability mode on the general pattern side, the fluctuation period of the general pattern is short, and the execution mode of the general pattern open state is long open 3 times It becomes a high expectation mode that occurs. Therefore, when the shooting of the game ball is continued in the same manner so as to generate a winning prize to the through gate 35, the rate at which the general electrical accessory 34a of the second operation port 34 is in the open state per unit time is the highest in the first high-frequency support mode, the second highest in the second high-frequency support mode, and the lowest in the low-frequency support mode. In addition, in the low frequency support mode, since the execution mode of the normal electric open state becomes the low expectation mode, in the low frequency support mode, although the game ball hardly enters the second operation port 34 On the other hand, in the first high-frequency support mode and the second high-frequency support mode, the execution mode of the mains open state is the high-expectation mode, so when the first high-frequency support mode or the second high-frequency support mode It can be expected that the number of game balls entering the second operation port 34 is the upper limit number or more of the second reservation information in the second special figure reservation area 112.

It should be noted that the configuration for differentiating the degree of expectation of the rate at which the general electrical accessory 34a of the second operating port 34 is in the open state per unit time between the first high-frequency support mode and the second high-frequency support mode is It is not limited to the above, for example, a short period is selected in the first high-frequency support mode as the fluctuation period of the normal chart, while a short period and a long period are selected in the second high-frequency support mode. In the first high-frequency support mode as the execution mode of the normal power open state, the long open occurs three times, while the long open occurs twice in the second high-frequency support mode. It is good also as a structure which generate|occur|produces twice. Also, in the first high-frequency support mode and the second high-frequency support mode, although the determination mode of the normal pattern suitability determination process is the same in the high probability mode on the normal map side, the normal pattern fluctuation period or the normal electric open state is executed Depending on the content of the mode, the first high-frequency support mode has a higher expectation of the ratio of the general electrical equipment 34a of the second operation port 34 being in the open state per unit time than the second high-frequency support mode. may be configured.

Next, the winning random number counter C1 will be described. The winning random number counter C1 is configured to be incremented by 1 in order within the range of 0 to 9999, and return to "0" after reaching the maximum value. In particular, when the winning random number counter C1 completes one cycle, the value of the random number initial value counter CINI at that time is read as the initial value of the winning random number counter C1. The random number initial value counter CINI is a loop counter similar to the winning random number counter C1 (value=0 to 9999). The hit random number counter C1 is periodically updated, stored in the first special figure reservation area 111 at the timing when the game ball wins in the first operating port 33, and second at the timing when the game ball wins in the second operating port 34. It is stored in the special figure reservation area 112. Then, using the stored numerical value information of the hit random number counter C1, the win/fail determination process is performed.

The values of random numbers to be won in the winning/failure determination process are stored in the main ROM 83 as a winning/failure table. The pachinko machine 10 has a high-probability mode and a low-probability mode in which the probability of a jackpot result is relatively high or low as the win-or-fail lottery mode of the win-or-fail determination process. As the success/failure table referred to in the success/failure determination process in the low-probability mode, the first success/failure table 121 at the time of low probability referred to when the success/failure determination process is executed for the first reservation information, and the second suspension information. A second right/wrong table 122 for a low probability is provided which is referred to when the right/wrong determination process is executed for the . A high-probability success/failure table 123 is provided as a success/failure table referred to in the success/failure determination process in the high-probability mode.

FIG. 9(a) is an explanatory diagram for explaining the first right/wrong table 121 at the time of low probability, and FIG. 9(b) is an explanatory diagram for explaining the second right/wrong table 122 at the time of low probability, FIG. 9(c) is an explanatory diagram for explaining the success/failure table 123 when the probability is high.

As shown in FIGS. 9(a) to 9(c), the result of the winning/failing determination process includes a big hit result, a time saving result, and a losing result. The jackpot result is a winning/failing result that can serve as a trigger for shifting to the opening/closing execution mode in which a plurality of round games are executed, as well as a trigger for shifting to the win/fail lottery mode and the support mode. Although a time saving result does not serve as a shift opportunity to opening-and-closing execution mode, and also does not serve as a shift trigger for success/failure lottery mode, it is a success/failure result that can serve as a shift trigger for support mode. The deviation result is a win/fail result that does not trigger a shift to the opening/closing execution mode, and does not trigger a shift to the win/fail lottery mode and the support mode.

The pachinko machine 10 has a set value that determines the degree of advantage per unit time. The setting value is "setting n" (where n is an integer from "1" to "6"). "Setting 1" to "Setting 6" exist as setting values. As shown in FIG. 9(a), in the first right/wrong table 121 at the time of low probability, the higher the set value, the higher the probability of a big win result, and the higher the set value, the lower the probability of a misrepresentation result. . On the other hand, the probability of a time saving result is set to be the same for any of "setting 1" to "setting 6".

Specifically, the lowest setting value "setting 1" is set to 50 as the number of numerical information of the winning random number counter C1 that results in a big hit, and the numerical information of the winning random number counter C1 that results in a time saving result. 100 is set as the number of , and 9850 is set as the number of numerical information of the winning random number counter C1 that results in a loss. In addition, 52 pieces are set as the number of numerical information of the winning random number counter C1 that results in a big hit in the "setting 2", which is a set value that is one step higher than the "setting 1", and the winning random number counter that results in a time saving result. 100 is set as the number of numerical information of C1, and 9848 is set as the number of numerical information of the winning random number counter C1 that results in a loss. In addition, 54 pieces are set as the number of numerical information of the winning random number counter C1 that results in a big hit in the "setting 3", which is a set value one step higher than the "setting 2", and the winning random number counter that results in a time saving result. 100 is set as the number of numerical information of C1, and 9846 is set as the number of numerical information of the winning random number counter C1 that results in a loss. In addition, 56 pieces are set as the number of numerical information of the winning random number counter C1 that results in a big hit in the "setting 4", which is a setting value one step higher than the "setting 3", and the winning random number counter that results in a time saving result. 100 is set as the number of numerical information of C1, and 9844 is set as the number of numerical information of the winning random number counter C1 that results in a loss. In addition, 58 pieces are set as the number of numerical information of the winning random number counter C1 that results in a big hit in "setting 5", which is a set value one step higher than "setting 4", and the winning random number counter that results in a time saving result. 100 is set as the number of numerical information of C1, and 9842 is set as the number of numerical information of the winning random number counter C1 that results in a loss. In addition, 60 pieces are set as the number of numerical information of the winning random number counter C1 that will result in a big win in the "setting 6" which is the highest setting value, and as the number of numerical information of the winning random number counter C1 that will result in a time saving result 100 pieces are set, and 9840 pieces are set as the number of numerical information of the winning random number counter C1 that results in a loss. As described above, the probability of a time-saving result in the low-probability mode is higher than the probability of a jackpot result, regardless of the set value.

As shown in FIG. 9(b), in the second right/wrong table 122 at the time of low probability, the higher the set value, the higher the probability of a big win result, and the higher the set value, the lower the probability of a misrepresentation result. . On the other hand, the probability of a time saving result is set to be the same for any of "setting 1" to "setting 6".

Specifically, the lowest setting value "setting 1" is set to 50 as the number of numerical information of the winning random number counter C1 that results in a big hit, and the numerical information of the winning random number counter C1 that results in a time saving result. 120 is set as the number of , and 9830 is set as the number of numerical information of the winning random number counter C1 that results in a loss. In addition, 52 pieces are set as the number of numerical information of the winning random number counter C1 that results in a big hit in the "setting 2", which is a set value that is one step higher than the "setting 1", and the winning random number counter that results in a time saving result. 120 pieces are set as the number of numerical information of C1, and 9828 pieces are set as the number of numerical information of the winning random number counter C1 that results in a loss. In addition, 54 pieces are set as the number of numerical information of the winning random number counter C1 that results in a big hit in the "setting 3", which is a set value one step higher than the "setting 2", and the winning random number counter that results in a time saving result. 120 pieces are set as the number of numerical information of C1, and 9826 pieces are set as the number of numerical information of the winning random number counter C1 that results in a loss. In addition, 56 pieces are set as the number of numerical information of the winning random number counter C1 that results in a big hit in the "setting 4", which is a setting value one step higher than the "setting 3", and the winning random number counter that results in a time saving result. 120 pieces are set as the number of numerical information of C1, and 9824 pieces are set as the number of numerical information of the winning random number counter C1 that results in a loss. In addition, 58 pieces are set as the number of numerical information of the winning random number counter C1 that results in a big hit in "setting 5", which is a set value one step higher than "setting 4", and the winning random number counter that results in a time saving result. 120 pieces are set as the number of numerical information of C1, and 9822 pieces are set as the number of numerical information of the winning random number counter C1 that results in a loss. In addition, 60 pieces are set as the number of numerical information of the winning random number counter C1 that will result in a big win in the "setting 6" which is the highest setting value, and as the number of numerical information of the winning random number counter C1 that will result in a time saving result 120 pieces are set, and 9820 pieces are set as the number of numerical information of the winning random number counter C1 that results in a loss.

That is, the probability of the big win result of each set value is the same between the first success/failure table 121 at the time of low probability and the second success/failure table 122 at the time of low probability. On the other hand, the 2nd right/wrong table 122 at the time of low probability is higher than the 1st right/wrong table 121 of low probability as for the probability that a time saving result is chosen by right/wrong judgment processing. Therefore, when the success/failure lottery mode is a low probability mode, the case where the success/failure determination process is executed for the second reservation information is better than the case where the success/failure determination process is executed for the first reservation information. , the probability that the time-saving result will be selected increases.

In addition, it is not limited to this, and the probability that the time saving result is selected in the propriety determination process is the same or substantially the same in the first propriety table 121 at the time of low probability and the second propriety table 122 at the time of low probability or the first right/wrong table 121 for low probability may be higher than the second right/wrong table 122 for low probability. Moreover, in the 1st right/wrong table 121 at the time of a low probability, the probability of a time saving result is not limited to the structure which is the same with each set value, It is good also as a structure which fluctuates according to a set value. In this case, the higher the setting value, the higher the probability of the time saving result, and the higher the setting value, the lower the probability of the time saving result. Moreover, in the 2nd right/wrong table 122 at the time of a low probability, the probability of a time saving result is not limited to the structure with the same setting value, and it is good also as a structure which fluctuates according to a setting value. In this case, the higher the setting value, the higher the probability of the time saving result, and the higher the setting value, the lower the probability of the time saving result.

As shown in FIG. 9(c), the success/failure table 123 at the time of high probability is set such that the higher the set value, the higher the probability of a big win result, and the higher the set value, the lower the probability of a misrepresentation result. On the other hand, the probability of a time saving result is set to be the same for any of "setting 1" to "setting 6".

Specifically, 500 pieces are set as the number of numerical information of the winning random number counter C1 that results in a big hit in the "setting 1" that is the lowest setting value, and the numerical information of the winning random number counter C1 that results in a time saving result. 100 is set as the number of , and 9400 is set as the number of numerical information of the winning random number counter C1 that results in a loss. In addition, 520 pieces are set as the number of numerical information of the winning random number counter C1 that results in a big hit in the "setting 2", which is a set value one step higher than the "setting 1", and the winning random number counter that results in a time saving result. 100 is set as the number of numerical information of C1, and 9380 is set as the number of numerical information of the winning random number counter C1 that results in a loss. In addition, 540 pieces are set as the number of numerical information of the winning random number counter C1 that results in a big hit in the "setting 3", which is a set value that is one step higher than the "setting 2", and the winning random number counter that results in a time saving result. 100 is set as the number of numerical information of C1, and 9360 is set as the number of numerical information of the winning random number counter C1 that results in a loss. In addition, 560 pieces are set as the number of numerical information of the winning random number counter C1 that results in a big win in "setting 4", which is a setting value one step higher than "setting 3", and a winning random number counter that results in a time saving result. 100 is set as the number of numerical information of C1, and 9340 is set as the number of numerical information of the winning random number counter C1 that results in a loss. In addition, 580 pieces are set as the number of numerical information of the winning random number counter C1 that results in a big hit in the "setting 5", which is a setting value one step higher than the "setting 4", and the winning random number counter that results in a time saving result. 100 is set as the number of numerical information of C1, and 9320 is set as the number of numerical information of the winning random number counter C1 that results in a loss. In addition, 600 pieces are set as the number of numerical information of the winning random number counter C1 that results in a big win in the "setting 6" which is the highest setting value, and as the number of numerical information of the winning random number counter C1 that results in a time saving result. 100 pieces are set, and 9300 pieces are set as the number of numerical information of the winning random number counter C1 that results in a loss.

In the case of high probability mode, the success/failure table 123 at the time of high probability indicates whether the success/failure determination process is executed for the first reservation information or the success/failure determination process is executed for the second reservation information. It is referenced even if it exists. With this, the correctness table corresponding to each of the case where the correctness determination process is executed for the first reservation information in the high probability mode and the case where the correctness determination process is executed for the second reservation information in the high probability mode is provided, it is possible to reduce the storage capacity of the main-side ROM 83 required for storing the success/failure table.

In the "setting 1", the probability of a big hit result is 1/200 in the low probability mode and 1/20 which is 10 times that in the high probability mode. In the "setting 2", the probability of a big hit result is about 1/192 in the low probability mode and about 1/19.2 which is ten times as high in the high probability mode. In the "setting 3", the probability of a big win result is about 1/185 in the low probability mode and about 1/18.5 which is 10 times that in the high probability mode. In the "setting 4", the probability of a big hit result is about 1/179 in the low probability mode and about 1/17.9 which is ten times as high in the high probability mode. In the "setting 5", the probability of a big win result is about 1/172 in the low probability mode and about 1/17.2 which is ten times as high in the high probability mode. In the "setting 6", the probability of a big win result is about 1/167 in the low probability mode and about 1/16.7 which is ten times as high in the high probability mode. In other words, the probability of a big win result in any of "Setting 1" to "Setting 6" is 10 times higher in the high probability mode than in the low probability mode.

On the other hand, the probability of a time saving result is 1/100 in any of the "setting 1" to "setting 6" in the first right or wrong table 121 at the time of low probability and the right or wrong table 123 at the time of high probability, and the low probability In the second right/wrong table 122 of the hour, it is about 1/83 for any of "setting 1" to "setting 6". However, it is not limited to this, and the probability of a time-saving result in the success/failure table 123 at the time of high probability is higher than the first success/failure table 121 at the time of low probability, and from the second success/failure table 122 at the time of low probability. may be set to be lower, or may be set to be higher than the second right/wrong table 122 at the time of low probability.

The numerical value information of the winning random number counter C1, which is the result of the big win, may be collectively set so as to be a serial number, or at least part or all of it may be distributed and set so as not to be a serial number. It is good also as a structure with. In addition, the numerical information of the winning random number counter C1, which is a time saving result, may be configured to be aggregated and set so as to be a serial number, and at least part or all of it may be distributed and set so as not to be a serial number. It is good also as a structure with.

As described above, the higher the setting value, the higher the probability that the result will be a big hit, regardless of whether the first reservation information is the trigger or the second reservation information is the trigger. The higher the value, the more advantageous it is for the player. In addition, the open/close execution mode is a period during which the amount of increase in the number of balls possessed by the player per unit time is the largest. It is possible to increase the player's attention to the set value.

In a configuration in which the probability of a jackpot result is higher in the high-probability mode than in the low-probability mode, the probability of a jackpot result in the high-probability mode is the low-probability mode regardless of any of "setting 1" to "setting 6" , the probability of a big hit result is a certain number times (specifically, 10 times) higher than “1”. As a result, it is possible to make constant the fluctuation rate of the probability of a big win between the low-probability mode and the high-probability mode in any setting state.

When the combination of the set value and the win/fail lottery mode is the same and the combination is compared, the probability of the big win result is the same when triggered by the first reservation information and when triggered by the second reservation information. . As a result, it is possible to prevent a difference in the probability of occurrence of the big winning result between the case triggered by the first reservation information and the case triggered by the second reservation information.

The probability of a time saving result when triggered by the first pending information is the same for any of "setting 1" to "setting 6". In addition, the probability of the time saving result when triggered by the second hold information is the same for any of "setting 1" to "setting 6". As a result, it becomes possible for the player to limit the target to which the player pays attention in estimating the setting value to the result of the big win, and it is possible to make it difficult to estimate the setting value. On the other hand, the probability of the time saving result is higher when the second suspension information is the trigger than when the first suspension information is the trigger. Thereby, it is possible to make the occurrence frequency of the time saving result different between the case where the game round triggered by the first reservation information is executed and the case where the game round triggered by the second reservation information is executed.

The type random number counter C2 is incremented by 1 in order within the range of 0 to 29, and returns to "0" after reaching the maximum value. The type random number counter C2 is periodically updated, stored in the first special figure reservation area 111 at the timing when the game ball wins the first operation opening 33, and the second at the timing when the game ball wins the second operation opening 34. It is stored in the special figure reservation area 112.

In this pachinko machine 10, a plurality of jackpot results are obtained by providing differences in three conditions: the number of round games executed in the opening/closing execution mode, the success/failure lottery mode after the opening/closing execution mode ends, and the support mode after the opening/closing execution mode ends. is set. A jackpot distribution table 125 for the first special figure is provided as a jackpot distribution table referred to in the distribution determination processing for the jackpot when the jackpot result is selected in the success/failure determination processing for the first reservation information. there is In addition, a jackpot distribution table 126 for the second special figure is provided as a jackpot distribution table to be referred to in the distribution determination processing for the jackpot when the jackpot result is selected in the success/failure determination processing for the second reservation information. It is

FIG. 10(a) is an explanatory diagram for explaining the jackpot distribution table 125 for the first special figure, and FIG. 10(b) is an explanation for explaining the jackpot distribution table 126 for the second special figure. It is a diagram. As shown in FIGS. 10(a) and 10(b), the jackpot distribution tables 125 and 126 have 5R low-probability results, 5R high-probability results, and 10R high-probability results as types of jackpot results. is set. FIG. 11(a) is an explanatory diagram for explaining the contents of each jackpot result.

The 5R low-probability result is generated by being selected in the big-hit allocation determination process as a big-hit result in the success/failure determination process, as already described. The 5R low-probability result is that the number of times the round game is executed in the opening/closing execution mode is five times, the win/fail lottery mode after the opening/closing execution mode is the low-probability mode, and the support mode after the opening/closing execution mode is the first high frequency. It is a jackpot result that becomes the support mode. The low probability mode in this case continues at least until the next open/close execution mode occurs. Further, the first high-frequency support mode ends when 100 game rounds are completed without the opening/closing execution mode newly occurring. When 100 games have been completed, the support mode becomes the low-frequency support mode.

As already explained, the 5R high-probability result is generated when a jackpot result is selected in the hit/fail determination process and selected in the jackpot distribution determination process. The 5R high probability result is that the number of times the round game is executed in the opening/closing execution mode is five times, the win/fail lottery mode after the opening/closing execution mode is the high probability mode, and the support mode after the opening/closing execution mode is the first high frequency. It is a jackpot result that becomes the support mode. In this case, the high-probability mode and the first high-frequency support mode are terminated when 100 game rounds are completed without any new open/close execution mode. When 100 games have been played, the lottery mode becomes the low probability mode, and the support mode becomes the low frequency support mode.

The 10R high-probability result is generated by being selected in the big-hit allocation determination process as a big-hit result in the success/failure determination process, as described above. The 10R high probability result is that the number of times the round game is executed in the opening/closing execution mode is 10 times, the win/fail lottery mode after the opening/closing execution mode is the high probability mode, and the support mode after the opening/closing execution mode is the first high frequency. It is a jackpot result that becomes the support mode. In this case, the high-probability mode and the first high-frequency support mode are terminated when 100 game rounds are completed without any new open/close execution mode. When 100 games have been played, the lottery mode becomes the low probability mode, and the support mode becomes the low frequency support mode.

As shown in FIG. 10A, the jackpot distribution table 125 for the first special figure is set with 5R low probability results, 5R high probability results and 10R high probability results as the types of jackpot results to be distributed. ing. In the jackpot distribution table 125 for the first special figure, the type random number counter C2 of "0 to 14" corresponds to the 5R low probability result, and the type random number counter C2 of "15 to 22" corresponds to the 5R high probability result. Correspondingly, the type random number counter C2 of "23 to 29" corresponds to the 10R high probability result. On the other hand, as shown in FIG. 10(b), the jackpot distribution table 126 for the second special figure is set with 5R low probability results and 10R high probability results as the types of jackpot results to be distributed. In the jackpot distribution table 126 for the second special figure, the type random number counter C2 of "0 to 14" corresponds to the 5R low probability result, and the type random number counter C2 of "15 to 29" corresponds to the 10R high probability result. Yes.

The jackpot distribution table 125 for the first special figure and the jackpot distribution table 126 for the second special figure have the same probability of entering the high probability mode after the opening/closing execution mode when the jackpot is won. On the other hand, the average number of executions of the round game is larger in the jackpot distribution table 126 for the second special figure than in the jackpot distribution table 125 for the first special figure. Therefore, as for the types of jackpot results that can be selected when a jackpot is won, winning to the second operating port 34 is more likely than winning to the first operating port 33 and winning/failure determination processing is performed. It is more advantageous for the player if it occurs and the success/failure determination process is performed.

Not only are multiple types of jackpot results set, but also multiple types of time-saving results are set. When the time saving result is selected in the success/failure determination process, the type of the time saving result is determined by lottery using a type random number counter C2 used for determining the type of the jackpot result by lottery. In other words, not only the hit random number counter C1 used for selecting the jackpot result is used as the random number for selecting the time-saving result in the success/failure determination process, but also the time-saving result is selected in the success/failure determination process. As a random number for selecting the type of time saving result in the case, the type random number counter C2 used for selecting the type of jackpot result is used. As a result, the number of lottery counters can be reduced, and the storage capacity of the main-side RAM 84 required for conducting the lottery can be reduced.

A time-saving distribution table 127 for the first special figure is provided as a time-saving distribution table that is referred to in the time-saving distribution determination processing when the time-saving result is selected in the suitability determination processing for the first reservation information. there is In addition, a time-saving distribution table 128 for the second special figure is provided as a time-saving distribution table that is referred to in the time-saving distribution determination processing when the time-saving result is selected in the suitability determination processing for the second reservation information. It is

FIG. 10(c) is an explanatory diagram for explaining the time-saving distribution table 127 for the first special figure, and FIG. 10(d) is an explanation for explaining the time-saving distribution table 128 for the second special figure. It is a diagram. As shown in FIG.10(c) and FIG.10(d), the 1st time-saving result and the 2nd time-saving result are set to each time-saving distribution table 127,128 as a kind of time-saving result. FIG.11(b) is explanatory drawing for demonstrating the content of each time saving opportunity.

As already explained, the first time saving result is generated by being selected in the distribution determining process for time saving as a time saving result in the success/failure determination process. The first time-saving result is a time-saving result in which the support mode is set to the second high-frequency support mode without triggering the transition to the opening/closing execution mode and further not triggering the transition to the winner/failure lottery mode. In this case, the second high-frequency support mode ends when 100 game rounds are completed without any new open/close execution mode. When 100 games have been completed, the support mode becomes the low-frequency support mode.

A 2nd time saving result generate|occur|produces by becoming a time saving result by right/wrong determination processing as already demonstrated, and being selected by distribution determination processing for time saving. The second time-saving result is a time-saving result in which the support mode is set to the second high-frequency support mode without triggering the transition to the opening/closing execution mode and further not triggering the transition to the winning/failure lottery mode. In this case, the second high-frequency support mode ends when 150 game rounds are completed without any new open/close execution mode. When 150 game rounds have been completed, the support mode becomes the low-frequency support mode. That is, the second time saving result has more execution times of the game times in which the second high-frequency support mode continues than the first time saving result. Therefore, the second time saving result is more advantageous to the player than the first time saving result.

As the time saving distribution table 127 for the 1st special figure shows in FIG.10(c), the 1st time saving result and the 2nd time saving result are set as a kind of the time saving result used as distribution object. In the time saving distribution table 127 for the first special figure, the type random number counter C2 of "0 to 19" corresponds to the first time saving result, and the type random number counter C2 of "20 to 29" is the second time saving result Yes. On the other hand, as shown in FIG. 10(d), the time saving distribution table 128 for the second special figure has a first time saving result and a second time saving result set as the types of time saving results to be distributed. . In the time saving distribution table 128 for the second special figure, the type random number counter C2 of "0 to 9" corresponds to the first time saving result, and the type random number counter C2 of "10 to 29" is the second time saving result. Yes.

In the time saving distribution table 127 for the first special figure, the selection probability of the first time saving result, which is relatively disadvantageous, is higher than the selection probability of the second time saving result, which is relatively advantageous. In the time saving distribution table 128 for 2 special figures, the selection probability of the second time saving result, which is relatively advantageous, is higher than the selection probability of the first time saving result, which is relatively disadvantageous. Furthermore, the selection probability of the 2nd time saving result which is relatively advantageous is higher than the time saving distribution table 127 for the 1st special figure for the time saving distribution table 128 for the 2nd special figure. Therefore, as the type of time saving result that can be selected when the time saving result is obtained in the success or failure determination process, the second operation than the case where the winning to the first operation port 33 occurs and the success determination process It is more advantageous for the player when winning to the mouth 34 occurs and the winning/losing determination process is performed.

Here, the fact that the time saving result is selected in the success or failure determination process can occur even if the success or failure lottery mode is any of the low probability mode and the high probability mode, even if the time saving result is selected in the high probability mode The support mode is not set with the time saving result as a trigger. In addition, the fact that the time saving result is selected in the propriety determination process can occur in any of the low frequency support mode, the first high frequency support mode and the second high frequency support mode, Even if the time saving result is selected in the frequency support mode or the second high frequency support mode, the setting of the support mode triggered by the time saving result is not performed. That is, the setting of the support mode triggered by the time saving result corresponding to the time saving result being selected in the propriety determination process occurs only in the low probability mode and the low frequency support mode. In addition, in the situation of the low probability mode and the low frequency support mode, the last of the high frequency support mode in the situation of the low probability mode and the first high frequency support mode or the second high frequency support mode It also includes the situation after the processing for terminating the high-frequency support mode and shifting to the low-frequency support mode is executed in the game round.

Since the transition to the second high-frequency support mode due to the time-saving result occurs only in the low probability mode, when the time-saving result occurs and the transition to the second high-frequency support mode occurs, in the low probability mode There is a second high-frequency support mode. That is, the time saving result is the result of shifting the game state to the time saving state without intervening the opening/closing execution mode. In addition, the support mode set after the opening and closing execution mode triggered by the jackpot result is the first high-frequency support mode, while the support mode set by the time-saving result is the second. 2 High frequency support mode. That is, the support mode triggered by the jackpot result is more advantageous than the support mode triggered by the time saving result.

In the pachinko machine 10, the ceiling time saving is present in addition to the time saving result as described above as an event for shifting the support mode to the second high frequency support mode without generating the opening/closing execution mode. The ceiling time reduction occurs when the game times of the ceiling number of times are completed without a jackpot result as shown in FIG. 11(b). Note that the number of ceilings is set when a jackpot result occurs and also when supply of operating power is started. This will be explained in detail later. The ceiling time reduction is a result of setting the support mode to the second high-frequency support mode without triggering the transition to the opening/closing execution mode and further not triggering the transition to the win/fail lottery mode. In this case, the second high-frequency support mode ends when 100 game rounds are completed without any new open/close execution mode. When 100 games have been completed, the support mode becomes the low-frequency support mode.

The number of continuations of the second high-frequency support mode that occurs due to the ceiling time reduction is the same as the number of continuations of the second high-frequency support mode that occurs due to the first time reduction result, and the second time reduction result less than the number of continuations of the second high-frequency support mode caused by Therefore, the case where the time saving result is selected in the success/failure determination process is more advantageous for the player than the ceiling time saving.

Digestion of the ceiling number of game rounds does not occur in the high probability mode. Therefore, even if the ceiling number is newly set by the 5R high probability result or the 10R high probability result, the remaining ceiling number is not subtracted until the subsequent high probability mode ends. On the other hand, in the low-probability mode, the completion of the ceiling number of game rounds occurs regardless of which mode the support mode is. However, even if the ceiling number of games is completed in the first high-frequency support mode or the second high-frequency support mode, the support mode is not set with the completion of the ceiling number of games. That is, the setting of the support mode triggered by the ceiling time saving for the completion of the ceiling number of game times occurs only in the low probability mode and the low frequency support mode. In addition, in the situation of the low probability mode and the low frequency support mode, the last of the high frequency support mode in the situation of the low probability mode and the first high frequency support mode or the second high frequency support mode It also includes the situation after the processing for terminating the high-frequency support mode and shifting to the low-frequency support mode is executed in the game round.

Since the transition to the second high-frequency support mode due to the ceiling time reduction occurs only when it is in the low probability mode, when the ceiling time reduction occurs and the transition to the second high-frequency support mode occurs, in the low probability mode There is a second high-frequency support mode. That is, the ceiling time saving is the result of shifting the game state to the time saving state without intervening the opening/closing execution mode. In addition, the support mode set after the opening and closing execution mode triggered by the jackpot result is the first high-frequency support mode, while the support mode set by the ceiling time reduction is the second. 2 High frequency support mode. That is, the support mode triggered by the jackpot result is more advantageous than the support mode triggered by the ceiling time reduction.

FIG. 12 is a time chart showing how the time saving state is set according to the time saving result or the ceiling time saving. FIG. 12(a) shows the period of the opening/closing execution mode, FIG. 12(b) shows the state of the ceiling counter 131 provided in the main RAM 84, and FIG. 12(c) shows the period of the high probability state. , FIG. 12(d) shows the timing at which the time saving result is selected in the success/failure determination process, and FIG. 12(e) shows the time period in the time saving state.

First, a case will be described in which the event of the time saving state triggered by the time saving result and the event of the time saving state triggered by the ceiling time saving occur non-continuously.

When the result of the suitability determination process becomes the 5R high probability result or the 10R high probability result, the opening/closing execution mode is started at the timing of t1 as shown in FIG. 12(a). In this case, with the start of the opening/closing execution mode as a trigger, 500 times, which is the number of fixed ceilings, is set in the ceiling counter 131 provided in the main RAM 84 as shown in FIG. 12(b). The ceiling counter 131 is a counter for specifying the number of remaining ceilings in the main MPU 82 .

After that, at the timing t2, the open/close execution mode ends as shown in FIG. 12(a), resulting in a high probability state as shown in FIG. 12(c). The high-probability state is a game state that is a high-probability mode and a first high-frequency support mode. The high probability state ends at timing t4 when 100 game rounds are completed. In the open/close execution mode, the ceiling counter 131 is not decremented because the game round is not executed, and in the high-probability mode, even if the game round is executed, the ceiling counter 131 is not decremented. Therefore, at timing t4 when the high-probability state ends, the value of the ceiling counter 131 does not change from timing t1 when the number of fixed ceilings is set in the ceiling counter 131 . In addition, at the timing of t3, which is the timing in the middle of the high-probability state, the time-saving result is selected in the success/failure determination process as shown in FIG. be done.

At the timing of t4, as shown in FIG. 12(c), the game state changes to the normal game state by ending the high probability state. In the normal game state, whether the game round triggered by the first hold information is executed or the game round triggered by the second hold information is executed, as shown in FIG. 12(b) Thus, the value of the ceiling counter 131 is decremented.

After that, as shown in FIG. 12(d) at the timing of t5, the time saving result is selected in the success/failure determination process. Since the game state at the timing of t5 is the normal game state, as shown in FIG. In this case, as shown in FIG. 12(a), the opening/closing execution mode does not intervene, and the win/fail lottery mode is maintained in the low probability mode. The time-saving state is a low-probability mode and a game state that is a second high-frequency support mode. In the time saving state, when the game round triggered by the first suspension information is executed and when the game round triggered by the second suspension information is executed, as shown in FIG. 12(b) , the value of the ceiling counter 131 is subtracted. After that, the time saving state ends as shown in FIG. 12(e) by the remaining number of continuation times of the time saving state becoming 0 times at the timing of t6 without a big hit result occurring in the time saving state. In this case, the game state is the normal game state.

After that, at the timing of t7, the value of the ceiling counter 131 becomes "0" as shown in FIG. 12(b). In other words, the ceiling number of game times is completed. Since the game state at the timing of t7 is the normal game state, as shown in FIG. In this case, as shown in FIG. 12(a), the opening/closing execution mode does not intervene, and the win/fail lottery mode is maintained in the low probability mode. The time saving state is a game state which is a low probability mode and a second high frequency support mode. After that, the time saving state ends as shown in FIG. 12(e) by the remaining number of continuation times of the time saving state becoming 0 times at the timing of t8 without a big hit result occurring in the time saving state. In this case, the game state is the normal game state.

The value of the ceiling counter 131 is not set when the ceiling time saving state is used as a trigger to shift to the time saving state or when the time saving state ends. In addition, the transition to the time saving state triggered by the ceiling time saving is the value of the ceiling counter 131 as a result of the game round being digested and the value of the ceiling counter 131 being subtracted in a situation where the value of the ceiling counter 131 is 1 or more is "0". Therefore, the transition to the time-saving state triggered by the ceiling time-saving occurs only once after the jackpot result occurs, and if the transition to the time-saving state triggered by the ceiling time-saving occurs once, basically after that Unless the value of the ceiling counter 131 is set due to the occurrence of the jackpot result, the transition to the time saving state triggered by the ceiling time saving does not occur.

Next, the case where the phenomenon which becomes a time-saving state triggered by becoming a time-saving result and the event which becomes a time-saving state with the opportunity of becoming a ceiling time-saving will be demonstrated continuously.

When the result of the suitability determination process becomes the 5R high probability result or the 10R high probability result, the opening/closing execution mode is started at the timing of t9 as shown in FIG. 12(a). In this case, as shown in FIG. 12(b), the ceiling counter 131 is set to 500 times, which is the number of fixed ceilings, when the opening/closing execution mode is started.

After that, at the timing of t10, the open/close execution mode ends as shown in FIG. 12(a), resulting in a high probability state as shown in FIG. 12(c). The high probability state ends at timing t11 when 100 game rounds are completed. In this case, the ceiling counter 131 is not decremented because the game round is not executed in the opening/closing execution mode, and the ceiling counter 131 is not decremented even if the game round is executed in the high-probability mode. Therefore, at timing t11 when the high probability state ends, the value of the ceiling counter 131 does not change from timing t9 when the number of fixed ceilings is set in the ceiling counter 131 .

At the timing of t11, as shown in FIG. 12(c), the game state changes to the normal game state by ending the high probability state. In the normal game state, whether the game round triggered by the first hold information is executed or the game round triggered by the second hold information is executed, as shown in FIG. 12(b) Thus, the value of the ceiling counter 131 is decremented.

Then, as shown in Drawing 12 (d) at the timing of t12, a time saving result is chosen by right or wrong judging processing. Since the game state at the timing of t12 is the normal game state, the time saving result is used as a trigger to shift to the time saving state as shown in FIG. 12(e). In this case, as shown in FIG. 12(a), the opening/closing execution mode does not intervene, and the win/fail lottery mode is maintained in the low probability mode. The time-saving state is a low-probability mode and a game state that is a second high-frequency support mode. In the time saving state, when the game round triggered by the first reservation information is executed and when the game round triggered by the second reservation information is executed, as shown in FIG. 12(b) , the value of the ceiling counter 131 is subtracted. After that, at the timing of t13, which is the timing in the middle of the time saving state, the time saving result is selected in the success/failure determination process as shown in FIG. .

After that, the remaining number of continuations of the time saving state becomes 0 times at the timing of t14 without a jackpot result occurring in the time saving state, and the value of the ceiling counter 131 becomes "0" as shown in FIG. Become. In this case, it is in the time saving state at the timing when the last game round of the time saving state is started, but the remaining number of continuation times of the time saving state becomes 0 times in the processing executed when the game round ends. By specifying that, the support mode is changed from the second high-frequency support mode to the low-frequency support mode, and the game state changes from the time-saving state to the normal game state. Also, when the game round ends, the value of the ceiling counter 131 is decremented by 1 after the processing is executed, and the value of the ceiling counter 131 becomes "0". That is, the value of the ceiling counter 131 becomes "0" after the game state is set from the time saving state to the normal game state in the game round. Therefore, the time-saving state is set with the completion of the ceiling number of game rounds in the game round. Therefore, the time saving state will continue without the time saving state ending at the timing of t14. The time saving state is a game state which is a low probability mode and a second high frequency support mode. After that, the time saving state ends as shown in FIG. 12(e) because the remaining number of continuations of the time saving state becomes 0 times at the timing of t15 without a big hit result occurring in the time saving state. In this case, the game state is the normal game state.

Next, the reach random number counter C3 in FIG. 7 will be described. The reach random number counter C3 is configured such that it is incremented by 1 in order within the range of 0 to 238, for example, and returns to "0" after reaching the maximum value. The ready-to-win display is executed regardless of the value of the ready-to-win random number counter C3 in game rounds in which the same combination of symbols is finally stopped and displayed. Moreover, in the game round corresponding to the time saving result, the reach display is not executed regardless of the value of the reach random number counter C3. Further, in the game cycle corresponding to the result of the loss, the reach table stored in the main ROM 83 is referred to, and the reach display is executed when the reach random number counter C3 corresponds to the generation of the reach display.

Next, the variation type counter CS will be described. The fluctuation type counter CS is configured to be incremented by 1 in order within the range of 0 to 198, for example, and return to "0" after reaching the maximum value. The variation type counter CS is used to determine the variation display period in the special figure display units 37a and 37b and the variation display period of the symbol in the symbol display device 41 in the main side MPU82. The variation type counter CS is repeatedly updated, and is acquired when determining the variation pattern at the start of the variation display in the special figure display units 37a and 37b and at the start of variation in the design by the design display device 41.

<Regarding various processes executed by the main MPU 82>
Next, each process executed in order to advance the game in the main MPU 82 will be described. The processing of the main MPU 82 can be roughly classified into main processing that is activated when the power is turned on, and timer interrupt processing that is periodically activated (at 4 msec cycles in this embodiment).

<Main processing>
First, the main processing will be described with reference to the flowchart of FIG.

First, power-on initialization processing is executed (step S101). In the power-on initial setting process, for example, the process waits without proceeding to the next process until a predetermined wait time (specifically, one second) elapses after the main process is activated. The operation start and initial setting of the symbol display device 41 are completed during this predetermined waiting period. Also, access to the main side RAM 84 is permitted.

Thereafter, an internal function register setting process is executed (step S102). In the internal function register setting process, the interrupt period of the timer interrupt process (FIG. 14), which is a process that is started by periodically interrupting the main process, is set to a predetermined period (specifically, 4 milliseconds). Details of the timer interrupt processing (FIG. 14) will be described later. Further, in the internal function register setting process, in addition to the setting of the interrupt period, the process of setting the numerical range of various counters such as the numerical range of the winning random number counter C1, for example, is executed.

After that, "1" is set to the start-up processing flag provided in the main RAM 84 (step S103). Even if the timer interrupt processing (Fig. 14) is started, the start-up processing flag is used to monitor power outages, update various counters, and monitor fraud among various processing set in the timer interrupt processing (Fig. 14). is executed, the timer interrupt processing (FIG. 14) is to be terminated without executing the processing for progressing the game.

The start-up processing flag is set to "1" when the processing (steps S101 to S126) at the start of supply of operating power is started in the main processing (FIG. 13). (Steps S101 to S126) are completed and before the remaining processing (Steps S127 to S130) is started, "0" is cleared. In the timer interrupt processing (FIG. 14), when the start-up processing flag is set to "1", the processing of steps S207 to S220 is not executed, so that the processing at the start of supply of operating power ( Among steps S101 to S126), the processing for progressing the game can be prevented from being executed while the later-described setting confirmation processing (step S112) or setting value update processing (step S117) is being executed. becomes. On the other hand, in the timer interrupt processing (FIG. 14) as described above, even if the start-up processing flag is set to "1", by executing the processing of steps S201 to S205, the operating power is supplied. Power outage monitoring is executed even in a situation where setting confirmation processing (step S112) or set value update processing (step S117), which will be described later, of the processing at the start (steps S101 to S126) is being executed. The hit random number counter C1, the type random number counter C2, the reach random number counter C3, and the random number initial value counter CINI are updated, and further fraud detection is performed.

In particular, by executing the power outage monitoring process (step S201) even in a situation where the start-up flag is set to "1", the process at the start of supply of operating power (steps S101 to S126) Even if a power failure occurs while the setting confirmation process (step S112) or the set value update process (step S117), which will be described later, is being executed, the power failure process can be executed. In the power failure process, the power failure flag provided in the main RAM 84 is set to "1", the checksum is calculated, and the calculated checksum is stored in the main RAM 84, so the supply of operating power is restarted. In this case, it is possible not to identify the occurrence of an abnormality in the main RAM 84 . As a result, if a power failure occurs during the setting confirmation process (step S112) or the setting value update process (step S117), which will be described later, the occurrence of the power failure can be notified to the next operating power during these setting-related processes. It is possible to specify when the supply of Incidentally, in a situation where the setting confirmation process (step S112) or the set value update process (step S117), which will be described later, is being executed, the timer interrupt process (FIG. 14) is not prohibited from being interrupted at an arbitrary timing. It is possible.

After "1" is set to the start-up processing flag in step S103, it is determined whether or not "1" is set to the power failure flag provided in the main RAM 84 (step S104). The power failure flag is set to "1" when the power failure process is executed in the power failure monitoring process (step S201) of the timer interrupt process (FIG. 14). The power failure flag is a flag for the main MPU 82 to specify whether or not the power failure process was appropriately performed at the time of the previous power failure.

If the power failure flag is set to "1" (step S104: YES), it is determined whether the checksum is normal (step S105). Specifically, first, a checksum is calculated for the main RAM 84 . The checksum may be calculated by any method, but it is the same as the calculation method when the checksum is calculated in the power failure process in the power failure monitoring process (step S201) of the timer interrupt process (FIG. 14) to be described later. ing. After that, the checksum calculated in the power failure processing executed immediately before the supply of operating power to the main MPU 82 is stopped and stored in the main RAM 84 is read, and the read checksum is used in the current main MPU 82. Compare with the checksum calculated in the process. Then, it is determined whether or not the checksums match.

If the checksums match (step S105: YES), it is determined whether the setting value corresponding to the information stored in the setting reference area of the main RAM 84 is within the normal range (step S106). The setting reference area is a storage area in which information for specifying the setting value set to be used in the current pachinko machine 10 by the main side MPU 82 is stored. When the setting reference area stores the numerical value information of "1", the current setting value of the pachinko machine 10 becomes "setting 1". When the setting reference area stores the numerical value information of "2", the current setting value of the pachinko machine 10 is "setting 2". When the setting reference area stores the numerical value information of "3", the current setting value of the pachinko machine 10 is "setting 3". When the numerical value information of "4" is stored in the setting reference area, the current setting value of the pachinko machine 10 is "setting 4". When the numerical information of "5" is stored in the setting reference area, the current setting value of the pachinko machine 10 is "setting 5". When the numerical information of "6" is stored in the setting reference area, the current setting value of the pachinko machine 10 is "setting 6". In step S106, it is determined whether or not the setting value information stored in the setting reference area is one of "1" to "6".

If affirmative determination is made in all of steps S104 to S106, it means that information abnormality has not occurred in the main RAM 84. FIG. In this case, it is determined whether or not the setting updating flag provided in the main RAM 84 is set to "1" (step S107). The setting updating flag is a flag for specifying in the main side MPU 82 that the setting value updating process (step S117) described later is being executed. is a display indicating that the setting value is being updated and a setting value being updated on the notification display device 141 (see FIG. 6) mounted on the main control board 81 of the main control device 71. is done. The notification display device 141 has a plurality of segment displays. These multiple segment displays are arranged side by side on the element mounting surface of the main control board 81, and the display surface of each segment display can be viewed from the outside of the board box without opening the board box of the main control unit 71. It has become.

The setting updating flag is set to "1" when the setting value updating process (step S117) is started, and is cleared to "0" when the setting value updating process (step S117) ends. In a situation where the setting value updating process (step S117) is not executed, the setting updating flag is basically not set to "1". However, if the supply of operating power to the main MPU 82 is stopped while the set value update process (step S117) is being executed, if the supply of operating power to the main MPU 82 is started after that , the setting updating flag is set to "1". This state in which the setting updating flag is set to "1" is maintained until the setting updating flag is cleared to "0" in the setting value updating process (step S117).

If a negative determination is made in step S107 because the setting updating flag is not set to "1", it is determined whether or not the reset button 142 (see FIG. 6) is pressed (step S108). The reset button 142 is provided on the element mounting surface of the main control board 81 , and the pressing operation portion of the reset button 142 is not covered by the board box of the main control device 71 . Therefore, it is possible to operate the reset button 142 without opening the board box. In step S108, it is determined whether or not the power ON operation of the pachinko machine 10 is performed in the state where the reset button 142 is pressed and the supply of operating power to the main side MPU 82 is started.

If the reset button 142 is not pressed (step S108: NO), it is determined whether or not the game stop flag provided in the main RAM 84 is set to "1" (step S109). The game stop flag is set to "1" when the power failure flag is not set to "1", the checksum does not match, or the set value is abnormal. By setting "1" to the game stop flag, while executing the processing of steps S201 to S205 in the timer interrupt processing (FIG. 14) described later, step S207 to step S207 by making an affirmative determination in step S206 The process of S220 is not executed. As a result, if the power failure flag is not set to "1" because the power failure process was not properly performed at the time of the previous power failure, the storage state of the main RAM 84 has changed since the previous power failure. If the checksum does not match due to the fact that the game is running, or if the set value is abnormal, power failure monitoring, updating of various counters, and fraud monitoring are executed. will not be executed. When an affirmative determination is made in step S109, the processes of steps S124 and S125, which will be described later, are executed.

If a negative determination is made in step S109, it is determined whether or not the setting key insertion unit 143 (see FIG. 6) is turned on using the setting key (step S110). The setting key inserting portion 143 is provided on the device mounting surface of the main control board 81 , and the keyhole portion for performing ON operation using the setting key for the setting key inserting portion 143 is formed in the board box of the main controller 71 . not covered by Therefore, it is possible to perform an ON operation by pressing the setting key to the setting key insertion portion 143 without opening the circuit board box. If the setting key insertion unit 143 is turned on using the setting key (step S110: YES), a setting confirmation process is executed (step S112). Further, even if the setting key insertion unit 143 is not turned on using the setting key (step S110: NO), the setting checking flag provided in the main RAM 84 is set to "1". If there is (step S111: YES), a setting confirmation process is executed (step S112).

The setting confirmation flag is a flag for specifying in the main MPU 82 that the setting confirmation process (step S112) is being executed. On the display device 141, a display indicating that the setting value is being checked and a display indicating the currently set setting value are performed. The setting confirmation flag is set to "1" when the setting confirmation process (step S112) is started, and is cleared to "0" when the setting confirmation process (step S112) is terminated. In a situation where the setting confirmation process (step S112) is not executed, the setting confirmation flag is basically not set to "1". However, if the supply of operating power to the main MPU 82 is stopped while the setting confirmation process (step S112) is being executed, if the supply of operating power to the main MPU 82 is started after that , the setting confirmation flag is set to "1". When the setting confirmation flag is set to "1", a RAM clearing process (step S119), which will be described later, is executed, a setting value update process (step S117), which will be described later, is executed, or a setting confirmation flag is set to "1". This is maintained until the setting confirmation flag is cleared to "0" in the process (step S112).

As described above, not only when the reset button 142 is not pressed and the setting key insertion portion 143 is ON (that is, when the "setting confirmation operation" is performed), but also when the reset button 142 is The setting confirmation process (step S112) is executed by executing the setting confirmation process (step S112) even when the pressing operation is not performed and the setting confirmation flag is set to "1". When power failure processing is executed in this situation, the setting confirmation processing (step S112) is executed even if the "setting confirmation operation" is not performed when the supply of operating power is resumed thereafter. As a result, it is possible to continue to confirm the current set values of the pachinko machine 10.例文帳に追加On the other hand, even if the power failure process is executed while the setting confirmation process (step S112) is being executed, if the reset button 142 is pressed when the supply of operating power is resumed thereafter, Without executing the setting confirmation process (step S112), the RAM clear process (step S119) and the setting value update process (step S117) corresponding to the operation performed when the supply of operating power is restarted are executed. be. This makes it possible to prioritize the execution of the RAM clearing process (step S119) or the set value updating process (step S117) over the setting confirmation process (step S112).

Here, the setting confirmation process executed in step S112 will be described.

In the setting confirmation process, first, interrupt permission is set. As a result, timer interrupt processing (FIG. 14) is interrupted and started at a predetermined cycle. In the pachinko machine 10, in the process (steps S101 to S126) at the start of supply of operating power, the interrupt of the timer interrupt process (FIG. 14) is basically prohibited, and the setting confirmation process (step S112) and the setting Execution of the timer interrupt process (FIG. 14) is permitted while the value update process (step S117) is being executed. However, in the situation where the setting confirmation process (step S112) or the setting value update process (step S117) is being executed, the startup process in progress flag is set to "1", so the timer interrupt process (FIG. 14) is started, among the various processes of the timer interrupt process (FIG. 14), the processes for power failure monitoring, updating of various counters, and fraud monitoring are executed, while the process for advancing the game is executed. The timer interrupt processing (FIG. 14) is terminated without interruption. After that, on the condition that the setting confirmation flag of the main RAM 84 is not set to "1", the setting confirmation flag is set to "1". By setting the setting confirmation flag to "1", a display indicating that the setting value of the pachinko machine 10 is being confirmed and a display indicating the current setting value of the pachinko machine 10 are displayed on the notification display device. 141. After that, a confirmation start command is transmitted to the sound and light side MPU 93 . As a result, an image indicating that the setting confirmation process (step S112) is being executed and an image for recognizing the operation content for ending the setting confirmation process (step S112) are displayed on the pattern display device 41. The display side MPU 103 is display-controlled so that the

After that, it is determined whether or not the setting key insertion unit 143 has switched from the ON state to the OFF state using the setting key. When it is specified that the setting key insertion unit 143 has been switched from the ON state to the OFF state, the setting confirmation flag of the main side RAM 84 is cleared to "0". As a result, the state in which the display indicating that the current setting value of the pachinko machine 10 is being confirmed and the display indicating the current setting value of the pachinko machine 10 are performed on the notification display device 141 is canceled. be. After that, the interrupt prohibition is set. As a result, when the setting confirmation process (step S112) is terminated and the operation power supply start process (steps S101 to S126) in the main process (FIG. 13) is resumed, the timer interrupt process (FIG. 14) is performed. interrupt is disabled. After that, a return command at the time of confirmation is transmitted to the sound and light side MPU 93 . As a result, an image indicating that the setting confirmation process (step S112) is being executed in the pattern display device 41 and an image for making it possible to recognize the operation content for ending the setting confirmation process (step S112) are displayed. Display is terminated.

Returning to the description of the main processing (FIG. 13), when the setting key insertion unit 143 is not turned on using the setting key and the setting confirmation flag is not set to "1" (steps S110 and Step S111: NO), it is determined whether or not the gaming machine body 12 is open (step S113). A body open detection sensor 144 (see FIG. 6) is provided on the resin base 21 of the inner frame 13 . The body open detection sensor 144 is electrically connected to the main side MPU 82, and when the gaming machine body 12 is in a closed state with respect to the outer frame 11, it transmits a LOW level open detection signal to the main side MPU 82. On the other hand, when the game machine body 12 is in an open state with respect to the outer frame 11, an open detection signal of HI level is transmitted to the main side MPU82. Note that the relationship between LOW and HI may be reversed. In step S113, it is determined whether or not a HI level open detection signal has been received from the main body open detection sensor 144 or not.

When a HI level open detection signal is received from the main body open detection sensor 144 (step S113: YES), that is, when the gaming machine main body 12 is in an open state with respect to the outer frame 11, the ceiling of the main side RAM 84 Information of 500 times, which is the number of fixed ceilings, is set in the counter 131 (step S114). The process of step S113 is executed when the supply of operating power to the pachinko machine 10 is started and the reset button 142 is pressed and the setting key insertion portion 143 is turned ON by the setting key. In addition, both the setting updating flag and the setting checking flag of the main RAM 84 are not set to "1". In this case, the setting confirmation process (step S112), the set value update process (step S117), and the RAM clear process (step S119) are not executed in the process (steps S101 to S126) when the supply of operating power is started. situation. In addition, in the game hall, the main power supply for supplying operating power to each pachinko machine 10 is turned off, and the power switch provided in the power supply/launch control device 78 of each pachinko machine 10 is turned on in advance. When it is time to start business for the day, the pachinko machines 10 are activated all at once by turning on the main power supply.

Under such circumstances, if the affirmative determination is made in step S113, the setting confirmation process (step S112), the setting value update process (step S117), and the RAM clear process (step S119) are not executed. This is the case where the supply of operating power is started while the main body 12 is intentionally left open. In such a situation, the ceiling counter 131 is set with information of 500 times, which is the number of fixed ceilings. As a result, it is possible to create a situation in which the ceiling counter 131 is set to 500 times, which is the number of fixed ceilings, when the supply of operating power is started, as a situation different from that at the start of normal business hours, and to confirm the setting. It is possible to generate this operation without using the application process (step S112), the set value update process (step S117), and the RAM clear process (step S119).

When a negative determination is made in step S113 or when the process of step S114 is executed, a normal return command is transmitted to the sound/light side MPU 93 (step S115). By receiving the normal return command, the sound and light side MPU 93 specifies that the processing (steps S101 to S126) at the time of starting supply of operating power in the main side MPU 82 is completed, and at the time of starting supply of operating power this time. (steps S101 to S126), it is determined that none of the RAM clearing process (step S119), setting confirmation process (step S112), and setting value update process (step S117) has been executed.

On the other hand, if it is determined in step S108 that the reset button 142 has been pressed, and if it is determined that the setting key insertion unit 143 has been turned on using the setting key (step S116: YES). Alternatively, if it is determined in step S107 that the setting updating flag is set to "1", the setting value updating process is executed (step S117). As described above, not only when the reset button 142 is pressed and the setting key insertion portion 143 is turned ON (that is, when the "setting change operation" is performed), the reset button 142 is pressed. The setting value update process (step S117) is executed even when the setting updating flag is set to "1" regardless of whether or not there is a pressing operation and an ON operation of the setting key insertion unit 143, thereby updating the setting value. If the power failure process is executed while the process (step S117) is being executed, the operation contents at the time of starting the supply of the operating power after that are "no operation", "RAM clear operation", "setting change". The setting value update process (step S117) is executed regardless of whether the operation is "operation" or "setting confirmation operation". This makes it possible to give priority to the execution of the set value update process (step S117).

Here, the set value update process executed in step S117 will be described.

In the setting value update process, first, interrupt permission is set. As a result, timer interrupt processing (FIG. 14) is interrupted and started at a predetermined cycle. In the pachinko machine 10, in the processing (steps S101 to S126) at the start of supply of operating power, the interrupt of the timer interrupt processing (FIG. 14) is basically prohibited, and the setting confirmation processing (step S112) and the setting Execution of the timer interrupt process (FIG. 14) is permitted while the value update process (step S117) is being executed. However, in the situation where the setting confirmation process (step S112) or the set value update process (step S117) is being executed, the startup process in progress flag is set to "1", so the timer interrupt process (FIG. 14) is started, among the various processes of the timer interrupt process (Fig. 14), power failure monitoring, updating of various counters, and fraud monitoring are executed, while the process for progressing the game is executed. The timer interrupt processing (FIG. 14) is terminated without any interruption. After that, on condition that the setting updating flag of the main RAM 84 is not set to "1", the setting updating flag is set to "1". By setting the setting updating flag to "1", a display indicating that the setting value of the pachinko machine 10 is being updated and a display of the setting value selected as an update target of the pachinko machine 10 are displayed. This is performed by the notification display device 141 .

After that, the game stop flag of the main side RAM 84 is cleared to "0". If the power failure flag is not set to "1" because the power failure process was not properly performed at the time of the previous power failure (step S104: NO), the game stop flag is set to the main side from the time of the previous power failure. If the checksum does not match due to a change in the storage state of the RAM 84 (step S105: NO), or if the setting value corresponding to the information stored in the setting reference area is not within the normal range (Step S106: NO) This is a flag set to "1" in step S121 of the main process (FIG. 13). By setting the game stop flag to "1", the process of steps S201 to S205 is executed in the timer interrupt process (FIG. 14), while the affirmative determination is made in step S206 to perform steps S207 to S220. Take no action. As a result, when an information abnormality occurs in the main RAM 84 as described above, processing for power failure monitoring, updating of various counters, and fraud monitoring is executed, while processing for progressing the game is executed. It will not be done. By clearing the game stop flag to "0" in the set value update process, the state in which the occurrence of information abnormality in the main side RAM 84 is specified is released when the set value update process (step S117) is executed. becomes possible.

After that, "1" is set in the setting update area provided in the main RAM 84. FIG. The setting update area is a storage area in which information about setting values being updated in the setting value update process (step S117) is stored. If the setting update area stores the numerical value information "1", the setting value to be updated is "setting 1". If the setting update area stores the numerical value information "2", the setting value to be updated is "setting 2". When the setting update area stores the numerical value information "3", the setting value to be updated is "setting 3". When the setting update area stores the numerical value information "4", the setting value to be updated is "setting 4". If the setting update area stores the numerical value information "5", the setting value to be updated is "setting 5". If the setting update area stores the numerical value information "6", the setting value to be updated is "setting 6". After that, an update start command is transmitted to the sound and light side MPU 93 . As a result, an image indicating that the setting value update process (step S117) is being executed, an image for making it possible to recognize the operation content for changing the setting value, and the setting value update process (step S117) are completed. The display side MPU 103 is display-controlled so that the image for making the operation content for making it recognizable is displayed on the pattern display device 41 .

In the setting value update process, 1 is added to the value of the setting update area on condition that the reset button 142 is pressed. As a result, each time the reset button 142 is pressed once, the set value is updated to a value one step higher. When the value of the setting update area after adding 1 is 7 or more, "1" is set in the setting update area. As a result, when the reset button 142 is pressed once in the state of "setting 6", the setting returns to "setting 1".

In the setting value update process, it is determined whether or not the setting key insertion unit 143 has switched from the ON state to the OFF state using the setting key. When it is specified that the setting key insertion unit 143 has been switched from the ON state to the OFF state, the setting reference area is overwritten with the setting value information stored in the setting update area. As a result, the setting value information updated as a result of this setting value updating process (step S117) is set in the setting reference area, and the setting value corresponding to the set information is the current pachinko machine. It becomes the setting value of the machine 10. After that, the interrupt prohibition is set. As a result, when the set value update process (step S117) is terminated and the process at the time of starting supply of operating power (steps S101 to S126) in the main process (FIG. 13) is resumed, the timer interrupt process (FIG. 14) is performed. interrupt is disabled.

After that, RAM clear processing is executed. In the RAM clearing process, an area (that is, a setting reference area) in which information of setting values indicating the setting state of the pachinko machine 10 is set in the main side RAM 84, information for calculating the role ratio in the ceiling counter 131 and the main side RAM 84 Except for the area where is stored, the main side RAM 84 is cleared to "0" and initialized. As a result, the area indicating whether or not the winning lottery mode is the high probability mode is cleared to "0", so the winning lottery draws regardless of the winning lottery mode immediately before the supply of the operating power to the pachinko machine 10 is stopped. Mode is low probability mode. In addition, the game round is not executed, the open/close execution mode is not executed, and the normal diagram display section 38a is not displayed in a variable manner, and the general electric accessory 34a is in the closed state. situation. In addition, since the special figure reservation area 84a and the normal diagram reservation area 84c are also cleared to "0", the first reservation information, the second reservation information and the reservation information on the normal diagram side are erased. Also, the setting updating flag, the setting checking flag and the setting updating area are cleared to "0". Also, in the RAM clearing process, the various registers of the main MPU 82 are also cleared to "0" and then initialized. In this initial setting, the same processing as the internal function register setting processing in step S102 is executed.

Here, even if the set value update process (step S117) is executed, the ceiling counter 131 of the main RAM 84 is not initialized, and the ceiling counter 131 is newly set including the fixed ceiling number information. is not performed. As a result, even if the set value update process (step S117) is executed, the remaining number of peaks can be maintained.

After that, a return command at the time of update is transmitted to the sound and light side MPU 93 . As a result, an image indicating that the set value update process (step S117) is being executed in the pattern display device 41, an image for making it possible to recognize the operation content for changing the set value, and the set value update process (step S117). The display of the image for recognizing the operation content for ending step S117) ends.

Returning to the description of the main processing (FIG. 13), if it is determined in step S108 that the reset button 142 has been pressed and the setting key insertion portion 143 has not been turned ON using the setting key, When determined (step S116: NO), it is determined whether or not the game stop flag of the main RAM 84 is set to "1" (step S118). The game stop flag is set to "1" when the power failure flag is not set to "1", the checksum does not match, or the set value is abnormal. By setting the game stop flag to "1", while the processing of steps S201 to S205 is executed in the timer interrupt processing (FIG. 14), by making an affirmative determination in step S206, steps S207 to S220 Take no action. As a result, if the power failure flag is not set to "1" because the power failure process was not properly performed at the time of the previous power failure, the storage state of the main RAM 84 has changed since the previous power failure. If the checksum does not match or if the set value is abnormal, power failure monitoring, updating of various counters, and fraud monitoring are executed. will not be executed.

If the game stop flag is not set to "1" (step S118: NO), RAM clear processing is executed (step S119). In the RAM clearing process, an area (that is, a setting reference area) in which information of setting values indicating the setting state of the pachinko machine 10 is set in the main side RAM 84, information for calculating the role ratio in the ceiling counter 131 and the main side RAM 84 Except for the area where is stored, the main side RAM 84 is cleared to "0" and initialized. As a result, the area indicating whether or not the winning lottery mode is the high probability mode is cleared to "0", so the winning lottery draws regardless of the winning lottery mode immediately before the supply of the operating power to the pachinko machine 10 is stopped. Mode is low probability mode. In addition, the game round is not executed, the open/close execution mode is not executed, and the normal diagram display section 38a is not displayed in a variable manner, and the general electric accessory 34a is in the closed state. situation. In addition, since the special figure reservation area 84a and the normal diagram reservation area 84c are also cleared to "0", the first reservation information, the second reservation information and the reservation information on the normal diagram side are erased. Also, the setting updating flag and the setting checking flag are cleared to "0". Also, in the RAM clearing process, the various registers of the main MPU 82 are also cleared to "0" and then initialized. In this initial setting, the same processing as the internal function register setting processing of step SB102 is executed.

Here, even if the RAM clearing process (step S119) is executed, the ceiling counter 131 of the main RAM 84 is not initialized, and furthermore, the new setting of the ceiling number including the information of the fixed ceiling number is not performed. Not done. As a result, even if the RAM clearing process (step S119) is executed, the remaining ceiling count can be maintained.

Thereafter, a return command for clearing is transmitted to the sound and light side MPU 93 (step S120). The sound and light side MPU 93 receives the return command at the time of clearing, thereby specifying that the main side MPU 82 has completed the operation power supply start process (steps S101 to S126), and at the same time, starts supplying the current operating power. It specifies that the RAM clearing process (step S119) has been executed in the time process (steps S101 to S126).

If a negative determination is made in any of steps S104 to S106 in the main process (FIG. 13), that is, if the power failure flag is not set to "1", if the checksum does not match, or if the set value is abnormal If so, the game stop flag of the main side RAM 84 is set to "1" (step S121). As already described, by setting the game stop flag to "1", the processes of steps S201 to S205 are executed in the timer interrupt process (FIG. 14), while the affirmative determination is made in step S206 to step S207. ~ Do not execute the process of step S220. As a result, if the power failure flag is not set to "1" because the power failure process was not properly performed at the time of the previous power failure, the storage state of the main RAM 84 has changed since the previous power failure. If the checksum does not match due to the fact that the game is running, or if the set value is abnormal, power failure monitoring, updating of various counters, and fraud monitoring are executed. will not be executed.

After that, information of 500 times, which is the number of fixed ceilings, is set in the ceiling counter 131 of the main RAM 84 (step S122). As already explained, the set value update process (step S117) is executed, but even if it is executed, the ceiling counter 131 of the main RAM 84 is not initialized. A new setting of the number of times is not performed. Therefore, even if the set value update process (step S117) is executed to cancel the game stop state due to the information abnormality when the information abnormality of the main side RAM 84 occurs, the information of the ceiling counter 131 is maintained as it is. . On the other hand, when it is specified that an information error has occurred in the main RAM 84 and the game stop flag of the main RAM 84 is set to "1", the ceiling counter 131 is set to 500 times, which is the fixed ceiling frequency. information is set. As a result, even if the information in the ceiling counter 131 has been rewritten when an information error occurs in the main RAM 84, the information in the ceiling counter 131 can be reset to 500 times, which is the fixed ceiling frequency. becomes.

After that, it is determined whether or not the reset button 142 is pressed (step S123). If the reset button 142 is not pressed (step S123: NO), an abnormality command is sent to the sound and light side MPU 93 indicating that an abnormality has occurred in the power failure flag, checksum, or set value at the start of supply of operating power. (Step S124). Upon receiving the abnormality command, the sound and light side MPU 93 causes the display light emitting unit 64 to emit light in a manner corresponding to the information abnormality at the start of supply of the operating power, and at the same time, from the speaker unit 65, "Please change the setting." output a sound. Also, the character image "Please change the setting" is displayed on the pattern display device 41. - 特許庁These notifications are maintained until the supply of operating power to the pachinko machine 10 is stopped, and are terminated when the supply of operating power to the pachinko machine 10 is stopped. However, even if the supply of the operating power to the pachinko machine 10 is temporarily stopped, the above notification will not be made until the setting value update process (step S117) is executed when the supply of the operating power to the pachinko machine 10 is resumed. It will start again.

After that, external output processing at the time of abnormality is executed (step S125). In the abnormal external output process, a process for externally outputting an abnormal signal to the management computer of the game hall is executed. In this case, the signal output of the abnormal signal is performed over a predetermined period (for example, 100 milliseconds). However, it is not limited to this, and in the situation where the game stop flag is set to "1", the signal output of the abnormal signal is continued, and the game stop flag is cleared to "0" to output the abnormal signal. A configuration in which signal output is stopped may be employed.

If the reset button 142 has been pressed (step S123: YES), it is determined whether or not the setting key insertion section 143 has been turned on using the setting key (step S116). When the reset button 142 is pressed and the setting key insertion unit 143 is turned on using the setting key (steps S116 and S123: YES), set value update processing is executed (step S117). The processing contents of the set value update processing are as already explained. In other words, if the operating power is supplied to the main MPU 82 while the "setting change operation" is being performed, it means that the main RAM 84 has an abnormality, and it is negative in any of steps S104 to S106. Even when the determination is made, the set value update process (step S117) is executed. This makes it possible to give priority to changing the setting value. Also, in the set value update process (step S117), the game stop flag is cleared to "0" as already described. As a result, when the set value update process (step S117) is executed, it is possible to eliminate the state in which the main RAM 84 is abnormal after the update of the set values is completed.

On the other hand, if the reset button 142 has been pressed but the setting key insertion portion 143 has not been turned ON (step S123: YES, step S116: NO), the game stop flag of the main side RAM 84 is set to "1". (step S118). In the process of step S118 after the game stop flag is set to "1" in step S121, the game stop flag is naturally set to "1", so an affirmative determination is made in step S118. In this case, an abnormality command is transmitted to the sound and light side MPU 93 in step S124, and an abnormality signal is output to the outside in step S125.

In other words, when an abnormality related to the power failure flag, checksum, and set value occurs and a negative determination is made in any of steps S104 to S106, the operation to the main MPU 82 is performed in the situation where the "RAM clear operation" is being performed. Even if power supply is started, the RAM clearing process (step S119) is not executed. In addition, when the game stop flag is set to "1" and the "RAM clearing operation" is being performed, the supply of operating power to the main MPU 82 is started. Step S119) is not executed. As a result, even if the supply of operating power to the main MPU 82 is started while the "RAM clearing operation" is being performed, the state in which the game stop flag is set to "1" is not cleared. It becomes possible. On the other hand, if the "setting change operation" is performed, regardless of whether or not the game stop flag is set to "1", the setting value update process (step S117) is executed and the setting The game stop flag is cleared to "0" in the value update process (step S117). As a result, it becomes necessary to execute the set value update process (step S117) in order to eliminate the state in which the game stop flag is set to "1". Therefore, when an information abnormality occurs in the main RAM 84, it is possible not only to initialize a part of the area of the main RAM 84 but also to reset the set values.

When the supply of operating power to the main side MPU 82 is started in a situation where the game stop flag is set to "1", the "setting change operation" is not performed, that is, the case of "no operation" Alternatively, if the "RAM clear operation" or "setting confirmation operation" is performed, an affirmative determination is made in step S109 or step S118, whereby an abnormal command is transmitted in step S124 and an external Execute output processing. As a result, when the game stop flag is set to "1", the main side Every time the supply of operating power to the MPU 82 is started, an abnormality notification in the pachinko machine 10 and an external output at the time of abnormality to the outside of the pachinko machine 10 are performed. Therefore, it is possible to make the manager of the game hall recognize that the set value should be changed.

When the process of step S112 is executed, when the process of step S115 is executed, when the process of step S117 is executed, when the process of step S120 is executed, or when the process of step S125 is executed, The raising process flag is cleared to "0" (step S126). When the timer interrupt processing (FIG. 14) is started by clearing the start-up processing flag to "0", a negative determination is made in step S206, so that not only the processing of steps S201 to S205 but also step S207 ∼ Step S220 is executed, and the state in which the processing for progressing the game is not executed is released. In step S126, the power failure flag of the main RAM 84 is also cleared to "0".

After that, the process proceeds to the remaining processes of steps S127 to S130. In other words, although the main MPU 82 is configured to periodically execute the timer interrupt processing (FIG. 14), there will be a residual time between one timer interrupt processing and the next timer interrupt processing. This remaining time fluctuates according to the processing completion time of the timer interrupt processing, but such irregular time is used to repeatedly execute the remaining processing of steps S127 to S130. In this regard, it can be said that the remaining processes of steps S127 to S130 are irregular processes that are executed irregularly.

In the remaining process, first, in step S127, interrupt prohibition is set to prohibit the occurrence of the timer interrupt process (FIG. 14). In subsequent step S128, random number initial value update processing for updating the random number initial value counter CINI is executed, and in step S129, variation counter update processing for updating the variation type counter CS is executed. In these updating processes, the current numerical information is read from the corresponding counter of the main RAM 84, and after executing the process of adding 1 to the read numerical information, the process of overwriting the reading source counter is executed. In this case, they are cleared to "0" when the counter value exceeds the maximum value. After that, in step S130, interrupt permission is set to switch from the state in which the generation of timer interrupt processing (FIG. 14) is prohibited to the state in which it is permitted. When the process of step S130 has been executed, the process returns to step S127, and the processes of steps S127 to S130 are repeated.

<Timer interrupt processing>
Next, timer interrupt processing will be described with reference to the flowchart of FIG. The timer interrupt process is repeatedly started at a period of 4 msec.

First, power failure monitoring processing is executed (step S201). In the power failure monitoring process, it is monitored whether or not a power failure signal corresponding to the occurrence of a power failure is received from the power failure monitoring board 85, and when the occurrence of a power failure is specified, an infinite loop occurs after the power failure process is executed. . In the power failure processing, the power failure flag of the main RAM 84 is set to "1", the checksum is calculated, and the calculated checksum is stored.

After that, random number update processing for lottery is executed (step S202). In the lottery random number update process, the winning random number counter C1, the type random number counter C2, the reach random number counter C3, and the general electrical random number counter C4 are updated. Specifically, the current numerical information is sequentially read from the hit random number counter C1, the type random number counter C2, the reach random number counter C3 and the general electric random number counter C4, and after executing the process of adding 1 to each of the read numerical information, Executes a process to overwrite the read source counter. In this case, they are cleared to "0" when the counter value exceeds the maximum value. Thereafter, in step S203, random number initial value update processing is executed in the same manner as in step S128 of the main processing (FIG. 13), and in step S204, variation counter update processing is executed in the same manner as in step S129 of the main processing (FIG. 13). do.

After that, fraud detection processing is executed to monitor whether or not a predetermined event set as a monitoring target for fraud has occurred (step S205). In the fraud detection process, the game stop flag provided in the main side RAM 84 is set to "1" by monitoring the occurrence of a plurality of types of events and confirming that a predetermined event has occurred.

After that, it is determined whether or not "1" is set to either the game stop flag or the start-up processing flag of the main RAM 84 (step S206). If "1" is set to either the game stop flag or the start-up processing flag (step S206: YES), this timer interrupt process is terminated without executing the processes of steps S207 to S220. As a result, in a situation where the game stop flag or the start-up processing flag is set to "1", power failure monitoring, random number updating, and fraud monitoring are executed in the timer interrupt processing (FIG. 14), while step It is possible to prevent the processing for advancing the game from S207 to S220.

When "1" is not set to both the game stop flag and the start-up processing flag (step S206: NO), the process for advancing the game in steps S207 to S220 is executed. Specifically, first, port output processing is executed (step S207). In the port output process, when the output information has been set in the previous timer interrupt process, a process for outputting corresponding to the output information to the various driving units 32b and 34b is executed. For example, when the information to switch the special electric prize winning device 32 to the open state is set, the output of the drive signal to the drive unit 32b for the special electric is started, and when the information to switch to the closed state is set stops the output of the drive signal. In addition, when information is set to switch the general electric accessory 34a of the second operation port 34 to the open state, the output of the drive signal to the general electric drive unit 34b is started to switch to the closed state. When the information is set, the output of the drive signal is stopped.

After that, read processing is executed (step S208). In the reading process, signals other than the power failure signal and the winning signal are read, and the read information is stored for use in future processing. After that, ball entry detection processing is executed (step S209). In the ball-entering detection process, signals received from the winning detection sensors 86a to 86e are read, and signals are sent to the general winning port 31, the special electric winning device 32, the first operating port 33, the second operating port 34, and the through gate 35. Execute processing to identify the presence or absence of a ball entry.

After that, a timer update process is executed to collectively update the numerical information of a plurality of types of timer counters provided in the main RAM 84 (step S210). In this case, the timer counters that are updated by subtracting the stored numerical information are collectively handled. may be configured.

After that, a launch control process for controlling the launch of game balls is executed (step S211). In a situation where the shooting operation is continued with respect to the shooting operation device 28, one game ball is shot every 0.6 seconds so as to have a predetermined shooting cycle, as already explained.

After that, as the input state monitoring process, based on the information read in the reading process of step S208, disconnection of each of the winning detection sensors 86a to 86e is checked, and the opening of the gaming machine main body 12 and the front door frame 14 is checked (step S212).

After that, a special figure special electric control process is executed to control the execution of game rounds and the opening and closing execution mode (step S213), and the display control of the general figure display unit 38a and the execution control of the general electric open state are performed. Executes the normal/universal electric power control process for the purpose (step S214). These special figure special electric control processing and general figure general electric control processing are explained in detail later.

In the following step S215, based on the processing result of step S213 and step S214 immediately before, setting the output information for reflecting the increase/decrease number of the first reservation information in the first special figure reservation display section 37c, the second reservation information Set the output information for reflecting the increase/decrease number in the second special figure reservation display section 37d, and set the output information for reflecting the increase/decrease number of the reservation information on the normal diagram side in the normal diagram reservation display section 38b. In addition, in step S215, based on the processing results of step S213 and step S214 immediately before, while setting the output information for updating the display contents of the first special figure display unit 37a and the second special figure display unit 37b , and sets output information for updating the display contents of the normal map display section 38a.

After that, the content of the command and signal received from the payout control device 77 is confirmed, and payout state reception processing for performing processing corresponding to the confirmation result is executed (step S216). Also, a payout output process for setting the prize ball command as an output target is executed (step S217). Also, an external information setting process is executed for controlling the start and end of the output of the external signal according to the processing results of the various processes executed in the current timer interrupt process (step S218).

Thereafter, setting monitoring processing is executed (step S219). In the setting monitoring process, by determining whether or not the setting value information stored in the setting reference area of the main side RAM 84 is one of "1" to "6", it is set as a use target. It is determined whether the setting value is one of "setting 1" to "setting 6". If the setting value information stored in the setting reference area is "0" or 7 or more, it means that the setting value set to be used is abnormal. is set to "1". As a result, the game cannot proceed until the setting value to be used is newly set in the setting value update process (step S117). Thereafter, management processing is executed (step S220). In the management process, a process for storing the game history for calculating the role ratio, a process for calculating the role ratio using the stored game history, and a notification display of the calculated role ratio. A process for displaying on the device 141 is executed.

<Public power control processing>
Next, the normal figure normal electric control process performed in step S214 of timer interrupt processing (FIG. 14) is demonstrated, referring the flowchart of FIG.

When winning to the through gate 35 has occurred (step S301: YES), the number of reservation information on the general pattern side stored in the first area 114a to the fourth area 114d of the general pattern reservation area 84c is the upper limit number On condition that it is less than four (step S302: NO), the storing process to the general pattern reservation area 84c is executed (step S303). In the storage process, the numerical information of the general electric random number counter C4 is used as the reservation information for the general pattern, and the reservation information for the general pattern is not stored in the first area 114a to the fourth area 114d of the general pattern reservation area 84c. Store in the area with the earliest digestion order. In addition, when the reservation information on the general map side is acquired, data for updating the display contents of the general map reservation display unit 38b in accordance with the increase in the number of the reservation information on the general map side this time Make settings.

When a negative determination is made in step S301, when an affirmative determination is made in step S302, or when the process of step S303 is executed, the general/universal/universal electrical address table stored in the main ROM 83 is read (step S304). In the general/universal electrical address table, the start address of the program for executing the processing corresponding to the numerical information of the general/universal electrical counter is set. The normal map general electric counter is a counter for specifying the processing contents to be executed in the general map general electric control process by the main side MPU 82 .

The general/universal electric counter can take values of "0" to "3", and each value of "0" to "3" corresponds to each process (steps S307 to S310). Specifically, when the value of the general pattern general electric counter is "0", the general pattern fluctuation start process (step S307), which is a process for starting the fluctuation display times in the general pattern display unit 38a, is executed. Then, when the value of the normal map general electric counter is "1", the normal map fluctuation process (step S308), which is a process for advancing the fluctuation display times in the general map display unit 38a, is executed. When the value of the figure general electric counter is "2", the general figure determination process (step S309), which is a process for ending the fluctuation display times in the general figure display unit 38a, is executed, and the general figure general electric When the value of the counter is "3", a general electric control process (step S310), which is a process for controlling the general electric open state of the general electric accessory 34a in the second operation port 34, is executed.

In the general map general electric control process, after reading the general general electric address table (step S304), the start address corresponding to the information of the general general electric counter is acquired from the general general electric address table (step S305). , jumps to the process indicated by the acquired start address (step S306). Each process of steps S307 to S310 will be individually described below.

<Normal map fluctuation start process>
First, the normal pattern fluctuation start processing in step S307 will be described with reference to the flowchart of FIG.

In the normal pattern fluctuation start process, on condition that the reservation information on the normal pattern side is stored in the normal pattern reservation area 84c (step S401: YES), the data setting process is executed (step S402). In the data setting process, the data stored in the first area 114a of the normal map reservation area 84c is moved to the execution area 115 for the normal map. After that, a process of shifting the data stored in the storage area of the general pattern reservation area 84c is executed. This data shift process is a process of sequentially shifting the data stored in the first to fourth areas 114a to 114d to the lower area side. The data in each area is shifted in the order of area 114c→second area 114b, fourth area 114d→third area 114c, and so on. Then, the fourth area 114d is cleared to "0". In addition, in the data setting process, data setting is performed so that the display contents of the general pattern reservation display section 38b are updated in accordance with the fact that the number of pieces of reservation information on the general pattern side has decreased this time.

After that, it is determined whether or not the current state is the opening/closing execution mode (step S403). (step S404). The first high-frequency flag is a flag for specifying whether or not the support mode is the first high-frequency support mode in the main MPU 82, and when the transition to the first high-frequency support mode occurs, The first high frequency flag is set to "1", and the first high frequency flag is cleared to "0" when the first high frequency support mode ends.

If it is the opening/closing execution mode (step S403: YES), the low probability table for the normal pattern is read from the main ROM 83 to the main RAM 84 (step S405). Further, if the first high-frequency flag is not set to "1" although the opening/closing execution mode is not set (step S404: NO), that is, if the support mode is the low-frequency support mode or the second high-frequency support mode, the main The low-probability table for the normal chart side is read from the side ROM 83 to the main side RAM 84 (step S405). On the other hand, if the first high-frequency flag is set to "1" instead of the opening/closing execution mode (step S404: YES), that is, if the support mode is the first high-frequency support mode, The high-probability table for the normal chart side is read out to the RAM 84 (step S406). The value of the general electric random number counter C4 that becomes the electric role open winning is set in each of the low probability table on the general diagram side and the high probability table on the general diagram side. In this case, the number of values of the general electric random number counter C4 that becomes the electric role open winning is set more in the high probability table on the general pattern side than in the low probability table on the general pattern side. As a result, when the high probability table on the general pattern side is referred to, the probability of winning the electric role open is higher than when the low probability table on the general pattern side is referred to. In other words, the high probability mode of the general pattern side and the low probability mode of the general pattern side are set so that the probability of winning the electric role is relatively high or low as the judgment mode of the general pattern correctness determination process (step S407) to be described later. Existing. The low probability table on the general map side is set so that the probability of winning the electric role is 1/2, and the high probability table on the general pattern side is set so that the probability of winning the electric role is 4/5. However, if the high-probability mode on the general map side has a higher probability of winning the electric role open than the low-probability mode on the general map side, the probability of winning the electric role open is arbitrary. .

When the process of step S405 or the process of step S406 is performed, a normal figure propriety determination process is performed (step S407). In the general map propriety determination process, for the table read in step S405 or step S406, numerical information about the general electric random number counter C4 in the reservation information on the general map side that is the execution target of the general pattern propriety determination process this time to match.

When the result of the general pattern winning judgment process is the electric role open winning (step S408: YES), the stop result setting process for the general pattern winning result is executed (step S409). Concretely, the information of the stopping mode of the pattern for the winning result of the general pattern to be finally stopped and displayed in the current variable display time in the general pattern display unit 38a is read from the main ROM 83 to the main RAM 84. In addition, one type of pattern stop mode may be set as the pattern stop mode for the normal pattern winning result, or a plurality of types of pattern stop modes may be set.

When the result of the normal pattern right or wrong determination process is not the electric role open election (step S408: NO), the stop result setting process for the normal pattern deviation result is executed (step S410). Concretely, the information of the stop mode of the pattern for the normal pattern deviation result that is finally stopped and displayed in the current display continuation time on the normal pattern display unit 38 a is read from the main ROM 83 to the main RAM 84 . In this case, the information on the mode of the selected pattern is different from the information on the stop mode of the pattern for the normal pattern winning result.

When the process of step S409 or the process of step S410 is executed, it is determined whether or not the current state is the opening/closing execution mode (step S411). It is determined whether or not "1" is set to either the frequency flag or the second high frequency flag (step S412). As already explained, the first high-frequency flag is a flag for specifying whether the support mode is the first high-frequency support mode in the main MPU 82, and the transition to the first high-frequency support mode occurs. The first high-frequency flag is set to "1" when the first high-frequency support mode is terminated, and the first high-frequency flag is cleared to "0" when the first high-frequency support mode ends. The second high-frequency flag is a flag for specifying whether or not the support mode is the second high-frequency support mode in the main MPU 82, and when the shift to the second high-frequency support mode occurs, the The second high frequency flag is set to "1", and the second high frequency flag is cleared to "0" when the second high frequency support mode ends.

If it is the opening/closing execution mode (step S411: YES), information corresponding to a long period of 10 seconds as the duration of the fluctuation display times in the normal map display unit 38a is stored in the normal map side provided in the main side RAM 84. A timer counter is set (step S413). Also, if "1" is not set to both the first high-frequency flag and the second high-frequency flag (step S412: NO), that is, if the support mode is the low-frequency support mode, the current general map display unit Information corresponding to 10 seconds, which is a long period of time as the duration of the variable display times in 38a, is set in the normal map side timer counter provided in the main side RAM 84 (step S413). The update of the numerical value information set in the normal map side timer counter is executed in the timer update process of step S210 in the timer interrupt process (FIG. 14). As a result, when the opening/closing execution mode is selected or when the support mode is the low-frequency support mode, the variable display times in the normal figure display section 38a are performed over a relatively long period of time.

If the first high-frequency flag or the second high-frequency flag is set to "1" instead of the opening/closing execution mode (step S412: YES), that is, the support mode is the first high-frequency support mode or the second high-frequency support mode. If it is the mode, information corresponding to 1 second, which is a short period of time, is set in the normal pattern side timer counter of the main side RAM 84 as the duration of the fluctuation display times in the normal pattern display section 38a (step S414). As a result, when the support mode is the first high-frequency support mode or the second high-frequency support mode, the variable display times in the normal diagram display section 38a are performed over a short period of time, which is a relatively short duration.

After that, the variable display of the pattern in the general pattern display section 38a is started (step S415). As a table to be referred to by the main side MPU 82 when the normal pattern display unit 38a performs the variable display of the pattern, the main side ROM 83 stores in advance a variable display table for the normal pattern. When the variation display of the pattern is executed in the normal pattern display section 38a, the same variation display table is used regardless of the result of the normal pattern propriety determination process. When the variable display of patterns is performed in the normal pattern display section 38a, the variable display of patterns according to a predetermined pattern is repeated. Control data for one round is set. Therefore, when the variable display of the pattern is performed in the normal pattern display section 38a, the variable display table for the normal pattern is repeatedly used until immediately before the final display is performed. Then, 1 is added to the value of the general-to-universal electric counter (step S416). As a result, the value of the normal map normal counter becomes "1" corresponding to the normal map fluctuation process (step S308).

<Normal map fluctuation process>
Next, the processing during the normal pattern fluctuation of step S308 in the normal pattern normal electric control process (FIG. 15) will be described.

In the processing during normal pattern fluctuation, it is determined whether or not the timing is during the variable display of the pattern in the normal pattern display section 38a and before the final display. Specifically, when the value of the normal diagram side timer counter that measures the duration of the current variable display time is 0.4 seconds remaining, it is determined that it is the timing before the fixed display. If it is before final display, a process for regularly changing the display mode of the pattern in the normal pattern display section 38a is executed. This regular change continues until the timing for starting the confirmation display. Moreover, this regular change is performed in a fixed manner regardless of whether or not the result of the normal figure suitability determination process (step S407) is an electric role open winning. Also, when the timing for final display has come, the display mode of the pattern in the normal pattern display unit 38a is set to the stop mode corresponding to the result of the normal pattern propriety determination processing of this time. This stop mode is a stop mode corresponding to the information read out to the main side RAM 84 at step S409 or step S410 of the normal pattern fluctuation start process (FIG. 16). Then, by adding 1 to the value of the general pattern general electric counter, the value of the counter is updated to correspond to the general pattern determination process.

<Normal map finalization processing>
Next, it demonstrates, referring the flowchart of FIG. 17 about the process during the normal pattern determination of step S309 in the normal pattern normal electric control process (FIG. 15).

By determining whether the value of the general chart side timer counter that measures the duration of this variable display time is "0", the fixed display period of this variable display time (specifically 0.4 seconds) has elapsed (step S501). If the fixed display period has passed (step S501: YES), it is determined whether or not the result of the normal figure winning/losing determination process in this variable display time is the electric role open winning (step S502). If it is not the electric role open winning (step S502: NO), after clearing the value of the general/universal electric counter to "0" (step S503), this general/universal figure determination process is terminated. As a result, the value of the normal pattern normal electric counter corresponds to the normal pattern fluctuation start process.

If it is elected to open the electric role (step S502: YES), it is determined whether or not the current state is the opening/closing execution mode (step S504). It is determined whether or not "1" is set to any of the second high frequency flags (step S505). If it is the open/close execution mode (step S504: YES), the processing of steps S506 to S508 is executed. Further, when the opening/closing execution mode is not set but both the first high-frequency flag and the second high-frequency flag are not set to "1" (step S505: NO), that is, when the support mode is the low-frequency support mode, The processing of steps S506 to S508 is executed.

In steps S506 to S508, first, "1" is set in the normal/commercial power open counter provided in the main RAM 84 (step S506). In addition, "10" is set in the general electric winning counter provided in the main side RAM 84 (step S507). In addition, information corresponding to 0.7 seconds, which is the duration of the short opening on the universal power side, is set in the universal power side timer counter of the main side RAM 84 (step S508). The general electric open counter is a counter for specifying the number of times the general electric accessory 34a of the second operation port 34 is set to the open state in the general electric open state of this time. The general electric prize counter specifies whether or not the number of game balls entered into the second operation opening 34 in the current general electric open state has reached 10, which is the upper limit number of the general electric side, by the main side MPU 82. is a counter for

By executing the processing of steps S506 to S508, the execution mode of the general power open state that occurs in the low frequency support mode becomes the low expectation mode. In other words, in the low-expectation mode general-purpose open state, the general-purpose electrical accessory 34a is short-opened once. As already explained, the shooting cycle of the game ball is 0.6 seconds. Even if it does occur, the number of hit balls is about one.

If the first high-frequency flag or the second high-frequency flag is set to "1" instead of the opening/closing execution mode (step S505: YES), that is, the support mode is the first high-frequency support mode or the second high-frequency support mode. If it is in the normal mode, set "3" to the general electric open counter of the main side RAM 84 (step S509), set "10" to the general electric prize winning counter of the main side RAM 84 (step S510), Information corresponding to 2 seconds, which is the continuation period of long open on the general power side, is set in the timer counter on the drawing side (step S511). By executing the processing of steps S509 to S511, the execution mode of the normal power supply open state that occurs in the first high-frequency support mode or the second high-frequency support mode becomes the high expectation mode. In other words, in the normal/universal electric open state of the high expectation mode, the long open of the general/universal electric accessory 34a occurs three times. As already explained, since the game ball shooting cycle is 0.6 seconds, when the general electric accessory 34a is opened once for a long time, about 3 game balls enter the second operation opening 34. obtain. Then, in the general electric open state of the high expectation mode, the long opening occurs three times with an interval period on the electric power side in which the second operating port 34 is in the closed state. Therefore, when the high-expectation mode general electric open state occurs, about nine game balls can enter. In addition, since the general electric open state ends when the number of game balls entering the second operation port 34 reaches 10, which is the upper limit number of the general electric side, the general electric open state in the high expectation mode When it occurs, the event that the general electric open state ends may occur when the upper limit number of game balls on the general electric side enter the second operation opening 34 .

When the process of step S507 or the process of step S510 is executed, the general electric accessory 34a of the second operation opening 34 is opened by starting the output of the drive signal to the general electric drive unit 34b (step S512). After that, by adding 1 to the value of the general/universal electric counter, the value of the counter is updated to correspond to the general/universal electric control process (step S513).

<Common electricity control processing>
Next, the general electric power control process of step S310 in the general electric power control process (FIG. 15) will be described.

In the general electric control process, when a prize to the second operation port 34 has occurred, the value corresponding to the number of prizes won is subtracted from the value of the general electric prize winning counter of the main side RAM 84 . Then, when the value of the general electric winning prize counter is "0", the value of the general electric open counter of the main side RAM 84 is cleared to "0", and the output of the driving signal to the general electric drive unit 34b is stopped. By doing so, the second operating port 34 is closed. Then, the value of the general/universal/universal electric counter is cleared to "0". As a result, the process to be executed in the next process round of the normal pattern normal electric control process becomes the normal pattern fluctuation start process (step S307).

If the winning to the second operation port 34 has not occurred or if the value of the general electric winning counter is not "0", it is checked whether the value of the general diagram side timer counter of the main side RAM 84 is "0". judge. When the value of the universal diagram side timer counter is "0", the output of the drive signal to the universal electric drive unit 34b is stopped, thereby closing the second operation port 34. FIG. Then, 1 is subtracted from the value of the general electric open counter of the main side RAM 84, and it is determined whether or not the value of the general electric open counter after the subtraction of 1 is "0". If the value of the general electric open counter after subtracting 1 is 1 or more, after maintaining the second operation port 34 in the closed state over the interval period (specifically, 1 second) on the general electric side, By outputting the drive signal to the drive portion 34b again, the second operation port 34 is opened. In addition, information corresponding to 2 seconds, which is the continuation period of long open on the universal power side, is set in the universal power side timer counter of the main side RAM 84 . As a result, the second operation port 34 is opened again, and the continuation period of the open state is set to 2 seconds, which is the continuation period of the long opening on the general power side. When the value of the general/universal electric open counter after subtracting 1 is "0", the value of the general/universal electric counter is cleared to "0". As a result, the process to be executed in the next process round of the normal pattern normal electric control process becomes the normal pattern fluctuation start process (step S307).

<Special special train control processing>
Next, the special figure special electric control processing executed in step S213 of the timer interrupt processing (FIG. 14) will be described with reference to the flowchart of FIG.

First, a hold information acquisition process is executed (step S601). In the pending information acquisition process, as shown in the flowchart of FIG. When the number of pieces of one piece of pending information is less than the upper limit storage number (step S702: YES), a process for acquiring the first piece of pending information is executed.

In the process for acquiring the first pending information, the number of unprocessed first pending information stored in the first special figure pending area 111 is provided in the main side RAM 84 in order to grasp the number of unprocessed first pending information in the main side MPU 82 1 is added to the value of the first special figure reservation counter (step S703). The display contents of the first special figure reservation display section 37c in the special figure unit 37 are adjusted according to the value of the first special figure reservation counter. As a result, the display content of the first special figure reservation display portion 37 c corresponds to the number of first reservation information stored in the first special figure reservation area 111 . After that, the values of the hit random number counter C1, the type random number counter C2 and the reach random number counter C3 are stored in the first storage area of the first special figure reservation area 111, that is, the number of reserved memories added by 1 in step S703 and the corresponding memory Store in the area (step S704). After that, the first hold command is transmitted to the sound and light side MPU 93 (step S705). Thereby, the display side MPU 103 controls the display of the pattern display device 41 so that the display content of the first reserved display area 42a of the pattern display device 41 becomes the display content corresponding to the increase of the first reserved information.

When a negative determination is made in step S701, when a negative determination is made in step S702, or when the process of step S705 is executed, a prize has been won in the second operation opening 34 (step S706: YES). Furthermore, on the condition that the number of second pending information stored in the second special figure pending area 112 is less than the upper limit storage number (step S707: YES), the process for acquiring the second pending information is executed. do.

In the process for acquiring the second pending information, the number of unprocessed second pending information stored in the second special figure pending area 112 is provided in the main side RAM 84 in order to grasp the number of unprocessed second pending information in the main side MPU 82 1 is added to the value of the second special figure reservation counter (step S708). The display contents of the second special figure reservation display section 37d in the special figure unit 37 are adjusted according to the value of the second special figure reservation counter. As a result, the display content of the second special figure reservation display section 37 d corresponds to the number of second reservation information stored in the second special figure reservation area 112 . After that, the values of the hit random number counter C1, the type random number counter C2 and the reach random number counter C3 are stored in the first storage area of the second special figure reservation area 112, that is, the number of reserved memories added by 1 in step S708 and the corresponding memory Store in the area (step S709). After that, the second hold command is transmitted to the sound and light side MPU 93 (step S710). Thus, the display side MPU 103 controls the display of the pattern display device 41 so that the display content of the second reserved display area 42b of the pattern display device 41 becomes the display content corresponding to the increase of the second reserved information.

Returning to the description of the special figure special electric control process (FIG. 18), after executing the pending information acquisition process in step S601, while reading the numerical information of the special figure special electric counter provided in the main side RAM84 (step S602) , the special figure special electric address table provided in the main side ROM 83 is read (step S603). Then, the start address corresponding to the numerical information of the special special electric counter is acquired from the special special electric address table (step S604), and the process indicated by the acquired start address is jumped to (step S605).

The special special electric counter is a counter for the main side MPU 82 to grasp which of the processes of steps S606 to S612 in the special special electric control process should be executed. , the start address in the program for executing each process of steps S606 to S612 is set in correspondence with the numerical information of the special special electric counter. When the value of the special figure special electric counter is "0", it jumps to the special figure fluctuation start processing of step S606, and when the value of the special figure special electric counter is "1", the special figure fluctuation processing of step S607 Jump to, if the value of the special special electric counter is "2", jump to the processing during special figure confirmation of step S608, if the value of the special special electric counter is "3" special electric of step S609 Jump to the start process, if the value of the special special electric counter is "4", jump to the special electric open processing of step S610, if the value of the special special electric counter is "5", of step S611 It jumps to special electric closing processing, and jumps to special electric end processing of step S612 when the value of the special special electric counter is "6". Each process of steps S606 to S612 will be individually described below.

<Special figure fluctuation start process>
First, the special figure fluctuation start processing of step S606 will be described with reference to the flowchart of FIG. It should be noted that the special figure fluctuation start process is not executed in the situation where the game round has already been executed and in the situation where the opening and closing execution mode is being executed.

In the special figure fluctuation start process, if the second reservation information is not stored in the second special figure reservation area 112 and the first reservation information is stored in the first special figure reservation area 111 (step S801: YES, step S802: NO), the first data setting process is executed (step S803). In the first data setting process, the data stored in the first area 111a of the first special figure reservation area 111 is moved to the execution area 113 for special figures. After that, a process of shifting the data stored in the storage area of the first special figure reservation area 111 is executed. This data shift process is a process of sequentially shifting the data stored in the first to fourth areas 111a to 111d to the lower area side. The data in each area is shifted in the order of area 111c→second area 111b, fourth area 111d→third area 111c. Then, the fourth area 111d is cleared to "0". After that, the value of the first special figure reservation counter of the main side RAM 84 is subtracted by 1. As a result, the display content of the first special figure reservation display portion 37c in the special figure unit 37 is changed to the content in which the first reservation information is reduced by one. Further, in the data setting process, the first decrease command indicating that the first reservation information in the first special figure reservation area 111 has decreased by one is transmitted to the sound and light side MPU 93 . Thereby, the display side MPU 103 controls the display of the pattern display device 41 so that the display content of the first reserved display area 42a of the pattern display device 41 becomes the display content corresponding to the decrease of the first reserved information.

On the other hand, when the second reservation information is stored in the second special figure reservation area 112 (step S801 and step S802: YES), the first reservation information acquired earlier than the second reservation information is the first Even if it is stored in the 1 special figure reservation area 111, the second data setting process is executed (step S804). In the second data setting process, the data stored in the first area 112a of the second special figure reservation area 112 is moved to the execution area 113 for special figures. After that, a process of shifting the data stored in the storage area of the second special figure reservation area 112 is executed. This data shift process is a process of sequentially shifting the data stored in the first to fourth areas 112a to 112d to the lower area side. The data in each area is shifted in the order of area 112c→second area 112b, fourth area 112d→third area 112c, and so on. Then, the fourth area 112d is cleared to "0". After that, the value of the second special figure reservation counter of the main side RAM 84 is subtracted by 1. As a result, the display content of the second special figure reservation display portion 37d in the special figure unit 37 is changed to the content in which the second reservation information is reduced by one. In addition, in the data setting process, a command is transmitted to the sound and light side MPU 93 at the time of the second reduction indicating that the second reservation information in the second special figure reservation area 112 has decreased by one. As a result, the display side MPU 103 controls the display of the pattern display device 41 so that the display content of the second reserved display area 42b of the pattern display device 41 becomes the display content corresponding to the decrease of the second reserved information.

When the second reservation information is stored as described above, even if the first reservation information acquired earlier than the second reservation information is stored, the second reservation information is the execution area for the special figure. 113 is subject to shift. As a result, the second pending information is digested with priority over the first pending information as a game start target.

If the process of step S803 or the process of step S804 is executed, the suitability determination process is executed (step S805). In the success/failure determination process, if the success/failure lottery mode is the low-probability mode and the start target of the game cycle is the first reservation information, the first success/failure table 121 (see FIG. 9A) at the time of the low probability is read from the main ROM 83. Read out to the main side RAM 84, and if the win/fail lottery mode is the low probability mode and the target for starting the game round is the second reservation information, the second win/fail table 122 (see FIG. 9B) at the time of the low probability is stored in the main side ROM 83. to the main side RAM 84, and if the win/loss lottery mode is the high probability mode, the win/fail table 123 at the time of high probability (Fig. 9 (c) )) is read from the main-side ROM 83 to the main-side RAM 84 . After reading the success/failure tables 121 to 123, from the hold information stored in the execution area 113 for the special figure, read out the information for success/failure determination, that is, the numerical information obtained from the random number counter C1, and the read numerical information is Then, it is determined whether or not the data group corresponding to the currently used set value among the read success/fail tables 121 to 123 matches any of the numerical information set as the big win result. In addition, when the numerical information set as the jackpot result does not match, the information for winning/failing determination is a data group corresponding to the setting values of the current use object among the read win/fail tables 121 to 123. WHEREIN: It is determined whether it corresponds with any of the numerical information set as a time saving result.

If the result of the success/failure determination process is a jackpot result (step S806: YES), a jackpot allocation determination process is executed (step S807). In the jackpot distribution determination process, if the start target of the game cycle is the first reservation information, the jackpot distribution table 125 for the first special figure (see FIG. 10(a)) is transferred from the main ROM 83 to the main RAM 84. If the target for starting the game round is the second reservation information, the second special figure jackpot distribution table 126 (see FIG. 10(b)) is read from the main ROM 83 to the main RAM 84 . After reading the jackpot distribution tables 125 and 126, the information for distribution determination, that is, the numerical information obtained from the type random number counter C2 is read from the reservation information stored in the execution area 113 for special figures, and the jackpot swing By referring to the minute tables 125 and 126, it is specified which type of jackpot result the read numerical information corresponds to.

After executing the distribution determination process for the big win, the flag of the main RAM 84 corresponding to the type of the result of the big win specified in the distribution determination process for the big win is set to "1" (step S808). After that, a stop result setting process for the jackpot result is executed (step S809). Specifically, information on the stop mode of the pattern to be finally stopped and displayed on the special figure display units 37a and 37b, which are the targets for starting the game round this time, is stored in the main ROM 83 in advance. It is specified from the result table, and the specified information is stored in the main side RAM 84 . In the stop result table for the jackpot results, the types of stop modes of the symbols stopped and displayed in the first special figure display section 37a or the second special figure display section 37b are set differently for each type of jackpot result. In step S809, the main side RAM 84 stores information on the pattern stop mode corresponding to the type of the jackpot result specified in step S808. The pattern stop mode may be set in a one-to-one correspondence with each jackpot result, or a plurality of types of pattern stop modes may be set for at least some of the jackpot results. Any method can be used to select a stop result for a jackpot result in which a plurality of types of pattern stop modes are set.

When the result of the success/failure determination process is not the jackpot result but the time saving result (step S806: NO, step S810: YES), the allocation determination process for time saving is executed (step S811). In the allocation determination process for time reduction, if the start target of the game round is the first reservation information, the time reduction allocation table 127 for the first special figure (see FIG. 10(c)) is transferred from the main ROM 83 to the main RAM 84 Read out, if the start target of the game round is the second reservation information, the time saving distribution table 128 for the second special figure (see FIG. 10(d)) is read from the main side ROM 83 to the main side RAM 84. After reading the time-saving distribution tables 127 and 128, from the pending information stored in the execution area 113 for special figures, the information for distribution determination, that is, the numerical information obtained from the type random number counter C2 is read, and the time-saving distribution By referring to the minute tables 127 and 128, it is specified which type of time saving result the read numerical information corresponds to.

After performing the distribution determination process for time saving, "1" is set to the flag of main side RAM84 corresponding to the kind of time saving result specified by the distribution determination process for the said time saving (step S812). Then, the stop result setting process for time saving results is performed (step S813). Specifically, the information on the stop mode of the pattern that is finally stopped and displayed on the special figure display units 37a and 37b, which are the targets for starting the game round this time, is stored in the main ROM 83 in advance. It is specified from the result table, and the specified information is stored in the main side RAM 84 . In this stop result table for the time saving result, the type of stop mode of the pattern stopped and displayed in the first special figure display unit 37a or the second special figure display unit 37b is set differently for each type of time saving result. In step S813, the main RAM 84 stores information on the pattern stop mode corresponding to the type of time saving result specified in step S812. The pattern stop mode may be set in correspondence with each time saving result on a one-to-one basis, or a plurality of types of pattern stop modes may be set for at least some of the time saving results. The method of selecting the stop result for the time saving result in which the stop mode of multiple types of patterns is set is arbitrary, but for example, the stop result may be selected according to the value of the type random number counter C2. The information on the form of the pattern selected in step S813 is different from the information on the form of the pattern selected in the case of the jackpot result.

When the result of the success/failure determination process is neither the jackpot result nor the time saving result (step S810: NO), the stop result setting process for the out result is executed (step S814). Specifically, information on the form of the pattern that is finally stopped and displayed on the first special figure display unit 37a or the second special figure display unit 37b in this game round is stored in the main ROM 83 in advance. The specified information is stored in the main side RAM 84 . The information of the pattern mode selected in this case is different from the information of the pattern mode selected in the case of the jackpot result and the information of the pattern mode selected in the case of the time saving result, and furthermore, the first feature There is one common type in the figure display portion 37a and the second special figure display portion 37b.

When the process of step S809, the process of step S813, or the process of step S814 is performed, the process of specifying the variable display period is performed (step S815). FIG. 21 is a flowchart showing processing for specifying a variable display period.

First, it is determined whether or not the high probability flag of the main RAM 84 is set to "1" (step S901). The high-probability flag is a flag for the main MPU 82 to specify whether or not the lottery mode is the high-probability mode. The high-probability flag is cleared to "0" when the high-probability mode is terminated. If the high probability flag is set to "1" (step S901: YES), that is, if the lottery mode is the high probability mode, the table group for high probability is read from the main ROM 83 to the main RAM 84 (step S901: YES). S902). In the situation where the selection process of the variable display period is executed in step S908 with reference to the table group for high probability, if a big hit result occurs in the current game round, or if the result of the success/failure determination process is out of line. Numerical information corresponding to the reach random number counter C3 in the hold information that is the object of execution corresponds to the occurrence of the out-of-reach display, and if the out-of-reach display occurs in the current game round, the fluctuation type counter at that time By collating the CS numerical information against the table corresponding to the reach in the table group for high probability, the information of the variable display period of the reach display mode is read. Although there are a plurality of types of variable display periods of the reach display mode, the variable display period of any of the reach display modes is longer than the variable display period in the case where the reach display does not occur.

When no big hit result occurs in the current game round and no out-reach display occurs, the second reservation information is the execution target of the game round and two or more second If it is a game round started in a situation where the hold information is stored, the information of the shortest period (specifically 3 seconds) on the special figure side is read as the variable display period of the current game round. As a result, it is possible to increase the efficiency of digesting the game times triggered by the second suspension information in the high probability mode. In addition, even if a time saving result occurs in this game round, the second reservation information is the execution target of the game round and two or more pieces of second reservation information are stored in the second special figure reservation area 112 If it is a game round started in a situation where it is, the information of the shortest period (specifically 3 seconds) on the special figure side is read.

On the other hand, in the current game round, when no big win result occurs and no out-reach display occurs, the second reserve information is the execution target of the game round and there is one second reserve in the second special figure reserve area 112. When the game round is started in the state in which the information is stored, or when the big win result does not occur in the current game round and the winning reach display does not occur, the first holding information is the execution object of the game round. If it is, read the information of the middle period (specifically 10 seconds) on the special figure side as the variable display period of this game round. Thereby, it becomes possible to secure a situation in which the second reservation information is acquired in the high probability mode. In addition, even if the time saving result occurs in this game round, the second reservation information is the execution target of the game round and one second reservation information is stored in the second special figure reservation area 112 If it is a game round started in the situation, or if the first pending information is the execution target of the game round, the information of the middle period (specifically 10 seconds) on the side of the special figure is read.

Even if the time saving result is selected in the success/failure determination process (step S805) in the high probability mode, it is invalidated. In this case, when the variable display period of the game round is selected by referring to the table group for high probability, the time saving result is treated in the same way as the off result, so that the occurrence of the time saving result that is invalidated It is possible to make it inconspicuous.

If the high probability flag of the main RAM 84 is not set to "1" (step S901: NO), either the first high frequency flag or the second high frequency flag of the main RAM 84 is set to "1". It is determined whether or not there is (step S903). If "1" is set to the first high frequency flag or the second high frequency flag (step S903: YES), that is, the lottery mode is the low probability mode and the support mode is the first high frequency support mode or the second 2 If it is the high frequency support mode, the table group for high frequency support is read from the main ROM 83 to the main RAM 84 (step S904). In the situation where the variable display period selection process is executed in step S908 with reference to the table group for high-frequency support, if a big hit result occurs in the current game round, or if the result of the success/failure determination process is out of line In addition, if the numerical information corresponding to the reach random number counter C3 in the hold information to be executed corresponds to the occurrence of the reach out indication and the out reach indication occurs in the current game round, the fluctuation type at that time By collating the numerical value information of the counter CS against the table corresponding to the reach in the table group for high frequency support, the information of the variable display period of the reach display mode is read. In this case, the selection mode of the variable display period of the reach display mode is different from when the table group for high probability is referred to. Specifically, when the table group for high probability is referred to, the frequency is higher. A longer variable display period is more likely to be selected than when a supporting table group is referenced. However, this relationship may be reversed.

If no big win result occurs in the current game round and no out-reach display occurs, the second reservation information is the execution target of the game round and there are two or more second pieces in the second special figure reservation area 112 If it is a game round started in a situation where the hold information is stored, the information of the shortest period (specifically 3 seconds) on the special figure side is read as the variable display period of the current game round. As a result, it is possible to increase the consumption efficiency of the game times triggered by the second hold information in the first high-frequency support mode or the second high-frequency support mode. In addition, even if a time saving result occurs in this game round, the second reservation information is the execution target of the game round and two or more pieces of second reservation information are stored in the second special figure reservation area 112 If it is a game round started in a situation, the information of the shortest period (specifically 3 seconds) on the special figure side is read.

On the other hand, in the current game round, when no big win result occurs and no out-reach display occurs, the second reserve information is the execution target of the game round and there is one second reserve in the second special figure reserve area 112. When the game round is started in the state in which the information is stored, or when the big win result does not occur in the current game round and the winning reach display does not occur, the first holding information is the execution object of the game round. If it is, read the information of the middle period (specifically 10 seconds) on the special figure side as the variable display period of this game round. This makes it possible to secure a situation in which the second hold information is acquired in the first high-frequency support mode or the second high-frequency support mode. In addition, even if the time saving result occurs in this game round, the second reservation information is the execution target of the game round and one second reservation information is stored in the second special figure reservation area 112 If it is a game round started in the situation, or if the first pending information is the execution target of the game round, the information of the middle period (specifically 10 seconds) on the side of the special figure is read.

In the situation where the low probability mode is the first high frequency support mode or the second high frequency support mode, even if the time saving result is selected in the success judgment process (step S805), the last game of the high frequency support mode times, it is disabled. In this case, if the variable display period of the game cycle is selected by referring to the table group for high frequency support, the time saving result will be invalidated by treating the time saving result in the same way as the lost result. can be made inconspicuous. Also, if the time saving result is selected in the last game round of the high frequency support mode, the second high frequency support mode triggered by the time saving result will occur, but even in this case the For the variable display period of the game cycle, the same variable display period as in the case of the loss result in which the reach display does not occur will be selected, so it is possible to determine whether the time-saving result or the loss result is from the variable display period of the game cycle. It is possible to make it difficult for the player to recognize.

When neither the first high frequency flag nor the second high frequency flag is set to "1" (step S903; NO), that is, the lottery mode is the low probability mode and the support mode is the low frequency support mode. If there is, it is determined whether or not the reach high frequency state flag provided in the main RAM 84 is set to "1" (step S905). The high-frequency reach state flag is a flag for specifying in the main MPU 82 whether or not the high-frequency reach state can occur in the low-probability mode and the low-frequency support mode. The reach high frequency state is a gaming state in which the out-reach display occurs more frequently than in the low-probability mode and low-frequency support mode when the reach high frequency state is not present.

If the reach high frequency state flag is set to "1" (step S905: YES), that is, in the low probability mode and the low frequency support mode and in the high reach frequency state, the table group for the high frequency reach It is read from the main ROM 83 to the main RAM 84 (step S906). In a situation where the variable display period selection process is executed in step S908 with reference to the table group for high reach frequency, the variable display period is selected in step S908 with reference to the table group for low frequency support, which will be described later. Numerical information corresponding to the reach random number counter C3 in the hold information to be executed when the result of the success/failure determination process is out of the situation in which the selection process is executed corresponds to the occurrence of the out of reach display more likely to be identified as

If a big hit result occurs in the current game round, or if the result of the winning/failure determination process is a loss result, the numerical information corresponding to the reach random number counter C3 in the hold information that is the object of execution corresponds to the occurrence of a loss reach display If the out-reach display occurs in the current game round, the reach display mode is obtained by collating the numerical information of the fluctuation type counter CS at that time against the reach correspondence table in the reach high frequency table group. Reads the information of the variable display period of In this case, the variable display period selection mode of the reach display mode is such that a longer variable display period is more likely to be selected than when a table group for low-frequency support, which will be described later, is referred to. In this case, the selection mode of the variable display period of the reach display mode is the same as in the case of referring to the table group for high probability, but the variation is longer than that in the case of referring to the table group for high probability. A display period may be easily selected, a shorter variable display period may be easily selected than when a high-probability table group is referred to, and a high-frequency support table group may be referred to. The configuration may be the same, or the configuration may be such that a shorter variable display period is more likely to be selected than when a table group for high-frequency support is referred to.

If a time-saving result occurs in the current game round, the numerical information of the variation type counter CS at that time is collated against the table corresponding to the time-saving result in the table group for high reach frequency, so that the variable display corresponding to the time-saving result Read period information. Multiple types of information are set for the variable display period corresponding to the time-saving result, and any variable display period corresponding to the time-saving result is longer than the shortest period on the special figure side, and corresponds to the occurrence of reach display. It is a period shorter than the variable display period. Specifically, 10 seconds, 11 seconds, 12 seconds and 13 seconds are set as the variable display period corresponding to the time saving result, and the period corresponding to the value of the variable type counter CS acquired among these is the game this time is selected as a variable display period.

When the big hit result and the time saving result do not occur in this game round and the out reach display does not occur, the first reservation information is the execution target of the game round and there are three or more in the first special figure reservation area 111 If it is a game round started in a situation where the first hold information is stored, the information of the shortest period (specifically 3 seconds) on the special figure side is read as the variable display period of the current game round. As a result, it is possible to increase the efficiency of digestion of game times triggered by the first suspension information in the low-frequency support mode.

On the other hand, in the current game round, when the jackpot result and the time saving result do not occur and the out reach display does not occur, the first reservation information is the execution target of the game round and one or more in the first special figure reservation area 111 When the game round is started in a state where two pieces of first reservation information are stored, or when the big win result and the time saving result do not occur in the current game round and the winning reach display does not occur, the second When the hold information is the execution target of the game round, by collating the numerical information of the fluctuation type counter CS at that time against the table corresponding to the complete loss result in the high frequency reach table group, the complete loss result Read the information of the corresponding variable display period. Multiple types of information on the variable display period corresponding to the complete deviation result are set, and any variable display period corresponding to the complete deviation result is longer than the shortest period on the special figure side, and the variable display corresponding to the short time result The period is shorter than the variable display period corresponding to the occurrence of the reach display. Specifically, 5 seconds, 6 seconds, 7 seconds, and 8 seconds are set as the fluctuation display periods corresponding to the complete deviation result, and the period corresponding to the value of the fluctuation type counter CS acquired among these is this time It is selected as the variable display period of the game round.

If the reach high frequency state flag is not set to "1" (step S905: NO), that is, if the low probability mode is the low frequency support mode and the reach high frequency state is not set, the low frequency support table The group is read from the main ROM 83 to the main RAM 84 (step S907). In a situation where the variable display period selection process is executed in step S908 with reference to the table group for low-frequency support, variable display is performed in step S908 with reference to the table group for high-frequency reach, as described above. When the result of the success/failure determination process is out of the situation in which the period selection process is executed, the numerical information corresponding to the reach random number counter C3 in the hold information to be executed is out and the reach display is generated. Less likely to be identified as compatible.

If a big hit result occurs in the current game round, or if the result of the winning/failure determination process is a loss result, the numerical information corresponding to the reach random number counter C3 in the hold information that is the object of execution corresponds to the occurrence of a loss reach display If the out-of-range reach display occurs in this game round, the reach display mode is obtained by collating the numerical information of the fluctuation type counter CS at that time against the reach-compatible table in the low-frequency support table group. Reads the information of the variable display period of In this case, the variable display period of the reach display mode is selected such that a shorter variable display period is more likely to be selected than when the table group for high reach frequency is referred to, as described above.

If a time-saving result occurs in the current game round, the numerical information of the variation type counter CS at that time is collated against the table corresponding to the time-saving result in the table group for low frequency support, and the variable display corresponding to the time-saving result Read period information. The selection mode of the information of the variable display period corresponding to the time saving result is the same as when the table corresponding to the time saving result in the table group for reach high frequency is referred to. In other words, multiple types of information are set for the variable display period corresponding to the time saving result, and even in any variable display period corresponding to the time saving result, the reach display will occur longer than the shortest period on the special figure side. This period is shorter than the corresponding variable display period. Specifically, 10 seconds, 11 seconds, 12 seconds and 13 seconds are set as the variable display period corresponding to the time saving result, and the period corresponding to the value of the variable type counter CS acquired among these is the game this time is selected as a variable display period.

When the big hit result and the time saving result do not occur in this game round and the out reach display does not occur, the first reservation information is the execution target of the game round and there are three or more in the first special figure reservation area 111 If it is a game round started in a situation where the first hold information is stored, the information of the shortest period (specifically 3 seconds) on the special figure side is read as the variable display period of the current game round. As a result, it is possible to increase the efficiency of digestion of game times triggered by the first suspension information in the low-frequency support mode.

On the other hand, when the big hit result and the time saving result do not occur in this game round and the out reach display does not occur, the first reservation information is the execution target of the game round and one or more in the first special figure reservation area 111 When the game round is started in a state where two pieces of first reservation information are stored, or when the big win result and the time saving result do not occur in the current game round and the winning reach display does not occur, the second When the hold information is targeted for execution of the game round, the numerical information of the fluctuation type counter CS at that time is collated against the table corresponding to the complete loss result in the table group for low frequency support, and the complete loss result is obtained. Read the information of the corresponding variable display period. The mode of selecting the information of the variable display period corresponding to the completely unsuccessful result is the same as the case of referring to the table corresponding to the completely unsuccessful result in the table group for high reach frequency. In other words, multiple types of information are set for the variable display period corresponding to the complete deviation result, and any variable display period corresponding to the complete deviation result is longer than the shortest period on the special figure side, This period is shorter than the display period and the variable display period corresponding to occurrence of reach display. Specifically, 5 seconds, 6 seconds, 7 seconds, and 8 seconds are set as the fluctuation display periods corresponding to the complete deviation result, and the period corresponding to the value of the fluctuation type counter CS acquired among these is this time It is selected as the variable display period of the game round.

When the process of step S902, the process of step S904, the process of step S906, or the process of step S907 is executed, the table group read out in any one of these processes is referred to and the variable display period selection process is executed (step S908). The contents of the selection processing are as already explained. Then, the information of the variable display period selected in step S908 is set to the special figure side timer counter provided in the main side RAM84 (step S909). The update of the numerical value information set in the special figure side timer counter is executed in the timer update process of step S210 in the timer interrupt process (FIG. 14).

Returning to the description of the special figure fluctuation start process (FIG. 20), after executing the process of specifying the fluctuation display period in step S815, the command for fluctuation corresponding to the game turn to be started this time and the type command It is transmitted to the sound and light side MPU 93 (step S816). The variation command includes information on the variation display period specified in step S815, and the game round to be started is either the first special figure display portion 37a or the second special figure display portion 37b. Contains information indicating whether it is supported. Although the variable command does not include information on whether or not to execute the reach display, the variable display period when the reach display occurs is set to be longer than the variable display period when the reach display does not occur. Since it is set, the sound and light side MPU 93 can specify whether or not the ready-to-win display is generated from the information on the variable display period. The type command includes information as to whether or not the game round to be started this time corresponds to the jackpot result, and if it corresponds to the jackpot result, which type of jackpot result. It contains information indicating whether In addition, the type command includes information on whether or not the game round that is the target of this start corresponds to the time saving result, and if it corresponds to the time saving result, which type of time saving result It contains information indicating whether the

After that, the variable display of the pattern is started in the display part which is the start target of the game cycle of this time among the first special figure display part 37a and the second special figure display part 37b (step S817). Then, 1 is added to the value of the special figure special electric counter (step S818). As a result, the value of the special figure special electric counter becomes "1" corresponding to the special figure fluctuation process (step S607).

In addition, when the sound and light side MPU 93 receives the command for variation and the type command, it executes processing for determining the execution contents of the game round effect corresponding to those commands. Then, light emission control of the display light emitting unit 64 and sound output control of the speaker unit 65 are executed according to the table corresponding to the processing result. As a result, the light emission effect in the display light emitting unit 64 and the sound output effect in the speaker unit 65 are executed over the variable display period of the current game round. Further, the sound/light side MPU 93 transmits a command corresponding to the content of execution of the game round effect determined this time to the display side MPU 103 . By receiving the command, the display side MPU 103 executes display control of the pattern display device 41 according to the table corresponding to the command. As a result, the display effect on the symbol display device 41 is executed over the variable display period of the current game cycle.

<Process during special figure fluctuation>
Next, the processing during special figure fluctuation executed in step S607 of the special figure special electric control processing (FIG. 18) will be described.

When the value of the special figure side timer counter is 1 or more and the fluctuation display period of the current game round has not passed, the display of the special figure display units 37a and 37b which are the execution targets of the current game round When it is the update timing of the contents, data setting for updating the display contents of the special figure display units 37a and 37b is performed. Thereby, the display contents of the pattern in the special figure display portions 37a and 37b to be controlled are updated to the display contents of the next order.

Aspect at the start of the variation display of the pattern in the special figure display unit 37a, 37b, and the update aspect of the variation display of the pattern are performed in a constant manner regardless of the result of the judgment result and the distribution judgment result, and the pattern display device It is carried out in a fixed manner regardless of the content of the presentation for the game round in 41 . For example, when a predetermined update timing occurs a plurality of times, the display content of the pattern rotates once, and a display pattern in which the display order is in a fixed order is repeatedly performed, and when the variable display period has passed, the display pattern The stop result determined at the start of the game round is displayed regardless of the order of display. This makes it possible to simplify the processing configuration for controlling the display of the special figure display units 37a and 37b.

On the other hand, when the value of the special figure side timer counter is "0", that is, when the fluctuation display period has elapsed, the final stop command is transmitted to the sound and light side MPU 93. After that, at the start of the game cycle, the pattern stop mode of the special figure display units 37a and 37b stored in the main side RAM 84 in either step S809, step S813 or step S814 in the special figure fluctuation start process (FIG. 20) Read information. As a result, the variable display of the pattern is stopped in a state in which the pattern corresponding to the game result of the current game round is displayed in the special figure display units 37a and 37b to be controlled. After that, the information of the final stop period (specifically 0.5 sec) is set to the special figure side timer counter. Thereby, the measurement of the final stop period is started. After that, add 1 to the value of the special special electric counter. As a result, the value of the special figure special electric counter becomes "2" corresponding to the special figure confirmation process (step S608).

When receiving the final stop command, the sound and light side MPU 93 transmits a corresponding command to the display side MPU 103 . When the display side MPU 103 receives the command, the combination of symbols corresponding to the stop result of the current round of the game is fixedly displayed on the symbol display device 41 over the final stop period.

<Processing during special figure confirmation>
Next, the processing during special figure determination executed in step S608 of the special figure special electric control processing (FIG. 18) will be described with reference to the flowchart of FIG.

When the value of the special figure side timer counter is "0" and the final stop period has passed (step S1001: YES), and the game result of this game round is a jackpot result (step S1002: YES ), information corresponding to the opening period (specifically 5 seconds) is set in the special figure side timer counter (step S1003), and an opening command is transmitted to the sound and light side MPU 93 (step S1004). When receiving the opening command, the sound and light side MPU 93 causes the pattern display device 41, the display light emitting portion 64 and the speaker portion 65 to perform an effect corresponding to the opening period.

After that, information of 500 times, which is the number of fixed ceilings, is set in the ceiling counter 131 of the main RAM 84 (step S1005). That is, when the opening/closing execution mode is started after the game round corresponding to the jackpot result is completed, the ceiling counter 131 is set with the information of 500 times, which is the number of fixed ceilings. If the ceiling counter 131 is configured to set the number of fixed ceiling times during the opening/closing execution mode or when the opening/closing execution mode ends, not when the opening/closing execution mode is started, the operation is performed after the opening/closing execution mode is started. If the power supply is stopped and the set value update process (step S117) or the RAM clear process (step S119) is executed when the supply of operating power is restarted, the set value update process ( In the step S117) or the RAM clearing process (step S119), the information indicating that the opening/closing execution mode is in progress is cleared as already explained, whereas the value of the ceiling counter 131 is maintained, so that the operation power is supplied. There is a risk that the game may be restarted in a situation where the number of remaining ceilings is small while the profit of the opening/closing execution mode is obtained until the game is stopped. On the other hand, when the opening/closing execution mode is started, the ceiling counter 131 is set with the information of 500 times, which is the number of fixed ceilings, so that the fraudulent act as described above can be neutralized.

Thereafter, information of 450 times, which is the period switching reference number, is set in the variation selection state counter 132 provided in the main RAM 84 (step S1006). The trigger for subtracting 1 from the value of the variable selection state counter 132 is the same as the trigger for subtracting 1 from the value of the ceiling counter 131 . That is, when one game cycle is completed in a situation where the winning lottery mode is not the high probability mode, the value of the variable selection state counter 132 is decremented by 1 at the end of the game cycle. Then, when the value of the variable selection state counter 132 is decremented by 1 in a situation where the value of the variable selection state counter 132 is 1 or more, and the value of the variable selection state counter 132 becomes "0", the main side RAM 84 is set to "1" in the reach high frequency state flag. In the low probability mode and low frequency support mode, if the high frequency reach state flag is set to "1", the high frequency reach is performed in the variable display period identification process (Fig. 21) as already described. A variable display period for game rounds is selected with reference to the table group for.

In other words, after the opening and closing execution mode is finished, if the period switching reference number of game rounds is consumed in the low probability mode, if the low frequency support mode, the table group for high frequency reach is referenced. High frequency state. And, in the reach high frequency state, as already explained, the probability that the reach display is selected is higher in the case of the outlier result than in the low probability mode and low frequency support mode and not in the high reach frequency state. In addition, the variable display period when the reach display is selected tends to be longer in the low probability mode and the low frequency support mode than in the high reach frequency state. Also, the period switching reference number of times is a predetermined number of times (specifically, 50 times) less than the fixed ceiling number of times. Therefore, it is possible to generate the reach high frequency state before the second high frequency support mode occurs due to the occurrence of the ceiling time reduction.

After that, 1 is added to the value of the special figure special electric counter (step S1007). As a result, the value of the special figure special electric counter becomes "3" corresponding to the special electric start processing (step S609).

If the game result of this game round is not a jackpot result (step S1002: NO), the subtraction process of the time saving state counter 134 (see FIG. 6) is executed in step S1008, and the change selection state counter 132 in step S1009 Perform subtraction processing, perform setting processing for time saving results in step S1010, perform subtraction processing of ceiling counter 131 in step S1011, and subtract high probability state counter 133 (see FIG. 6) in step S1012 Execute the process. The details of the processing in steps S1008 to S1012 will be described later. After that, the special figure special electric counter is cleared to "0" (step S1013). Thereby, the value of the special figure special electric counter becomes "0" corresponding to special figure variation start processing (step S606).

<Special electric start processing>
Next, the special electric start processing executed in step S609 of the special electric electric control processing (FIG. 18) will be described.

On the condition that the value of the special figure side timer counter is "0", that is, that the opening period has passed, the setting process of the number of times of opening and closing is executed. In this case, if the current game result is a 5R low probability result or a 5R high probability result, the round counter provided in the main side RAM 84 is set to "5", and if the current game result is a 10R high probability result, the main The round counter of the side RAM 84 is set to "10". The round counter is a counter for specifying the number of remaining round games in the opening/closing execution mode by the main MPU 82 . In addition, the information (specifically 29 seconds) of the opening duration of the round game is set to the special figure side timer counter. In addition, "10" is set in the winning counter provided in the main RAM 84. FIG. The winning counter is a counter for specifying the remaining number of winning upper limit numbers in the main MPU 82 . Further, the special electric prize winning device 32 is opened by outputting a drive signal to the special electric drive unit 32b. After that, add 1 to the value of the special special electric counter. As a result, the value of the special figure special electric counter becomes "4" corresponding to the special electric open processing (step S610).

<Processing during opening of the special train>
Next, a description will be given of the special electric open processing executed in step S610 of the special electric electric control processing (FIG. 18).

If the value of the special figure side timer counter is "0", that is, if the open continuation period has elapsed, the value of the round counter of the main side RAM84 is subtracted by 1 and the drive signal to the drive unit 32b for the special electric The special electric prize winning device 32 is closed by stopping the output. Further, when a game ball enters the special electric prize winning device 32, the value of the prize winning counter is decremented by 1, and when the value of the prize counter after the subtraction of 1 is "0", the main side RAM 84 The special electric winning device 32 is closed by subtracting 1 from the value of the round counter and stopping the output of the drive signal to the drive unit 32b for the special electric. Also, if the value of the round counter is subtracted by 1, if the value of the round counter after the subtraction of 1 is 1 or more, after setting the interval period information (specifically 3 seconds) to the special figure side timer counter , Add 1 to the value of the special special electric counter. As a result, the value of the special figure special electric counter becomes "5" corresponding to the special electric closing process (step S611). On the other hand, if the value of the round counter after subtracting 1 is "0", the information of the ending period (specifically 5 seconds) is set to the special figure side timer counter, and the ending command is transmitted to the sound light side MPU 93 After that, add 2 to the value of the special special electric counter. As a result, the value of the special figure special electric counter becomes "6" corresponding to the special electric end processing (step S612). When receiving the ending command, the sound and light side MPU 93 causes the pattern display device 41, the display light-emitting portion 64 and the speaker portion 65 to perform an effect corresponding to the ending period.

<Treatment during special train closure>
Next, the processing during special electric closing executed in step S611 of the special electric electric control processing (FIG. 18) will be described.

When the value of the special figure side timer counter is "0", that is, when the interval period has passed, the information of the open continuation period of the round game (specifically 29 seconds) is set in the special figure side timer counter . Also, "10" is set in the winning counter of the main side RAM 84. - 特許庁In addition, the special electric prize winning device 32 is opened by outputting a drive signal to the driving section 32b for the special electric. After that, the value of the special figure special electric counter is subtracted by 1. As a result, the value of the special figure special electric counter becomes "4" corresponding to the special electric open processing (step S610).

<Special call end processing>
Next, the special electric end processing executed in step S612 of the special electric electric control processing (FIG. 18) will be described with reference to the flowchart of FIG.

If the value of the special figure side timer counter is "0", that is, if the ending period has passed (step S1101: YES), the game result that triggered the opening and closing execution mode this time is a 5R high probability result or 10R If the result is a high probability result (step S1102: YES), the high probability flag of the main side RAM 84 is set to "1" (step S1103). The high-probability flag is a flag for specifying whether or not the winning lottery mode is the high-probability mode in the main side MPU 82, as already explained. When the high probability flag is set to "1", the lottery mode becomes the high probability mode.

Thereafter, the first high frequency flag of the main RAM 84 is set to "1" and the second high frequency flag of the main RAM 84 is cleared to "0" (step S1104). As already explained, the first high frequency flag is a flag for specifying whether the support mode is the first high frequency support mode in the main side MPU 82, and the second high frequency flag is the support mode as already explained. is the second high-frequency support mode. When the first high frequency flag is set to "1" and the second high frequency flag is cleared to "0", the support mode becomes the first high frequency support mode.

After that, the high probability state counter 133 provided in the main side RAM 84 is set with the information of "100", which is the number of times of continuation of the high probability (step S1105). The high-probability state counter 133 is a counter for specifying the remaining number of continuations of the high-probability mode in the main side MPU 82 . In this pachinko machine 10, the opening and closing execution mode triggered by the 5R high probability result or the 10R high probability result ends, and the high probability mode and the first high frequency support mode are entered. If the number of times the game is executed without a new jackpot result occurring in the mode is 100 times, which is the high probability continuation number, the low probability mode and the low probability mode are applied even if the jackpot result does not occur Low frequency support mode.

On the other hand, if the game result that triggered the opening/closing execution mode this time is the 5R low probability result (step S1102: NO), the high probability flag of the main side RAM 84 is cleared to "0" (step S1106). When the high probability flag is cleared to "0", the lottery mode becomes the low probability mode. Thereafter, the first high frequency flag of the main RAM 84 is set to "1" and the second high frequency flag of the main RAM 84 is cleared to "0" (step S1107). When the first high frequency flag is set to "1" and the second high frequency flag is cleared to "0", the support mode becomes the first high frequency support mode.

Then, the information of "100" which is the 1st time saving continuation frequency is set to the time saving state counter 134 provided in main side RAM84 (step S1108). The time saving state counter 134 is a counter for specifying the remaining number of continuations of the high-frequency support mode (first high-frequency support mode or second high-frequency support mode) in the low-probability mode situation in the main MPU 82 . In this pachinko machine 10, when the opening/closing execution mode triggered by the 5R low probability result ends, the low probability mode and the first high frequency support mode are entered. In the low probability mode and the first high frequency support mode, if the number of times the game is executed without generating a new jackpot result is the first number of time-saving continuations, the jackpot result is not generated. Low probability mode and low frequency support mode.

If the process of step S1105 or the process of step S1108 has been executed, the state designation command transmission process is executed (step S1019). In the transmission process, a state designation command corresponding to the state of the pachinko machine 10 determined by the processes of steps S1102 to S1108 is transmitted to the sound and light side MPU 93. The sound and light side MPU 93 executes a process for causing the pattern display device 41, the display light emitting section 64 and the speaker section 65 to execute an effect corresponding to the content of the received state designation command. After that, the special figure special electric counter is cleared to "0". Thereby, the value of the special figure special electric counter becomes "0" corresponding to special figure variation start processing (step S606).

<Subtraction processing of high probability state counter 133>
Next, it demonstrates, referring the flowchart of FIG. 24 about the subtraction process of the high probability state counter 133 performed in step S1012 of special figure determination processing (FIG. 22).

If the high-probability flag of the main RAM 84 is set to "1" (step S1201: YES), that is, if the lottery mode is the high-probability mode, the value of the high-probability state counter 133 of the main RAM 84 is subtracted by 1. (step S1202). Then, if the value of the high-probability state counter 133 after the subtraction of 1 is "0" (step S1203: YES), the high-probability mode after the end of the opening/closing execution mode is the first high-frequency support mode. means that 100 game rounds, which is the high-probability continuous number of times, have been completed. In this case, the high probability flag is cleared to "0" (step S1204), and the first high frequency flag of the main RAM 84 is cleared to "0" (step S1205). As a result, the normal game state is the low-probability mode and the low-frequency support mode. After that, transmission processing of the state designation command is executed (step S1206). In the transmission process, a state designation command indicating that the high-probability state has ended is transmitted to the sound and light side MPU 93 . By receiving the state designation command, the sound and light side MPU 93 terminates the execution of the performance corresponding to the high probability mode in the pattern display device 41, the display light emitting unit 64 and the speaker unit 65, and performs the performance corresponding to the normal game state. to start.

<Setting processing for time saving results>
Next, the setting process for the time saving result executed in step S1010 of the special figure determination process (FIG. 22) will be described with reference to the flowchart of FIG.

When the game result of the current game round is the time saving result (step S1301: YES), it is determined whether or not the high probability flag of the main side RAM 84 is set to "1" (step S1302). And when "1" is set to the high probability flag (step S1302: YES), the setting process for this time saving result is complete|finished, without performing the process after step S1303. In other words, even if the time saving result (first time saving result or second time saving result) is selected in the game round correctness determination process executed in the high probability mode, the time saving result is used as a trigger for the second high frequency The time saving result is invalidated without setting the support mode.

Here, setting processing for the time saving result (FIG. 25) is executed before the subtraction processing (FIG. 24) of the high probability state counter 133 as already explained in the processing during special figure determination (FIG. 22). As a result, in the last game cycle in the high-probability mode and the first high-frequency support mode, the value of the high-probability state counter 133 is decremented by 1 in the subtraction process (FIG. 24) of the high-probability state counter 133. Before the high probability flag and the first high frequency flag are cleared to "0" by the value of the high probability state counter 133 becoming "0", the setting process for the time saving result (FIG. 25) is executed Become. Then, when the setting process for the time saving result (FIG. 25) is executed at the timing, the high probability flag is still set to "1", so the setting of the second high frequency support mode triggered by the time saving result is not performed. Therefore, in the game round in which the success/failure determination process is executed in the execution mode corresponding to the high probability mode, it is possible to reliably invalidate the time saving result. In addition, such an effect during processing (FIG. 22) of the processing order of executing the setting process (FIG. 25) for the time saving result before the subtraction process (FIG. 24) of the high probability state counter 133 in the special figure determination process It can be realized by setting.

If the high probability flag is not set to "1" (step S1302: NO), it is determined whether or not the first high frequency flag or the second high frequency flag of the main RAM 84 is set to "1" ( step S1303, step S1304). That is, it is determined whether the support mode is one of the first high-frequency support mode and the second high-frequency support mode. When the support mode is the first high-frequency support mode or the second high-frequency support mode (step S1303 or step S1304: YES), this time saving result setting process is terminated without executing the processes after step S1305. That is, even if the time saving result (first time saving result or second time saving result) is selected in the game round success determination process executed in the situation that is the first high frequency support mode or the second high frequency support mode, When the setting process for the time saving result (FIG. 25) is executed in the first high frequency support mode or the second high frequency support mode, setting the second high frequency support mode triggered by the time saving result The time saving result is invalidated without being done. As a result, it is possible to prevent the setting for shifting to the high-frequency support mode from being additionally executed in the middle of the high-frequency support mode.

If the support mode is the low-frequency support mode (steps S1303 and S1304: NO), the second high-frequency flag in the main RAM 84 is set to "1" (step S1305). As a result, the support mode becomes the second high-frequency support mode. Then, if the time saving result of this time is the first time saving result (step S1306: YES), the time saving state counter 134 (see FIG. 6) provided in the main side RAM 84 is the first time saving continuation number "100" information is set (step S1307), and if the current time saving result is the second time saving result (step S1306: NO), information of "150" which is the second time saving continuation number is set to the time saving state counter 134 (step S1308 ). The time saving state counter 134 is a low probability mode and is a counter for specifying the remaining number of continuations of the time saving state which is a high frequency support mode (first high frequency support mode or second high frequency support mode) in the main side MPU 82 is. When the number of game rounds executed without the occurrence of a new jackpot result in the time saving state becomes 100 times, which is the first number of continuous time-saving operations, or 150 times, which is the second number of continuous time-saving operations, the jackpot. The low-probability mode and low-frequency support mode are entered even if no result has occurred.

If the process of step S1307 or the process of step S1308 has been executed, the state designation command transmission process is executed (step S1309). In the transmission process, a state specifying command indicating that the time saving state has started is transmitted to the sound and light side MPU 93 . The state designation command also includes information on the number of times of time-saving continuation set this time. When the sound and light side MPU 93 receives the state designation command, the pattern display device 41, the display light emitting unit 64, and the speaker unit 65 perform processing to indicate that the time saving state is started. Execute.

Even if the time saving result is selected in the success or failure determination process as described above, depending on the situation at the timing when the setting process for the time saving result (FIG. 25) is executed at the end of the game round that resulted in the time saving result, the The setting of the second high-frequency support mode triggered by the time saving result may or may not be performed. In this case, the stop result that is stopped and displayed on the special figure display units 37a and 37b in the game round in which the time saving result is selected in the success/failure determination process is the setting of the second high-frequency support mode triggered by the time saving result. While it does not change depending on whether it is performed or not, the stop result stopped and displayed on the pattern display device 41 changes depending on whether or not the setting of the second high-frequency support mode triggered by the time saving result is performed. . Such contents will be described in detail below. FIG. 26 is an explanatory diagram for explaining the stop result of the special figure display units 37a and 37b and the stop result of the symbol display device 41. FIG.

As already described, the game results that can be selected by the game round success/failure determination process (step S805) and various distribution determination processes (steps S807 and S811) include the 5R low probability result, the 5R high probability result, the 10R high probability result, There is a first time saver result, a second time saver result and a miss result. The stop result that is stopped and displayed as the fixed display of the game round in the special figure display units 37a and 37b is "1" in the case of the 5R low probability result and "2" in the case of the 5R high probability result, In the case of the 10R high probability result, it is "3", in the case of the first time saving result, it is "4", in the case of the second time saving result, it is "5". ”. These stop results do not change in any game situation. Therefore, by confirming the stop result of the special figure display portions 37a and 37b, the administrator of the game hall can uniquely grasp the game result of the game round.

The stop result that is stop-displayed as the confirmation display of the game cycle on the pattern display device 41 does not change in any game situation when it is a big hit result or when it is a losing result, but it is a time saving result. In some cases, it changes depending on the game situation. Specifically, in the case of the 5R low-probability result, the combination of the same even-numbered symbols is stop-displayed on any of the effective lines L1-L5 of the symbol rows Z1-Z3, and red is stop-displayed in the state indication area 43. be. In the case of the 5R high-probability result, a combination of the same odd-numbered symbols other than the "7" symbol is stop-displayed on any of the effective lines L1-L5 of the symbol rows Z1-Z3, and red color stops in the state suggesting area 43. Is displayed. In the case of the 10R high probability result, the combination of "7" symbols is stop-displayed on any of the valid lines L1-L5 of the symbol rows Z1-Z3, and red is stop-displayed in the state indication area 43. In the case of an out result, a combination of symbols corresponding to the jackpot result on each effective line L1 to L5 of the symbol rows Z1 to Z3, a combination of the first time saving pattern ("1, 2, 3") and a second time saving pattern (“3, 4, 1”) are stopped, and red color is stopped in the state suggestion area 43 .

In the case of the first time saving result, the normal game state which is a low probability mode and a low frequency support mode, or the time saving state which is a low probability mode and a high frequency support mode (first high frequency support mode or second high frequency support mode) If it is the final game round, the combination of the first time-saving patterns ("1, 2, 3") is stopped and displayed on any of the valid lines L1 to L5 of the pattern rows Z1 to Z3, and the state suggestion area 43 is displayed in red. In the case of the second time saving result, the normal game state which is a low probability mode and a low frequency support mode, or the time saving state which is a low probability mode and a high frequency support mode (first high frequency support mode or second high frequency support mode) If it is the final game round, the combination of the second time-saving patterns ("3, 4, 1") is stopped and displayed on any of the valid lines L1 to L5 of the pattern rows Z1 to Z3, and the state suggesting area 43 is displayed in red. Although details will be described later, in the final game round of the time saving state, the setting process for the time saving result (FIG. 25) after the subtraction process (step S1008) of the time saving state counter 134 for terminating the time saving state is executed. is executed, the time saving state has already ended at the timing when the setting process for the time saving result (FIG. 25) is executed, and the game state is normal.

FIG. 27A shows the first special figure display unit 37a and the symbol display device when the first time saving result is obtained in the game round triggered by the first reservation information, which is the final game round of the normal game state or the time saving state. 41 is an explanatory diagram for explaining the stop result of No. 41; FIG. As shown in FIG. 27 (a1), in the pattern rows Z1 to Z3 of the pattern display device 41, the combination of the first time-saving patterns ("1, 2, 3") is stopped and displayed on the middle line L2, suggesting a state. In the area 43, red is stopped and displayed. Further, as shown in FIG. 27(a2), "4", which is the stop result corresponding to the first time saving result, is stop-displayed on the first special figure display portion 37a.

On the other hand, if it is a game round other than the final game round of the high probability mode and the first high frequency support mode, or the final game round of the time saving state, the symbol row is either the first time saving result or the second time saving result In Z1 to Z3, combinations of non-reach-out symbols are stop-displayed on the effective lines L1 to L5. The combination of non-reach out patterns is the combination of patterns corresponding to the jackpot result, the combination of the first time saving patterns (“1 2 3”), the second time saving pattern combination (“3 4 1” ) and a combination of symbols other than the combination of out reach symbols. In the state suggesting area 43, blue is stop-displayed in the case of the first time saving result, and green is stop-displayed in the case of the second time saving result.

Figure 27 (b) is a game round other than the final game round of the high probability state or the time saving state, and the second special figure display section 37b in the case of the first time saving result in the game round triggered by the second reservation information and an explanatory diagram for explaining the stop result of the pattern display device 41. FIG. As shown in FIG. 27(b2), "4", which is the stop result corresponding to the first time saving result, is stopped and displayed on the second special figure display portion 37b. On the other hand, as shown in FIG. 27(b1), in the symbol rows Z1 to Z3 of the symbol display device 41, non-out-of-reach symbol combinations are stop-displayed on the respective effective lines L1 to L5, and in the state suggesting area 43, Blue is displayed as stopped.

In the case of a time saving result (first time saving result or second time saving result) that does not trigger the setting of the second high frequency support mode, a combination of non-reach out symbols on each effective line L1 to L5 of the symbol rows Z1 to Z3 appears stopped. Then, the combination of the non-reach out-of-reach symbols is stopped and displayed even when the result of the success/failure determination processing is the out-of-reach result.

FIG. 27(c) is an explanatory diagram for explaining the stop result of the second special figure display unit 37b and the symbol display device 41 in the case where the winning result is out of the winning judgment process in the game round triggered by the second reservation information is. As shown in FIG. 27(c2), the second special figure display portion 37b is stop-displayed as "-" which is the stop result corresponding to the deviation result. Further, as shown in FIG. 27(c1), in the symbol rows Z1 to Z3 of the symbol display device 41, combinations of non-reach-out symbols are stop-displayed on the respective effective lines L1 to L5, and in the state suggesting area 43, Red is displayed as stopped.

The display area of the symbol display device 41 is wider than the display area of the special symbol display portions 37a and 37b, and the symbol display device 41 is arranged substantially in the center of the game area PA, whereas the special symbol display portions 37a and 37b are arranged. is arranged on the corner side of the game area PA, the symbol display device 41 attracts the player's attention more than the special symbol display portions 37a and 37b. In addition, while the symbol display device 41 executes a wide variety of effects such as ready-to-win display, the special symbol display units 37a and 37b perform variable display of patterns in a fixed manner as already described, corresponding to the game results. Since only the stop result is displayed, the symbol display device 41 attracts the player's attention more than the special symbol display portions 37a and 37b also from this point. In such circumstances, if the time saving result (first time saving result or second time saving result) that does not trigger the setting of the second high frequency support mode is off to each effective line L1 to L5 of the symbol rows Z1 to Z3 result By stopping and displaying the combination of non-reach out-of-reach symbols that can be stopped and displayed in the case of, it is possible to make it difficult for the player to recognize that it has been invalidated despite the fact that the time saving result has been selected. Become.

If it is a time saving result (first time saving result or second time saving result) that does not trigger the setting of the second high frequency support mode, the valid lines L1 to L5 of the symbol rows Z1 to Z3 as described above. Even if the combination of the non-reach out-of-reach symbols is stopped and displayed even when the result is a loss result, a stop result different from the case where the result of the success/failure determination process is a loss result is displayed in the state suggesting area 43. Stop is displayed. That is, in the case of FIG. 27 (b) and FIG. 27 (c), if the first time-saving result does not trigger the setting of the second high-frequency support mode, the state as shown in FIG. 27 (b) While the suggestion area 43 is stopped in blue, the state suggestion area 43 is stopped in red as shown in FIG. In addition, in the case of the second time saving result that does not trigger the setting of the second high-frequency support mode, green is stopped and displayed in the state suggestion area 43, whereas in the case of the off result, the state suggestion area 43 is displayed in red. As a result, in a situation where the special symbol display portions 37a and 37b are difficult for the manager of the gaming hall to visually recognize, the combinations of non-reach out symbols are stopped and displayed on the effective lines L1 to L5 of the symbol rows Z1 to Z3 in the symbol display device 41. In this case, by checking the state suggesting area 43, it is possible to grasp which of the time saving result and the off result.

If it is the first time saving result that does not trigger the setting of the second high frequency support mode, and if it is the second time result that does not trigger the setting of the second high frequency support mode, the symbol row Z1 ~ Even if the combination of the non-reach out symbols is stopped and displayed on each of the effective lines L1 to L5 of Z3, the state suggesting area 43 has a stop result different from the first time saving result and the second time saving result. Stop is displayed. That is, in the case of the first time saving result that does not trigger the setting of the second high-frequency support mode, the blue color is stopped and displayed in the state suggestion area 43, while the second high-frequency support mode setting is triggered. In the case of the second time saving result that does not occur, green color is stop-displayed in the state suggesting area 43 . As a result, in a situation where the special symbol display portions 37a and 37b are difficult for the manager of the gaming hall to visually recognize, the combinations of non-reach out symbols are stopped and displayed on the effective lines L1 to L5 of the symbol rows Z1 to Z3 in the symbol display device 41. In this case, by checking the state suggesting area 43, not only is it a time saving result or a deviation result, but if it is a time saving result, it is either the first time saving result or the second time saving result. It is possible to comprehend.

A processing configuration that enables display of the stop result in the pattern display device 41 as described above will be described. FIG. 28 is a flow chart showing the variation pattern determination process executed by the sound and light side MPU 93 . In addition, the determination process of the variation pattern is executed when a variation command and a type command are received from the main MPU 82 .

When information indicating that the game round to be started this time corresponds to the jackpot result is set in the type command received this time (step S1401: YES), stop symbol determination processing for jackpot result is executed. (step S1402). In the stop symbol determination process for the big win result, as the stop result to be stopped and displayed in the symbol rows Z1 to Z3 of the symbol display device 41, a combination of stop symbols corresponding to the type of the current big win result is selected. The relationship between the types of jackpot results and combinations of stop symbols is as shown in FIG. In addition, in the stop symbol determination process for the big win result, the effective lines L1 to L5 for stopping and displaying the combination of the stop symbols corresponding to the type of the big win result of this time are determined by lottery. After that, red is selected as the stop result of the state suggestion area 43 of the pattern display device 41 (step S1403).

If information indicating that the game round to be started this time corresponds to the time saving result is set in the type command received this time (step S1404: YES), the current game state is a high probability state and time saving If it is not in the state (step S1405 and step S1406: NO), or if the current game state is the time saving state, even if it is the final game round of the time saving state (step S1406 and step S1407: YES), for time saving suggestion (step S1408). In addition, the sound and light side MPU 93 can specify whether the current game state is the normal game state, the high probability state or the time saving state by the state designation command received from the main side MPU 82, and further corresponds to the start of the time saving state It is possible to specify whether or not it is the final game round in the time saving state by the number of receptions of the variation command after receiving the state designation command to be performed.

In the stop symbol determination process for suggesting time saving, as the stop result to be stopped and displayed in the symbol rows Z1 to Z3 of the symbol display device 41, a combination of stop symbols corresponding to the type of the current time saving result is selected. Specifically, if it is the first time saving result, the combination of the first time saving pattern (“1, 2, 3”) is selected, and if it is the second time saving result, the combination of the second time saving pattern (“3, 4.1”). In addition, in the stopping symbol determination process for suggesting time saving, the effective lines L1 to L5 for stop-displaying the combination of the stopping symbols corresponding to the type of the time saving result of this time are determined by lottery. After that, red is selected as the stop result of the state suggestion area 43 of the pattern display device 41 (step S1409).

On the other hand, when the information indicating that the game round to be started this time corresponds to the time saving result is set in the type command received this time (step S1404: YES), and the current game state is If it is a high probability state (step S1405: YES), or if the current game state is a time saving state and is not the final game round of the time saving state (step S1406: YES, step S1407: NO), for non-reach out (step S1410). In the stop symbol determination process for non-reach out, as the stop result to be stopped and displayed in the symbol rows Z1 to Z3 of the symbol display device 41, the combination of symbols corresponding to the jackpot result, the combination of the first time-saving generated symbols ("1, 2・ 3 ”), the combination of the second time saving pattern (“3 4 1”) and the combination of non-reach out pattern, which is a combination of patterns other than the combination of the out reach pattern, is stopped and displayed. decide.

After that, when information indicating that the game round to be started this time corresponds to the first time saving result is set in the type command received this time (step S1411: YES), the symbol display device 41 blue is selected as the stop result of the state suggestion area 43 (step S1412). In addition, when information indicating that the game round to be started this time corresponds to the second time saving result is set in the type command received this time (step S1411: NO), the pattern display device 41 green is selected as the stop result of the state suggestion area 43 (step S1413).

When the type command received this time contains information indicating that the game round to be started this time corresponds to the result of losing (step S1404: NO), stop symbol determination processing for losing is executed. (Step S1414). In the stop symbol determination process for losing, when the variable display period information indicating that the game round to be started this time corresponds to the occurrence of the reach display is set in the variable command received this time , as a stop result to be stopped and displayed in the pattern rows Z1 to Z3 of the pattern display device 41, the combination of the winning reach symbols is determined by lottery, and the effective lines L1 to L5 for stopping and displaying the combination of the determined losing reach symbols are selected by lottery. determined by In addition, in the stop symbol determination process for failure, information of a variable display period indicating that the game cycle to be started this time does not correspond to the occurrence of the ready-to-win display is set in the variable command received this time. In the case, a combination of symbols corresponding to the jackpot result, a combination of the first time-saving patterns (“1, 2, 3”), a combination of the second time-saving patterns (“3, 4, 1”), and out reach patterns A lottery determines the result of stop display of a combination of symbols other than the combination of . After that, red is selected as the stop result of the state suggestion area 43 of the pattern display device 41 (step S1415).

If the processing of step S1403, step S1409, step S1412, step S1413, or step S1415 has been executed, pattern determination processing is executed (step S1416). In the pattern determination process, first, an advance notice lottery process is executed to determine whether or not an advance notice display is to be executed and, if the advance notice display is to be executed, the type of the advance notice display. Then, as a result of the advance notice lottery process, a variation pattern corresponding to the stop result determined in steps S1401 to S1415 and the information of the variation display period included in the variation command received this time is selected, and the selected variation pattern is selected. The corresponding variation pattern table is read from the sound and light side ROM 94 to the sound and light side RAM 95 . The sound and light side MPU 93 controls the display light emitting unit 64 and the speaker unit 65 according to the read variation pattern table, thereby causing the display light emitting unit 64 and the speaker unit 65 to perform the effect of the variation pattern corresponding to the current game round. .

Thereafter, a variation pattern command corresponding to the variation pattern determined in step S1416 is transmitted to the display side MPU 103 (step S1417). The display side MPU 103 reads the display control table corresponding to the received variation pattern command from the display side ROM 104 to the display side RAM 105 . The display-side MPU 103 controls the symbol display device 41 according to the read display control table, thereby causing the symbol display device 41 to display a variation pattern corresponding to the current game turn. In this case, the stop result to be stop-displayed in the symbol rows Z1 to Z3 of the pattern display device 41 and the stop result to be stop-displayed in the state suggesting area 43 of the pattern display device 41 in the game cycle are determined by the variation pattern determination process (FIG. 28). This is the stop result determined in steps S1401 to S1415.

<Subtraction processing of ceiling counter 131>
Next, it demonstrates, referring the flowchart of FIG. 29 about the subtraction process of the ceiling counter 131 performed in step S1011 during special figure determination (FIG. 22).

First, it is determined whether or not the high probability flag of the main RAM 84 is set to "1" (step S1501). Then, if the high probability flag is set to "1" (step S1501: YES), the subtraction process of the ceiling counter 131 ends without executing the processes after step S1502. In other words, the value of the ceiling counter 131 is not decremented in the game cycle executed in the high probability mode, and the ceiling counter 131 value is not decremented, thereby causing a ceiling time reduction. Nor.

Here, the subtraction process of the ceiling counter 131 (FIG. 29) is executed before the subtraction process of the high probability state counter 133 (FIG. 24) as already explained in the process during special figure determination (FIG. 22). As a result, in the last game cycle in the high-probability mode and the first high-frequency support mode, the value of the high-probability state counter 133 is decremented by 1 in the subtraction process (FIG. 24) of the high-probability state counter 133. Before the value of the high probability state counter 133 becomes "0" and the high probability flag and the first high frequency flag are cleared to "0", the subtraction processing of the ceiling counter 131 (FIG. 29) is executed. Become. Then, when the subtraction process (FIG. 29) of the ceiling counter 131 is executed at this timing, since the high probability flag is still set to "1", the subtraction of the value of the ceiling counter 131 is not executed. Therefore, it is possible to prevent the value of the ceiling counter 131 from being subtracted in the game round in which the winning/losing determination process is executed in the execution mode corresponding to the high-probability mode. In addition, such an effect of the process order of executing the subtraction process of the ceiling counter 131 (FIG. 29) before the subtraction process of the high probability state counter 133 (FIG. 24) in the special figure determination process (FIG. 22) It can be realized by setting.

If the high probability flag is not set to "1" (step S1501: NO), it is determined whether the value of the ceiling counter 131 is 1 or more (step S1502). If the value of the ceiling counter 131 is "0" (step S1502: NO), the subtraction process of the ceiling counter 131 is terminated without executing the processes after step S1503. As already explained, the process of setting information in the ceiling counter 131 is performed in a situation where none of the "RAM clear operation", "setting change operation" and "setting confirmation operation" are executed and the game machine body 12 is in the open state. Step S114 when the supply of operating power is started in a certain situation, step S122 when an information error occurs in the main side RAM 84 when the supply of operating power is started, and opening/closing execution mode are started. , and after the value of the ceiling counter 131 becomes "0", the value of the ceiling counter 131 is maintained at "0" unless one of the above processes is executed. On the other hand, the ceiling time reduction occurs when the value of the ceiling counter 131 is decremented by 1 in a situation where the value of the ceiling counter 131 is 1 or more, and the value of the ceiling counter 131 becomes "0". In this case, if the value of the ceiling counter 131 is "0" as described above (step S1502: NO), the subtraction process of the ceiling counter 131 is terminated without executing the processes after step S1503. As a result, the value of the ceiling counter 131 after subtracting 1 becomes "0", and a time saving state triggered by the ceiling time saving occurs, and the game times of the number of time saving continuations are digested without a big hit result occurring in the time saving state. When the time saving state ends and the normal game state is entered, the time saving state triggered by the ceiling time saving does not occur even if the game rounds in which no big winning results occur are repeated thereafter. Therefore, it is possible to prevent excessive occurrence of the time-saving state triggered by the ceiling time-saving.

If the value of the ceiling counter 131 is 1 or more (step S1502: YES), 1 is subtracted from the value of the ceiling counter 131 (step S1503), and whether or not the value of the ceiling counter 131 after the subtraction of 1 is "0". (step S1504). If the value of the ceiling counter 131 is "0" (step S1504: YES), on condition that the second high frequency flag of the main RAM 84 is not set to "1" (step S1505: NO), The second high frequency flag of the RAM84 is set to "1" (step S1506), and the information of "100" is set to the time saving state counter 134 of the main side RAM84 (step S1507). Thereby, it will be in the time saving state which is low probability mode and is 2nd high frequency support mode. In addition, the time-saving state ends when the number of times the game is executed without the occurrence of a jackpot result reaches 100 times, which is the first time-saving continuation number. state.

After that, a state designation command transmission process is executed (step S1508). In the transmission process, a state specifying command indicating that the time saving state has started is transmitted to the sound and light side MPU 93 . Information on the number of continuation of the first time saving set this time is also included in the state designation command. When the sound and light side MPU 93 receives the state designation command, the pattern display device 41, the display light emitting unit 64, and the speaker unit 65 perform processing to indicate that the time saving state is started. Execute.

On the other hand, even if the value of the ceiling counter 131 becomes "0" after subtracting 1, if the second high frequency flag is set to "1", the processing of steps S1506 to S1508 is not executed. This ceiling time saving is invalidated without setting the second high-frequency support mode triggered by the ceiling time saving. That is, even if the game times of the fixed number of times are completed in the state of the time saving state, the ceiling time saving is invalidated without setting the second high-frequency support mode with the ceiling time saving as a trigger. As a result, it is possible to prevent the setting for shifting to the high-frequency support mode from being additionally executed in the middle of the high-frequency support mode. In addition, the first high-frequency support mode is set only within the range until 100 game rounds are completed after the opening and closing execution mode, but when the opening and closing execution mode is started, the fixed ceiling number of times is set to 500 times. is set, the value of the ceiling counter 131 after decrementing 1 does not become "0" in the first high-frequency support mode.

When the affirmative determination is made in step S1505 or when the process of step S1508 is executed, the reach high frequency state flag of the main side RAM 84 is cleared to "0" (step S1509). As a result, when the ceiling time saving occurs, the reach high frequency state ends regardless of whether or not the setting of the second high frequency support mode triggered by the ceiling time saving is performed.

<Subtraction processing of time saving state counter 134>
Next, it demonstrates, referring the flowchart of FIG. 30 about the subtraction process of the time saving state counter 134 performed in step S1008 during special figure determination (FIG. 22).

First, it is determined whether or not the high probability flag of the main RAM 84 is set to "1" (step S1601). When "1" is set to the high probability flag (step S1601: YES), the subtraction process of the time saving state counter 134 is terminated without executing the process after step S1602. In the high-probability state, the support mode is the first high-frequency support mode, but since the high-probability state counter 133 is used to identify the trigger for ending the high-probability state, the high-probability flag is set to "1". is set, the process for subtracting the value of the time saving state counter 134 is not executed.

When "1" is not set to the high probability flag and "1" is set to the first high frequency flag or the second high frequency flag of the main side RAM84 (step S1602: YES), that is, time saving state, the value of the time saving state counter 134 of the main side RAM84 is subtracted by 1 (step S1603), and when the value of the time saving state counter 134 after the 1 subtraction is "0" (step S1604: YES), the main Both the first high frequency flag and the second high frequency flag of the side RAM 84 are cleared to "0" (step S1605). As a result, when the first high-frequency support mode is selected, the first high-frequency support mode is terminated and the low-frequency support mode is selected, and when the second high-frequency support mode is selected, the second high-frequency support mode is selected. The mode ends and becomes the low-frequency support mode. That is, the time saving state ends and the normal game state is entered.

After that, a state designation command transmission process is executed (step S1606). In the transmission process, a state designation command indicating that the time saving state has ended is transmitted to the sound and light side MPU 93 . By receiving the state designation command, the sound and light side MPU 93 terminates the execution of the effect corresponding to the time saving state in the pattern display device 41, the display light emitting unit 64 and the speaker unit 65, and performs the effect corresponding to the normal game state. let it start.

Here, during special figure determination processing (Figure 22), as already described, the setting process for the time saving result (Figure 25) before the subtraction process of the time saving state counter 134 (Figure 30) is executed, The subtraction process of the time saving state counter 134 (FIG. 30) is executed before the subtraction process of the ceiling counter 131 (FIG. 29). Moreover, the setting process (FIG. 25) for time saving results is performed before the subtraction process (FIG. 29) of the ceiling counter 131 as already demonstrated in processing (FIG. 22) during special figure determination. The effect of setting the execution order of such processes will be described with reference to the time chart of FIG. FIG. 31(a) shows the period during which the game round is executed, FIG. 31(b) shows the period of the time saving state, and FIG. 31(c) shows the subtraction of the time saving state counter 134 (step S1603). FIG. 31(d) shows the timing of setting the time saving state triggered by the time saving result (steps S1305 to S1308), and FIG. ) is executed.

First, the case where the result of the success/failure determination process becomes the time saving result in the last game in the time saving state and the value of the ceiling counter 131 becomes "0" will be described.

As shown in FIG. 31(b), in the situation of the time-saving state, a game round is started at the timing of t1 as shown in FIG. 31(a). Then, when the variable display period of the game round has passed, the stop result corresponding to the game result is displayed on the side of the first special figure display unit 37a and the second special figure display unit 37b that is the execution target of the game round. Along with the confirmation display, the stop result corresponding to the game result is also confirmed and displayed on the symbol display device 41 . The processing after step S1002 in the processing during special figure determination (FIG. 22) is executed by the lapse of the final stop period in a state where these stop results are displayed. In this case, since the game result of the game round is not a jackpot result, a negative determination is made in step S1002 of the special figure fixing process (FIG. 22), and the processes after step S1008 are executed.

In the processing after step S1008, the subtraction processing of the time saving state counter 134 (FIG. 30) is executed first. Since this time is a game round executed in the time saving state, the time saving state counter 134 as shown in FIG. 1 is subtracted from the value of Then, the value of the time saving state counter 134 after the subtraction of 1 becomes "0", so that the first high frequency flag and the second high frequency flag of the main side RAM 84 are cleared to "0", at the timing of t2 As shown in FIG. 31(b), the current time-saving state ends and the normal game state, which is the low-probability mode and the low-frequency support mode, is entered.

After that, the setting process (Fig. 25) for the time saving result in which the execution order of the process is set to the later order than the subtraction process (Fig. 30) of the time saving state counter 134 in the special figure finalizing process (Fig. 22) is executed do. Since the time saving result is selected in the success or failure determination process this time, the time saving result of this time as shown in FIG. The time saving state is set as a trigger. Therefore, at the timing of t3, as shown in FIG. 31(b), the game state becomes a time saving state in which the low probability mode and the second high frequency support mode are provided. In addition, since the time saving result of this time is the second time saving result, information of “150” which is the second time saving continuation frequency is set to the time saving state counter 134 .

After that, the execution order of the processing is set to the later order than the setting processing for the time saving result (FIG. 25) in the processing during special figure determination (FIG. 22) Execute the subtraction processing (FIG. 29) of the ceiling counter 131 . At the timing t4 during execution of the subtraction process (FIG. 29) of the ceiling counter 131, the value of the ceiling counter 131 is decremented by 1 as shown in FIG. The value becomes "0". In other words, ceiling time reduction occurs. However, as already explained, the result of the success/failure determination process in this game round is the time saving result, and at the timing of t3 in this game round, the time saving state has already been set with the time saving result as a trigger. Therefore, the ceiling time reduction that occurred this time is invalidated. After that, at the timing of t5, the current game round ends as shown in FIG. 31(a).

As described above, the setting process (Fig. 25) for the time saving result is set in the order after the execution order of the process than the subtraction process (Fig. 30) of the time saving state counter 134 in the special figure finalizing process (Fig. 22) By doing so, even if the result of the success/failure determination process is a time saving result in a game time other than the final game time in the time saving state, the setting of the second high frequency support mode triggered by the time saving result is not performed. When the result of the winning/failure determination process is the time saving result in the final game round of the time saving state, the setting of the second high-frequency support mode can be performed with the time saving result as a trigger. As a result, by preventing the setting of the time saving state from being newly set in the middle of the time saving state, the time saving result in the final game round of the time saving state is triggered by preventing the time saving state from continuing excessively. By making the setting of the time saving state valid, it is possible to give the player as much as possible the benefit of the time saving result being selected in the success/failure determination process. Also, such excellent effects can be produced by setting the execution order of the processes as described above.

As described above, even if the result of the success/failure determination process is a time saving result in the game times other than the final game time in the time saving state, the setting of the second high frequency support mode triggered by the time saving result is not performed. However, in the final game round of the time saving state, if the result of the success/failure determination process is a time saving result, the setting of the second high-frequency support mode triggered by the time saving result has already been described. As a result, in the pattern rows Z1 to Z3 of the pattern display device 41, when the result of the success/failure determination process is a time saving result in the game round other than the final game round in the time saving state, each effective line L1 to L5 of non-reach off symbols The combination is stopped and displayed, and if the result of the success or failure determination process in the final game round in the time saving state is a time saving result, a combination of time saving patterns on any of the effective lines L1 to L5 (first time saving pattern combination or The combination of the second time reduction generating pattern) is stopped and displayed. As a result, the stop result in the symbol rows Z1 to Z3 of the symbol display device 41 can be set as the stop result corresponding to whether or not the time saving result triggers setting of the time saving state.

In particular, the combination of non-reach out symbols that are stopped and displayed when the result of the success/failure determination process is a time reduction result in a game cycle other than the final game cycle in the time saving state is stopped when the result of the success/failure determination process is out. It is a combination of symbols to be displayed. As a result, it is possible to make it difficult for the player to recognize that the setting of the second high-frequency support mode triggered by the time saving result is not performed even though the time saving result is obtained.

As described above, although the time saving result is obtained, if the setting of the second high frequency support mode triggered by the time saving result is not performed, the symbol columns Z1 to Z3 stop display when the result of the success/failure determination process is off. Even if the stop result is displayed, the pattern corresponding to the time saving result is stopped and displayed in the special figure display units 37a and 37b. As a result, the manager of the game hall can visually confirm whether or not the time saving result has occurred regardless of whether or not the setting of the second high-frequency support mode has been performed.

As described above, although the time saving result was obtained, if the setting of the second high-frequency support mode triggered by the time saving result is not performed, the result of the success/failure determination process is off in the symbol rows Z1 to Z3. If the result is a stop display Even if the stop result is displayed, the state suggesting area 43 of the pattern display device 41 displays a stop result different from the case where the result of the success/failure determination process is wrong. As a result, the manager of the game hall can visually confirm whether or not the time saving result has occurred regardless of whether or not the setting of the second high-frequency support mode has been performed.

By setting processing (FIG. 25) for the time saving result in the order before the execution order of the processing than the subtraction processing (FIG. 29) of the ceiling counter 131 in the processing (FIG. 22) during special figure determination, If the value of the ceiling counter 131 after subtracting 1 is "0" in the game round in which the result of the determination process is a time saving result, the time saving result is higher than the setting of the second high frequency support mode triggered by the ceiling time saving. It is possible to give priority to the setting of the second high-frequency support mode triggered by this. The number of continuous time reductions in the second high-frequency support mode triggered by the ceiling time reduction is fixed at 100 times, while the number of continuous time reductions in the second high-frequency support mode triggered by the time reduction result is the first time reduction result. If there is, it is 100 times, and if it is the second time saving result, it is 150 times. That is, the number of continuous working hours in the second high-frequency support mode triggered by the time saving result is equal to or greater than the number of continuous working hours in the second high-frequency support mode triggered by the ceiling working hours. In this case, the setting of the second high-frequency support mode triggered by the time saving result is prioritized over the setting of the second high-frequency support mode triggered by the ceiling time saving as described above, so that the result of the judgment process is When the value of the ceiling counter 131 becomes "0" after subtracting 1 in the game round resulting in the time saving result, it is possible to prevent the setting mode of the continuous number of time saving from being disadvantageous to the player. Also, such excellent effects can be produced by setting the execution order of the processes as described above.

Next, the case where the result of the success/failure determination process is a wrong result and the value of the ceiling counter 131 becomes "0" in the last game round in the time saving state will be described.

As shown in FIG. 31(b), in the situation of the time-saving state, a game round is started at the timing of t6 as shown in FIG. 31(a). Then, when the variable display period of the game round has passed, the stop result corresponding to the game result is displayed on the side of the first special figure display unit 37a and the second special figure display unit 37b that is the execution target of the game round. Along with the confirmation display, the stop result corresponding to the game result is also confirmed and displayed on the symbol display device 41 . The processing after step S1002 in the processing during special figure determination (FIG. 22) is executed by the lapse of the final stop period in a state where these stop results are displayed. In this case, since the game result of the game round is not a jackpot result, a negative determination is made in step S1002 of the special figure fixing process (FIG. 22), and the processes after step S1008 are executed.

In the processing after step S1008, the subtraction processing of the time saving state counter 134 (FIG. 30) is executed first. Since this time is a game round executed in the time saving state, the time saving state counter 134 as shown in FIG. 1 is subtracted from the value of Then, the value of the time saving state counter 134 after the subtraction of 1 becomes "0", so that the first high frequency flag and the second high frequency flag of the main side RAM 84 are cleared to "0", at the timing of t7 As shown in FIG. 31(b), the time-saving state ends and the normal game state, which is the low-probability mode and the low-frequency support mode, is entered. After that, the setting process for the time saving result in which the execution order of the process is set to the later order than the subtraction process (Fig. 30) of the time saving state counter 134 in the special figure finalizing process (Fig. 22) is executed (Fig. 25) However, in this game round, the result of the success/failure determination process is a result of deviation, so the time saving state is not set in the setting process.

After that, the subtraction process of the ceiling counter 131 (FIG. 29) whose execution order is set to the later order than the subtraction process of the time saving state counter 134 (FIG. 30) in the special figure determination process (FIG. 22) is executed. do. At the timing t8 during execution of the subtraction processing (FIG. 29) of the ceiling counter 131, the value of the ceiling counter 131 is decremented by 1 as shown in FIG. The value becomes "0". In other words, ceiling time reduction occurs. Then, by setting the time saving state triggered by the occurrence of the ceiling time saving, the game state is the low probability mode and the second high frequency support mode as shown in FIG. 31 (b) at the timing of t8 short-time state. In addition, since the ceiling time saving is triggered, the time saving state counter 134 is set with the information of "100" which is the first time saving continuation number. After that, at the timing of t9, the current game cycle ends as shown in FIG. 31(a).

As described above, the subtraction process of the ceiling counter 131 (FIG. 29) is set in the order after the execution order of the process than the subtraction process of the time saving state counter 134 (FIG. 30) in the special figure determination process (FIG. 22) As a result, even if the value of the ceiling counter 131 after subtracting 1 becomes "0" in game rounds other than the final game round in the time saving state, the setting of the second high-frequency support mode triggered by the ceiling time saving is performed. However, when the value of the ceiling counter 131 after subtracting 1 becomes "0" in the final game round of the time saving state, the setting of the second high frequency support mode triggered by the ceiling time saving is performed. It becomes possible to As a result, the setting of the time saving state is not newly performed in the middle of the time saving state, so that the time saving state does not continue excessively, and the ceiling time saving occurs in the final game round of the time saving state. By validating the setting of the time saving state triggered by , it is possible to give the player as much as possible the benefit of the occurrence of the ceiling time saving. Also, such excellent effects can be produced by setting the execution order of the processes as described above.

<Subtraction processing of fluctuation selection state counter 132>
Next, the subtraction process of the variation selection state counter 132 executed in step S1009 of the special figure determination process (FIG. 22) will be described with reference to the flowchart of FIG.

First, it is determined whether or not the high probability flag of the main RAM 84 is set to "1" (step S1701). If the high probability flag is set to "1" (step S1701: YES), the subtraction process of the variable selection state counter 132 is terminated without executing the processes after step S1702.

As already explained, after the opening/closing execution mode ends, when the period switching reference number of game rounds is completed in the low probability mode, in the low frequency support mode, the reach high frequency table group is referred. reach high frequency state. And, in the reach high frequency state, as already explained, the probability that the reach display is selected is higher in the case of the outlier result than in the low probability mode and low frequency support mode and not in the high reach frequency state. In addition, the variable display period when the reach display is selected tends to be longer in the low probability mode and the low frequency support mode than in the high reach frequency state. Also, the period switching reference number of times is a predetermined number of times (specifically, 50 times) less than the fixed ceiling number of times. Therefore, it is possible to generate the reach high frequency state before the second high frequency support mode occurs due to the occurrence of the ceiling time reduction. The variable selection state counter 132 is a counter for measuring the number of game times of the remaining period switching reference times. In this case, as already explained, the value of the ceiling counter 131 is not subtracted in the high-probability state, and the ceiling time reduction does not occur in the high-probability state. Therefore, when the high probability flag is set to "1", the process for subtracting the value of the variable selection state counter 132 is not executed.

If the high probability flag is not set to "1" (step S1701: NO), it is determined whether or not the value of the variation selection state counter 132 is 1 or more (step S1702). If the value of the variable selection state counter 132 is "0" (step S1702: NO), the subtraction processing of the variable selection state counter 132 is terminated without executing the processing after step S1703. The processing for setting information in the variable selection state counter 132 is performed only in step S1006 when the open/close execution mode is started as already explained, and after the value of the variable selection state counter 132 becomes "0", step S1006 is performed. The value of the variable selection state counter 132 is maintained at "0" unless the process of . On the other hand, in the reach high frequency state, when the value of the variable selection state counter 132 is 1 or more, 1 is subtracted from the value of the variable selection state counter 132 and the value of the variable selection state counter 132 becomes "0". occurs when In this case, if the value of the variable selection state counter 132 is "0" as described above (step S1702: NO), the subtraction processing of the variable selection state counter 132 is performed without executing the processing after step S1703. finish. As a result, the value of the variable selection state counter 132 after subtraction of 1 becomes "0" and a reach high frequency state occurs, and when the reach high frequency state ends, the digestion of game rounds in which no jackpot result occurs is repeated. High reach frequency condition does not occur even if As a result, it is possible to prevent the reach high frequency state from occurring excessively.

In addition, as already explained, the period switching reference number of times is set to a predetermined number of times (specifically 50 times) less than the fixed ceiling number of times, so the second high frequency support mode occurs due to the occurrence of the ceiling time saving Before However, if the ceiling time reduction occurs once, it does not occur even if the game cycle in which no big win result occurs is repeated. In this case, when the reach high frequency state ends as described above, even if the game cycle in which no jackpot results occur is repeated after that, the reach high frequency state does not occur, thereby reducing the ceiling time. It is possible to prevent the reach high frequency state from occurring in a situation where it does not occur.

If the value of the variable selection state counter 132 is 1 or more (step S1702: YES), 1 is subtracted from the value of the variable selection state counter 132 (step S1703), and the value of the variable selection state counter 132 after the 1 subtraction becomes " 0” (step S1704). If the value of the variable selection state counter 132 is "0" (step S1704: YES), the reach high frequency state flag of the main side RAM 84 is set to "1" (step S1705).

In the state where the reach high frequency state flag is set to "1", the value of the ceiling counter 131 becomes "0" by subtracting 1 in the subtraction processing (FIG. 29) of the ceiling counter 131, and the reach high frequency in step S1509. It is canceled by executing the process of clearing the status flag to "0". That is, the state in which the reach high frequency state flag is set to "1" is canceled regardless of whether or not the setting of the time saving state triggered by the ceiling time saving is performed when the ceiling time saving occurs.

Here, the process of step S1705 is performed even if it is a time saving state. On the other hand, in the variable display period specifying process (FIG. 21), the main side Since the process of step S903 for determining whether "1" is set to either the first high frequency flag or the second high frequency flag of the RAM 84, "1" is set to the reach high frequency state flag. Even if it is set, when selecting the variable display period of the game cycle, the selection mode of the variable display period in the time reduction state has priority over the selection mode of the variable display period in the reach high frequency state. As a result, it is possible to prevent the state in which the digestion efficiency of game rounds is high in the time saving state from being hindered by setting the reach high frequency state flag to "1".

On the other hand, even if it is a time saving state, the reach high frequency state flag is set to "1" and the reach high frequency state flag is set to "1" is maintained. Therefore, when the time saving state ends before the opportunity to clear the reach high frequency state flag to "0" occurs, it becomes possible to generate the reach high frequency state from that point.

After that, transmission processing of the state designation command is executed (step S1706). In the transmission process, a state specifying command indicating that the reach high frequency state flag is set to "1" is transmitted to the sound and light side MPU 93. FIG. When the sound and light side MPU 93 receives the state designation command, the design display device 41, the display light emitting unit 64 and the speaker unit 65 show the effect indicating that the reach high frequency state is started on the condition that it is not in the time saving state Execute processing to ensure that the In addition, when the sound and light side MPU 93 receives the state designation command in the time saving state, when the time saving state ends before the game round of the period switching reference number of times is digested, the reach high frequency state is started. A process for causing the shown effect to be executed by the pattern display device 41, the display light emitting unit 64 and the speaker unit 65 is executed.

Next, it demonstrates, referring the time chart of FIG. 33 for the relationship of the execution timing of the reach high frequency state and the time saving state triggered by the ceiling time saving. FIG. 33(a) shows a period of opening and closing execution mode, FIG. 33(b) shows a period of high probability state (high probability mode and first high frequency support mode), FIG. 33(c) shows time saving state (Low probability mode, first high frequency support mode or second high frequency support mode) shows the period, FIG. 33(d) shows the state of the variable selection state counter 132, and FIG. FIG. 33(f) shows the state of the ceiling counter 131 during the high frequency state.

First, the case where the reach high frequency state occurs at the timing when the value of the variable selection state counter 132 becomes "0" will be described.

The opening/closing execution mode is started at the timing of t1 as shown in FIG. In this case, at the timing of t1, as shown in FIG. Information of 500 times, which is the number of times of fixed ceiling, is set in the counter 131 .

After that, at the timing of t2, the opening/closing execution mode ends as shown in FIG. 33(a), resulting in a high probability state of the high probability mode and the first high frequency support mode as shown in FIG. 33(b). . The game round is repeatedly executed in the high probability state, but even if the game round is repeatedly executed in the high probability state, the value of the ceiling counter 131 is not subtracted as shown in FIG. The value of the variable selection state counter 132 is never decremented as shown in 33(d).

After that, at the timing of t3, the high-probability continuous number of games in the high-probability state is completed, and the high-probability state ends as shown in FIG. It will be in a normal game state. Each time the game cycle is completed by entering the normal game state, the value of the ceiling counter 131 is subtracted as shown in FIG. value is subtracted.

Then, as shown in Drawing 33 (c), a time saving state is started because a time saving result is chosen by right or wrong judging processing at the timing of t4. In the time-saving state, each time a game cycle is completed, the value of the ceiling counter 131 is subtracted as shown in FIG. 33(f), and the value of the variable selection state counter 132 is subtracted as shown in FIG. be done.

After that, at the timing of t5, the time-saving continuation number of game rounds are completed, so that the time-saving state ends and the normal game state is entered as shown in FIG. 33(c). In the normal game state, the value of the ceiling counter 131 is decreased as shown in FIG. 33(f) and the value of the variable selection state counter 132 is increased as shown in FIG. subtracted.

After that, at the timing of t6, the value of the variation selection state counter 132 becomes "0" as shown in FIG. 33(d). At the timing of t6, as shown in FIG. 33(c), it is not in the time-saving state. Therefore, at the timing of t6, as shown in FIG. 33(e), a reach high frequency state occurs. In the high frequency reach state, as already explained, the probability that the reach display will be selected is higher than in the normal game state but not in the high frequency reach state, and the probability that the reach display will be selected is higher. The variable display period in 2 is also likely to be longer than in the normal game state and not in the reach high frequency state.

After that, the value of the ceiling counter 131 becomes "0" as shown in FIG. At the timing of t7, as shown in FIG. 33(c), it is not in the time-saving state. Therefore, as shown in FIG.33(c), it will be in a time saving state at the timing of said t7. Also, at the timing of t7, the reach high frequency state ends as shown in FIG. 33(e). In the time-saving state, a short period is likely to be selected as the variable display period of the game rounds, so the efficiency of digesting the game rounds increases.

After that, at the timing of t8, the time-saving continuation number of game rounds are completed, so that the time-saving state ends and the normal game state is entered as shown in FIG. 33(c). In this case, the value of the ceiling counter 131 is maintained at "0" without resetting the value to the ceiling counter 131 as shown in FIG. 33(f) at the timing of t8. Also, at the timing t8, as shown in FIG. 33(d), the value of the variable selection state counter 132 is maintained at "0" without being reset.

Next, the case where the setting of the reach high frequency state is delayed due to the time saving state at the timing when the value of the variable selection state counter 132 becomes "0" will be described.

The opening/closing execution mode is started at the timing of t9 as shown in FIG. In this case, at the timing of t9, as shown in FIG. Information of 500 times, which is the number of times of fixed ceiling, is set in the counter 131 .

After that, at the timing of t10, as shown in FIG. 33(a), the opening/closing execution mode ends, and as shown in FIG. 33(c), the low-probability mode and the first high-frequency support mode, which are the time-saving state, are entered. In the time-saving state, each time a game cycle is completed, the value of the ceiling counter 131 is subtracted as shown in FIG. 33(f), and the value of the variable selection state counter 132 is subtracted as shown in FIG. be done.

After that, at the timing of t11, the time-saving continuation number of game rounds are completed, so that the time-saving state ends and the normal game state is entered as shown in FIG. 33(c). In the normal game state, the value of the ceiling counter 131 is decreased as shown in FIG. 33(f) and the value of the variable selection state counter 132 is increased as shown in FIG. subtracted.

Then, as shown in FIG.33(c), a time saving state is started by a time saving result being selected by the right or wrong determination process at the timing of t12. In the time-saving state, each time a game cycle is completed, the value of the ceiling counter 131 is subtracted as shown in FIG. 33(f), and the value of the variable selection state counter 132 is subtracted as shown in FIG. be done.

After that, the value of the variable selection state counter 132 becomes "0" as shown in FIG. 33(d) at the timing of t13 which is the time saving state. At the timing of t13, as shown in FIG. 33(c), it is in a time-saving state. Therefore, at the timing of t13, as shown in FIG. 33(e), the reach high frequency state does not occur. However, the reach high frequency state flag of the main side RAM 84 is set to "1", and the state in which the reach high frequency state flag is set to "1" is maintained. In this case, the time-saving state continues, and in the time-saving state, the value of the ceiling counter 131 is subtracted as shown in FIG.

After that, at the timing of t14, the time-saving continuation number of game rounds are completed, so that the time-saving state ends and the normal game state is entered as shown in FIG. 33(c). However, since the reach high frequency state flag of the main RAM 84 is set to "1", the reach high frequency state occurs at the timing of t14 as shown in FIG. 33(e). In the high reach frequency state, as already explained, the probability that the reach display will be selected is higher than the situation in which the reach state is not in the normal game state and the reach state is not the high frequency reach state. The variable display period in 2 is also likely to be longer than in the normal game state and not in the reach high frequency state.

After that, the value of the ceiling counter 131 becomes "0" as shown in FIG. At the timing of t15, as shown in FIG. 33(c), it is not in the time saving state. Therefore, as shown in FIG.33(c), it will be in a time saving state at the timing of said t15. Also, at the timing of t15, the reach high frequency state ends as shown in FIG. 33(e). In the time-saving state, a short period is likely to be selected as the variable display period of the game rounds, so the efficiency of digesting the game rounds increases.

After that, at the timing of t16, the time-saving continuation number of game times is completed, so that the time-saving state ends and the normal game state is entered as shown in FIG. In this case, the value of the ceiling counter 131 is maintained at "0" without resetting the value to the ceiling counter 131 as shown in FIG. 33(f) at the timing of t16. Also, at the timing of t16, as shown in FIG. 33(d), the value of the variable selection state counter 132 is maintained at "0" without being reset.

According to the embodiment detailed above, the following excellent effects are obtained.

Even if the time saving result or the ceiling time saving occurs in the time saving state (excluding the final game round), the setting of the time saving state triggered by these time saving results or the ceiling time saving is not performed. This makes it possible to prevent the time saving state from being newly set in the middle of the time saving state and prevent the time saving state from continuing excessively.

The setting process for the time saving result (Figure 25) is set in the order after the execution order of the process than the subtraction process (Figure 30) of the time saving state counter 134 in the special figure determination process (Figure 22), Even if the result of the success/failure determination process is a time saving result in a game time other than the final game time in the time saving state, the setting of the second high frequency support mode triggered by the time saving result is not performed, while the time saving state When the result of the success/failure determination process in the final game cycle is a time saving result, it is possible to set the second high frequency support mode triggered by the time saving result. As a result, by preventing the setting of the time saving state from being newly set in the middle of the time saving state, the time saving result in the final game round of the time saving state is triggered by preventing the time saving state from continuing excessively. By making the setting of the time saving state valid, it is possible to give the player as much as possible the benefit of the time saving result being selected in the success/failure determination process. Also, such excellent effects can be produced by setting the execution order of the processes as described above.

In the game times other than the final game time in the time saving state, even if the result of the success/failure determination process is the time saving result, the setting of the second high-frequency support mode triggered by the time saving result is not performed, while the time saving state. In the final game round, if the result of the success/failure determination process is a time saving result, the setting of the second high frequency support mode triggered by the time saving result is performed. In the rows Z1 to Z3, when the result of the success/failure determination process is the time saving result in the game times other than the final game time in the time saving state, the combination of the non-reach-off symbols is stopped and displayed on each of the effective lines L1 to L5, and the time saving state. If the result of the success or failure determination process in the final game round is a time saving result, a combination of time saving patterns on any of the effective lines L1 to L5 (a combination of the first time saving patterns or a combination of the second time saving patterns) to stop displaying. As a result, the stop result in the symbol rows Z1 to Z3 of the symbol display device 41 can be set as the stop result corresponding to whether or not the time saving result triggers setting of the time saving state.

In particular, the combination of non-reach out symbols that are stopped and displayed when the result of the success/failure determination process is a time reduction result in a game cycle other than the final game cycle in the time saving state is stopped when the result of the success/failure determination process is out. It is a combination of symbols to be displayed. As a result, it is possible to make it difficult for the player to recognize that the setting of the second high-frequency support mode triggered by the time saving result is not performed even though the time saving result is obtained.

Although the time saving result was obtained, when the setting of the second high-frequency support mode triggered by the time saving result is not performed, the symbol columns Z1 to Z3 stop and display the result of the success/failure determination process when the result is out. is displayed, the pattern corresponding to the time saving result is stopped and displayed in the special figure display units 37a and 37b. As a result, the manager of the game hall can visually confirm whether or not the time saving result has occurred regardless of whether or not the setting of the second high-frequency support mode has been performed.

Although the time saving result was obtained, when the setting of the second high-frequency support mode triggered by the time saving result is not performed, the symbol columns Z1 to Z3 stop and display the result of the success/failure determination process when the result is out. is displayed, the state suggesting area 43 of the pattern display device 41 displays a stop result that is different from the result of the success/failure determination process. As a result, the manager of the game hall can visually confirm whether or not the time saving result has occurred regardless of whether or not the setting of the second high-frequency support mode has been performed.

If the setting of the second high-frequency support mode triggered by the time saving result of the time saving result is not performed, even if the time saving result is the first time saving result and the second time saving result, the symbol column Z1 ~ In Z3, a stop result that is stopped and displayed when the result of the success/failure determination process is a wrong result is displayed. Thereby, it is possible to make not only the invalidation of the time saving result but also the invalidation of the occurrence of the relatively advantageous second time saving result be inconspicuous. .

If the setting of the second high-frequency support mode triggered by the time saving result of the time saving result is not performed, even if the time saving result is the first time saving result and the second time saving result, the symbol column Z1 ~ In Z3, the result of the success/failure determination process is stopped when the result is out and the stop result is displayed. Stop is displayed. As a result, the manager of the game hall can visually confirm whether the first time saving result and the second time saving result have occurred regardless of whether the second high frequency support mode has been set. becomes.

If the setting of the second high-frequency support mode triggered by the time saving result of the time saving result is not performed, even if the time saving result is either the first time saving result or the second time saving result, the symbol column Z1 ~ In Z3, in the configuration in which the result of the success/failure determination process is stopped and displayed in the case of the result being a non-result, the state suggesting area 43 of the pattern display device 41 corresponds to the first time saving result and the second time saving result respectively. Stop result is displayed. As a result, the manager of the game hall can visually confirm whether the first time saving result and the second time saving result have occurred regardless of whether the second high frequency support mode has been set. becomes.

By the fact that the subtraction process of the ceiling counter 131 (Figure 29) is set in the order after the execution order of the process than the subtraction process of the time saving state counter 134 (Figure 30) in the special figure determination process (Figure 22), Even if the value of the ceiling counter 131 becomes "0" after subtracting 1 in game times other than the final game time in the time saving state, the setting of the second high frequency support mode triggered by the ceiling time saving is not performed. On the other hand, when the value of the ceiling counter 131 becomes "0" after subtracting 1 in the final game round of the time saving state, the setting of the second high frequency support mode triggered by the ceiling time saving is performed. becomes possible. As a result, the setting of the time saving state is not newly performed in the middle of the time saving state, so that the time saving state does not continue excessively, and the ceiling time saving occurs in the final game round of the time saving state. By validating the setting of the time saving state triggered by , it is possible to give the player as much as possible the benefit of the occurrence of the ceiling time saving. Also, such excellent effects can be produced by setting the execution order of the processes as described above.

If a time saving result or a ceiling time saving occurs in the final game round of the time saving state, the time saving state triggered by the time saving result or the ceiling time saving will be started following the end of the current time saving state. The total number of game rounds to be executed is greater than the number of game rounds to be executed in the time saving state when the time saving state is started from the normal game state. As a result, if a time saving result or a ceiling time saving occurs in the final game round of the time saving state, the time saving result or the ceiling time saving will be triggered following the end of the current time saving state so that the time saving state will start. It is possible to increase the advantage of what you have done.

By setting processing (FIG. 25) for the time saving result in the order before the execution order of the processing than the subtraction processing (FIG. 29) of the ceiling counter 131 in the processing (FIG. 22) during special figure determination, If the value of the ceiling counter 131 after subtracting 1 is "0" in the game round in which the result of the determination process is a time saving result, the time saving result is higher than the setting of the second high frequency support mode triggered by the ceiling time saving. It is possible to give priority to the setting of the second high-frequency support mode triggered by this. The number of continuous time reductions in the second high-frequency support mode triggered by the ceiling time reduction is fixed at 100 times, while the number of continuous time reductions in the second high-frequency support mode triggered by the time reduction result is the first time reduction result. If there is, it is 100 times, and if it is the second time saving result, it is 150 times. That is, the number of continuous working hours in the second high-frequency support mode triggered by the time saving result is equal to or greater than the number of continuous working hours in the second high-frequency support mode triggered by the ceiling working hours. In this case, the setting of the second high-frequency support mode triggered by the time saving result is prioritized over the setting of the second high-frequency support mode triggered by the ceiling time saving as described above, so that the result of the judgment process is When the value of the ceiling counter 131 becomes '0' after subtraction of 1 in the game round resulting in the time saving result, it is possible to prevent the setting mode of the continuous number of time saving from being disadvantageous to the player. Also, such excellent effects can be produced by setting the execution order of the processes as described above.

During special figure determination processing (Figure 22) setting processing for time saving result (Figure 25) before subtraction processing of high probability state counter 133 (Figure 24) is executed. As a result, in the last game cycle in the high-probability mode and the first high-frequency support mode, the value of the high-probability state counter 133 is decremented by 1 in the subtraction process (FIG. 24) of the high-probability state counter 133. Before the high probability flag and the first high frequency flag are cleared to "0" by the value of the high probability state counter 133 becoming "0", the setting process for the time saving result (FIG. 25) is executed Become. Then, when the setting process for the time saving result (FIG. 25) is executed at the timing, the high probability flag is still set to "1", so the setting of the second high frequency support mode triggered by the time saving result is not performed. Therefore, in the game round in which the success/failure determination process is executed in the execution mode corresponding to the high probability mode, it is possible to reliably invalidate the time saving result. In addition, such an effect during processing (FIG. 22) in the processing order of executing the setting process (FIG. 25) for the time saving result before the subtraction process (FIG. 24) of the high probability state counter 133 in the special figure determination It can be realized by setting.

In the process during special figure determination (FIG. 22), the subtraction process of the ceiling counter 131 (FIG. 29) is executed before the subtraction process of the high probability state counter 133 (FIG. 24). As a result, in the last game cycle in the high-probability mode and the first high-frequency support mode, the value of the high-probability state counter 133 is decremented by 1 in the subtraction process (FIG. 24) of the high-probability state counter 133. Before the value of the high probability state counter 133 becomes "0" and the high probability flag and the first high frequency flag are cleared to "0", the subtraction processing of the ceiling counter 131 (FIG. 29) is executed. Become. Then, when the subtraction process (FIG. 29) of the ceiling counter 131 is executed at this timing, since the high probability flag is still set to "1", the subtraction of the value of the ceiling counter 131 is not executed. Therefore, it is possible to prevent the value of the ceiling counter 131 from being subtracted in the game round in which the winning/losing determination process is executed in the execution mode corresponding to the high-probability mode. In addition, such an effect of the process order of executing the subtraction process of the ceiling counter 131 (FIG. 29) before the subtraction process of the high probability state counter 133 (FIG. 24) in the special figure determination process (FIG. 22) It can be realized by setting.

In the high-probability state, not only does the time-saving state triggered by the ceiling time-saving state occur, but also the processing itself for subtracting 1 from the ceiling counter 131 is not executed. As a result, it is possible to exclude the number of game rounds executed in a high-probability state advantageous to the player from the game rounds to be subtracted from the value of the ceiling counter 131 .

The value of the ceiling counter 131 is not set when the ceiling time saving state is used as a trigger to shift to the time saving state or when the time saving state ends. In addition, the transition to the time saving state triggered by the ceiling time saving is the value of the ceiling counter 131 as a result of the game round being digested and the value of the ceiling counter 131 being subtracted in a situation where the value of the ceiling counter 131 is 1 or more is "0". Therefore, the transition to the time-saving state triggered by the ceiling time-saving occurs only once after the jackpot result occurs, and if the transition to the time-saving state triggered by the ceiling time-saving occurs once, basically after that Unless the value of the ceiling counter 131 is set due to the occurrence of the jackpot result, the transition to the time saving state triggered by the ceiling time saving does not occur. As a result, it is possible to prevent excessive transition to the time saving state triggered by the ceiling time saving.

Even if the set value update process (step S117) is executed, the ceiling counter 131 of the main RAM 84 is not initialized, and the number of ceilings including the fixed ceiling number of times is not newly set. do not have. As a result, even if the set value update process (step S117) is executed, it is possible to maintain the remaining number of peaks.

Even if the RAM clearing process (step S119) is executed, the ceiling counter 131 of the main RAM 84 is not initialized, and the number of ceilings including the information of the number of fixed ceilings is not newly set. . As a result, even if the RAM clearing process (step S119) is executed, the remaining ceiling count can be maintained.

Although the setting value update process (step S117) is executed, even if it is executed, the ceiling counter 131 of the main RAM 84 is not initialized, and furthermore, the ceiling counter 131 including the fixed ceiling number information is updated. No settings are made. Therefore, even if the setting value update process (step S117) is executed to cancel the game stoppage state due to the information abnormality when the information abnormality occurs in the main side RAM 84, the information of the ceiling counter 131 is maintained as it is. . On the other hand, when it is specified that an information error has occurred in the main RAM 84 and the game stop flag of the main RAM 84 is set to "1", the ceiling counter 131 is set to 500 times, which is the fixed ceiling frequency. information is set. As a result, even if the information in the ceiling counter 131 has been rewritten when an information error occurs in the main RAM 84, the information in the ceiling counter 131 can be reset to the fixed ceiling number of times of 500 times. becomes.

When the game machine main body 12 is in an open state with respect to the outer frame 11, the ceiling counter 131 of the main side RAM 84 is set with information of 500 times, which is the number of fixed ceilings. When such processing is executed, it means that the setting confirmation processing (step S112), the set value updating processing (step S117), and the RAM clearing processing in the processing (steps S101 to S126) at the start of supply of operating power. This is a situation in which the process (step S119) is not executed. In addition, in the game hall, the main power supply for supplying operating power to each pachinko machine 10 is turned off, and the power switch provided in the power supply/launch control device 78 of each pachinko machine 10 is turned on in advance. When it is time to start business for the day, the pachinko machines 10 are activated all at once by turning on the main power supply. Under these circumstances, the gaming machine body 12 is intentionally left open in a situation in which the setting confirmation process (step S112), the setting value update process (step S117), and the RAM clear process (step S119) are not executed. When the supply is started, the ceiling counter 131 is set with information of 500 times, which is the number of fixed ceilings. As a result, it is possible to create a situation in which the ceiling counter 131 is set to 500 times, which is the number of fixed ceilings, when the supply of operating power is started, as a situation different from that at the start of normal business hours, and to confirm the setting. It is possible to generate this operation without using the application process (step S112), the set value update process (step S117), and the RAM clear process (step S119).

When the opening/closing execution mode is started after the game round corresponding to the result of the jackpot is finished, the ceiling counter 131 is set with information of 500 times, which is the number of fixed ceilings. If the ceiling counter 131 is configured to set the number of fixed ceiling times during the opening/closing execution mode or when the opening/closing execution mode ends, not when the opening/closing execution mode is started, the operation is performed after the opening/closing execution mode is started. If the power supply is stopped and the set value update process (step S117) or the RAM clear process (step S119) is executed when the supply of operating power is restarted, the set value update process ( In step S117) or RAM clear processing (step S119), as already explained, the information indicating that the open/close execution mode is in progress is cleared, whereas the value of the ceiling counter 131 is maintained. There is a possibility that the game may be restarted in a situation where the number of remaining ceilings is small while the profit of the opening/closing execution mode is obtained until the game is stopped. On the other hand, when the opening/closing execution mode is started, the ceiling counter 131 is set with the information of 500 times, which is the number of fixed ceilings, so that the fraudulent act as described above can be neutralized.

After the open/close execution mode is finished, if the period switching reference number of games is completed in the low probability mode, in the low frequency support mode, the table group for high frequency reach is referred to high frequency reach. state. Then, in the reach high frequency state, the probability that the reach display is selected in the case of a deviation result is higher than the situation in the low probability mode and the low frequency support mode, and the reach is not in the high frequency state. The variable display period when the display is selected also tends to be longer in the low probability mode and the low frequency support mode than in the high reach frequency state. Further, the period switching reference number of times is a predetermined number of times (specifically, 50 times) less than the fixed ceiling number of times that triggers the ceiling time reduction. Therefore, it is possible to generate the reach high frequency state before the second high frequency support mode occurs due to the occurrence of the ceiling time reduction.

When the value of the ceiling counter 131 after subtracting 1 in the reach high frequency state becomes "0" and the time saving state triggered by the ceiling time saving occurs, the reach high frequency state ends. In the time-saving state, a short period is likely to be selected as the variable display period of game rounds, so the efficiency of digesting the game rounds is increased. As a result, it is possible to allow the reach high frequency state to occur while not hindering the increase in the digestion efficiency of game rounds in the time saving state.

The processing of setting the reach high frequency state flag of the main side RAM 84 to "1" when the value of the variation selection state counter 132 after subtracting 1 becomes "0" is executed even in the time saving state. On the other hand, in the variable display period specifying process (FIG. 21), the main side Since the process of step S903 for determining whether "1" is set to either the first high frequency flag or the second high frequency flag of the RAM 84, "1" is set to the reach high frequency state flag. Even if it is set, when selecting the variable display period of the game cycle, the selection mode of the variable display period in the time reduction state has priority over the selection mode of the variable display period in the reach high frequency state. As a result, it is possible to prevent the state in which the digestion efficiency of game rounds is high in the time saving state from being hindered by setting the reach high frequency state flag to "1".

On the other hand, even if it is a time saving state, the reach high frequency state flag is set to "1" and the reach high frequency state flag is set to "1" is maintained. Therefore, when the time saving state ends before the opportunity to clear the reach high frequency state flag to "0" occurs, it becomes possible to generate the reach high frequency state from that point.

The processing for setting information in the variable selection state counter 132 is only step S1006 when the open/close execution mode is started, and the processing in step S1006 is executed after the value of the variable selection state counter 132 becomes "0". The value of the variable selection state counter 132 is maintained at "0" unless On the other hand, in the reach high frequency state, when the value of the variable selection state counter 132 is 1 or more, 1 is subtracted from the value of the variable selection state counter 132 and the value of the variable selection state counter 132 becomes "0". occurs when In this case, if the value of the variable selection state counter 132 is "0" (step S1702: NO), the subtraction processing of the variable selection state counter 132 is terminated without executing the processing after step S1703. As a result, the value of the variable selection state counter 132 after subtraction of 1 becomes "0", and a reach high frequency state occurs, and when the reach high frequency state ends, the digestion of game rounds in which no jackpot result occurs is repeated. High reach frequency condition does not occur even if As a result, it is possible to prevent the reach high frequency state from occurring excessively.

Since the period switching reference number of times is set to a predetermined number of times (specifically 50 times) less than the fixed ceiling number of times, the reach high frequency state is reached before the second high frequency support mode occurs due to the occurrence of the ceiling time saving. However, when the ceiling time saving also occurs once, the ceiling time saving does not occur even if the game cycle in which no big win result occurs is repeated after that. In this case, when the reach high frequency state ends, even if the game rounds in which no jackpot results occur are repeated after that, the reach high frequency state does not occur, so that the ceiling time reduction does not occur. It is possible to prevent the reach high frequency state from occurring in.

<Second embodiment>
In this embodiment, the execution order of the processing in the process during special figure determination is different from that of the first embodiment. The configuration different from that of the first embodiment will be described below. Note that the description of the same configuration as that of the first embodiment is basically omitted.

FIG. 34 is a flow chart showing a special figure fluctuation start process in this embodiment executed by the main side MPU 82. As shown in FIG.

In steps S1801 to S1817, the same processing as steps S801 to S817 of the special figure variation start processing (FIG. 20) in the first embodiment is executed. After executing the process of step S1817, it is determined whether or not the high probability flag of the main side RAM 84 is set to "1", thereby determining whether or not the current gaming state is the high probability state. (Step S1818). If the high probability flag is set to "1" (step S1818: YES), the start high probability flag provided in the main RAM 84 is set to "1" (step S1819), and the high probability flag is set to "1". is not set (step S1818: NO), the start accuracy flag is cleared to "0" (step S1820). The start high certainty flag is a flag for the main MPU 82 to specify whether or not the winning lottery mode at the start of the game round was the high probability mode in the special figure finalizing process (FIG. 35) to be described later.

When the process of step S1819 or the process of step S1820 is executed, 1 is added to the value of the figure special electric counter (step S1821). As a result, the value of the special figure special electric counter becomes "1" corresponding to the special figure fluctuation process (step S607).

FIG. 35 is a flow chart showing processing during special figure determination in this embodiment executed by the main side MPU 82 .

In steps S1901 to S1907, the same processing as steps S1001 to S1007 of the special figure determination process (FIG. 22) in the first embodiment is executed. When the value of the special figure side timer counter is "0" and the final stop period has passed (step S1901: YES), and the game result of this game round is not a jackpot result (step S1902: NO ), the high probability state counter 133 subtraction processing is executed in step S1908, the time saving state counter 134 subtraction processing is executed in step S1909, the variation selection state counter 132 subtraction processing is executed in step S1910, and step Setting processing for time saving results is executed in S1911, and subtraction processing of the ceiling counter 131 is executed in step S1912. Then, the special figure special electric counter is cleared to "0" (step S1913). That is, in the present embodiment, the setting process for the time saving result and the subtraction process of the high probability state counter 133 are not set as the processing order after the subtraction process of the ceiling counter 131, but the setting process for the time saving result and the ceiling The subtraction processing of the high-probability state counter 133 is set as the processing order before the subtraction processing of the counter 131 .

Figure 36 is a flow chart showing the setting process for the time saving result in this embodiment executed in step S1911 of the process during special figure determination (Figure 35).

If the game result of the current game cycle is a time saving result (step S2001: YES), it is determined whether or not the start high probability flag of the main side RAM 84 is set to "1" (step S2002). And when "1" is set to the start high probability flag (step S2002: YES), the setting process for this time saving result is complete|finished, without performing the process after step S2003. In other words, even if the time saving result (first time saving result or second time saving result) is selected in the game round correctness determination process started in the high probability mode situation, the time saving result is triggered by the second high frequency The time saving result is invalidated without setting the support mode.

If the start high probability flag is not set to "1" (step S2002: NO), it is determined whether or not the first high frequency flag or the second high frequency flag of the main RAM 84 is set to "1". (step S2003, step S2004). That is, it is determined whether the support mode is one of the first high-frequency support mode and the second high-frequency support mode. When the support mode is the first high-frequency support mode or the second high-frequency support mode (step S2003 or step S2004: YES), this time saving result setting process is terminated without executing the processes after step S2005. That is, even if the time saving result (first time saving result or second time saving result) is selected in the game round success/failure determination process executed in the first high frequency support mode or the second high frequency support mode, When the setting process for the time saving result (FIG. 36) is executed in the first high frequency support mode or the second high frequency support mode, setting the second high frequency support mode triggered by the time saving result The time saving result is invalidated without being done. As a result, it is possible to prevent the setting for shifting to the high-frequency support mode from being additionally executed in the middle of the high-frequency support mode.

If the support mode is the low-frequency support mode (steps S2003 and S2004: NO), the second high-frequency flag in the main RAM 84 is set to "1" (step S2005). As a result, the support mode becomes the second high-frequency support mode. Then, if the time saving result of this time is the first time saving result (step S2006: YES), the time saving state counter 134 provided in the main side RAM 84 is set to the first time saving continuation number "100" information (step S2007), if the time saving result of this time is the second time saving result (step S2006: NO), the information of "150" which is the second time saving continuation frequency is set to the time saving state counter 134 (step S2008). When the number of game rounds executed without the occurrence of a new jackpot result in the time saving state becomes 100 times, which is the first number of times of continuous time saving, or 150 times, which is the second number of times of continuing time saving, the big win. The low-probability mode and low-frequency support mode are entered even if no results have occurred.

If the process of step S2007 or the process of step S2008 has been executed, the state designation command transmission process is executed (step S2009). In the transmission process, a state specifying command indicating that the time saving state has started is transmitted to the sound and light side MPU 93 . The state designation command also includes information on the number of times of time-saving continuation set this time. When the sound and light side MPU 93 receives the state designation command, the pattern display device 41, the display light emitting unit 64, and the speaker unit 65 perform processing to indicate that the time saving state is started. Execute.

FIG. 37 is a flow chart showing the subtraction process of the ceiling counter 131 in this embodiment executed in step S1912 of the special figure determination process (FIG. 35).

First, it is determined whether or not the start high probability flag of the main RAM 84 is set to "1" (step S2101). Then, if the start high probability flag is set to "1" (step S2101: YES), the subtraction process of the ceiling counter 131 ends without executing the processes after step S2102. In other words, the value of the ceiling counter 131 is not decremented in the game cycle started in the high-probability mode, and the ceiling counter 131 value is not decremented, thereby causing a ceiling time reduction. Nor.

If the start high probability flag is not set to "1" (step S2101: NO), it is determined whether the value of the ceiling counter 131 is 1 or more (step S2102). If the value of the ceiling counter 131 is "0" (step S2102: NO), the subtraction process of the ceiling counter 131 is terminated without executing the processes after step S2103. As a result, the value of the ceiling counter 131 after subtracting 1 becomes "0", and a time saving state triggered by the ceiling time saving occurs, and the game times of the number of time saving continuations are digested without a big hit result occurring in the time saving state. When the time saving state ends and the normal game state is entered, the time saving state triggered by the ceiling time saving does not occur even if the game rounds in which no big winning results occur are repeated thereafter. Therefore, it is possible to prevent excessive occurrence of the time saving state triggered by the ceiling time saving.

If the value of the ceiling counter 131 is 1 or more (step S2102: YES), 1 is subtracted from the value of the ceiling counter 131 (step S2103), and whether or not the value of the ceiling counter 131 after the subtraction of 1 is "0". (step S2104). If the value of the ceiling counter 131 is "0" (step S2104: YES), on condition that the second high frequency flag of the main RAM 84 is not set to "1" (step S2105: NO), The second high frequency flag of the RAM84 is set to "1" (step S2106), and the information of "100" which is the first time saving continuation number is set to the time saving state counter 134 of the main side RAM84 (step S2107). Thereby, it will be in the time saving state which is low probability mode and is 2nd high frequency support mode. In addition, the time-saving state ends when the number of times the game is executed without the occurrence of a jackpot result reaches 100 times, which is the first time-saving continuation number. state.

After that, a state designation command transmission process is executed (step S2108). In the transmission process, a state specifying command indicating that the time saving state has started is transmitted to the sound and light side MPU 93 . Information on the number of continuation of the first time saving set this time is also included in the state designation command. When the sound and light side MPU 93 receives the state designation command, the pattern display device 41, the display light emitting unit 64, and the speaker unit 65 perform processing to indicate that the time saving state is started. Execute.

On the other hand, even if the value of the ceiling counter 131 becomes "0" after subtracting 1, if the second high frequency flag is set to "1", the processing of steps S2106 to S2108 is not executed. This ceiling time saving is invalidated without setting the second high-frequency support mode triggered by the ceiling time saving. That is, even if the game times of the fixed number of times are completed in the state of the time saving state, the ceiling time saving is invalidated without setting the second high-frequency support mode with the ceiling time saving as a trigger. As a result, it is possible to prevent the setting for shifting to the high-frequency support mode from being additionally executed in the middle of the high-frequency support mode. In addition, the first high-frequency support mode is set only within the range until 100 game rounds are completed after the opening and closing execution mode, but when the opening and closing execution mode is started, the fixed ceiling number of times is set to 500 times. is set, the value of the ceiling counter 131 after decrementing 1 does not become "0" in the first high-frequency support mode.

When affirmative determination is made in step S2105 or when the process of step S2108 is executed, the reach high frequency state flag of the main side RAM 84 is cleared to "0" (step S2109). As a result, when the ceiling time saving occurs, the reach high frequency state ends regardless of whether or not the setting of the second high frequency support mode triggered by the ceiling time saving is performed.

According to the embodiment detailed above, the following excellent effects are obtained.

During special figure determination processing (Figure 35) setting processing for time saving result (Figure 36) is executed after the subtraction processing of high probability state counter 133 (step S1908). However, when the game cycle is started, the high-probability mode is set, and if the win-or-fail determination process is executed with reference to the win-or-fail table 123 at the time of high probability, "1" is set to the start high-probability flag of the main side RAM 84. be done. And, when the setting process for the time saving result (FIG. 36) is started, even if the time saving result is selected in the success/failure determination process when "1" is set to the start high probability flag, the time saving The setting of the time saving state triggered by the result is not performed. Thereby, it is possible to reliably invalidate the time saving result in the game cycle in which the success/failure determination process is executed in the execution mode corresponding to the high probability mode.

The time saving result is invalidated in the time saving result setting process (Fig. 36) by using the start high probability flag which is set to "1" under the condition that the high probability mode is set when the game round is started. Since it is a configuration that determines whether or not, it is possible to achieve the above-described excellent effects regardless of the execution order of the processing in the processing during special figure determination (FIG. 35).

In the processing during special figure determination (FIG. 35), the subtraction processing of the ceiling counter 131 (FIG. 37) is executed after the subtraction processing of the high probability state counter 133 (step S1908). However, when the game cycle is started, the high-probability mode is set, and if the win-or-fail determination process is executed with reference to the win-or-fail table 123 at the time of high probability, "1" is set to the start high-probability flag of the main side RAM 84. be done. When the ceiling counter 131 subtraction process (FIG. 37) is started and the start accuracy flag is set to "1", the ceiling counter 131 value is not subtracted. As a result, it is possible to prevent the value of the ceiling counter 131 from being subtracted in the game round in which the winning/losing determination process is executed in the execution mode corresponding to the high-probability mode.

The value of the ceiling counter 131 is changed in the subtraction process of the ceiling counter 131 (FIG. 37) using the start high probability flag which is set to "1" under the condition that the high probability mode is set when the game round is started. Since it is the structure which determines whether it subtracts, it becomes possible to produce the above outstanding effects regardless of the execution order of the process in process (FIG. 35) during special figure determination.

<Third Embodiment>
This embodiment differs from the first embodiment in the trigger for shifting the win/fail lottery mode from the high-probability mode to the low-probability mode. The configuration different from that of the first embodiment will be described below. The description of the same configuration as that of the first embodiment is basically omitted.

FIG. 38 is an explanatory diagram for explaining an electrical configuration for performing various lotteries in the main MPU 82 in this embodiment.

In this embodiment, a falling random number counter C5 is provided in addition to a hit random number counter C1, a type random number counter C2, a reach random number counter C3, a random number initial value counter CINI, a fluctuation type counter CS, and an electric random number counter C4. In addition, the contents of the hit random number counter C1, the type random number counter C2, the reach random number counter C3, the random number initial value counter CINI, the fluctuation type counter CS and the general electric random number counter C4 and the processing using these counters C1 to C4, CINI, CS The contents are the same as those of the first embodiment.

The falling random number counter C5 is configured to be incremented by 1 in order within the range of 0 to 29, and return to "0" after reaching the maximum value. The falling random number counter C5 is periodically updated, stored in the first special figure reservation area 111 at the timing when the game ball wins the first operating port 33, and second at the timing when the game ball wins the second operating port 34. It is stored in the special figure reservation area 112. In the high-probability mode, when a game round is started, fall determination processing is executed using numerical information corresponding to the fall random number counter C5 among the holding information for which the game round is started. Then, when the fall result is selected in the fall determination process, the win/loss lottery mode changes from the high-probability mode to the low-probability mode at that time. That is, in the above-described first embodiment, when the number of game rounds executed in the high-probability mode becomes the high-probability continuation number, the win-or-fail lottery mode is configured to shift from the high-probability mode to the low-probability mode. In the embodiment, the transition to the low probability mode does not occur depending on the number of game rounds executed in the high probability mode, and the transition to the low probability mode occurs by selecting the fall result in the fall determination process. .

FIG. 39 is a flow chart showing a special figure fluctuation start process in this embodiment executed by the main side MPU 82. FIG.

If the second reservation information is not stored in the second special figure reservation area 112 and the first reservation information is stored in the first special figure reservation area 111 (step S2201: YES, step S2202: NO), the first Data setting processing is executed (step S2203). The content of the first data setting process is the same as step S803 of the special figure fluctuation start process (FIG. 20) in the first embodiment. On the other hand, if the second reservation information is stored in the second special figure reservation area 112 (step S2201 and step S2202: YES), the first reservation information acquired earlier than the second reservation information is the first Even if it is stored in the 1 special figure reservation area 111, the second data setting process is executed (step S2204). The content of the second data setting process is the same as step S804 of the special figure fluctuation start process (FIG. 20) in the first embodiment.

When the process of step S2203 or the process of step S2204 is executed, on condition that the high probability flag of the main RAM 84 is set to "1" (step S2205: YES), the fall determination process is executed (step S2206). ). In the fall determination process, the fall determination table is read from the main ROM 83 to the main RAM 84 . Numerical information of the fall random number counter C5, which is the fall result, is set in the fall determination table. Only one type of fall determination table is provided, and the probability of selecting a fall result in the fall determination process is constant regardless of the set value, and the start target of the game round is the first hold information and the second hold information. is constant in either case. However, the present invention is not limited to this, and the probability of selecting a fall result in the fall determination process may be configured to vary according to a set value. It is good also as a structure which fluctuates according to which of the 1 reservation information and the 2nd reservation information is the start target of the game cycle.

The fall determination table is set so that the probability of selecting the fall result is 1/15, but the probability may be lower than 1/15 or higher than 1/15. In the fall determination process, the information for fall determination, that is, the numerical information obtained from the fall random number counter C5 is read from the reserved information stored in the execution area 113 for the special figure, and the read numerical information is used for the fall determination read above. It is determined whether or not it matches any of the numerical information set as the fall result in the table.

If the result of the fall determination process is the fall result (step S2207: YES), the high probability flag of the main RAM 84 is cleared to "0" (step S2208), and if the result of the fall determination process is not the fall result (step S2207 : NO), to maintain the state in which the high probability flag is set to "1". As a result, when the result of the fall determination process is the fall result, the success/failure lottery mode shifts from the high probability mode to the low probability mode, and when the result of the fall determination process is not the fall result, the success/failure lottery mode is switched to the high probability mode. mode is maintained. Further, the fall determination process is executed before the success/failure determination process (step S2209), and the transition to the low-probability mode when the result of the fall determination process is the result of the fall occurs before the success/failure determination process (step S2209). executed before. As a result, when the result of the fall determination process is the fall result, the win/fail determination process (step S2209) can be executed in a situation where the win/fail lottery mode is the low probability mode.

If a negative determination is made in step S2205, if a negative determination is made in step S2207, or if the process of step S2208 is executed, a suitability determination process is executed (step S2209). The content of the propriety determination process is the same as step S805 of the special figure variation start process (FIG. 20) in the first embodiment.

If the result of the success determination process is a jackpot result (step S2210: YES), the distribution determination process for the jackpot is executed (step S2211), the flag setting process for the jackpot is executed (step S2212), and the result for the jackpot result is is executed (step S2213). The contents of steps S2211 to S2213 are the same as steps S807 to S809 of the special figure variation start process (FIG. 20) in the first embodiment.

If the result of the success or failure determination process is not the jackpot result but the time saving result (step S2210: NO, step S2214: YES), if the high probability flag of the main side RAM84 is set to "1" (step S2215: YES), the first time saving result is selected (step S2216), and when the high probability flag of the main RAM 84 is not set to "1" (step S2215: NO), the distribution determination process for time saving is executed. (step S2217). In the distribution determination process for time saving, similar to step S811 of the special figure fluctuation start process (FIG. 20) in the first embodiment, if the start target of the game round is the first reservation information, the first special figure The time saving distribution table 127 (see FIG. 10(c)) is read from the main ROM 83 to the main RAM 84, and if the target for starting the game round is the second reservation information, the time saving distribution table 128 (see FIG. 10(c)) for the second special figure 10(d)) is read from the main ROM 83 to the main RAM 84 . After reading the time-saving distribution tables 127 and 128, from the pending information stored in the execution area 113 for the special figure, the information for distribution determination, that is, the numerical information obtained from the type random number counter C2 is read, and the time-saving distribution By referring to the minute tables 127 and 128, it is specified which type of time saving result the read numerical information corresponds to. Therefore, either the first time saving result or the second time saving result is selected.

Even in this embodiment, as in the first embodiment, even if the result of the success/failure determination process in the high probability state is a time saving result, the time saving state is set with the time saving result as a trigger. In this case, if the result of the success or failure determination process in the high probability state is a time saving result, by forcibly selecting the first time saving result that is less advantageous than the second time saving result, high Even if the player recognizes from the display contents of the special figure display units 37a and 37b and the symbol display device 41 that the result of the success/failure determination process has become a time saving result in the probability state, in the second time saving result with a high degree of advantage It is possible to make the player recognize that the first time saving result with a low advantage has been invalidated, and it is possible to reduce the feeling of wasteful withdrawal due to the occurrence of the invalidation. The configuration may be applied to the first embodiment and the second embodiment, and may be applied to fourth to twelfth embodiments described later.

When the process of step S2216 or the process of step S2217 is performed, the flag setting process for time saving is performed (step S2218), and the stop result setting process for time saving results is performed (step S2219). The contents of steps S2217 to S2219 are the same as steps S811 to S813 of the special figure variation start process (FIG. 20) in the first embodiment. Moreover, when the result of the success/failure determination process is neither the big hit result nor the time saving result (step S2214: NO), the stop result setting process for the out result is executed (step S2220). The content of step S2220 is the same as step S814 of the special figure variation start process (FIG. 20) in the first embodiment.

When the processing of step S2213, the processing of step S2219, or the processing of step S2220 is executed, the processing of steps S2221 to S2224 is executed. The contents of steps S2221 to S2224 are the same as steps S815 to S818 of the special figure fluctuation start process (FIG. 20) in the first embodiment.

FIG. 40 is a flow chart showing processing during special figure determination in this embodiment executed by the main side MPU 82 .

In steps S2301 to S2307, the same processes as steps S1001 to S1007 of the special figure determination process (FIG. 22) in the first embodiment are executed. When the value of the special figure side timer counter is "0" and the final stop period has passed (step S2301: YES), and the game result of this game round is not a jackpot result (step S2302: NO ), in step S2308 subtraction processing of the time saving state counter 134 is performed, in step S2309 subtraction processing of the variable selection state counter 132 is performed, in step S2310 the setting processing for the time saving result is performed, to step S2311 Then, the subtraction process of the ceiling counter 131 is executed. Then, the special figure special electric counter is cleared to "0" (step S2312). In steps S2308 to S2311, the same processes as steps S1008 to S1011 of the special figure determination process (FIG. 22) in the first embodiment are executed.

That is, in the present embodiment, the subtraction process of the high probability state counter 133, which was set in the special figure determination process (FIG. 22) in the first embodiment, is not set in the special figure determination process (FIG. 40) . Therefore, in this embodiment, the transition to the low-probability mode does not occur depending on the number of games played in the high-probability mode.

As described above, when the game round is started in the high probability mode, the fall determination process (step S2206) is executed, and if the result of the fall determination process (step S2206) is the fall result, the winning lottery mode at that time changes from high-probability mode to low-probability mode. These processes are executed before the suitability determination process (step S2209). As a result, when the result of the fall determination process is the fall result, the win/fail determination process (step S2209) can be executed in a situation where the win/fail lottery mode is the low probability mode.

If the time saving result is selected in the right or wrong determination process (step S2209), the first time saving result or the second time saving result is selected in the time saving distribution determination process (step S2217) in the case of the low probability mode On the other hand, in the high probability mode, the first time saving result is forcibly selected. Even in this embodiment, as in the first embodiment, even if the result of the success/failure determination process in the high probability state is a time saving result, the time saving state is set with the time saving result as a trigger. In this case, if the result of the success/failure determination process is a time saving result in a high probability state, by forcibly selecting the first time saving result that is less advantageous than the second time saving result, the high probability Even if the player recognizes from the display contents of the special figure display units 37a, 37b and the pattern display device 41 that the result of the success or failure determination process has become a time saving result in the state, it is not the second time saving result with a high degree of advantage. It is possible to make the player recognize that the first time saving result with a low advantage has been invalidated, and it is possible to reduce the sense of wastefulness caused by the occurrence of the invalidation.

In the configuration in which the first time saving result with relatively low advantage is selected when the result of the success or failure determination process (step S2209) is the time saving result in the high probability mode, the time saving result is the first time saving result and the second The fall determination process (step S2206) is executed before the process (step S2215 to step S2219) of distributing to one of the time saving results. Thereby, when the transition to the low probability mode occurs because the result of the fall determination process (step S2206) is the result of the fall, the time saving result is the first time saving after the transition to the low probability mode is performed. A process (steps S2215 to S2219) of distributing to either the result and the second time saving result is executed. Therefore, when the result of the fall determination process (step S2206) is the result of the fall and the transition to the low probability mode occurs, relative It is possible to allow a second time saving result to be selected which is advantageous to

In the configuration in which the transition from the high-probability mode to the low-probability mode is performed when the result of the fall determination process (step S2206) is the result of the fall, the process of transitioning to the low-probability mode is executed at the start of the game cycle. On the other hand, setting processing for the time saving result (step S2310) and subtraction processing of the ceiling counter 131 (step S2311) are executed in the processing during special figure determination (FIG. 40) which is the processing at the end of the game round. Thereby, when the transition to the low probability mode occurs because the result of the fall determination process (step S2206) is the fall result, setting processing for the time saving result after the transition to the low probability mode is performed (Step S2310) and subtraction processing of the ceiling counter 131 (Step S2311) are executed. Therefore, when the result of the fall determination process (step S2206) is the result of the fall and the transition to the low probability mode occurs, the time reduction It is possible to set the time saving state triggered by the result, and when the ceiling time saving occurs by setting the value of the ceiling counter 131 to "0" after subtracting 1, the ceiling time saving is set. It is possible to set the time-saving state as a trigger.

<Fourth Embodiment>
This embodiment differs from the first embodiment in the processing configuration of the main processing. The configuration different from that of the first embodiment will be described below. The description of the same configuration as that of the first embodiment is basically omitted.

FIG. 41 is a flow chart showing the main processing in this embodiment executed by the main MPU 82. As shown in FIG.

In steps S2401 to S2416, the same processes as steps S101 to S116 of the main process (FIG. 13) in the first embodiment are executed. If it is determined that the reset button 142 has been pressed (step S2408 or step S2422: YES), and if it is determined that the setting key insertion unit 143 has been turned ON using the setting key (step S2416). : YES), or if it is determined in step S2407 that the setting updating flag of the main RAM 84 is set to "1", setting value update processing is executed (step S2417). The set value update process will be described later. Further, in steps S2418 to S2420, the same processes as steps S118 to S120 of the main process (FIG. 13) in the first embodiment are executed.

If a negative determination is made in any of steps S2404 to S2406, that is, if the power failure flag is not set to "1", if the checksum does not match, or if the set value is abnormal, the main side The game stop flag of the RAM 84 is set to "1" (step S2421). By setting the game stop flag to "1" in the same manner as in the first embodiment, the processes of steps S201 to S205 are executed in the timer interrupt process (FIG. 14), while an affirmative determination is made in step S206. By doing so, the processing of steps S207 to S220 is not executed. As a result, if the power failure flag is not set to "1" because the power failure process was not properly performed at the time of the previous power failure, the storage state of the main RAM 84 has changed since the previous power failure. If the checksum does not match or if the set value is abnormal, power failure monitoring, updating of various counters, and fraud monitoring are executed. will not be executed.

In the first embodiment, when the game stop flag is set to "1" at step S121 by specifying that the information abnormality has occurred in the main side RAM 84, the ceiling counter of the main side RAM 84 is set at step S122. 131 is configured to execute a process of setting information of 500 times, which is the fixed number of times, but this process is not set in this embodiment. In other words, even if the game stop flag is set to "1" in step S2421 by specifying that the information abnormality has occurred in the main RAM 84, the process of setting information to the ceiling counter 131 is not executed.

After that, it is determined whether or not the reset button 142 is pressed (step S2422). If the reset button 142 has not been pressed (step S2422: NO), the processes of steps S2423 and S2424 are executed. The processes of steps S2423 and S2424 are the same as steps S124 and S125 of the main process (FIG. 13) in the first embodiment.

If the reset button 142 is pressed (step S2422: YES), setting value update processing is performed on condition that the setting key insertion unit 143 is turned ON using the setting key (step S2416: YES). Execute (step S2417). In steps S2425 to S2429, the same processes as steps S126 to S130 of the main process (FIG. 13) in the first embodiment are executed.

FIG. 42 is a flow chart showing the set value update process executed in step S2417 of the main process (FIG. 41).

First, interrupt permission is set (step S2501). After that, the setting updating flag of the main RAM 84 is set to "1" (step S2502). After that, if the game stop flag of the main RAM 84 is not set to "1" (step S2503: NO), after executing the RAM clearing process (step S2504), the process proceeds to step S2507, and the game stop flag is set to " 1" is set (step S2503: YES), the RAM clearing process is executed (step S2505), the ceiling counter 131 is set (step S2506), and then the process proceeds to step S2507.

In the RAM clearing process in each of steps S2504 and S2505, in the main side RAM 84, an area in which setting value information indicating the setting state of the pachinko machine 10 is set (that is, a setting reference area), a ceiling counter 131, and a setting updating flag And the main side RAM 84 is cleared to "0" and initialized except for the area in which the information for calculating the role ratio is stored in the main side RAM 84 . As a result, the area indicating whether or not the winning lottery mode is the high probability mode is cleared to "0", so the winning lottery draws regardless of the winning lottery mode immediately before the supply of the operating power to the pachinko machine 10 is stopped. Mode is low probability mode. In addition, the game round is not executed, the open/close execution mode is not executed, and the normal diagram display section 38a is not displayed in a variable manner, and the general electric accessory 34a is in the closed state. situation. In addition, since the special figure reservation area 84a and the general figure reservation area 84c are also cleared to "0", the first reservation information, the second reservation information and the reservation information on the general drawing side are erased. Also, the setting checking flag and setting update area are cleared to "0". Also, in the RAM clearing process, the various registers of the main MPU 82 are also cleared to "0" and then initialized. In this initial setting, the same processing as the internal function register setting processing in step S2402 is executed.

In the setting process of the ceiling counter 131 in step S2506, the ceiling counter 131 is set with information of 500 times, which is the number of fixed ceilings. As a result, it is specified that an information error has occurred in the main RAM 84, and the game stop flag of the main RAM 84 is set to "1", thereby preventing the start of the process for advancing the game. When the set value update process is executed in the state where the ceiling is present and the blocked state is canceled, the ceiling counter 131 is set with information of 500 times, which is the number of fixed ceiling times.

After that, "1" is set in the setting update area of the main side RAM 84 (step S2507), and an update start command is transmitted to the sound and light side MPU 93 (step S2508). Also, it is determined whether or not the setting value information stored in the setting update area is one of "1" to "6" (step S2509). If it is not one of "1" to "6" (step S2509: NO), "1" is set in the setting update area (step S2510). As a result, the setting value to be updated becomes "setting 1".

If an affirmative determination is made in step S2509 or if the process of step S2510 is performed, it is determined whether or not the setting key insertion unit 143 has switched from the ON state to the OFF state using the setting key (step S2511). If a negative determination is made in step S2511, on condition that the reset button 142 is pressed (step S2512: YES), 1 is added to the value of the setting update area (step S2513). As a result, each time the reset button 142 is pressed once, the set value is updated to a value one step higher. If the reset button 142 is not pressed (step S2512: NO) or if the value of the setting update area is incremented by 1, the process returns to step S2509. If it is determined that the value of the area is 7 or more, "1" is set in the setting update area in step S2510. As a result, when the reset button 142 is pressed once in the state of "setting 6", the setting returns to "setting 1".

If it is specified that the setting key insertion unit 143 has switched from the ON state to the OFF state (step S2511: YES), the setting reference area is overwritten with the setting value information stored in the setting update area (step S2514). ). As a result, the setting value information updated in the setting value update process this time is set in the setting reference area, and the setting value corresponding to the set information is the current setting of the pachinko machine 10. value.

After that, interrupt prohibition is set (step S2515). Also, a return command at the time of updating is transmitted to the sound and light side MPU 93 (step S2516). Also, the setting updating flag of the main RAM 84 is cleared to "0" (step S2517).

According to the above configuration, when it is specified that an information error has occurred in the main RAM 84 and the game stop flag of the main RAM 84 is set to "1", the process for advancing the game can be started. When the set value update process is executed in the blocked state and the blocked state is canceled, the ceiling counter 131 is set with information of 500 times, which is the number of fixed ceilings. As a result, even if the information in the ceiling counter 131 has been rewritten when an information error occurs in the main RAM 84, the information in the ceiling counter 131 can be reset to 500 times, which is the fixed ceiling frequency. becomes.

When an information abnormality occurs in the main side RAM 84, the information of the ceiling counter 131 is set again to the information of 500 times which is the fixed ceiling number, and the situation in which the start of the processing for advancing the game is blocked is released. It is possible to concentrate on the set value update process executed for the purpose. In addition, when an information abnormality occurs in the main RAM 84, the process of resetting the information of the ceiling counter 131 to the information of 500 times, which is the number of fixed ceilings, is blocked from starting the process for advancing the game. When the set value update process is executed to cancel the .

<Fifth Embodiment>
This embodiment differs from the first embodiment in the processing configuration of the main processing. The configuration different from that of the first embodiment will be described below. The description of the same configuration as that of the first embodiment is basically omitted.

FIG. 43 is a flow chart showing the main processing in this embodiment executed by the main MPU 82. As shown in FIG.

In steps S2601 to S2612, the same processes as steps S101 to S112 of the main process (FIG. 13) in the first embodiment are executed. If the setting key insertion unit 143 is not turned on using the setting key and the setting confirmation flag is not set to "1" (steps S2610 and S2611: NO), the main body open detection sensor 144 It is determined whether or not the gaming machine body 12 is being opened by determining whether or not a HI level open detection signal has been received from (step S2613).

When the HI level open detection signal is received from the main body open detection sensor 144 (step S2613: YES), that is, when the game machine main body 12 is in an open state with respect to the outer frame 11, the ceiling of the main side RAM 84 Information of 500 times, which is the first ceiling number, is set in the counter 131 (step S2614). The case where the process of step S2613 is executed means that when the supply of operating power to the pachinko machine 10 is started, the pressing operation of the reset button 142 and the ON operation by the setting key to the setting key insertion portion 143 are performed. In addition, both the setting updating flag and the setting checking flag of the main RAM 84 are not set to "1". In this case, the setting confirmation process (step S2612), the setting value update process (step S2617) and the RAM clear process (step S2619) are not executed in the process (steps S2601 to S2626) when the supply of operating power is started. situation. In addition, in the game hall, the main power supply for supplying operating power to each pachinko machine 10 is turned off, and the power switch provided in the power supply/launch control device 78 of each pachinko machine 10 is turned on in advance. When it is time to start business for the day, the pachinko machines 10 are activated all at once by turning on the main power supply. Under such circumstances, the affirmative determination is made in step S2613 when the game machine This is the case where the supply of operating power is started while the main body 12 is intentionally left open. In such a situation, the ceiling counter 131 is set with the information of 500 times, which is the first ceiling number. As a result, it is possible to create a situation in which the ceiling counter 131 is set with information of 500 times, which is the first number of times of ceiling, when the supply of operating power is started, as a situation different from that at the start of normal business hours. This can be generated without accompanying confirmation processing (step S2612), setting value update processing (step S2617), and RAM clear processing (step S2619). It should be noted that the information of 500 times, which is the first ceiling number, is set in the ceiling counter 131 also when the opening/closing execution mode is started as a result of a big win.

In steps S2615 to S2620, the same processes as steps S115 to S120 of the main process (FIG. 13) in the first embodiment are executed. If a negative determination is made in any of steps S2604 to S2606, that is, if the power failure flag is not set to "1", if the checksum does not match, or if the set value is abnormal, the main side The game stop flag of the RAM 84 is set to "1" (step S2621). By setting the game stop flag to "1" in the same manner as in the first embodiment, the processes of steps S201 to S205 are executed in the timer interrupt process (FIG. 14), while an affirmative determination is made in step S206. By doing so, the processing of steps S207 to S220 is not executed. As a result, if the power failure flag is not set to "1" because the power failure process was not properly performed at the time of the previous power failure, the storage state of the main RAM 84 has changed since the previous power failure. If the checksum does not match or if the set value is abnormal, power failure monitoring, updating of various counters, and fraud monitoring are executed. will not be executed.

After that, the ceiling counter 131 of the main RAM 84 is set with the information of 800 times, which is the second ceiling number which is larger than the first ceiling number (step S2622). In steps S2623 to S2630, the same processes as steps S123 to S130 of the main process (FIG. 13) in the first embodiment are executed.

Even if the set value update process (step S2617) is executed as in the first embodiment, the ceiling counter 131 of the main RAM 84 is not initialized, and the ceiling count is not newly set. can't break Therefore, even if the set value update process (step S2617) is executed in order to cancel the game stop state due to the information abnormality when the information abnormality of the main side RAM 84 occurs, the information of the ceiling counter 131 is maintained as it is. . On the other hand, when it is specified that an information abnormality has occurred in the main RAM 84 and the game stop flag of the main RAM 84 is set to "1", the ceiling counter 131 is set to 800, which is the second ceiling number. times information is set. As a result, even if the information in the ceiling counter 131 has been rewritten when an information abnormality occurs in the main RAM 84, the information in the ceiling counter 131 can be reset to the information of 800 times, which is the second ceiling number. It becomes possible.

The second ceiling number is a number greater than the first ceiling number set in the ceiling counter 131 when the opening/closing execution mode is started or at step S2614 of the main process (FIG. 43). As a result, when an information error occurs in the main RAM 84, the second ceiling number, which is a relatively large number, is set in the ceiling counter 131, and an illegal operation that accompanies an information error in the main RAM 84 is performed. When the action is performed, it becomes possible to give a penalty that the number of execution times of the game times required to generate the ceiling time reduction is increased.

<Sixth embodiment>
In this embodiment, the configuration of the game area PA provided on the game board 24 is different from that of the first embodiment. The configuration different from that of the first embodiment will be described below. The description of the same configuration as that of the first embodiment is basically omitted.

FIG. 44 is a front view of the game board 24 for explaining the structure of the game area PA in this embodiment.

An inner rail portion 25 and an outer rail portion 26 are attached to the game board 24 so as to partition a part of the outer edge of the game area PA. The guide rail is configured as A game ball shot from a game ball shooting mechanism 27 (see FIG. 2) is guided to the upper part of the game area PA by a guide rail.

As in the first embodiment, the game board 24 includes a general prize winning port 31, a special electric prize winning device 32, a first operation port 33, a through gate 35, a variable display unit 36, a special figure unit 37, and a general figure unit 38. is provided. Also, a special winning device 151 is provided in place of the second operation port 34 in the first embodiment. Further, in this embodiment, a distribution winning device 161 is provided.

Even if a ball enters the through gate 35, no game ball is put out. On the other hand, when a ball enters any one of the general winning port 31, the special electric winning device 32, the first operating port 33, the special winning device 151, and the distribution winning device 161, the number of game media available to the player is A predetermined number of game balls are put out to increase the number. Specifically, when a ball enters the general winning hole 31, 10 game balls are paid out, and when a ball enters the special electric winning device 32, 15 balls are paid out. game balls are put out, and when a ball enters the first operating port 33, three game balls are put out, and when a ball enters the special winning device 151, One game ball is put out, and when a ball enters the distribution winning device 161, 15 game balls are put out.

As will be described later, the distribution winning device 161 is provided with a discharge passage region 165b and a V winning passage region 165c. Although it will pass through either of the areas 165c, the same number (specifically 15) of game balls will be paid out regardless of which of the discharge passage area 165b and the V winning passage area 165c the game balls pass. be done. Also, the number of prize balls is arbitrary. For example, the number of prize balls in the first operation port 33 and the special prize winning device 151 may be the same, and the number of prize balls in the distribution prize winning device 161 is greater than the number of prize balls in the special electric prize winning device. The number of prize balls may be greater than or less than 32.

In addition, an out port 24a is provided at the bottom of the game board 24, and game balls that do not enter various winning ports are discharged from the game area PA through the out port 24a. Further, the game board 24 is provided with a large number of nails 24b for properly dispersing and adjusting the falling direction of the game balls, as well as various members such as windmills.

A variable display unit 36 is provided so as to include the central portion of the game area PA. Due to the peripheral portion of the variable display unit 36 protruding forward of the pachinko machine 10 from the surface of the game board 24, an area in which the game balls shot to the game area PA can flow down is defined. Specifically, an upper area PA1, which is an area above a predetermined height position of the variable display unit 36 in the game area PA, and a lower area continuous with the upper area PA1 and higher than the variable display unit 36. A left area PA2 which is an area on the left, a right area PA3 which is an area continuous below the upper area PA1 and to the right of the variable display unit 36, and a left area PA2 and a right area PA3. On the other hand, it is divided into a lower area PA4 which is an area below the variable display unit 36 continuously below it.

When the player operates the shooting operation device 28 with the amount of rotation in the first range which is less than the reference amount of rotation as the first shooting operation, the game ball is shot to the left of the center position in the horizontal direction in the upper area PA1. flow down. In this case, the game balls flow down in the order of the upper area PA1→left area PA2→lower area PA4. On the other hand, when the player operates the shooting operation device 28 with a rotation amount in a second range that is equal to or larger than the reference rotation amount as a second shooting operation, the shooting operation device 28 is moved to the right of the lateral center position in the upper area PA1. A game ball begins to flow down. In this case, the game balls flow down in the order of the upper area PA1→right area PA3→lower area PA4. In other words, the player can adjust the rotation operation amount of the shooting operation device 28 so that the game ball can flow down the left side area PA2 of the left side area PA2 and the right side area PA3. A game can be played so that a game ball flows down PA3. Incidentally, when the shooting operation device 28 is operated with the maximum amount of rotation, the game ball flows down in the order of the upper area PA1→right area PA3→lower area PA4.

The first operation port 33 is installed in the lower area PA4. The first operating port 33 is open upward, and a member such as an opening/closing member for preventing the game ball from entering the first operating port 33 is not provided. Then, in a situation where the game balls are shot in the same mode, the winning probability to the first operation opening 33 is constant regardless of the game state. In other words, the first operation port 33 is always capable of entering the game ball flowing down the game area PA toward the first operation port 33 . In addition, the first operating port 33 is arranged directly below the stage portion 36b formed in the variable display unit 36, and the game ball flowing into the stage portion 36b through the guide passage formed in the variable display unit 36 A game ball ejected outside the variable display unit 36 from the lateral center of the stage portion 36b easily enters the first operation port 33. As shown in FIG.

As described above, the first working port 33 is provided in the lower area PA4, but the game ball flowing down the right side area PA3 is placed on the upstream side of the first working opening 33 toward the right side area PA3. A regulating nail 24c is provided so as to make it impossible to reach the 1 operation port 33. As shown in FIG. Further, the entrance of the guide passage to the stage portion 36b is provided for the left side area PA2 and not provided for the right side area PA3. With these configurations, when the shooting operation device 28 is operated so that the game ball flows down the left side area PA2, it is possible to win the first operation opening 33, but the game ball flows down the right side area PA3. When the shooting operation device 28 is operated so as to do so, winning to the first operation port 33 is disabled. However, it is not limited to this, and the game ball flows down the right area PA3 by not providing the control nail 24c or providing the entrance of the guide passage to the stage part 36b in the right area PA3. As described above, the configuration may be such that even when the firing operation device 28 is being operated, the winning to the first operation opening 33 is possible.

The special winning device 151 is installed in the right area PA3. That is, the special winning device 151 cannot win a prize when the shooting operation device 28 is operated so that the game ball flows down the left area PA2, and the shooting operation device makes the game ball flow down the right area PA3. 28 is operated, winning is possible.

The configuration of the special winning device 151 will be described with reference to FIG. 45(a). FIG. 45(a) is a longitudinal sectional view of the special winning device 151 in the non-guided state. The special prize winning device 151 includes a base unit 151a formed with a discharge passage 153 for discharging game balls flowing in from the game area PA to the rear of the game board 24, and a discharge passage 153 for discharging game balls flowing down the game area PA. and a guidance unit 152 for guidance. An inlet portion 153a of the discharge passage 153 has an opening area equal to or larger than one game ball, and is open toward the front of the pachinko machine 10.例文帳に追加A detection sensor 154 is provided on the exit portion 153 b side of the discharge passage 153 , and the game ball that has won the special winning device 151 is detected by the detection sensor 154 .

Guidance unit 152 receives from below the game ball flowing down the front area of the entrance portion 153a in the game area PA, guide member 155 for guiding the received game ball into the discharge passage 153, into the discharge passage 153 A situation in which the guide drive unit 156 for displacing the guide member 155 between the initial position that disables the guidance of the game ball and the guidance position that allows the guidance, and the guide member 155 is arranged at the initial position is arranged in a blocking position that blocks the inflow of game balls into the discharge passage 153, and in a situation where the guide member 155 is arranged in the guiding position, it is arranged in a non-blocking position that does not block the inflow of game balls into the discharge passage 153. and a blocking member 157 . The guide member 155 and the blocking member 157 are opposed to each other with a predetermined gap in the vertical direction, with the guide member 155 facing downward. A transmission unit 158 is provided to transmit the driving force of the guide driving portion 156 to the guide member 155 and blocking member 157 .

When the guide driving portion 156 is in a non-driving state, the guide member 155 is arranged at the initial position and the blocking member 157 is arranged at the blocking position by the biasing force of biasing means such as a spring (not shown). In this case, the guide member 155 and blocking member 157 are entirely buried in the discharge passage 153 and do not protrude into the game area PA. As a result, the game ball flowing down the front region of the entrance portion 153a of the discharge passage 153 in the game area PA is not guided into the discharge passage 153 by the guide member 155 and the blocking member 157, that is, the game ball is a special winning prize. The ball flows downward in the play area PA without entering the device 151. - 特許庁Further, since the blocking member 157 is arranged at the blocking position, the substantial opening area of the inlet portion 153a of the discharge passage 153 is less than one game ball. As a result, it is possible to reliably prevent game balls from entering the special winning device 151 in a situation where the guide member 155 is arranged at the initial position.

When the guide driving portion 156 is driven, the guide member 155 and the blocking member 157 are displaced against the biasing force of the biasing means, so that the guide member 155 is placed at the guiding position and the blocking member 157 is released. placed in the blocking position. FIG. 45(b) is a longitudinal sectional view of the special winning device 151 in the guided state.

When the guide member 155 is arranged at the guiding position, the tip side of the guide member 155 protrudes from the entrance portion 153a of the discharge passage 153 toward the game area PA. This amount of protrusion is such that it is possible to receive from below the game ball that flows down the area in front of the entrance portion 153a in the game area PA. Since the upper surface of the tip of the guide member 155 slopes downward toward the inlet 153a of the discharge passage 153, the game ball received from below at the tip of the guide member 155 moves toward the upper surface of the guide member 155. , and is guided into the discharge passage 153 . Further, when the blocking member 157 is arranged at the non-blocking position, the tip of the blocking member 157 is displaced so as to be positioned above the blocking position, so that the upper surface of the guide member 155 is rolled. The ball flows into the discharge passage 153 without interfering with the blocking member 157 . As a result, the guide driving portion 156 is driven, and the game ball flowing down the area in front of the entrance portion 153 a in the game area PA enters the special winning device 151 . Hereinafter, for convenience of explanation, the state in which the guide drive unit 156 is in the non-driving state, the guide member 155 is arranged at the initial position, and the blocking member 157 is arranged at the blocking position is referred to as the non-guiding state of the guide unit 152 or the special winning device 151. The closed state of the guide driving unit 156 is the driving state, the guide member 155 is arranged at the guiding position, and the blocking member 157 is arranged at the non-blocking position. It is called open state.

The special prize winning device 151 has a cover member 159 provided to face the entrance portion 153a of the discharge passage 153 from the front of the pachinko machine 10. As shown in FIG. The cover member 159 is formed in the shape of a gate so as to form a vertical passage portion 159a in the area in front of the entrance portion 153a in the game area PA. It is provided so as to limit the number of game balls to one and to regulate the forward movement and lateral movement of the game ball in the pachinko machine 10.例文帳に追加As a result, when the induction unit 152 of the special winning device 151 is in the guiding state, a plurality of game balls are prevented from being simultaneously guided into the discharge passage 153 of the special winning device 151, and the guidance state , it is possible to reliably guide the game ball passing through the front region of the entrance portion 153a into the discharge passage 153.

As shown in FIG. 44, a through gate 35 is provided above the special winning device 151 in the right area PA3. That is, the through gate 35 cannot win a prize when the shooting operation device 28 is operated so that the game ball flows down the left side area PA2, and the shooting operation device 28 is operated so that the game ball flows down the right side area PA3. Winning is possible when is operated. The through gate 35 has a through hole extending vertically. In addition, a special winning device 151 is provided at a position vertically below the through gate 35, and a special electric winning device 32 and a distribution winning device 161 are provided downstream of the special winning device 151 in the right area PA3. It is Therefore, the game ball that has won the through gate 35 can win the special prize winning device 151 , the special electric prize winning device 32 or the distribution prize winning device 161 .

The right side area PA3 in which the special winning device 151 and the through gate 35 are collectively arranged is defined by a side wall 36f of the variable display unit 36 which bulges forward from the board surface of the game board 24 to the front of the pachinko machine 10. , and the right side is defined by a regulation wall provided on the resin base 21 of the inner frame 13 and protruding forward of the pachinko machine 10 from the board surface of the game board 24 . The right side area PA3 is set to have a lateral dimension narrower than that of the lower side area PA4, and the lateral dimension is such that it is impossible to arrange the game ball entry devices in the lateral direction at the same height position. It has become. As a result, it is possible to limit the flow path of the game ball flowing down the right area PA3 to a predetermined range, and the game ball is likely to enter the special prize winning device 151 and the through gate 35 .

The arrangement mode of the plurality of nails 24b on the upstream side of the through gate 35 in the right area PA3 is set so as to guide the game balls flowing down the right area PA3 to the through gate 35.例文帳に追加As a result, a game ball flowing down the right area PA3 can easily enter the through gate 35, and the ball can easily enter the special winning device 151 as the ball easily enters the through gate 35.例文帳に追加

By switching the induction unit 152 of the special winning device 151 from the non-guiding state to the guiding state based on the winning of the through gate 35, the special winning device 151 changes from the closed state to the open state. Concretely, with winning a prize to thru gate 35 as a trigger, general figure propriety determination processing is performed, and general figure unit 38 provided in the lower left corner, which is an area through which the game ball does not pass, in game area PA Variation display of the pattern is performed in the figure display section 38a. Then, when the result of the general pattern correctness determination process is the electric role open election and the stop result corresponding to the result is displayed and the variable display of the general pattern display unit 38a is ended, the state is shifted to the general electric open state. In the general electric open state, the induction unit 152 is in the induction state in a predetermined manner, so that the special winning device 151 is in the open state in a predetermined manner.

Even in the present embodiment, a low-frequency support mode, a first high-frequency support mode, and a second high-frequency support mode are set as support modes. The probability of open winning, the selection mode of the duration of the variable display times in the normal diagram display section 38a, and the selection mode of the stop result in the normal diagram display section 38a are the same as in the first embodiment. In addition, the manner in which the special prize winning device 151 is in the open state when the power supply is open in each support mode (open duration, number of times of opening, upper limit number of winning prizes, interval period) is different from each other in the first embodiment. It is the same as the mode (open duration, number of times of opening, upper limit winning number, interval period) in which the general electrical accessory 34a of the second operating port 34 is in the open state when the general electrical is opened in the support mode.

In the first high-frequency support mode and the second high-frequency support mode, the probability of winning the special prize-winning device 151 is higher than in the low-frequency support mode. In other words, in the low-frequency support mode, the probability of winning the first operation port 33 is higher than in the special prize-winning device 151, but in the first high-frequency support mode and the second high-frequency support mode, the first operation port The probability of winning to the special winning device 151 is higher than 33. When a prize is awarded to the special prize winning device 151, a predetermined number of game balls are paid out. A game can be played while trying not to reduce it.

Based on the fact that the winning to the first operating port 33 or the special winning device 151 has occurred, the win/loss determination process is performed. Then, the result of the propriety determination process is clearly shown through the display effect in the special figure unit 37 and the symbol display device 41 of the variable display unit 36. The special figure unit 37 is provided with a first special figure display portion 37a and a second special figure display portion 37b as in the first embodiment. In the first special figure display unit 37a, the variable display of the pattern is performed by performing the winning judgment processing on the first reservation information acquired by the occurrence of the winning to the first operation port 33. Then, a stop result corresponding to the determination result of the success/failure determination process is displayed. In this case, as in the first embodiment as the determination result of the success/failure determination process, there are a jackpot result, a time saving result and an off result, but the content of the stop result of the first special figure display unit 37a is a jackpot result, It is different in each of the time saving result and the off result. The display of the stop result in the first special figure display portion 37a is maintained until the next game round is started and the first special figure display portion 37a starts the variable display of a new pattern. In addition, in the second special figure display unit 37b, the variable display of the pattern is performed by performing the winning judgment processing on the second reservation information acquired by the occurrence of the winning to the special winning device 151. Then, a result corresponding to the determination result of the success/failure determination process is displayed. In this case, as in the first embodiment, there are a big hit result, a time saving result, and a misplaced result as well as a small hit result as well as the result of the success/failure determination process. The contents of the stop result of the second special figure display portion 37b are different for each of the big hit result, the time saving result, the small hit result and the off result. The display of the stop result in the second special figure display portion 37b is maintained until the next game cycle is started and the second special figure display portion 37b starts the variable display of a new pattern.

In the special figure unit 37, the 1st special figure reservation display part 37c is provided in the position adjacent to the 1st special figure display part 37a. The number of game balls winning the first operation port 33 is reserved up to four, and the reserved number is displayed by lighting of the first special figure reservation display section 37c. On the other hand, the special figure reservation display section corresponding to the second special figure display section 37b is not provided. The number of game balls won by the special prize winning device 151 is not retained and stored unlike the first operation port 33. - 特許庁That is, when the special winning device 151 wins in a situation where the game round can be started, the game round is executed in the second special figure display section 37b, but the game round cannot be started. Even if a prize to the special prize winning device 151 is generated in the situation, the hold information that triggers the start of the game cycle is not stored. However, even if a prize is awarded to the special prize winning device 151 in a situation in which the game cycle cannot be started, the game balls are paid out accordingly.

The display ranges of the first special figure display portion 37a and the second special figure display portion 37b are narrower than the display surface of the symbol display device 41. Further, the entire display range of the first special figure display portion 37a, the second special figure display portion 37b and the first special figure reservation display portion 37c is also narrower than the display surface of the symbol display device 41. Thereby, it is possible to increase the degree of attention of the player to the symbol display device 41 more than the first special figure display portion 37a, the second special figure display portion 37b and the first special figure reservation display portion 37c.

When the first special figure display portion 37a or the second special figure display portion 37b performs the variable display of the pattern, that is, when the game round is being executed, the symbol display device 41 performs the display effect accordingly. When the game-turn effect is executed on the symbol display device 41, the symbol rows Z1 to Z3, the first pending display area 42a and the state suggesting area 43 are set in the same manner as in the first embodiment. However, in the present embodiment, the second pending display area 42b is not displayed because the second pending information is not stored. In addition, the symbol display device 41 performs not only the display effect for the game cycle, but also the display effect during the opening/closing execution mode that shifts after the result of a big hit, and the like.

When a big winning result is selected in the win/fail judgment processing executed based on the winning to the first operation port 33 or the special winning device 151, the opening/closing execution mode is shifted to after the game round corresponding to the big winning result is finished. In the opening/closing execution mode, it is possible to win a prize for the special electric prize winning device 32 . As shown in FIG. 44, the special electric winning device 32 is provided at a position below the special winning device 151 and above the distribution winning device 161 in the right area PA3. That is, the special electric prize winning device 32 cannot win a prize when the shooting operation device 28 is operated so that the game ball flows down the left side area PA2, and the shooting operation device 32 makes the game ball flow down the right side area PA3. 28 is operated, winning is possible.

The special electric prize winning device 32 has a large prize winning opening (not shown) leading to the back side of the game board 24, and has an opening/closing door 32a for opening and closing the big winning opening. The opening/closing door 32a is arranged in either a closed state or an open state. Specifically, the opening/closing door 32a is normally in a closed state in which game balls cannot win, and when a big hit result is selected in the success/failure determination process, the opening/closing door 32a is switched to an open state in which game balls can win. ing. It should be noted that although it is not impossible to win a prize in the closed state, it may be configured to be in a state in which it is more difficult to win a prize than in the open state. Further, the execution contents of the opening/closing execution mode are the same as those of the first embodiment.

When a small hit result is selected in the winning/failure determination process executed based on the winning to the special prize winning device 151, after the game round corresponding to the small winning result is completed, the game shifts to the distribution execution mode. In the distribution execution mode, prizes can be awarded to the distribution winning device 161 .

As shown in FIG. 44, the distribution winning device 161 is provided at a lower position than the special winning device 151 in the right area PA3. That is, the distribution winning device 161 cannot win a prize when the shooting operation device 28 is operated so that the game ball flows down the left side area PA2, and the shooting operation is performed so that the game ball flows down the right side area PA3. Winning is possible when the device 28 is operated.

The configuration of the distribution winning device 161 will be described with reference to FIG. 46 in addition to FIG. FIG. 46 is a longitudinal sectional view for explaining the internal configuration of the distribution winning device 161. As shown in FIG.

As shown in FIG. 44, the distribution winning device 161 includes a distribution entrance 161a having a size through which game balls can pass. A distribution side opening/closing member 162 is provided for switching between an open state through which a ball can pass. The distribution side opening/closing member 162 is opened by being driven through a link mechanism (not shown) by the driving section 163 for the distribution entrance.

A game ball that has entered the sorting entrance 161a is guided to a branch passage 165 formed in a base body 164 of the sorting prize winning device 161, as shown in FIG. The branch passage 165 has an upstream passage region 165a, which is set so that the passage direction slopes downward in the horizontal direction from the entrance portion of the branch passage 165 to the middle position of the branch passage 165, and the upstream passage region 165a. and a discharge passage area 165b set so that the passage direction is vertically downward, and a side different from the discharge passage area 165b provided by branching from the middle position of the discharge passage area 165b. It has a V winning path area 165c for guiding the ball. In this case, the dimension of the upstream passage area 165a in the direction perpendicular to the passage direction is equal to or more than one game ball and less than two game balls, so the direction perpendicular to the passage direction The game balls are prevented from passing through the upstream passage area 165a in a state in which a plurality of game balls are lined up. Therefore, it is prevented that a plurality of game balls simultaneously reach the branch position to the V winning path area 165c in the discharge path area 165b.

A switching piece 166 for guiding the game ball that has flowed into the discharge path area 165b to the V winning path area 165c is provided at the branch point of the discharge path area 165b to the V winning path area 165c. The switching piece 166 is rotatably supported in a region opposite to the V winning passage region 165c with respect to the discharge passage region 165b in the base body 164, and is entirely retracted outside the discharge passage region 165b. and a V-guide position projecting into the discharge passage area 165b. A driving force of a switching driving portion 167 is transmitted to the switching piece 166 through a transmission unit (not shown). When the switching driving portion 167 is in the non-driving state, the switching piece 166 is arranged at the retracted position by the biasing force of a biasing means such as a spring (not shown), and when the switching driving portion 167 is in the driving state, the switching piece 166 is retracted. The switching piece 166 is displaced against the urging force and placed at the V-guiding position.

When the switching piece 166 is arranged at the retracted position, the game ball flowing into the branch passage 165 flows down the discharge passage region 165b without being guided to the V prize passage region 165c. Then, the game ball is discharged to the rear of the game board 24 after being detected by a count detection sensor 168 provided downstream of the branch position of the switching piece 166 in the discharge passage area 165b. On the other hand, when the switching piece 166 is arranged at the V guide position, the game ball flowing into the branch passage 165 is received by the switching piece 166 from below. The upper surface of the switching piece 166 in the state of being arranged at the V guide position slopes downward toward the V winning path area 165c. As a result, the game ball received from below by the switching piece 166 flows into the V winning path area 165c due to its own weight, and flows down the V winning path area 165c. Then, the game ball is discharged to the rear of the game board 24 after being detected by the V winning detection sensor 169 provided in the V winning path area 165c.

When the distribution side opening/closing member 162 is in an open state, the period during which the open state is maintained is fixed at 2 seconds, which is a period longer than the game ball firing cycle, and distribution is performed in the distribution execution mode. The upper limit number of game balls that can enter the winning device 161 is constant at five. Further, when the shooting operation device 28 is operated by the player, the game ball shooting mechanism 27 is driven and controlled so that one game ball is shot toward the game area PA every 0.6 sec. Then, when the distribution side opening/closing member 162 is in the open state, the number of game balls winning the distribution prize winning device 161 is often one or two, and the maximum is about three. On the other hand, the switching piece 166 starts to operate when the operating power is supplied to the pachinko machine 10, and the switching piece 166 is arranged at the V-leading position for a certain period at a certain cycle. . The cycle in which the switching piece 166 is placed in the V-lead position is once every 4 seconds, and the period in which it is held in the V-lead position is 1 second. Therefore, even if a game ball enters the distributed prize winning device 161 in the open state, the switching piece 166 is not arranged at the V guide position at the timing when the game ball reaches the position of the switching piece 166. It is assumed that the game ball is not detected by the V winning detection sensor 169 in this case.

When the game ball is detected by the count detection sensor 168 or when the game ball is detected by the V prize detection sensor 169, the same number of prize balls corresponding to the sorting prize winning device 161 are paid out. be done. Further, when a game ball is detected by the V winning detection sensor 169 in the distribution execution mode, the opening and closing execution mode occurs after the distribution execution mode. On the other hand, when the distribution execution mode ends without the game ball being detected by the V winning detection sensor 169, the opening/closing execution mode does not occur.

In this embodiment, when the distribution execution mode occurs and the shooting of the game ball toward the distribution winning device 161 is continued, there is a probability of 1/2 that the V winning detection sensor 169 will detect the game ball. Detection occurs. However, it is not limited to this, and the probability may be lower than 1/2 or higher than 1/2. Further, when the distribution execution mode occurs and the shooting of the game ball toward the distribution winning device 161 is continued, the game ball in the V winning detection sensor 169 has a probability of 100% or approximately 100%. may be configured to generate the detection.

FIG. 47 is an explanatory diagram for explaining an electrical configuration for performing various lotteries in the main MPU 82 in this embodiment.

In this embodiment, as in the first embodiment, a winning random number counter C1, a type random number counter C2, a reach random number counter C3, a random number initial value counter CINI, a fluctuation type counter CS, and a general electrical random number counter C4 are provided. The contents of the hit random number counter C1, the type random number counter C2, the reach random number counter C3, the random number initial value counter CINI, the fluctuation type counter CS and the general electrical random number counter C4 and the contents of the processing using these counters C1 to C4, CINI, CS It is the same as the first embodiment. Also, when a prize is won to the through gate 35, the numerical information of the general electric random number counter C4 is stored in the general diagram reservation area 84c, and the configuration of the general diagram reservation area 84c is the same as that of the first embodiment. is.

Each numerical value information of the hit random number counter C1, the type random number counter C2, and the reach random number counter C3 is stored in the first special figure area 171 provided in the main side RAM 84 when the winning to the first operation opening 33 occurs. be done. Further, each numerical value information of the winning random number counter C1 and the type random number counter C2 is stored in the execution area 174 for the second special figure provided in the main side RAM 84 when the special winning device 151 wins. .

The first special figure area 171 includes a first area 172a, a second area 172b, a third area 172c and a fourth area 172d. , the type random number counter C2 and the reach random number counter C3 are stored as first reserved information in one of the areas 172a to 172d. In this case, in the first area 172a to the fourth area 172d, when the winning to the first operation opening 33 occurs a plurality of times in succession, the first area 172a→second area 172b→third area 172c→third area Each numerical value information is stored chronologically in the order of the 4 area 172d. Since the four areas 172a to 172d are provided in this way, up to four winning histories of game balls to the first operation opening 33 are reserved and stored. In addition, the number that can be reserved and stored in the first special figure area 171 is not limited to four and is arbitrary, and may be another plurality such as two, three, or five or more. , may be singular.

In the first special figure area 171, an execution area 173 for the first special figure is provided in addition to the first area 172a to the fourth area 172d. The execution area 173 for the first special figure stores the first pending information to be subjected to the success/failure determination process and various distribution determination processes when starting the variable display of the pattern in the first special figure display unit 37a. It is an area where The hold information stored in the first area 172a is shifted to the execution area 173 for the first special figure when starting the variable display of the first special figure display portion 37a.

In the execution area 174 for the second special figure, each numerical information of the random number counter C1 and the type random number counter C2 is displayed when the special winning device 151 wins in the situation where the game round can be started. Stored as pending information. Here, in the first special figure area 171, the first to fourth areas 172a to 172d are provided as already explained, and even if it is impossible to start the game round, the first reservation information In contrast to the configuration for holding and storing the second holding information, only the execution area 174 for the second special figure is provided, and the area for holding and storing the second holding information is not provided. . This makes it possible to treat the presence/absence of reserved storage differently between the first reserved information and the second reserved information. In addition, in the game round triggered by the second suspension information, the reach effect that is finally lost does not occur, so that the first suspension information includes the numerical information of the reach random number counter C3. 2 The pending information does not include the numerical value information of the reach random number counter C3. However, the configuration is not limited to this, and the second reservation information may include numerical information of the reach random number counter C3.

The winning random number counter C1 is used to execute the winning determination process. Although the low probability mode and the high probability mode are set as the winning lottery mode in the first embodiment, only one winning lottery mode is provided in the present embodiment.

When the suitability determination process is executed for the first reserved information, the first suitability table 181 stored in the main ROM 83 is referred to. FIG. 48(a) is an explanatory diagram for explaining the first right/wrong table 181 in the case where the setting value set to be used is "setting 3". As shown in FIG. 48( a ), the first success/failure table 181 is set with a jackpot result, a time saving result, and an off result as a result of the success/failure determination process. In addition, even if it is the 1st right/wrong table 181 corresponding to setting values other than "setting 3", a jackpot result, a time saving result, and an off result are set. The number of numerical information of the winning random number counter C1 set corresponding to the big winning result is different for each set value as in the first embodiment, and the winning random number set corresponding to the time saving result. The number of numerical information of the counter C1 is the same for each set value.

When the right/wrong determination process is executed for the second reserved information, the second right/wrong table 182 stored in the main ROM 83 is referred to. FIG. 48(b) is an explanatory diagram for explaining the second right/wrong table 182 when the set value that is set to be used is "setting 3". As shown in FIG. 48(b), the second right/wrong table 182 is set with a big hit result, a time saving result, and an off result as a result of the right/wrong determination process, and further, a small hit result is set. It should be noted that even in the second right/wrong table 182 corresponding to setting values other than "setting 3", big hit results, time saving results, small hit results and off results are set. The number of numerical information of the winning random number counter C1 set corresponding to the big winning result is different for each set value as in the first embodiment, and is made to correspond to each of the time saving result and the small winning result. The set number of numerical information of the winning random number counter C1 is the same for each set value.

When the jackpot result is selected in the success/failure determination process, the type of jackpot result is selected using the type random number counter C2. When the jackpot distribution determination process for determining the type of jackpot result is executed, the jackpot distribution table 183 stored in the main ROM 83 is referred to. FIG. 48(c) is an explanatory diagram for explaining the jackpot distribution table 183. As shown in FIG. As shown in FIG. 48(c), a low-frequency jackpot result and a high-frequency jackpot result are set in the jackpot distribution table 183 as the result of jackpot distribution determination processing.

The result of the low-frequency jackpot serves as a trigger for switching to the opening/closing execution mode. In the open/close execution mode triggered by the result of the low-frequency jackpot, the number of executions of the round game is 10 times. Also, the support mode after the opening/closing execution mode ends is the low-frequency support mode. The low-frequency support mode in this case continues at least until the next opening/closing execution mode occurs.

The high-frequency jackpot result serves as a trigger for switching to the opening/closing execution mode. In the open/close execution mode triggered by the high-frequency jackpot result, the number of executions of the round game is 10 times. Also, the support mode after the opening/closing execution mode ends becomes the first high-frequency support mode. In this case, the first high-frequency support mode ends when 10 game rounds are completed without any new open/close execution mode. When 10 game rounds are completed, the support mode becomes the low-frequency support mode.

The jackpot distribution table 183 refers to any case where the result of the hit/fail determination process for the first reservation information is a jackpot result, and the result of the hit/fail determination process for the second hold information is a jackpot result. be done. In addition, the same jackpot distribution table 183 is referred to regardless of the set value. The jackpot allocation table 183 is set so that the low-frequency jackpot result is selected with a probability of 2/3 and the high-frequency jackpot result is selected with a probability of 1/3, but these selection probabilities are arbitrary.

When a time saving result is selected by the propriety determination process, the kind of time saving result is selected using the classification random number counter C2. When the allocation determination process for time saving for determining the kind of this time saving result is performed, the time saving distribution table 184 memorize|stored in main side ROM83 is referred. FIG. 48(d) is an explanatory diagram for explaining the time saving apportionment table 184. As shown in FIG. As shown in FIG.48(d), the 1st time saving result and the 2nd time saving result are set to the time saving distribution table 184 as a result of the distribution determination process for time saving.

A 1st time saving result is a time saving result which makes a support mode a 2nd high frequency support mode, without becoming a shift opportunity of opening-and-closing execution mode. In this case, the second high-frequency support mode ends when 10 games, which is the first time-saving continuation number, are completed without the opening/closing execution mode newly occurring. When 10 game rounds are completed, the support mode becomes the low-frequency support mode.

A 2nd time saving result is a time saving result which makes a support mode a 2nd high frequency support mode, without becoming a shift opportunity of opening-and-closing execution mode. In this case, the second high-frequency support mode ends when 15 games, which is the second time-saving continuation number, are completed without the opening/closing execution mode newly occurring. When 15 game rounds are completed, the support mode becomes the low-frequency support mode. That is, the second time saving result has more execution times of the game times in which the second high-frequency support mode continues than the first time saving result. Therefore, the second time saving result is more advantageous to the player than the first time saving result.

In addition, even if it is this embodiment, ceiling time reduction exists. When the second high-frequency support mode is set with the ceiling time-saving as a trigger, as in the case of the first time-saving result, the second high-frequency support mode is the first time-saving continuous number of times without the opening and closing execution mode newly occurring. The game ends when certain 10 game rounds are completed. When 10 game rounds are completed, the support mode becomes the low-frequency support mode.

Time saving distribution table 184, when the result of the right or wrong determination process for the first pending information is a time saving result, and when the result of the right or wrong determination process for the second pending information is a time saving result, refer to any be done. Moreover, the same time reduction distribution table 184 is referred to for any set value. The time saving distribution table 184 is set so that the first time saving result is selected with a probability of 2/3 and the second time saving result is selected with a probability of 1/3, but these selection probabilities are arbitrary.

When a small hit result is selected in the success/failure determination process, the type of the small hit result is selected using the type random number counter C2. When the small hit distribution determination process for determining the type of the small hit result is executed, the small hit distribution table 185 stored in the main ROM 83 is referred to. FIG. 48(e) is an explanatory diagram for explaining the small hit distribution table 185. FIG. As shown in FIG. 48(e), the small hit distribution table 185 is set with a first small hit result, a second small hit result and a third small hit result as a result of the small hit distribution determination processing. ing.

All of these first to third small winning results serve as triggers for shifting to the distribution execution mode. In the distribution execution mode, as already explained, the distribution winning device 161 is in the open state. A game ball entering the distribution winning device 161 flows into the V winning passage area 165c and is detected by the V winning detection sensor 169, so that the opening/closing execution mode is entered after the distribution execution mode. Then, after the opening/closing execution mode ends, a support mode corresponding to the kind of small winning result is entered. FIG. 48(f) is an explanatory diagram for explaining the combination of the opening/closing execution mode and the support mode corresponding to each small winning result.

The first small winning result is a small winning result in which the number of executions of the round game in the open/close execution mode shifted to when the game ball is detected by the V winning detection sensor 169 in the distribution execution mode is one. Also, the support mode after the opening/closing execution mode ends is the low-frequency support mode.

The second small winning result is a small winning result in which the number of executions of the round game is four in the open/close execution mode that has shifted due to the detection of the game ball by the V winning detection sensor 169 in the distribution execution mode. Also, the support mode after the opening/closing execution mode ends becomes the first high-frequency support mode. In this case, the first high-frequency support mode ends when 10 game rounds are completed without any new open/close execution mode. When 10 game rounds are completed, the support mode becomes the low-frequency support mode.

The third small winning result is a small winning result in which the number of executions of the round game in the open/close execution mode, which has shifted due to the detection of the game ball by the V winning detection sensor 169 in the distribution execution mode, is 9 times. Further, the support mode after the opening/closing execution mode ends becomes the first high-frequency support mode. In this case, the first high-frequency support mode ends when 10 game rounds are completed without any new open/close execution mode. When 10 game rounds are completed, the support mode becomes the low-frequency support mode.

As shown in FIG. 48(e), the small hit distribution table 185 is a small hit when the result of the right or wrong determination process for the first reservation information is a small hit result, and the result of the right or wrong determination process for the second reservation information is a small hit. Whichever of the resulting cases is referenced. In addition, the same small hit distribution table 185 is referred to regardless of the set value. The small winning distribution table 185 selects the first small winning result with a probability of 1/3, selects the second small winning result with a probability of 1/3, and selects the third small winning result with a probability of 1/3. , but these selection probabilities are arbitrary.

FIG. 49 is a flow chart showing the special figure special electric control processing in this embodiment executed by the main side MPU 82 .

First, hold information acquisition processing is executed (step S2701). FIG. 50 is a flow chart showing the process of acquiring hold information. If the winning to the first operation port 33 has occurred (step S2801: YES), the number of first pending information stored in the first area 172a to fourth area 172d of the first special figure area 171 On the condition that it is less than 4, which is the upper limit storage number (step S2802: NO), the storage process to the first special figure area 171 is executed (step S2803). In the storage process, the numerical value information of the hit random number counter C1, the type random number counter C2 and the reach random number counter C3 is set as the first reservation information, and the first It is stored in the area on the side of the earlier consumption order among the areas in which the pending information is not stored. In addition, when the first reservation information is acquired, the data setting is performed so that the display contents of the first special figure reservation display unit 37c are updated according to the fact that the number of the first reservation information has increased this time. conduct. Also, when the first hold information is acquired, a command corresponding to it is transmitted to the sound and light side MPU 93 . As a result, the image of the first suspension display area 42a on the pattern display device 41 is updated in correspondence with the new acquisition of the first suspension information.

If a negative determination is made in step S2801, if a negative determination is made in step S2802, or if the process of step S2803 is executed, it is determined whether or not a prize has been awarded to the special winning device 151 (step S2804). . If the affirmative determination is made in step S2804, the condition is that the current situation is that none of the game times, the distribution execution mode and the opening and closing execution mode are executed (step S2805: YES), for the second special figure to the execution area 174 (step S2806). In the storage process, each numerical value information of the hit random number counter C1 and the type random number counter C2 is stored in the execution area 174 for the second special figure as the second reservation information. That is, the second reservation information is obtained only in a situation where none of the game times triggered by the first reservation information, the game times triggered by the second reservation information, the distribution execution mode and the opening and closing execution mode are executed be done. And, as will be described in detail later, regarding the execution of the winning/failure determination process, in other words, regarding the execution of the game cycle, the second reservation information is given priority over the first reservation information as an execution trigger, so the second reservation information is the second When stored in the execution area 174 for a special figure, the success/failure determination process triggered by the second reservation information is immediately executed, and the game cycle triggered by the second reservation information is started. In addition, the second special figure reservation display unit for notifying the number of stored second reservation information is not provided, and furthermore, in the design display device 41, for notifying the number of reservation storage of the second reservation information No image is displayed.

Returning to the description of the special figure special electric control process (FIG. 49), after executing the pending information acquisition process in step S2701, the special figure special electric address table stored in the main side ROM 83 is read out (step S2702). In the special figure special electric address table, the start address of the program for executing the processing corresponding to the numerical information of the special figure special electric counter is set. The special figure special electric counter is a counter for specifying the processing contents to be executed in the special figure special electric control process by the main side MPU 82 .

The special figure special electric counter can take a value of "0" to "8", and each value of "0" to "8" corresponds to the start address of each process (step S2705 to step S2713). Specifically, when the value of the special figure special electric counter is "0", the special figure fluctuation start processing (step S2705), which is a process for starting the effect for the game round, is executed, and the special figure special electric When the value of the counter is "1", the processing during special figure fluctuation (step S2706), which is the processing for advancing the effect for the game round, is executed, and the value of the special figure special electric counter is "2". In some cases, special figure determination processing (step S2707), which is processing for terminating the effect for the game round, is executed, and when the value of the special figure special electric counter is "3", the distribution execution mode The distribution start processing (step S2708), which is the processing for setting the start of the distribution, is the target of execution, and when the value of the special special electric counter is "4", various processing in the distribution execution mode is executed. (step S2709) for distribution is to be executed, and when the value of the special special electric counter is "5", special electric start processing (step S2710) which is a process for controlling the opening of the opening and closing execution mode is to be executed, and if the value of the special electric special electric counter is "6", the special electric open processing (step S2711), which is a process for controlling the open state of the special electric prize winning device 32, is executed, If the value of the special electric counter is "7", the special electric closing process (step S2712), which is a process for controlling the closed state of the special electric winning device 32, is executed, and the special electric electric counter When the value is "8", special electric end processing (step S2713), which is processing for controlling the ending of the opening/closing execution mode and the transition of the game state at the end of the opening/closing execution mode, is executed.

In the special special electric control process, after reading the special special electric address table (step S2702), the start address corresponding to the information of the special special electric counter is acquired from the special special electric address table (step S2703). Jump to the process indicated by the start address (step S2704). Each process from step S2705 to step S2713 will be individually described below.

<Special figure fluctuation start processing>
First, the special figure fluctuation start processing of step S2705 will be described with reference to the flowchart of FIG.

In special figure fluctuation start processing, on condition that the 1st reservation information or the 2nd reservation information is stored (step S2901: YES), data setting processing is executed (step S2902). In the data setting process, when the second pending information is stored in the execution area 174 for the second special figure, the first pending information acquired earlier than the second pending information in the first special figure area 171 is acquired, the second pending information stored in the execution area 174 for the second special figure is set as an object to be executed. As a result, it is possible to prioritize the second suspension information over the first suspension information as an execution trigger for the success/failure determination process, and to prioritize the execution trigger for a game cycle. The second reservation information stored in the execution area 174 for the second special figure is erased when the game cycle triggered by the second reservation information ends.

On the other hand, in the data setting process, if the second pending information is not stored in the execution area 174 for the second special figure, the data stored in the first area 172a of the first special figure area 171 is stored in the first special figure. to the execution area 173 for After that, a process of shifting the data stored in the storage area of the first special figure area 171 is executed. This data shift process is a process for sequentially shifting the data stored in the first to fourth areas 172a to 172d to the lower area side. 2 area 172b, fourth area 172d→third area 172c, etc. After the data in each area is shifted, the fourth area 172d is cleared to "0". Also, in the data setting process, data setting is performed so that the display contents of the first special figure reservation display section 37c are updated in accordance with the fact that the number of pieces of reservation information on the first special figure side has decreased this time. Also, in the data setting process, a hold decrease command is transmitted to the sound and light side MPU 93 . As a result, the image of the first reserved display area 42a on the pattern display device 41 is updated in accordance with the decrease of the first reserved information.

After executing the data setting process, the propriety judgment process is executed (step S2903). In the success/failure determination process, if the execution target of the current game round is the first reservation information, the first success/failure table 181 (see FIG. 48(a)) corresponding to the current set values is read from the main ROM 83, and the current game is executed. If the execution object of the round is the second pending information, the second right/wrong table 182 (see FIG. 48(b)) corresponding to the current setting is read from the main side ROM83. In addition, as already explained, there is one kind of lottery mode. After reading the success/fail tables 181 and 182, if the first suspension information is the trigger for the current game cycle, numerical information about the winning random number counter C1 stored in the execution area 173 for the first special figure is read. Read out, when the second pending information is the trigger of the game round this time, read out the numerical value information about the winning random number counter C1 stored in the execution area 174 for the second special figure. Then, it is determined which of the game results set in the success/failure tables 181 and 182 matches the numerical value information about the read winning random number counter C1.

If the result of the success/failure determination process is a jackpot result (step S2904: YES), a jackpot result process is executed (step S2905). In the processing for the jackpot result, the same processing as steps S807 to S809 of the special figure variation start processing (FIG. 20) in the first embodiment is executed. However, in the distribution determination process for the big hit, the big hit distribution table 183 shown in FIG. 48(c) is referred to regardless of the type and set value of the reservation information that is the target for starting the game cycle. In this case, when the first reservation information is the target for starting the game cycle, numerical information about the type random number counter C2 stored in the execution area 173 for the first special figure is set in the jackpot distribution table 183. It is determined which of the jackpot results that have been made matches. In addition, when the second reservation information is the start target of the game round, numerical information about the type random number counter C2 stored in the execution area 174 for the second special figure is set in the jackpot distribution table 183. It is determined whether it matches any of the jackpot results. In addition, in the jackpot flag setting process, when the low-frequency jackpot result is selected in the jackpot distribution determination process, the corresponding flag is set, and when the high-frequency jackpot result is selected will set the corresponding flag. In addition, in the stop result setting process for the jackpot result, when a low-frequency jackpot result is selected in the jackpot distribution determination process, information on the stop result corresponding to it is stored in the main side RAM 84, and a high-frequency jackpot result is stored. When a big hit result is selected, the information of the stop result corresponding to it is stored in the main side RAM84.

When the result of the suitability determination process is a time saving result (step S2906: YES), the process for time saving results is performed (step S2907). In the processing for the time saving result, the same processing as the steps S811 to S813 of the special figure variation start processing (FIG. 20) in the first embodiment is executed. However, in the time saving distribution determination process, the time saving distribution table 184 shown in FIG. 48(d) is referred to regardless of the type and set value of the hold information for which the game round is to be started. In this case, when the first reservation information is the start target of the game cycle, numerical information about the type random number counter C2 stored in the execution area 173 for the first special figure is set in the time reduction distribution table 184 Determine which of the time saving results that are being matched. In addition, when the second reservation information is the start target of the game round, numerical information about the type random number counter C2 stored in the execution area 174 for the second special figure is set in the time reduction distribution table 184 Determine which of the time saving results matches. In addition, in the flag setting process for time saving, in the distribution determination process for time saving, when the first time saving result is selected, the flag corresponding to it is set, and when the second time saving result is selected will set the corresponding flag. In addition, in the stop result setting process for the time saving result, when the first time saving result is selected in the time saving distribution determination process, information on the stop result corresponding to it is stored in the main side RAM 84, and the second When the time saving result is selected, the information of the stop result corresponding to it is stored in the main side RAM84. The information on the form of the pattern selected in this case is different from the information on the form of the pattern selected in the case of the jackpot result.

If the result of the success/failure determination process is a small hit result (step S2908: YES), a distribution determination process for a small hit is executed (step S2909). In the distribution determination process for the small hit, the small hit distribution table 185 shown in FIG. 48(e) is referred to regardless of the type and set value of the reservation information that is the target for starting the game cycle. In this case, when the first reservation information is the start target of the game round, the numerical information about the type random number counter C2 stored in the execution area 173 for the first special figure is stored in the small hit distribution table 185 It is determined which of the set small hit results matches. Further, when the second reservation information is the target for starting the game cycle, numerical information about the type random number counter C2 stored in the execution area 174 for the second special figure is set in the small hit distribution table 185. It is determined which one of the small hit results matches.

After that, a small hit flag setting process is executed (step S2910). In the flag setting process for small hits, in the distribution determination process for small hits in step S2909, when the first small hit result is selected, the corresponding flag is set, and the second small hit result is When selected, the corresponding flag is set, and when the third small winning result is selected, the corresponding flag is set.

After that, stop result setting processing for the small hit result is executed (step S2911). In the stop result setting process for the small hit result, the information of the stop mode of the pattern that is finally stopped and displayed in the current game round on the second special figure display unit 37b is set to the small hit result stored in the main ROM 83 in advance. The specified information is stored in the main side RAM 84 . In the stop result table for the small hit result, the type of stop mode of the pattern stopped and displayed on the second special figure display unit 37b is set differently for each type of the small hit result, and in step S2911 , information on the pattern stop mode corresponding to the type of the small winning result specified in step S2909 is stored in the main side RAM84. The information on the pattern mode selected in this case is different from the information on the pattern mode selected in the case of the jackpot result and is different from the information on the pattern mode selected in the case of the time saving result. . The pattern stop mode may be set in a one-to-one correspondence with each small win result, or a plurality of types of picture stop modes may be set for at least some of the small win results. .

If the result of the right/failure determination process is the result of being out of line (step S2908: NO), the stop result setting process for the result of being out of line is executed (step S2912). Specifically, information on the stop mode of the pattern to be finally stopped and displayed in the current game round on the side of the first special figure display unit 37a and the second special figure display unit 37b that is the execution target of the game round is specified from the stop result table for outlier results stored in advance in the main ROM 83 , and the specified information is stored in the main RAM 84 . The information of the pattern mode selected in this case is the information of the pattern mode selected in the case of the jackpot result, the information of the pattern mode selected in the case of the time saving result, and the selected pattern mode information in the case of the small win result. It is different from the information of the mode of the pattern.

After executing one of the stop result setting processes, the variable display period specifying process is executed (step S2913). In the specific processing of the variable display period, if the current state is the first high-frequency support mode or the second high-frequency support mode, if a jackpot result occurs in the current game round, or the result of the win/fail judgment processing is a wrong result. Numerical information corresponding to the reach random number counter C3 in the hold information to be executed together corresponds to the occurrence of the out reach display, and if the out reach display occurs in this game round, the fluctuation type counter CS at that time By collating the numerical information of 1 with the table corresponding to reach in the table group for high-frequency support, the information of the variable display period of the reach display mode is read. In addition, when a small hit result occurs in this game round, the numerical information of the fluctuation type counter CS at that time is collated against the table corresponding to the small hit in the table group for high frequency support. The information of the variable display period of the winning mode is read. In addition, when the big hit result, the out reach display and the small hit result do not occur in the current game round, if the second reservation information is the execution target of the game round, the special figure side as the variable display period of the current game round information for the shortest period (specifically, 3 seconds) is read. As a result, it is possible to increase the consumption efficiency of the game times triggered by the second hold information in the first high-frequency support mode or the second high-frequency support mode. On the other hand, if the first reservation information is the execution target of the game round when the big hit result, the out reach display and the small hit result do not occur in the current game round, the special figure side as the variable display period of the current game round The information for the middle period (specifically, 10 seconds) of is read.

If the current status is the low-frequency support mode, if a big hit result occurs in the current game round, or if the result of the success/failure determination process is a failure result, it corresponds to the reach random number counter C3 in the hold information that is the object of execution. If the numerical information corresponds to the occurrence of the outlier reach display and the outlier reach display occurs in this game round, the numerical information of the fluctuation type counter CS at that time is added to the reach correspondence table in the table group for low frequency support By collating against it, the information of the variable display period of the reach display mode is read. In addition, if a small hit result occurs in this game round, the numerical information of the fluctuation type counter CS at that time is collated against the table corresponding to the small hit in the table group for low frequency support. Information on the variable display period of the winning mode is read. Also, if a time saving result occurs in this game round, the numerical information of the fluctuation type counter CS at that time is collated against the time saving table in the table group for low frequency support. Read the information of the variable display period. Also, if the big hit result, the out reach display, the small hit result and the time saving result do not occur in the current game round, if the second hold information is the execution target of the game round, the variable display period of the current game round Read the information of the longest period (specifically 10 minutes) on the special figure side. As a result, it is possible to reduce the efficiency of digestion of game times triggered by the second hold information in the low-frequency support mode. On the other hand, in the case where the big hit result, the out reach display, the small hit result and the time saving result do not occur in this game round, if the first reservation information is the execution target of the game round, 3 in the first special figure area 171 If it is a game round started in a situation where more than one piece of the first hold information is stored, the information of the shortest period (specifically 3 seconds) on the special figure side is read as the variable display period of the current game round. , If the game round started in a situation where one or two pieces of the first reservation information is stored in the first special figure area 171, the numerical information of the fluctuation type counter CS at that time is for low frequency support Information of the variable display period corresponding to the complete failure result is read out by collating against the table corresponding to the complete failure result in the table group.

After executing the variable display period specifying process in step S2913, a variable command and a type command corresponding to the game turn to be started this time are transmitted to the sound and light side MPU 93 (step S2914). The variation command includes information on the variation display period specified in step S2913, and the game round to be started is either the first special figure display unit 37a or the second special figure display unit 37b. Contains information indicating whether it is supported. Although the variable command does not include information on whether or not to execute the reach display, the variable display period when the reach display occurs is set to be longer than the variable display period when the reach display does not occur. Since it is set, the sound and light side MPU 93 can specify whether or not the ready-to-win display is generated from the information on the variable display period. The type command includes information as to whether or not the game round to be started this time corresponds to the jackpot result, and if it corresponds to the jackpot result, which type of jackpot result. It contains information indicating whether In addition, the type command includes information on whether or not the game round that is the target of this start corresponds to the time saving result, and if it corresponds to the time saving result, which type of time saving result It contains information indicating whether the In addition, the type command includes information as to whether or not the game turn to be started this time corresponds to the small winning result, and if it corresponds to the small winning result, which type of Information indicating whether it is a small winning result is included.

After that, the variable display of the pattern is started in the display part which is the start target of the game cycle of this time among the first special figure display part 37a and the second special figure display part 37b (step S2915). Then, 1 is added to the value of the special figure special electric counter (step S2916). Thereby, the value of the special figure special electric counter becomes "1" corresponding to the special figure fluctuation processing (step S2706).

<Process during special figure fluctuation>
Next, the processing during special figure fluctuation executed in step S2706 of the special figure special electric control processing (FIG. 49) will be described.

When the value of the special figure side timer counter is 1 or more and the fluctuation display period of the current game round has not passed, the display of the special figure display units 37a and 37b that are the execution targets of the current game round When it is the update timing of the contents, data setting for updating the display contents of the special figure display units 37a and 37b is performed. Thereby, the display contents of the pattern in the special figure display portions 37a and 37b to be controlled are updated to the display contents of the next order.

Aspect at the start of the variation display of the pattern in the special figure display unit 37a, 37b, and the update aspect of the variation display of the pattern are performed in a constant manner regardless of the result of the judgment result and the distribution judgment result, and the pattern display device It is carried out in a fixed manner regardless of the content of the presentation for the game round in 41 . For example, when a predetermined update timing occurs a plurality of times, the display content of the pattern rotates once, and a display pattern in which the display order is in a fixed order is repeatedly performed, and when the variable display period has passed, the display pattern The stop result determined at the start of the game round is displayed regardless of the order of display. This makes it possible to simplify the processing configuration for controlling the display of the special figure display units 37a and 37b.

On the other hand, when the value of the special figure side timer counter is "0", that is, when the variable display period has elapsed, the final stop command is transmitted to the sound and light side MPU 93. After that, at the start of the game round, step S2905, step S2907, step S2911 and step S2912 in the special figure fluctuation start process (FIG. 51) The design of the special figure display units 37a and 37b stored in the main side RAM 84 Read the information of the stop mode. As a result, the variable display of the pattern is stopped in a state where the pattern corresponding to the game result of the current game round is displayed in the special figure display units 37a and 37b to be controlled. After that, the information of the final stop period (specifically 0.5 sec) is set to the special figure side timer counter. Thereby, the measurement of the final stop period is started. After that, add 1 to the value of the special special electric counter. As a result, the value of the special figure special electric counter becomes "2" corresponding to the special figure confirmation process (step S2707).

When receiving the final stop command, the sound and light side MPU 93 transmits a corresponding command to the display side MPU 103 . When the display side MPU 103 receives the command, the combination of symbols corresponding to the stop result of the current round of the game is fixedly displayed on the symbol display device 41 over the final stop period.

<Processing during special figure confirmation>
Next, the processing during special figure determination executed in step S2707 of the special figure special electric control processing (FIG. 49) will be described with reference to the flowchart of FIG.

When the value of the special figure side timer counter is "0" and the final stop period has passed (step S3001: YES), and the game result of this game round is a jackpot result (step S3002: YES ), information corresponding to the opening period (specifically 5 seconds) is set in the special figure side timer counter (step S3003), and an opening command is transmitted to the sound and light side MPU 93 (step S3004). When receiving the opening command, the sound and light side MPU 93 causes the pattern display device 41, the display light emitting portion 64 and the speaker portion 65 to perform an effect corresponding to the opening period. After that, the value of the special figure special electric counter is added by 3 (step S3005). As a result, the value of the special figure special electric counter becomes "5" corresponding to the special electric start processing (step S2710).

If the game result of this game round is not a jackpot result (step S3002: NO), the subtraction process of the time saving state counter 134 is executed in step S3006, the setting process for the time saving result is executed in step S3007, and step In S3008, subtraction processing of the ceiling counter 131 is executed. The subtraction processing of the time saving state counter 134 in step S3006 is the subtraction processing of the time saving state counter 134 in the first embodiment ( 30). In addition, the setting process for the time saving result in step S3007 is the setting process for the time saving result in the first embodiment ( 25). In addition, the subtraction process of the ceiling counter 131 in step S3008 is not performed in step S1501 due to the absence of the high probability mode, and when the second high-frequency support mode occurs with the ceiling time reduction as a trigger is the same as the subtraction process of the ceiling counter 131 in the first embodiment (FIG. 29) except that the information of 10 times, which is the first time saving continuation number, is set to the time saving state counter 134.

After that, it is determined whether or not the game result of the current game round is a small winning result (step S3009). When the game result of the current game round is a small winning result (step S3009: YES), the value of the special figure special electric counter is incremented by 1 (step S3010). As a result, the value of the special figure special electric counter becomes "3" corresponding to the distribution start processing (step S2708). If the game result of the current game round is not a small winning result (step S3009: NO), the special figure special electric counter is cleared to "0" (step S3011). Thereby, the value of the special figure special electric counter becomes "0" corresponding to special figure variation start processing (step S2705).

<Distribution start processing>
Next, the distribution start processing executed in step S2708 of the special figure special electric control processing (FIG. 49) will be described.

First, a distribution start command is transmitted to the sound and light side MPU 93 . When the sound and light side MPU 93 receives the distribution start command from the main side MPU 82, the light emission control of the display light emitting unit 64 and the sound output of the speaker unit 65 are performed so that an effect indicating that the distribution execution mode is in progress is executed. Execute control. Also, the sound and light side MPU 93 transmits a distribution start command to the display side MPU 103 . When the display-side MPU 103 receives the distribution start command from the sound and light-side MPU 93, the display effect indicating that the distribution execution mode is started is executed, and then the display effect indicating that the distribution execution mode is in progress. Display control of the symbol display device 41 is performed.

After that, "5" is set in the distribution winning counter provided in the main RAM 84. - 特許庁The distribution winning counter provides an opportunity to switch the distribution winning device 161 from the open state to the closed state in relation to the number of game balls entering the distribution winning device 161 which is in the open state in the distribution execution mode. This is a counter for identification by the main MPU 82 . In addition, a set processing of the distribution open period is executed. In the distribution open period setting process, information corresponding to the 2 seconds is stored in the timer counter of the main side RAM 84 so that the period during which the distribution winning device 161 is maintained in the open state is 2 seconds, which is the distribution open period. set. Then, in order to bring the distribution winning device 161 into an open state, it starts outputting a driving signal to the driving section 163 for the distribution entrance. After that, add 1 to the value of the special special electric counter. As a result, the value of the special figure special electric counter becomes "4" corresponding to the distribution process (step S2709).

<Distribution processing>
Next, the distribution processing executed in step S2709 of the special figure special electric control processing (FIG. 49) will be described.

When a game ball is detected by the V winning detection sensor 169 of the distribution winning device 161, the V winning flag provided in the main side RAM 84 is set to "1". The V winning flag is a flag for specifying in the main side MPU 82 that the game ball has been detected by the V winning detection sensor 169 . Also, it transmits a V winning command to the sound and light side MPU 93 . When the sound and light side MPU 93 receives the V winning command from the main side MPU 82, the light emission control of the display light emitting unit 64 and the speaker are performed so that the effect corresponding to the detection of the game ball by the V winning detection sensor 169 is executed. The sound output control of the section 65 is executed. Also, the sound and light side MPU 93 transmits a V winning command to the display side MPU 103 . When the display side MPU 103 receives the V winning command from the sound and light side MPU 93, the display side MPU 103 displays and controls the pattern display device 41 so that a display performance indicating that the game ball is detected by the V winning detection sensor 169 is executed. .

In the sorting process, it is determined whether or not the sorting open period measured by using the timer counter of the main RAM 84 has passed while the sorting winning device 161 is in the open state. When the distribution open period has not passed, the distribution winning device 161 wins by determining whether or not the game ball is detected by the count detection sensor 168 or the V winning detection sensor 169 of the distribution winning device 161. It is determined whether or not has occurred. When a winning to the distribution winning device 161 has occurred, the value of the distribution winning counter of the main side RAM 84 is subtracted by one. Then, it is determined whether or not the value of the distribution winning counter after subtracting 1 is "0".

When the distribution opening period has passed or when the value of the distribution winning counter after subtracting 1 is "0", the closing condition of the distribution winning device 161 is established, so the driving for the distribution entrance By stopping the output of the driving signal to the unit 163, the distribution winning device 161 is brought into a closed state. Thereafter, information corresponding to the waiting period is set in the timer counter of the main side RAM 84 in order to wait for the end of the distribution execution mode until there are no more game balls in the distribution winning device 161 . The standby period is set as a period longer than the longest period required until the game ball entering the distribution winning device 161 is detected by either the count detection sensor 168 or the V winning detection sensor 169 . Specifically, it is set to 4 seconds. By waiting for the completion of the distribution execution mode until the standby period elapses in this way, it is assumed that the game ball entering the distribution winning device 161 just before the distribution winning device 161 is closed is temporarily detected as V winning. If detected by the sensor 169, it can be treated as valid.

In the sorting process, it is determined whether or not the standby period measured by the timer counter of the main RAM 84 has passed. When the waiting period has passed, it is determined whether or not the V winning flag of the main side RAM 84 is set to "1". If the V winning flag is set to "1", a process for shifting to the opening/closing execution mode is executed. Specifically, display start processing of the special display portion 191 provided on the game board 24 is executed. In the display start processing, the display of the special display portion 191 is controlled so that the display state of the special display portion 191 becomes a predetermined display state corresponding to execution of the opening/closing execution mode. After that, the same processing as steps S3003 to S3005 in the special figure determination process (FIG. 52) is executed. As a result, the opening period of the opening/closing execution mode is started, and the value of the special figure special electric counter becomes "5" corresponding to the special electric start processing (step S2710). It should be noted that, even in the processing during special figure determination (Fig. 52), when executing the processing for shifting to the opening and closing execution mode, the display mode of the special display portion 191 is set to a predetermined display state corresponding to the execution of the opening and closing execution mode. The display of the special display portion 191 may be controlled in advance.

On the other hand, if the V winning flag of the main RAM 84 is not set to "1", the flag clearing process is executed. In the flag clearing process, various flags of the main side RAM 84 used in the current game round are cleared to "0". For example, in the distribution execution mode, any one of the first to third small winning flags of the main side RAM 84 is set to "1", but the flag set to "1" is cleared to "0". . After that, the value of the special special electric counter is cleared to "0". Thereby, the value of the special figure special electric counter becomes "0" corresponding to special figure variation start processing (step S2705).

Here, when the game ball is not detected by the V winning detection sensor 169 although the distribution execution mode is entered, the processing for shifting to the support mode is not executed. As a result, when the opening and closing execution mode does not occur after the shift to the distribution execution mode, the support mode corresponding to the type of the small winning result that triggered the distribution execution mode and the duration table of the game round It is possible to prevent the setting from being performed. After the distribution execution mode ends, the support mode before starting the distribution execution mode is maintained.

In the first high-frequency support mode or the second high-frequency support mode, when the game round of the small hit result is executed, the value of the time saving state counter 134 is 1 in the subtraction process (step S3006) of the time saving state counter 134 When the value of the time saving state counter 134 after the subtraction of 1 is "0" while being subtracted, the process for shifting to the low frequency support mode is executed, so the first high frequency support mode or the second Even if a game cycle with a small winning result is started in the high-frequency support mode, the distribution execution mode may be in the low-frequency support mode. In this case, if the open/close execution mode does not occur after the distribution execution mode, a new game cycle is executed in the low-frequency support mode.

Even if it is a game round of a small hit result, the value of the ceiling counter 131 is subtracted by 1 in the subtraction processing of the ceiling counter 131 (step S3008), and the value of the ceiling counter 131 after the subtraction of 1 is "0". ”, the processing for shifting to the second high-frequency support mode is executed with the ceiling time saving as a trigger, so even if the game round of the small hit result is started in the low-frequency support mode, distribution execution The mode may be the second high frequency support mode. In this case, if the open/close execution mode does not occur after the distribution execution mode, a new game cycle is executed in the second high-frequency support mode.

<Special electric start processing>
Next, the special electric start processing executed in step S2710 of the special electric electric control processing (FIG. 49) will be described.

On the condition that the value of the special figure side timer counter is "0", that is, that the opening period has passed, the setting process of the number of times of opening and closing is executed. In this case, if the current game result is a low-frequency jackpot result or a high-frequency jackpot result, the round counter of the main side RAM 84 is set to "10", and if the current game result is the first small win result, the main side RAM 84 If the current game result is the second small win result, the round counter of the main side RAM 84 is set to "4", and if the current game result is the third small win result. For example, the round counter of the main side RAM 84 is set to "9". The round counter is a counter for specifying the number of remaining round games in the opening/closing execution mode by the main MPU 82 . In addition, the information (specifically 29 seconds) of the opening duration of the round game is set to the special figure side timer counter. Also, "10" is set in the winning counter of the main side RAM 84. - 特許庁The winning counter is a counter for specifying the remaining number of winning upper limit numbers in the main MPU 82 . Further, the special electric prize winning device 32 is opened by outputting a drive signal to the special electric drive unit 32b. After that, add 1 to the value of the special special electric counter. As a result, the value of the special figure special electric counter becomes "6" corresponding to the special electric open processing (step S2711).

<Processing during opening of the special train>
Next, a description will be given of the special electric open process executed in step S2711 of the special electric electric control process (FIG. 49).

If the value of the special figure side timer counter is "0", that is, if the open continuation period has elapsed, the value of the round counter of the main side RAM84 is subtracted by 1 and the drive signal to the drive unit 32b for the special electric The special electric prize winning device 32 is closed by stopping the output. Further, when a game ball enters the special electric prize winning device 32, the value of the prize winning counter is decremented by 1, and when the value of the prize counter after the subtraction of 1 is "0", the main side RAM 84 The special electric winning device 32 is closed by subtracting 1 from the value of the round counter and stopping the output of the drive signal to the drive unit 32b for the special electric. Also, if the value of the round counter is subtracted by 1, if the value of the round counter after the subtraction of 1 is 1 or more, after setting the interval period information (specifically 3 seconds) to the special figure side timer counter , Add 1 to the value of the special special electric counter. As a result, the value of the special figure special electric counter becomes "7" corresponding to the special electric closing process (step S2712). On the other hand, if the value of the round counter after subtracting 1 is "0", the information of the ending period (specifically 5 seconds) is set to the special figure side timer counter, and the ending command is transmitted to the sound light side MPU 93 After that, add 2 to the value of the special special electric counter. Thereby, the value of the special figure special electric counter becomes "8" corresponding to special electric end processing (step S2713). When receiving the ending command, the sound and light side MPU 93 causes the pattern display device 41, the display light-emitting portion 64 and the speaker portion 65 to perform an effect corresponding to the ending period.

<Treatment during special train closure>
Next, the processing during special electric closing executed in step S2712 of the special electric electric control processing (FIG. 49) will be described.

When the value of the special figure side timer counter is "0", that is, when the interval period has passed, the information of the open continuation period of the round game (specifically 29 seconds) is set in the special figure side timer counter . Also, "10" is set in the winning counter of the main side RAM 84. - 特許庁In addition, the special electric prize winning device 32 is opened by outputting a drive signal to the driving section 32b for the special electric. After that, the value of the special figure special electric counter is subtracted by 1. As a result, the value of the special figure special electric counter becomes "6" corresponding to the special electric open processing (step S2711).

<Special call end processing>
Next, the special electric end processing executed in step S2713 of the special electric electric control processing (FIG. 49) will be described with reference to the flowchart of FIG.

If the value of the special figure side timer counter is "0", that is, if the ending period has passed (step S3101: YES), the game result that triggered the opening and closing execution mode of this time is the high frequency jackpot result, the second If it is the second small hit result or the third small hit result (step S3102: YES), the first high frequency flag of the main side RAM 84 is set to "1" (step S3103), and the second small win result of the main side RAM 84 The high frequency flag is cleared to "0" (step S3104). As already explained, the first high frequency flag is a flag for specifying whether the support mode is the first high frequency support mode in the main side MPU 82, and the second high frequency flag is the support mode as already explained. is a flag for specifying in the main MPU 82 whether or not is the second high-frequency support mode. When the first high frequency flag is set to "1" and the second high frequency flag is cleared to "0", the support mode becomes the first high frequency support mode.

Then, the information of "10" which is the 1st time saving continuation frequency is set to the time saving state counter 134 of main side RAM84 (step S3105). The time saving state counter 134 is a counter for specifying the remaining number of continuations of the high-frequency support mode (first high-frequency support mode or second high-frequency support mode) in the main MPU 82 . As a result, the first high-frequency support mode is maintained until ten game rounds, which is the first time-saving continuation number, are completed. In the first high frequency support mode, the special winning device 151 is frequently opened. When a game ball enters the special winning device 151, a small winning result is selected with a high probability, and the distribution execution mode is executed by selecting the small winning result. Then, when a game ball is detected by the V winning detection sensor 169 of the distribution winning device 161 in the distribution execution mode, the opening/closing execution mode is generated.

Here, if the result of the success or failure determination process is the first time saving result and the second high frequency support mode is set, the time saving state counter 134 is set to the first time saving continuation number "10" information is set. On the other hand, if the result of the success/failure determination process is the second time saving result and the second high frequency support mode is set, the time saving state counter 134 is set to the second time saving continuation that is greater than the first time saving continuation number Information of "15", which is the number of times, is set. In other words, when the second high-frequency support mode is set due to the second time-saving result, the number of time-saving continuations is greater than when the first high-frequency support mode is set with the result of the big hit or the small hit as a trigger. number of times is set. Thereby, it becomes possible to heighten the advantage that the result of the success/failure determination process is the second time saving result.

On the other hand, if the game result that triggered the opening and closing execution mode this time is the low frequency jackpot result or the first small hit result (step S3102: NO), the first high frequency flag and the second high frequency flag of the main side RAM 84 Both frequency flags are cleared to "0" (step S3106). Also, the time saving state counter 134 of the main side RAM 84 is cleared to "0" (step S3107). As a result, the support mode becomes the low-frequency support mode.

If the process of step S3105 or the process of step S3107 has been executed, the state designation command transmission process is executed (step S3108). In the transmission process, the state designation command corresponding to the state of the pachinko machine 10 determined by the processing of steps S3102 to S3107 is transmitted to the sound and light side MPU93. The sound and light side MPU 93 executes a process for causing the pattern display device 41, the display light emitting section 64 and the speaker section 65 to execute an effect corresponding to the content of the received state designation command.

After that, information of "500" corresponding to the number of fixed ceilings is set in the ceiling counter 131 of the main RAM 84 (step S3109). Then, the special figure special electric counter is cleared to "0" (step S3110). Thereby, the value of the special figure special electric counter becomes "0" corresponding to special figure variation start processing (step S2705).

When the opening/closing execution mode ends as described above, the ceiling counter 131 is set with 500 times of fixed ceiling information. In the present embodiment, as already described, if the result of the success/failure determination process is a big hit result, the opening/closing execution mode is entered when the game cycle ends, and if the result of the success/failure determination process is a small hit result. When the distribution execution mode in which the V winning detection sensor 169 detects the game ball is completed, the opening/closing execution mode is entered. In other words, there are a plurality of routes for transitioning to the opening/closing execution mode. In this configuration, when the opening/closing execution mode ends, the ceiling counter 131 is configured to set information of 500 times, which is the number of fixed ceilings. It is possible to consolidate the processing of setting the information on the number of fixed ceilings into one processing. Therefore, it is possible to set the ceiling counter 131 to the information of 500 times, which is the number of fixed ceilings, when the opening/closing execution mode occurs, while reducing the program capacity.

FIG. 54 is a flow chart showing power failure monitoring processing in this embodiment executed by the main MPU 82 . The power outage monitoring process is executed at step S201 in the timer interrupt process (FIG. 14).

If a power failure signal corresponding to the occurrence of power failure has been received from the power failure monitoring board 85 (step S3201: YES), the current state is the opening/closing execution mode, and the game result that triggered the transition to the opening/closing execution mode. is the low frequency jackpot result or the first minor hit result (steps S3202 and S3203: YES), the ceiling counter 131 is set with "800" information corresponding to the number of special ceilings (step S3204). This special ceiling count is a number greater than the fixed ceiling count set in the ceiling counter 131 in step S3109 of the special call termination process (FIG. 53). On the other hand, if the current state is not the opening/closing execution mode (step S3202: NO), or even if the current state is the opening/closing execution mode, the game result that triggered the transition to the opening/closing execution mode is the high frequency jackpot result, the second small If it is either the winning result or the third small winning result (step S3202: NO), the process of step S3204 is not executed.

When a negative determination is made in step S3202, when a negative determination is made in step S3203, or when the process of step S3204 is executed, the power failure flag of the main RAM 84 is set to "1" (step S3205), and the main RAM 84 is calculated, the calculated checksum is stored in the main RAM 84 (step S3206), and the output port is cleared (step S3207). After that, the process waits until the supply of operating power to the main MPU 82 is stopped.

In the configuration in which the number of fixed ceilings is set in the ceiling counter 131 when the opening and closing execution mode ends as in the present embodiment, when the opening and closing execution mode triggered by the low frequency jackpot result is started, or the first When the distribution execution mode triggered by the small hit result occurs and the game ball is detected by the V winning detection sensor 169 in the distribution execution mode and the opening and closing execution mode is started, the opening and closing execution mode is started. If there is an illegal act of stopping the supply of the operating power in the middle and executing the set value update process (step S117) or the RAM clear process (step S119) when the supply of the operating power is restarted, the set value In the updating process (step S117) or the RAM clearing process (step S119), the information indicating that the opening/closing execution mode is in progress is cleared as in the first embodiment, while the value of the ceiling counter 131 is maintained. Therefore, there is a possibility that the game may be restarted in a situation where the number of remaining ceiling times is small while the profit of the opening/closing execution mode is obtained until the supply of the operating power is stopped. In particular, when the opening/closing execution mode triggered by the low-frequency jackpot result or the first small hit result is executed, the support mode becomes the low-frequency support mode after the opening/closing execution mode, so the low-frequency jackpot result or the first small hit result Even if the fraudulent act as described above is performed in the opening/closing execution mode triggered by the winning result, the fraudulent person does not suffer any disadvantage in relation to the support mode. On the other hand, when the supply of the operating power is stopped in the middle of the opening/closing execution mode triggered by the result of the low-frequency big win or the result of the first small win, the ceiling counter 131 before the supply of the operating power is stopped. is set with "800" information corresponding to the number of special ceilings. This makes it possible to neutralize the fraudulent act as described above.

Furthermore, when the fraudulent act as described above is performed, the ceiling counter 131 is set with a special ceiling number, which is a larger number than the fixed ceiling number which is set when the opening/closing execution mode ends. Therefore, it is possible to give a penalty to the fraudulent act as described above.

On the other hand, even in the present embodiment, as in the first embodiment, none of the "RAM clear operation", "setting change operation", and "setting confirmation operation" are executed. is open, in step S114 in the main process (FIG. 13), the ceiling counter 131 is set with information of "500", which is the number of fixed ceilings. As a result, if the supply of operating power is stopped in the middle of the opening/closing execution mode triggered by the result of the low-frequency jackpot or the result of the first small hit, even though the fraudulent act as described above is not performed. , when the game hall manager does not perform any of the "RAM clear operation", "setting change operation" and "setting confirmation operation" and the game machine main body 12 is in the open state, the supply of operating power is interrupted. By performing the operation to start, it becomes possible to set the ceiling counter 131 to the information of "500", which is the number of fixed ceilings, in the same way as when the opening/closing execution mode ends.

<Seventh embodiment>
This embodiment differs from the above-described first embodiment in the mode of selection of the variable display period of game rounds. The configuration different from that of the first embodiment will be described below. The description of the same configuration as that of the first embodiment is basically omitted.

FIG. 55 is a flow chart showing processing during specific determination in this embodiment, which is executed by the main MPU 82 .

When the value of the special figure side timer counter is "0" and the final stop period has passed (step S3301: YES), and the game result of this game round is a jackpot result (step S3302: YES ), the information corresponding to the opening period (specifically 5 seconds) is set in the special figure side timer counter (step S3303), and the opening command is transmitted to the sound and light side MPU 93 (step S3304). When receiving the opening command, the sound and light side MPU 93 causes the pattern display device 41, the display light emitting portion 64 and the speaker portion 65 to perform an effect corresponding to the opening period.

After that, information of 500 times, which is the number of fixed ceilings, is set in the ceiling counter 131 of the main RAM 84 (step S3305). That is, when the opening/closing execution mode is started after the game round corresponding to the result of the jackpot is finished, the ceiling counter 131 is set with the information of 500 times, which is the number of fixed ceilings. If the ceiling counter 131 is configured to set the number of fixed ceiling times during the opening/closing execution mode or when the opening/closing execution mode ends, not when the opening/closing execution mode is started, the operation is performed after the opening/closing execution mode is started. If the power supply is stopped and the set value update process (step S117) or the RAM clear process (step S119) is executed when the supply of operating power is restarted, the set value update process ( In step S117) or RAM clear processing (step S119), as already explained, the information indicating that the open/close execution mode is in progress is cleared, whereas the value of the ceiling counter 131 is maintained. There is a possibility that the game may be restarted in a situation where the number of remaining ceilings is small while the profit of the opening/closing execution mode is obtained until the game is stopped. On the other hand, when the opening/closing execution mode is started, the ceiling counter 131 is set with the information of 500 times, which is the number of fixed ceilings, so that the fraudulent act as described above can be neutralized.

After that, the number-of-games counter provided in the main RAM 84 is cleared to "0" (step S3306). The number-of-games counter is a counter for the main MPU 82 to determine whether or not the number of executions of games started after the end of the opening/closing execution mode has reached the reference number of times. The reference number of times is the number of times that the last digit of the number of game times is the reference number. "7" is set as the reference number. Therefore, the number of execution times of the game times started after the opening/closing execution mode ends is "7", "17", "27", "37", "47", "57", "67", "77", ``87'', ``97'', ``107'', . becomes. After that, 1 is added to the value of the special figure special electric counter (step S3307). As a result, the value of the special figure special electric counter becomes "3" corresponding to the special electric start processing (step S609).

When the game result of the current game round is not a jackpot result (step S3302: NO), subtraction processing of the time saving state counter 134 is executed (step S3308). The content of the processing is the same as the subtraction processing (FIG. 30) of the time saving state counter 134 in the first embodiment. Then, the setting process for time saving results is performed (step S3309). The content of the processing is the same as the time saving result setting processing (FIG. 25) in the first embodiment. Thereafter, subtraction processing of the ceiling counter 131 is executed (step S3310). The content of this process is the same as the subtraction process (FIG. 29) of the ceiling counter 131 in the first embodiment. After that, the subtraction process of the high probability state counter 133 is executed (step S3311). The content of this process is the same as the subtraction process (FIG. 24) of the high-probability state counter 133 in the first embodiment. After that, the special figure special electric counter is cleared to "0" (step S3312). Thereby, the value of the special figure special electric counter becomes "0" corresponding to special figure variation start processing (step S606).

FIG. 56 is a flow chart showing processing for specifying a variable display period according to the present embodiment, which is executed by the main MPU 82. As shown in FIG.

First, 1 is added to the value of the number-of-games counter of the main side RAM 84 (step S3401). In other words, the game number counter is cleared to "0" at step S3306 in the special figure determination processing (FIG. 55) when the opening/closing execution mode is started, and the variable display is performed every time the game round is started regardless of the game state. 1 is added in step S3401 in the period specifying process (FIG. 56). In addition, the value of the game number counter is either when the shift to the second high-frequency support mode occurs with the result of the time saving result or when the shift to the second high-frequency support mode occurs with the time saving result. is not updated, including "0" clear. As a result, the main MPU 82 can use the game number counter to count the number of times the game has been played after the opening/closing execution mode is terminated. It should be noted that when the supply of operating power is started and the set value update process (step S117) or the RAM clear process (step S119) is executed in the main process (FIG. 13), the game number counter of the main side RAM 84 is cleared to "0". As a result, when the set value updating process (step S117) or the RAM clearing process (step S119) is executed when the supply of the operating power is started, the master side The MPU 82 can count the number of games played after the supply of operating power is started by using the game number counter.

Thereafter, it is determined whether or not the value of the number-of-games counter of the main RAM 84 is the reference number of times (step S3402). As already explained, the reference number of times is the number of times the last digit of the execution number of game rounds is the reference number (specifically, "7"). When the affirmative determination is made in step S3402, it is determined whether or not a big hit result has been selected in the win/loss determination processing of this game round (step S3403).

When the big win result is selected (step S3403: YES), the big win result table is read from the main ROM 83 to the main RAM 84 (step S3404). In the situation where the selection process of the fluctuation display period is executed in step S3411 with reference to the table for the jackpot result, by collating the numerical information of the fluctuation type counter CS at that time against the table for the jackpot result , information on the variable display period of the reach display mode is read. Although there are a plurality of types of variable display periods of the reach display mode, the variable display period of any of the reach display modes is longer than the variable display period in the case where the reach display does not occur. When the information of the variable display period of the ready-to-win display mode is selected, the ready-to-win display is reliably generated on the pattern display device 41 as in the first embodiment.

When the jackpot result is not selected (step S3403: NO), the reach non-occurrence table is read from the main ROM 83 to the main RAM 84 (step S3405). In a situation where the fluctuation display period selection process is executed in step S3411 with reference to the reach non-occurrence table, the numerical information of the fluctuation type counter CS at that time is collated against the reach non-occurrence table. Thus, the information of the variable display period in which the ready-to-win display does not occur is read. Although there are a plurality of types of variable display periods in which the reach display does not occur, any of the plurality of types of variable display periods is shorter than the variable display period when the reach display occurs. When the information of the variable display period in which the ready-to-win display does not occur is selected, the ready-to-win display does not occur reliably on the symbol display device 41 as in the first embodiment.

If a negative determination is made in step S3402, if the high probability flag of the main RAM 84 is set to "1" (step S3406: YES), the table group for high probability is transferred from the main ROM 83 to the main RAM 84. (step S3407). The manner in which the variable display period is selected when the high-probability table group is referred to is the same as in the first embodiment. Further, when the high probability flag of the main RAM 84 is not set to "1" (step S3406: NO), either the first high frequency flag or the second high frequency flag of the main RAM 84 is set to "1". If set (step S3408: YES), the table group for high frequency support is read from the main ROM 83 to the main RAM 84 (step S3409). The manner in which the variable display period is selected when the table group for high-frequency support is referred to is the same as in the first embodiment. Further, when the high probability flag of the main RAM 84 is not set to "1" (step S3406: NO), both the first high frequency flag and the second high frequency flag of the main RAM 84 are set to "1". is not set (step S3408: NO), the table group for low frequency support is read from the main ROM 83 to the main RAM 84 (step S3410). The manner in which the variable display period is selected when the low-frequency support table group is referred to is the same as in the first embodiment.

When the process of step S3404, the process of step S3405, the process of step S3407, the process of step S3409, or the process of step S3410 is executed, the process of selecting the variable display period by referring to the table group read out in any of these processes is executed (step S3411). The contents of the selection processing are as already described. Then, the information of the variable display period selected in step S3411 is set to the special figure side timer counter of the main side RAM84 (step S3412). The update of the numerical value information set in the special figure side timer counter is executed in the timer update process of step S210 in the timer interrupt process (FIG. 14).

According to the above configuration, in a game cycle in which the number of executions after the end of the opening/closing execution mode is the reference number, the ready-to-win display is not generated on the symbol display device 41 unless a big win results. In this case, when the ready-to-win display occurs in the standard number of game rounds, the occurrence of the big win result is determined. As a result, it is possible to draw the player's attention to the effect for the game round on the symbol display device 41 in relation to the number of times the game round is executed.

The number-of-games counter for measuring the reference number of times is cleared to "0" when the open/close execution mode is executed, and when the second high-frequency support mode triggered by the time-saving result occurs and when the ceiling time-saving is triggered. It is not cleared to "0" in any case where the second high frequency support mode occurs. As a result, even if the second high-frequency support mode triggered by the time saving result or the second high-frequency support mode triggered by the ceiling time saving occurs after the opening and closing execution mode ends, after the opening and closing execution mode ends It is possible to make the ready-to-win display occur only when a big win results in a game round in which the number of times of execution is the reference number. Therefore, it becomes easy for the player to understand the game round which is the reference number of times.

It should be noted that the pattern display device 41 may display the number of times the game has been executed after the opening/closing execution mode ends. In this case, the display of the number of execution times of the game round on the pattern display device 41 is displayed when the second high-frequency support mode triggered by the time saving result occurs and when the second high-frequency support mode triggered by the ceiling time saving occurs It should not be cleared to "0" in either case. This makes it easier for the player to recognize the game round that is the reference number of times.

<Eighth embodiment>
In this embodiment, the processing configuration of the subtraction process of the time saving state counter 134 executed by the main side MPU 82 is different from that of the first embodiment. The configuration different from that of the first embodiment will be described below. The description of the same configuration as that of the first embodiment is basically omitted.

FIG. 57 is a flow chart showing subtraction processing of the time saving state counter 134 in this embodiment executed by the main MPU 82 .

First, it is determined whether or not the high probability flag of the main RAM 84 is set to "1" (step S3501). When "1" is set to the high probability flag (step S3501: YES), the subtraction process of the time saving state counter 134 is terminated without executing the processes after step S3502. In the high-probability state, the support mode is the first high-frequency support mode, but since the high-probability state counter 133 is used to identify the trigger for ending the high-probability state, the high-probability flag is set to "1". is set, the process for subtracting the value of the time saving state counter 134 is not executed.

If the high probability flag is not set to "1" and the first high frequency flag of the main RAM 84 is set to "1" (step S3502: YES), that is, the low probability mode and the first high probability mode If the frequency support mode, the value of the time saving state counter 134 of the main side RAM84 is subtracted by 1 (step S3503), if the value of the time saving state counter 134 after the 1 subtraction is "0" (step S3504: YES) , the first high frequency flag in the main RAM 84 is cleared to "0" (step S3505). As a result, the first high-frequency support mode ends and the low-frequency support mode is entered. That is, the time saving state ends and the normal game state is entered.

After that, transmission processing of the state designation command is executed (step S3506). In the transmission process, a state designation command indicating that the time saving state has ended is transmitted to the sound and light side MPU 93 . By receiving the state designation command, the sound and light side MPU 93 terminates the execution of the effect corresponding to the time saving state in the pattern display device 41, the display light emitting unit 64 and the speaker unit 65, and performs the effect corresponding to the normal game state. let it start.

If the high probability flag is not set to "1" and the second high frequency flag of the main side RAM 84 is set to "1" (step S3507: YES), that is, the low probability mode and the second high probability mode If the frequency support mode, the value of the time saving state counter 134 of the main side RAM84 is subtracted by 1 (step S3508), if the value of the time saving state counter 134 after the 1 subtraction is "0" (step S3509: YES) , the second high frequency flag in the main RAM 84 is cleared to "0" (step S3510). As a result, the second high-frequency support mode ends and the low-frequency support mode is entered. That is, the time saving state ends and the normal game state is entered. In addition, a state designation command transmission process is executed (step S3511). In the transmission process, a state designation command indicating that the time saving state has ended is transmitted to the sound and light side MPU 93 . By receiving the state designation command, the sound and light side MPU 93 terminates the execution of the effect corresponding to the time saving state in the pattern display device 41, the display light emitting unit 64 and the speaker unit 65, and performs the effect corresponding to the normal game state. let it start.

After that, the setting processing of the variable selection state counter 132 is executed (step S3512). In this case, the change selection state counter 132 of the main side RAM 84 is set with information of 50 times, which is the predetermined switching reference number. Even in this embodiment, as in the first embodiment, if one game round is completed in a situation where the winning/failure lottery mode is not the high probability mode, the variable selection state counter 132 is changed at the end of the game round. The value is decremented by 1. Then, when the value of the variable selection state counter 132 is decremented by 1 in a situation where the value of the variable selection state counter 132 is 1 or more, and the value of the variable selection state counter 132 becomes "0", the main side RAM 84 is set to "1" in the reach high frequency state flag. In the low-probability mode and low-frequency support mode, when the reach high-frequency state flag is set to "1", the variable display period identification process (FIG. 21) is performed in the same manner as in the first embodiment. At , the variable display period of game times is selected with reference to the table group for reach high frequency.

In other words, after either the time-saving state triggered by the time-saving result or the time-saving state triggered by the ceiling time-saving is completed, if the game times of the predetermined switching reference number are digested in the low-probability mode, low-frequency support If it is the mode, it will be in a reach high frequency state in which a table group for reach high frequency is referred to. Then, in the reach high frequency state, as in the first embodiment, the reach display is selected when the result is out of the low probability mode and low frequency support mode and not in the high reach frequency state. In addition, the variable display period when the reach display is selected tends to be longer in the low probability mode and the low frequency support mode than in the high reach frequency state. Therefore, after either the time saving state triggered by the time saving result or the time saving state triggered by the ceiling time saving is completed, if the game times of the predetermined switching reference number are digested, the reach high frequency state occurs. It is possible to raise the degree of attention to the game.

In the time-saving state, the efficiency of digesting game rounds is high, while in the reach-high frequency state, the efficiency of digesting game rounds is low. In this case, after the time-saving state ends, it is possible to prevent the digestion efficiency of game rounds from becoming excessively high by causing the reach-high frequency state to occur.

When the time saving state ends, the reach high frequency state does not occur immediately, but the reach high frequency state occurs when the game times of the predetermined switching reference number of times are completed after the time saving state ends. As a result, it is possible to prevent a rapid change from a state in which the digestion efficiency of game rounds is high to a state in which it is low. Therefore, it is possible to obtain the excellent effects as described above while not giving the player a sense of discomfort.

<Ninth Embodiment>
In the present embodiment, the processing configuration when a time saving result or ceiling time saving occurs in the time saving state is different from that of the first embodiment. The configuration different from that of the first embodiment will be described below. The description of the same configuration as that of the first embodiment is basically omitted.

FIG. 58 is a flow chart showing setting processing for time saving results in this embodiment executed by the main MPU 82 .

If the game result of the current game round is a time saving result (step S3601: YES), it is determined whether or not the high probability flag of the main side RAM 84 is set to "1" (step S3602). And when "1" is set to the high probability flag (step S3602: YES), the setting process for this time saving result is complete|finished, without performing the process after step S3603. In other words, even if the time saving result (first time saving result or second time saving result) is selected in the game round correctness determination process executed in the high probability mode, the time saving result is triggered by the second high frequency The time saving result is invalidated without setting the support mode.

Here, setting processing for the time saving result (FIG. 58) is executed before the subtraction processing (FIG. 24) of the high probability state counter 133 as already explained in the processing during special figure determination (FIG. 22). As a result, in the last game cycle in the high-probability mode and the first high-frequency support mode, the value of the high-probability state counter 133 is decremented by 1 in the subtraction process (FIG. 24) of the high-probability state counter 133. Before the high probability flag and the first high frequency flag are cleared to "0" by the value of the high probability state counter 133 becoming "0", the setting process for the time saving result (Fig. 58) is executed. Become. And, when the setting process for the time saving result (Fig. 58) is executed at the timing, the high probability flag is still set to "1", so the setting of the second high frequency support mode triggered by the time saving result is not performed. Therefore, in the game round in which the success/failure determination process is executed in the execution mode corresponding to the high probability mode, it is possible to reliably invalidate the time saving result. In addition, such an effect during processing (FIG. 22) in the processing order of executing the setting process (FIG. 58) for the time saving result before the subtraction process (FIG. 24) of the high probability state counter 133 in the special figure determination It can be realized by setting.

If the high probability flag is not set to "1" (step S3602: NO), it is determined whether or not the first high frequency flag of the main RAM 84 is set to "1" (step S3603). That is, it is determined whether or not the support mode is the first high-frequency support mode. If the support mode is not the first high-frequency support mode (step S3603: NO), the second high-frequency flag in the main RAM 84 is set to "1" (step S3604), and the support mode is the first high-frequency support mode. If there is (step S3603: YES), the process of step S3604 is not executed. Thereby, when the time saving result in the low probability mode and the first high frequency support mode is maintained, the low probability mode and the first high frequency support mode are maintained, and the time saving result in the low probability mode and the second high frequency support mode When it becomes, the low probability mode and the second high frequency support mode are maintained, and when the time saving result is obtained in the low probability mode and the low frequency support mode, it becomes the low probability mode and the second high frequency support mode.

When affirmative determination is made in step S3603 or when the process of step S3604 is performed, it is determined whether this time saving result is the 1st time saving result (step S3605). If this time saving result is the first time saving result (step S3605: YES), the value of the time saving state counter 134 of the main side RAM 84 determines whether it is "100" or more corresponding to the first time saving continuation number (Step S3606). When the value of the time saving state counter 134 is less than the value of the first time saving continuation number (step S3606: NO), the information of "100" corresponding to the first time saving continuation number is set to the time saving state counter 134 (step S3607) .

After that, a state designation command transmission process is executed (step S3608). In the transmission process, a state specifying command indicating that the time saving state has been started or that the first time saving continuation number has been reset is transmitted to the sound and light side MPU 93.

When the processing of step S3608 is executed after the processing of step S3607 is executed in a situation where the current game state is not the time saving state, the state designation command indicates that the time saving state of the first time saving continuation number is started. Contains information. When the sound and light side MPU 93 receives the state designation command, the pattern display device 41, the display light emitting unit 64 and the speaker unit 65 perform the effect indicating that the time saving state of the first time saving continuation number starts Execute the process to make In this case, in the symbol rows Z1 to Z3 in the symbol display device 41, the combination of the first time-saving generating symbols (“1, 2, 3”) is stopped and displayed. After these stop results are stopped and displayed, the symbol display device 41 displays an image indicating that the time saving state will occur and an image indicating the first number of times of continuing time saving. Since the timing at which the image is displayed is the timing at which the game round ends, a new game round can be started immediately. In this case, the area in which the symbol rows Z1 to Z3 are set on the display surface of the symbol display device 41 is reduced, and while the symbols corresponding to the new game rounds are displayed in the reduced area, by the reduction, The display of the image indicating that the time saving state occurs in the secured area and the image indicating the first time saving continuation number of times is continued. The display of the image ends when one round of the game ends, and when the display of the image ends, the area in which the symbol rows Z1 to Z3 are set returns to its original size.

When the process of step S3608 is executed after the process of step S3607 is executed in the situation where the current game state is the time saving state, it indicates that the first time saving continuation number of times has been reset to the state designation command Contains information. When the sound and light side MPU 93 receives the state designation command, the design display device 41, the display light emitting unit 64 and the speaker unit 65 perform the effect indicating that the first time saving continuous number of times has been reset. Execute the process to make In this case, in the symbol columns Z1 to Z3 in the symbol display device 41, a combination of symbols corresponding to the jackpot result, a combination of the first time-saving patterns (“1, 2, 3”), and a combination of the second time-saving patterns (“3 4.1”) and a combination of non-reach-out symbols, which is a combination of symbols other than the combination of out-reach-out symbols, is stopped and displayed. Then, after the stop result is stopped and the confirmation display over the final stop period is completed, an image showing that the number of continuous time-savings in the time-saving state has been reset and an image showing the first number of continuous time-savings are displayed. Is displayed. Since the timing at which the image is displayed is the timing at which the game round ends, a new game round can be started immediately. In this case, the area in which the symbol rows Z1 to Z3 are set on the display surface of the symbol display device 41 is reduced, and while the symbols corresponding to the new game rounds are displayed in the reduced area, by the reduction, In the secured area, the display of the image indicating that the number of times of continuous time saving in the time saving state has been reset and the image indicating the reset first number of continuous time saving is continued. The display of the image ends when one round of the game ends, and when the display of the image ends, the area in which the symbol rows Z1 to Z3 are set returns to its original size.

If the time saving result of this time is the second time saving result (step S3605: NO), regardless of the current value of the time saving state counter 134, the time saving state counter 134 corresponding to the second time saving continuation number of times "150" information set (step S3609). After that, a state designation command transmission process is executed (step S3610). In the transmission process, a state designation command indicating that the time saving state has been started or that the second time saving continuation number has been reset is transmitted to the sound and light side MPU 93 .

When the process of step S3610 is executed after the process of step S3609 is executed in a situation where the current game state is not the time saving state, the state designation command indicates that the time saving state of the second time saving continuation number is started. Contains information. When the sound and light side MPU 93 receives the state designation command, the pattern display device 41, the display light emitting unit 64 and the speaker unit 65 perform an effect indicating that the time saving state of the second time saving continuation number starts Execute the process to make In this case, in the symbol rows Z1 to Z3 in the symbol display device 41, the combination of the second time-saving generating symbols (“3, 4, 1”) is stop-displayed. After these stop results are stopped and displayed, the pattern display device 41 displays an image indicating that the time saving state will occur and an image indicating the second time saving continuation number of times. Since the timing at which the image is displayed is the timing at which the game round ends, a new game round can be started immediately. In this case, the area in which the symbol rows Z1 to Z3 are set on the display surface of the symbol display device 41 is reduced, and while the symbols corresponding to the new game rounds are displayed in the reduced area, by the reduction, The image indicating that the time saving state occurs in the secured area and the image indicating the second time saving continuation number of times are continued to be displayed. The display of the image ends when one round of the game ends, and when the display of the image ends, the area in which the symbol rows Z1 to Z3 are set returns to its original size.

When the process of step S3610 is executed after the process of step S3609 is executed in the situation where the current game state is the time saving state, it indicates that the second time saving continuation number of times has been reset to the state designation command. Contains information. When the sound and light side MPU 93 receives the state designation command, the pattern display device 41, the display light emitting unit 64 and the speaker unit 65 perform the effect indicating that the second time saving continuation number of times has been reset. Execute the process to make In this case, in the symbol columns Z1 to Z3 in the symbol display device 41, a combination of symbols corresponding to the jackpot result, a combination of the first time-saving patterns (“1, 2, 3”), and a combination of the second time-saving patterns (“3 4.1”) and a combination of non-reach-out symbols, which is a combination of symbols other than the combination of out-reach-out symbols, is stopped and displayed. Then, after the stop result is stopped and the confirmation display over the final stop period is completed, an image showing that the number of continuous time reductions in the time reduction state has been reset and an image showing the second number of continuous time reductions are displayed. Is displayed. Since the timing at which the image is displayed is the timing at which the game round ends, a new game round can be started immediately. In this case, the area in which the symbol rows Z1 to Z3 are set on the display surface of the symbol display device 41 is reduced, and while the symbols corresponding to the new game rounds are displayed in the reduced area, by the reduction, In the secured area, the display of the image indicating that the number of times of continuous time saving in the time saving state has been reset and the image indicating the second number of times of continuing time saving that has been reset is continued. The display of the image ends when one round of the game ends, and when the display of the image ends, the area in which the symbol rows Z1 to Z3 are set returns to its original size.

FIG. 59 is a flow chart showing subtraction processing of the ceiling counter 131 in this embodiment executed by the main MPU 82. FIG.

First, it is determined whether or not the high probability flag of the main RAM 84 is set to "1" (step S3701). Then, if the high probability flag is set to "1" (step S3701: YES), the subtraction process of the main ceiling counter 131 ends without executing the processes after step S3702. In other words, the value of the ceiling counter 131 is not decremented in the game cycle executed in the high probability mode, and the ceiling counter 131 value is not decremented, thereby causing a ceiling time reduction. Nor.

Here, the subtraction process of the ceiling counter 131 (FIG. 59) is executed before the subtraction process of the high probability state counter 133 (FIG. 24) as already explained in the process during special figure determination (FIG. 22). As a result, in the last game cycle in the high-probability mode and the first high-frequency support mode, the value of the high-probability state counter 133 is decremented by 1 in the subtraction process (FIG. 24) of the high-probability state counter 133. Before the value of the high probability state counter 133 becomes "0" and the high probability flag and the first high frequency flag are cleared to "0", the subtraction processing of the ceiling counter 131 (FIG. 59) is executed. Become. Then, when the subtraction process (FIG. 59) of the ceiling counter 131 is executed at this timing, since the high probability flag is still set to "1", the subtraction of the value of the ceiling counter 131 is not executed. Therefore, it is possible to prevent the value of the ceiling counter 131 from being subtracted in the game round in which the winning/losing determination process is executed in the execution mode corresponding to the high-probability mode. In addition, such an effect of the processing order of executing the subtraction processing of the ceiling counter 131 (FIG. 59) before the subtraction processing of the high probability state counter 133 (FIG. 24) in the processing during special figure determination (FIG. 22) It can be realized by setting.

If the high probability flag is not set to "1" (step S3701: NO), it is determined whether the value of the ceiling counter 131 is 1 or more (step S3702). If the value of the ceiling counter 131 is "0" (step S3702: NO), the subtraction process of the ceiling counter 131 is terminated without executing the processes after step S3703. As in the first embodiment, the process of setting information in the ceiling counter 131 is performed in a state where none of the "RAM clear operation", "setting change operation" and "setting confirmation operation" are executed and the gaming machine main body 12 is in an open state, step S114 when the supply of operating power is started, step S122 when an information error occurs in the main side RAM 84 when the supply of operating power is started, and opening/closing execution This is only step S1005 when the mode is started, and after the value of the ceiling counter 131 becomes "0", the value of the ceiling counter 131 is maintained at "0" unless any of the above processes are executed. . On the other hand, the ceiling time reduction occurs when the value of the ceiling counter 131 is decremented by 1 in a situation where the value of the ceiling counter 131 is 1 or more, and the value of the ceiling counter 131 becomes "0". In this case, if the value of the ceiling counter 131 is "0" as described above (step S3702: NO), the subtraction process of the ceiling counter 131 is terminated without executing the processes after step S3703. As a result, the value of the ceiling counter 131 after subtracting 1 becomes "0", and a time saving state triggered by the ceiling time saving occurs, and the game times of the number of time saving continuations are digested without a big hit result occurring in the time saving state. When the time saving state ends and the normal game state is entered, the time saving state triggered by the ceiling time saving does not occur even if the game rounds in which no big winning results occur are repeated thereafter. Therefore, it is possible to prevent excessive occurrence of the time saving state triggered by the ceiling time saving.

If the value of the ceiling counter 131 is 1 or more (step S3702: YES), 1 is subtracted from the value of the ceiling counter 131 (step S3703), and whether or not the value of the ceiling counter 131 after the subtraction of 1 is "0". (step S3704). When the value of the ceiling counter 131 is "0" (step S3704: YES), regardless of whether the second high frequency flag of the main RAM 84 is set to "1", the second high frequency flag is set to " 1” is set (step S3705). As a result, when the ceiling time is shortened in the low probability mode and the second high frequency support mode, the low probability mode and the second high frequency support mode are maintained, and the ceiling time is shortened in the low probability mode and the low frequency support mode. In this case, the low-probability mode and the second high-frequency support mode are selected. In addition, the low probability mode and the first high frequency support mode occur after the opening and closing execution mode triggered by the 5R low probability result is completed, and when the game times of 100 times, which is the first time saving continuous number, are digested Since the first high-frequency support mode ends, the ceiling time reduction that occurs when 500 games, which is the fixed ceiling number of times, is completed in the low probability mode after the opening and closing execution mode ends is the first high-frequency support mode. does not occur under the circumstances.

Thereafter, it is determined whether or not the value of the time saving state counter 134 of the main side RAM 84 is equal to or greater than "100" corresponding to the first time saving continuation number (step S3706). When the value of the time saving state counter 134 is less than the value of the first time saving continuation number (step S3706: NO), the information of "100" corresponding to the first time saving continuation number is set to the time saving state counter 134 (step S3707). .

After that, a state designation command transmission process is executed (step S3708). In the transmission process, a state designation command indicating that the time saving state has been started or that the first time saving continuation number has been reset is transmitted to the sound and light side MPU 93.

When the processing of step S3708 is executed after the processing of step S3707 is executed in a situation where the current game state is not the time saving state, the state designation command indicates that the time saving state of the first time saving continuation number is started. Contains information. When the sound and light side MPU 93 receives the state designation command, the pattern display device 41, the display light emitting unit 64 and the speaker unit 65 perform the effect indicating that the time saving state of the first time saving continuation number starts Execute the process to make Since the time-saving state triggered by the ceiling time-saving occurs in a game cycle in which neither the jackpot result nor the time-saving result occurs, the pattern columns Z1 to Z3 in the pattern display device 41 are a combination of symbols corresponding to the jackpot result, the first time-saving. A combination of outlier patterns that is a combination of patterns other than the combination of generated patterns (“1, 2, 3”) and the combination of second time-saving patterns (“3, 4, 1”) (including the combination of outlier reach patterns) appears stopped. Then, after the stop result is stopped and the confirmation display over the final stop period is completed, an image showing that the time saving state triggered by the ceiling time saving occurs and an image showing the first number of continuous time saving are displayed. . Since the timing at which the image is displayed is the timing at which the game round ends, a new game round can be started immediately. In this case, the area in which the symbol rows Z1 to Z3 are set on the display surface of the symbol display device 41 is reduced, and while the symbols corresponding to the new game rounds are displayed in the reduced area, by the reduction, The display of the image indicating that the time saving state triggered by the ceiling time saving occurs and the image indicating the first time saving continuation number of times is continued in the secured area. The display of the image ends when one round of the game ends, and when the display of the image ends, the area in which the symbol rows Z1 to Z3 are set returns to its original size.

When the processing of step S3708 is executed after the processing of step S3707 is executed in the situation where the current game state is the time saving state, it indicates that the reset of the first time saving continuation number of times has been performed in the state designation command Contains information. When the sound and light side MPU 93 receives the state designation command, the design display device 41, the display light emitting unit 64 and the speaker unit 65 perform the effect indicating that the first time saving continuous number of times has been reset. Execute the process to make Since the reset of the first time-saving continuous number triggered by the ceiling time-saving occurs in a game cycle in which neither the jackpot result nor the time-saving result occurs, the pattern rows Z1 to Z3 in the pattern display device 41 are the patterns corresponding to the jackpot results. A combination of symbols other than the combination of the first time-saving pattern (“1/2/3”) and the combination of the second time-saving pattern (“3/4/1”). (including combinations of symbols) are stopped and displayed. Then, after the stop result is stopped and the confirmation display over the final stop period is completed, an image indicating that the time saving state triggered by the ceiling time saving occurs and that the first time saving continuation number has been reset The image shown is displayed. Since the timing at which the image is displayed is the timing at which the game round ends, a new game round can be started immediately. In this case, the area in which the symbol rows Z1 to Z3 are set on the display surface of the symbol display device 41 is reduced, and while the symbols corresponding to the new game rounds are displayed in the reduced area, by the reduction, The display of the image indicating that the time saving state triggered by the ceiling time saving occurs in the secured area and the image indicating that the first time saving continuation number has been reset is continued. The display of the image ends when one round of the game ends, and when the display of the image ends, the area in which the symbol rows Z1 to Z3 are set returns to its original size.

When the affirmative determination is made in step S3706 or when the process of step S3708 is executed, the reach high frequency state flag of the main side RAM 84 is cleared to "0" (step S3709). As a result, when the ceiling time saving occurs, the reach high frequency state ends regardless of whether or not the setting of the second high frequency support mode triggered by the ceiling time saving is performed.

Here, in the processing during special figure determination (FIG. 22), the subtraction processing of the ceiling counter 131 (FIG. 59) is executed after the setting processing for the time saving result (FIG. 58) is executed, and the subtraction of the ceiling counter 131 In the process (FIG. 59), even if the value of the ceiling counter 131 after subtracting 1 is "0", if the value of the time saving state counter 134 is "100" or more, the processing of steps S3707 and S3708 is not executed. By doing so, it becomes possible not to reset the number of continuation times of the first time saving triggered by the ceiling time saving in the game times with the first time saving result or the second time saving result. As a result, resetting of the number of continuations of time saving triggered by the result of time saving and resetting of the number of continuations of time saving triggered by the ceiling time saving can be prevented from being performed redundantly. In particular, if the second time saving continuation number triggered by the second time saving result is reset and the first time saving continuation number triggered by the ceiling time saving is reset, the time saving continuation number will decrease. By adopting the above configuration, it is possible to prevent such inconvenience from occurring.

Next, the subsequent game state when the time saving result or the ceiling time saving occurs in the time saving state will be described with reference to the time chart of FIG. FIG. 60(a) shows the period in the open/close execution mode, FIG. 60(b) shows the period in which the first high frequency flag of the main side RAM 84 is set to "1", and FIG. 60(d) shows the state of the time saving state counter 134, and FIG. 60(e) shows the timing at which the first time saving result occurs , FIG. 60(f) shows the timing when the second time saving result occurs, and FIG. 60(g) shows the timing when the ceiling time saving occurs.

First, the case where the second time saving result occurs in the middle of the low probability mode and the second high frequency support mode will be described.

As shown in FIG. 60(e) at the timing of t1, the result of the success/failure determination process becomes the first time-saving result, and when the game round in which the success/failure determination process is executed ends, it is shown in FIG. 60(c). As shown in FIG. 60(d), "1" is set to the second high frequency flag of the main side RAM 84, and "100" information corresponding to the first time saving continuation number is set to the time saving state counter 134 as shown in FIG. 60(d). be. Thereby, it will be in the time saving state which is low probability mode and the 2nd high frequency support mode, and will be in the state to which the 1st time saving continuation frequency|count was set as the remaining continuation frequency|count of the said time saving state. And the value of the time saving state counter 134 is subtracted as shown in FIG.60(d) by repeatedly performing the game round which does not become the shift opportunity to opening-and-closing execution mode.

After that, the value of the time saving state counter 134 is 1 or more and the result of the success or failure determination process is the second time saving result as shown in FIG. 60 (f) at the timing of t2 which is the second high frequency support mode Information of "150" corresponding to the second time saving continuation number is set to the time saving state counter 134 as shown in FIG. As a result, the remaining number of continuations of the time saving state increases from a number less than the first number of continuations of time saving to the second number of continuations of time saving in the middle of the time saving state.

Next, the case where the profit due to the occurrence of the ceiling time saving is not given although the ceiling time saving occurs in the middle of the low probability mode and the second high frequency support mode will be described.

As shown in FIG. 60(f) at the timing of t3, the result of the success/failure determination process becomes the second time saving result, and when the game round in which the success/failure determination process is executed ends, it is shown in FIG. 60(c) As shown in FIG. 60(d), "1" is set to the second high frequency flag of the main side RAM 84, and "150" information corresponding to the second time saving continuation number is set to the time saving state counter 134 as shown in FIG. 60(d). be. Thereby, it will be in the time saving state which is low probability mode and the 2nd high frequency support mode, and will be in the state to which the 2nd time saving continuation frequency|count was set as the remaining continuation frequency|count of the said time saving state. And the value of the time saving state counter 134 is subtracted as shown in FIG.60(d) by repeatedly performing the game round which does not become the shift opportunity to opening-and-closing execution mode.

After that, the value of the time saving state counter 134 is 1 or more, and at the timing of t4 which is the second high frequency support mode, the ceiling time saving occurs as shown in FIG. 60(g). In this case, the value of the time saving state counter 134 is a value larger than the first time saving continuation frequency set with the occurrence of the ceiling time saving as a trigger. Therefore, as shown in FIG.60(d), the value of the time saving state counter 134 is maintained as it is. In this way, even if the ceiling time saving occurs in the middle of the time saving state, the remaining number of continuous times in the time saving state at that time is set as a trigger for the occurrence of the ceiling time saving If the value is larger than the first time saving continuation number , the occurrence of ceiling time reduction is invalidated.

Next, the case where ceiling time saving occurs in the middle of the low probability mode and the second high frequency support mode, and the profit due to the occurrence of the ceiling time saving is given will be described.

As shown in FIG. 60(e) at the timing of t5, the result of the success/failure determination process becomes the first time saving result, and when the game round in which the success/failure determination process is executed ends, the result is shown in FIG. 60(c). As shown in FIG. 60(d), "1" is set to the second high frequency flag of the main side RAM 84, and "100" information corresponding to the first time saving continuation number is set to the time saving state counter 134 as shown in FIG. 60(d). be. Thereby, it will be in the time saving state which is low probability mode and the 2nd high frequency support mode, and will be in the state to which the 1st time saving continuation frequency|count was set as the remaining continuation frequency|count of the said time saving state. And the value of the time saving state counter 134 is subtracted as shown in FIG.60(d) by repeatedly performing the game round which does not become the shift opportunity to opening-and-closing execution mode.

After that, the value of the time saving state counter 134 is 1 or more, and at the timing of t6 which is the second high frequency support mode, the ceiling time saving occurs as shown in FIG. 60(g). In this case, the value of the time saving state counter 134 is a value smaller than the first time saving continuation frequency set with the occurrence of the ceiling time saving as a trigger. Therefore, the information of "100" corresponding to the 1st time saving continuation frequency is set to the time saving state counter 134 as shown in FIG. 60(d) at the timing of t6 when the ceiling time saving occurs. Thereby, in the middle of the time saving state, the remaining number of times of continuation of the time saving state increases from the number of times less than the first number of times of continuing time saving to the first number of times of continuing time saving.

Next, the case where a 1st time saving result generate|occur|produces in the middle of low probability mode and 1st high frequency support mode is demonstrated.

At the timing of t7, the opening/closing execution mode triggered by the 5R low probability result ends as shown in FIG. 1" is set, and as shown in FIG. 60(d), information of "100" corresponding to the first number of continuations of time saving is set to the time saving state counter 134 as shown in FIG. Thereby, it will be in the time saving state which is low probability mode and 1st high frequency support mode, and will be in the state to which the 1st time saving continuation frequency|count was set as the remaining continuation frequency|count of the said time saving state. And the value of the time saving state counter 134 is reduced as shown in FIG.

After that, the value of the time saving state counter 134 is 1 or more and at the timing of t8 which is the first high frequency support mode, the result of the success/failure determination process becomes the first time saving result as shown in FIG. 60(e). In this case, the value of the time saving state counter 134 is a value smaller than the first time saving continuation frequency set with the occurrence of the first time saving result as a trigger. Therefore, as shown in FIG. 60(d), the time saving state counter 134 shows "100" information corresponding to the first time saving continuation number when the game round in which the result of the success/failure determination process is the first time saving result ends. set. Thereby, in the middle of the time saving state, the remaining number of times of continuation of the time saving state increases from the number of times less than the first number of times of continuing time saving to the first number of times of continuing time saving. In addition, the support mode in the time-saving state is not changed to the second high-frequency support mode, but the first high-frequency support mode, which is more advantageous to the player than the second high-frequency support mode, is maintained. Triggered by the occurrence of the time saving result, the remaining number of continuations of the time saving state, which is the first high-frequency support mode, is set to the first time saving continuation number.

Next, the case where a 2nd time-saving result generate|occur|produces in the middle of low probability mode and 1st high frequency support mode is demonstrated.

At the timing of t9, the opening/closing execution mode triggered by the 5R low probability result ends as shown in FIG. 1" is set, and as shown in FIG. 60(d), information of "100" corresponding to the first number of continuations of time saving is set to the time saving state counter 134 as shown in FIG. Thereby, it will be in the time saving state which is low probability mode and 1st high frequency support mode, and will be in the state to which the 1st time saving continuation frequency|count was set as the remaining continuation frequency|count of the said time saving state. And the value of the time saving state counter 134 is reduced as shown in FIG.

After that, the value of the time saving state counter 134 is 1 or more and at the timing of t10 which is the first high frequency support mode, the result of the success/failure determination process becomes the second time saving result as shown in FIG. 60(f). The second time-saving continuation number set with the occurrence of the second time-saving result as a trigger is a number greater than the first time-saving continuation number set when the opening and closing execution mode triggered by the 5R low probability result ends. be. Therefore, as shown in FIG. 60(d), the time saving state counter 134 shows "150" information corresponding to the second time saving continuation number of times when the game round in which the result of the success/failure determination process is the second time saving result ends. set. As a result, the remaining number of continuations of the time saving state increases from a number less than the first number of continuations of time saving to the second number of continuations of time saving in the middle of the time saving state. In addition, the support mode in the time-saving state is not changed to the second high-frequency support mode, but the first high-frequency support mode, which is more advantageous to the player than the second high-frequency support mode, is maintained. Triggered by the occurrence of the time saving result, the remaining number of continuations of the time saving state, which is the first high-frequency support mode, is set to the second time saving continuation number.

By being the said structure, when the time saving result occurs in low probability mode and low frequency support mode, it transfers to the time saving state of the time saving continuation frequency corresponding to the kind of the time saving result concerned. Thereby, based on the result of the propriety determination process in low probability mode and low frequency support mode, it becomes possible to produce the situation which a transition to a time saving state generate|occur|produces, without opening-closing execution mode.

When the first time saving result occurs in the low probability mode and the first high frequency support mode, the value of the time saving state counter 134 is reset to 100 times, which is the first time saving continuation number Low probability mode and first high Frequency support mode continues. Also, when the second time saving result occurs in the low probability mode and the first high frequency support mode, the value of the time saving state counter 134 is set to 150 times, which is the second time saving continuation number Low probability mode and the first High frequency support mode continues. Thereby, when the time saving result occurs in the first high-frequency support mode, while continuing the first high-frequency support mode in which the second operation port 34 is more likely to be in an open state than the second high-frequency support mode, until then A situation occurs in which the number of remaining continuations of the time saving state increases. Therefore, it is possible to increase the advantage of the time saving result occurring in the time saving state.

If the value of the time saving state counter 134 is 100 times or more, which is the first time saving continuation number when the first time saving result occurs in the low probability mode and the second high frequency support mode, by the occurrence of this first time saving result The low-probability mode and the second high-frequency support mode continue without any new setting relating to the time-saving state. Also, if the value of the time saving state counter 134 is less than 100 times, which is the first time saving continuation number when the first time saving result occurs in the low probability mode and the second high frequency support mode, the value of the time saving state counter 134 The low-probability mode and the second high-frequency support mode continue in a state of being set to 100 times, which is the first time-saving continuation number. Also, when the second time saving result occurs in the low probability mode and the second high frequency support mode, the value of the time saving state counter 134 is set to 150 times, which is the second time saving continuation number Low probability mode and the second High frequency support mode continues. As a result, when a time saving result occurs in the second high-frequency support mode, a situation can occur in which the number of remaining times of the time-saving state continues to increase while continuing the second high-frequency support mode. . Therefore, it is possible to increase the advantage of the time saving result occurring in the time saving state.

If a time-saving result occurs in the time-saving state, the larger number of the remaining number of times of the current time-saving state and the number of times of time-saving continuation that can be set by the newly generated time-saving result number of continuations. This makes it possible to increase the advantage of the time saving result occurring in the time saving state.

In the low-probability mode and the low-frequency support mode, when the ceiling time-saving occurs, it shifts to the time-saving state of the first time-saving continuation number. As a result, it is possible to create a situation in which the transition to the time saving state occurs without going through the opening and closing execution mode based on the completion of the ceiling number of games in the low probability mode and the low frequency support mode.

When the ceiling time saving occurs in the low probability mode and the second high frequency support mode, if the value of the time saving state counter 134 is 100 times or more, which is the first time saving continuation number, the occurrence of this ceiling time saving New about the time saving state The low-probability mode and the second high-frequency support mode continue without any setting. Also, if the value of the time saving state counter 134 is less than 100 times, which is the first time saving continuation number when the ceiling time saving occurs in the low probability mode and the second high frequency support mode, the value of the time saving state counter 134 is the first The low-probability mode and the second high-frequency support mode continue in a state of being set to 100 times, which is the number of time-saving continuations. In other words, if the ceiling time saving occurs in the time saving state, the remaining number of times of the current time saving state and the number of time saving continuations that can be set due to the new ceiling time saving, whichever is greater, will be used in the subsequent time saving state. Remaining number of continuations. As a result, if the ceiling time saving occurs in the second high-frequency support mode, a situation can occur in which the number of remaining times of the time saving state continues more than before, so it is possible that the ceiling time saving will occur in the time saving state. It is possible to increase the advantage.

<Tenth Embodiment>
In this embodiment, the configuration of the game area PA provided on the game board 24 is different from that of the first embodiment. The configuration different from that of the first embodiment will be described below. The description of the same configuration as that of the first embodiment is basically omitted.

FIG. 61 is a front view of the game board 24 for explaining the configuration of the game area PA in this embodiment.

An inner rail portion 25 and an outer rail portion 26 are attached to the game board 24 so as to partition a part of the outer edge of the game area PA. The guide rail is configured as A game ball shot from a game ball shooting mechanism 27 (see FIG. 2) is guided to the upper part of the game area PA by a guide rail.

As in the first embodiment, the game board 24 includes a general prize winning port 31, a special electric prize winning device 32, a first operation port 33, a through gate 35, a variable display unit 36, a special figure unit 37, and a general figure unit 38. is provided. Also, a special winning device 151 is provided in place of the second operating port 34 in the first embodiment. The configuration of the special winning device 151 is the same as that of the sixth embodiment.

Even if a ball enters the through gate 35, no game ball is put out. On the other hand, when a ball enters any one of the general winning port 31, the special electric winning device 32, the first operating port 33, and the special winning device 151, a predetermined number of A game ball is put out. Specifically, when a ball enters the general winning hole 31, 10 game balls are paid out, and when a ball enters the special electric winning device 32, 15 balls are paid out. game balls are put out, and when a ball enters the first operating port 33, three game balls are put out, and when a ball enters the special winning device 151, A payout of one game ball is executed. In addition, the number of prize balls is arbitrary, and the number of prize balls of the first operation port 33 and the special prize winning device 151 may be the same.

In addition, an out port 24a is provided at the bottom of the game board 24, and game balls that do not enter various winning ports are discharged from the game area PA through the out port 24a. Further, the game board 24 is provided with a large number of nails 24b for appropriately dispersing and adjusting the falling direction of game balls, and various members such as windmills.

A variable display unit 36 is provided so as to include the central portion of the game area PA. Due to the peripheral portion of the variable display unit 36 protruding forward of the pachinko machine 10 from the surface of the game board 24, an area in which the game balls shot to the game area PA can flow down is defined. Specifically, an upper area PA1, which is an area above a predetermined height position of the variable display unit 36 in the game area PA, and a lower area continuous with the upper area PA1 and higher than the variable display unit 36. A left area PA2 which is an area on the left, a right area PA3 which is an area continuous below the upper area PA1 and to the right of the variable display unit 36, and a left area PA2 and a right area PA3. On the other hand, it is divided into a lower area PA4 which is an area below the variable display unit 36 continuously below it.

When the player operates the shooting operation device 28 with the amount of rotation in the first range which is less than the reference amount of rotation as the first shooting operation, the game ball is ejected to the left of the center position in the horizontal direction in the upper area PA1. flow down. In this case, the game balls flow down in the order of the upper area PA1→left area PA2→lower area PA4. On the other hand, when the player operates the shooting operation device 28 with a rotation amount in a second range that is equal to or larger than the reference rotation amount as a second shooting operation, the upper area PA1 is positioned to the right of the lateral center position. A game ball begins to flow down. In this case, the game balls flow down in the order of the upper area PA1→right area PA3→lower area PA4. In other words, the player can adjust the rotation operation amount of the shooting operation device 28 so that the game ball can flow down the left side area PA2 of the left side area PA2 and the right side area PA3. A game can be played so that a game ball flows down PA3. Incidentally, when the shooting operation device 28 is operated with the maximum amount of rotation, the game ball flows down in the order of the upper area PA1→right area PA3→lower area PA4.

The first operation port 33 is installed in the lower area PA4. The first operating port 33 is open upward, and a member such as an opening/closing member for preventing the game ball from entering the first operating port 33 is not provided. Then, in a situation where the game balls are shot in the same mode, the winning probability to the first operation opening 33 is constant regardless of the game state. In other words, the first operation port 33 is always capable of entering the game ball flowing down the game area PA toward the first operation port 33 . In addition, the first operating port 33 is arranged directly below the stage portion 36b formed in the variable display unit 36, and the game ball flowing into the stage portion 36b through the guide passage formed in the variable display unit 36 A game ball ejected outside the variable display unit 36 from the lateral center of the stage portion 36b easily enters the first operation port 33. As shown in FIG.

As described above, the first operating port 33 is provided in the lower area PA4, but on the upstream side of the first operating port 33 toward the right side area PA3, the game ball that has flowed down the right side area PA3 is the first A control nail 24c is provided so as to make it impossible to reach the 1 operation port 33. As shown in FIG. Further, the entrance of the guide passage to the stage portion 36b is provided for the left side area PA2 and not provided for the right side area PA3. With these configurations, when the shooting operation device 28 is operated so that the game ball flows down the left side area PA2, it is possible to win the first operation opening 33, but the game ball flows down the right side area PA3. When the shooting operation device 28 is operated so as to do so, winning to the first operation port 33 is disabled. However, the present invention is not limited to this, and the control nail 24c is not provided, or the entrance of the guide passage to the stage portion 36b is provided to the right side area PA3, so that the game ball can pass through the right side area PA3. The configuration may be such that even when the shooting operation device 28 is operated so as to flow down, the winning to the first operation opening 33 is possible.

The special winning device 151 is installed in the right area PA3. That is, the special winning device 151 cannot win a prize when the shooting operation device 28 is operated so that the game ball flows down the left area PA2, and the shooting operation device makes the game ball flow down the right area PA3. 28 is operated, winning is possible.

A through gate 35 is provided above the special winning device 151 in the right area PA3. That is, the through gate 35 cannot win a prize when the shooting operation device 28 is operated so that the game ball flows down the left side area PA2, and the shooting operation device 28 is operated so that the game ball flows down the right side area PA3. Winning is possible when is operated. The through gate 35 has a through hole extending vertically. A special prize winning device 151 is provided at a position vertically below the through gate 35, and a special electric prize winning device 32 is provided downstream of the special prize winning device 151 in the right area PA3. Therefore, the game ball that has won the through gate 35 can win the special winning device 151 or the special electric winning device 32 .

The right side area PA3 in which the special winning device 151 and the through gate 35 are collectively arranged is defined by a side wall 36f of the variable display unit 36 which bulges forward from the board surface of the game board 24 to the front of the pachinko machine 10. , and the right side is defined by a regulation wall provided on the resin base 21 of the inner frame 13 and protruding forward of the pachinko machine 10 from the board surface of the game board 24 . The right side area PA3 is set to have a lateral dimension narrower than that of the lower side area PA4, and the lateral dimension is such that it is impossible to arrange the game ball entry devices in the lateral direction at the same height position. It has become. As a result, it is possible to limit the flow path of the game ball flowing down the right area PA3 to a predetermined range, and the game ball is likely to enter the special prize winning device 151 and the through gate 35 .

The arrangement of a plurality of nails 24b on the upstream side of the through gate 35 in the right area PA3 is set so as to guide game balls flowing down the right area PA3 to the through gate 35. FIG. As a result, a game ball flowing down the right area PA3 can easily enter the through gate 35, and the ball can easily enter the special winning device 151 as the ball easily enters the through gate 35.例文帳に追加

By switching the induction unit 152 of the special winning device 151 from the non-guiding state to the guiding state based on the winning of the through gate 35, the special winning device 151 changes from the closed state to the open state. Concretely, with winning a prize to thru gate 35 as a trigger, general figure propriety determination processing is performed, and general figure unit 38 provided in the lower left corner, which is an area through which the game ball does not pass, in game area PA Variation display of the pattern is performed in the figure display section 38a. Then, when the result of the general pattern correctness determination process is the electric role open winning and the stop result corresponding to the result is displayed and the variable display of the general pattern display unit 38a is ended, the state is shifted to the general electric open state. In the general electric open state, the induction unit 152 is in the induction state in a predetermined manner, so that the special winning device 151 is in the open state in a predetermined manner.

Even in the present embodiment, a low-frequency support mode, a first high-frequency support mode, and a second high-frequency support mode are set as support modes. The probability of open winning, the selection mode of the duration of the variable display times in the normal diagram display section 38a, and the selection mode of the stop result in the normal diagram display section 38a are the same as in the first embodiment. In addition, the manner in which the special prize winning device 151 is in the open state when the power supply is open in each support mode (open duration, number of times of opening, upper limit number of winning prizes, interval period) is different from each other in the first embodiment. It is the same as the mode (open duration, number of times of opening, upper limit winning number, interval period) in which the general electrical accessory 34a of the second operating port 34 is in the open state when the general electrical is opened in the support mode.

In the first high-frequency support mode and the second high-frequency support mode, the probability of winning the special prize-winning device 151 is higher than in the low-frequency support mode. In other words, in the low-frequency support mode, the probability of winning the first operation port 33 is higher than in the special prize-winning device 151, but in the first high-frequency support mode and the second high-frequency support mode, the first operation port The probability of winning to the special winning device 151 is higher than 33. When a prize is awarded to the special prize winning device 151, a predetermined number of game balls are paid out. A game can be played while trying not to reduce it.

Based on the fact that the winning to the first operating port 33 or the special winning device 151 has occurred, the win/loss determination process is performed. Then, the result of the propriety determination process is clearly shown through the display effect in the special figure unit 37 and the symbol display device 41 of the variable display unit 36. The special figure unit 37 is provided with a first special figure display portion 37a and a second special figure display portion 37b as in the first embodiment. In the first special figure display unit 37a, the variable display of the pattern is performed by performing the winning judgment processing on the first reservation information acquired by the occurrence of the winning to the first operation port 33. Then, a stop result corresponding to the determination result of the success/failure determination process is displayed. In this case, as in the first embodiment as the determination result of the success/failure determination process, there are a jackpot result, a time saving result and an off result, but the content of the stop result of the first special figure display unit 37a is a jackpot result, It is different in each of the time saving result and the off result. The display of the stop result in the first special figure display portion 37a is maintained until the next game round is started and the first special figure display portion 37a starts the variable display of a new pattern. In addition, in the second special figure display unit 37b, the variable display of the pattern is performed by performing the winning judgment processing on the second reservation information acquired by the occurrence of the winning to the special winning device 151. Then, a result corresponding to the determination result of the success/failure determination process is displayed. In this case, as in the first embodiment as the determination result of the success or failure determination process, there are a jackpot result, a time saving result and an off result, but the content of the stop result of the second special figure display unit 37b is a jackpot result, It is different in each of the time saving result and the off result. The display of the stop result in the second special figure display portion 37b is maintained until the next game cycle is started and the second special figure display portion 37b starts the variable display of a new pattern.

In the special figure unit 37, the 1st special figure reservation display part 37c is provided in the position adjacent to the 1st special figure display part 37a. The number of game balls winning the first operation port 33 is reserved up to four, and the reserved number is displayed by lighting the first special figure reservation display section 37c. Further, in the special figure unit 37, a second special figure reservation display section 37d is provided at a position adjacent to the second special figure display section 37b. The number of winning game balls in the special winning device 151 is reserved up to four, and the reserved number is displayed by lighting the second special figure reservation display section 37d.

The display ranges of the first special figure display portion 37a and the second special figure display portion 37b are narrower than the display surface of the symbol display device 41. In addition, the entire display range of the first special figure display portion 37a, the second special figure display portion 37b, the first special figure reservation display portion 37c and the second special figure reservation display portion 37d is also displayed on the display surface of the symbol display device 41. It has a narrower range than As a result, the player's attention to the symbol display device 41 is increased more than the first special figure display unit 37a, the second special figure display unit 37b, the first special figure reservation display unit 37c, and the second special figure reservation display unit 37d. can be increased.

When the first special figure display portion 37a or the second special figure display portion 37b performs the variable display of the pattern, that is, when the game round is being executed, the symbol display device 41 performs the display effect accordingly. When the game-turn effect is executed in the symbol display device 41, the symbol rows Z1 to Z3, the first reservation display area 42a, the second reservation display area 42b and the state suggesting area 43 are displayed in the same manner as in the first embodiment. set. In addition, the symbol display device 41 performs not only the display effect for the game cycle, but also the display effect during the opening/closing execution mode that shifts after the result of a big hit, and the like.

When a big winning result is selected in the win/fail judgment processing executed based on the winning to the first operating port 33 or the special winning device 151, the opening/closing execution mode is shifted to after the game round corresponding to the big winning result is finished. In the opening/closing execution mode, it is possible to win a prize for the special electric prize winning device 32 . The special electric winning device 32 is provided at a position below the special winning device 151 in the right area PA3. That is, the special electric prize winning device 32 cannot win a prize when the shooting operation device 28 is operated so that the game ball flows down the left area PA2, and the shooting operation device 32 makes the game ball flow down the right area PA3. 28 is operated, winning is possible.

The special electric prize winning device 32 includes a large prize winning opening (not shown) leading to the back side of the game board 24, and an opening/closing door 32a for opening and closing the big winning opening. The opening/closing door 32a is arranged in either a closed state or an open state. Specifically, the open/close door 32a is normally in a closed state in which game balls cannot win, and when a big hit result is selected in the winning/failure determination process, the opening/closing door 32a is switched to an open state in which game balls can win. ing. It should be noted that although it is not impossible to win a prize in the closed state, it may be configured to be in a state in which it is more difficult to win a prize than in the open state. Further, the execution contents of the opening/closing execution mode are the same as those of the first embodiment.

FIG. 62 is an explanatory diagram for explaining an electrical configuration for performing various lotteries in the main MPU 82 in this embodiment.

In this embodiment, as in the first embodiment, a winning random number counter C1, a type random number counter C2, a reach random number counter C3, a random number initial value counter CINI, a fluctuation type counter CS, and a general electrical random number counter C4 are provided. The contents of the hit random number counter C1, the type random number counter C2, the reach random number counter C3, the random number initial value counter CINI, the fluctuation type counter CS and the general electrical random number counter C4 and the contents of the processing using these counters C1 to C4, CINI, CS It is the same as the first embodiment. Also, when a prize is won to the through gate 35, the numerical information of the general electric random number counter C4 is stored in the general pattern reservation area 84c, and the configuration of the general pattern reservation area 84c is the same as in the first embodiment. is.

Each numerical value information of the winning random number counter C1, the type random number counter C2, and the reach random number counter C3 is stored in the first special feature of the main side RAM 84 in the same manner as in the first embodiment when the winning to the first operation opening 33 occurs. It is stored in the drawing reservation area 111 . Each of the numerical information of the hit random number counter C1, the type random number counter C2, and the reach random number counter C3 indicates that the winning to the second operation port 34 occurs in the first embodiment when the winning to the special winning device 151 occurs. It is stored in the second special figure reservation area 112 of the main side RAM 84 in the same way as when it is done.

The execution area 192 for the special figure is provided with an execution area 192a for the first special figure and an execution area 192b for the second special figure. The execution area 192a for the first special figure is an area where the first pending information to be subjected to the success/failure determination process, the distribution determination process, etc. is stored when the variable display is started in the first special figure display unit 37a. be. The execution area 192b for the second special figure is an area in which the second pending information to be subjected to the success/failure determination process, the distribution determination process, etc. is stored when the variable display is started in the second special figure display unit 37b. be. Specifically, when the variable display of the first special figure display portion 37a is started, the first reservation information stored in the first area 111a of the first special figure reservation area 111 is used for the first special figure. is shifted to area 192a. On the other hand, when starting the variable display of the second special figure display unit 37b, the second reservation information stored in the first area 112a of the second special figure reservation area 112 is displayed in the execution area 192b for the second special figure. shifted.

In the present embodiment, at least part of the game cycle period in the first special figure display portion 37a and at least part of the game cycle period in the second special figure display portion 37b are configured to overlap. That is, even while the game round is being executed in the first special figure display unit 37a, the game round can be started in the second special figure display unit 37b, and the game round is executed in the second special figure display unit 37b. A game round in the first special figure display portion 37a can be started even while the game is being played.

When the propriety determination process is executed for the first reservation information, as in the first embodiment, if the low probability mode first propriety table 121 at the time of low probability is referred, even if the high probability mode For example, the success/failure table 123 for high probability is referred to. Further, when the validity determination process is executed with respect to the second reservation information, as in the first embodiment, if the low probability mode, the second validity table 122 at the time of low probability is referred to, and the high probability mode If so, the success/failure table 123 at the time of high probability is referred to. In addition, when the jackpot result is selected in the propriety determination process for the first reservation information, the jackpot distribution table 125 for the first special figure is referred to in the same manner as in the first embodiment. Minute determination process is executed, if the time saving result is selected in the right or wrong determination process for the first pending information, referring to the time saving distribution table 127 for the first special figure in the same manner as in the first embodiment The distribution determination process for time saving is executed. In addition, when the big hit result is selected in the propriety determination process for the second reservation information, the big hit distribution table 126 for the second special figure is referred to in the same manner as in the first embodiment. minute determination process is executed, if the time saving result is selected in the right or wrong determination process for the second pending information, refer to the time saving distribution table 128 for the second special figure in the same manner as in the first embodiment The distribution determination process for time saving is executed.

In this embodiment, as the special figure special electric control processing, the first special figure special electric control processing corresponding to the first reservation information and the second special figure special electric control processing corresponding to the second reservation information are set. These processes are described below.

FIG. 63 is a flowchart showing the first special figure special electric control process executed by the main side MPU 82, and FIG. 64 is a flowchart showing the second special figure special electric control process executed by the main side MPU 82. Since the first special figure special electric control process and the second special figure special electric control process are similar in processing configuration, each corresponding processing configuration will be described.

In the first special figure special electric control process (FIG. 63), the first reservation information acquisition process is executed (step S3801). Also, in the second special figure special electric control process (FIG. 64), first, the acquisition process of the second reservation information is executed (step S3901).

In the acquisition process of the first reservation information, the winning to the first operation port 33 has occurred, and the number of the first reservation information stored in the first special figure reservation area 111 is less than the upper limit storage number , Per random number counter C1, type random number counter C2 and reach random number counter C3 as the first reservation information, the first reservation information in the first area 111a ~ fourth area 111d of the first special figure reservation area 111 is stored Store in the area with the earliest digestion order among the areas that have not been processed. In addition, when the first reservation information is acquired, the data setting for updating the display contents of the first special figure reservation display unit 37c in accordance with the fact that the number of the first reservation information has increased this time conduct. Moreover, the first suspension command indicating that the first suspension information has increased is transmitted to the sound and light side MPU 93 . The sound and light side MPU 93 transmits a command corresponding to the received first hold command to the display side MPU 103, thereby increasing the display of the number of first hold information in the first hold display area 42a of the pattern display device 41. change accordingly.

In the acquisition process of the second reservation information, if the winning to the special winning device 151 has occurred, and the number of second reservation information stored in the second special figure reservation area 112 is less than the upper limit storage number, Per random number counter C1, each value of the type random number counter C2 and reach random number counter C3 as the second reservation information, the second reservation information in the first area 112a ~ fourth area 112d of the second special figure reservation area 112 is stored Store in the area with the earliest digestion order among the areas where there is no data. In addition, when the second reservation information is acquired, the data setting for updating the display contents of the second special figure reservation display unit 37d according to the fact that the number of the second reservation information has increased this time conduct. Moreover, the second hold command indicating that the second hold information has increased is transmitted to the sound and light side MPU 93 . The sound and light side MPU 93 transmits a command corresponding to the received second hold command to the display side MPU 103, thereby increasing the display of the number of second hold information in the second hold display area 42b of the pattern display device 41. change accordingly.

In the first special figure special electric control process (FIG. 63) and the second special figure special electric control process (FIG. 64), after executing the pending information acquisition process (step S3801 or step S3901), it is stored in the main ROM 83 Read out the special figure special electric address table (step S3802, step S3902). In the special figure special electric address table, a program for executing processing corresponding to the numerical information of the first special figure special electric counter provided in the main RAM 84 and the second special figure special electric counter provided in the main RAM 84 is started. Address is set. The first special figure special electric counter is a counter for specifying the processing content to be executed in the first special figure special electric control process (FIG. 63) by the main side MPU 82 . The second special figure special electric counter is a counter for specifying the processing contents to be executed in the second special figure special electric control process (FIG. 64) by the main side MPU 82 . The value of each special figure special electric counter corresponds to the start address respectively, and when the value of each special figure special electric counter is "0" special figure fluctuation start processing (step S3805, step S3905) is executed, each When the value of the special figure special electric counter is "1", special figure fluctuation processing (step S3806, step S3906) is executed, and when the value of each special figure special electric counter is "2", special figure determination Medium processing (step S3807, step S3907) is executed, and when the value of each special special electric counter is "3", special electric start processing (step S3808, step S3908) is executed, and the value of each special special electric counter If is "4" special electric open processing (step S3809, step S3909) is executed, if the value of each special special electric counter is "5" special electric closed processing (step S3810, step S3910 ) is executed, and when the value of each special special electric counter is "6", special electric end processing (step S3811, step S3911) is executed.

In the first special figure special electric control process (FIG. 63) and the second special figure special electric control process (FIG. 64), after reading the special figure special electric address table (step S3802, step S3902), the corresponding special figure special electric counter The start address corresponding to the information is acquired from the special figure special electric address table (step S3803, step S3903), and the process indicated by the acquired start address is jumped (step S3804, step S3904). Hereinafter, special figure fluctuation start processing (step S3805, step S3905), processing during special figure fluctuation (step S3806, step S3906) and processing during special figure determination (step S3807, step S3907) will be described. Note that the special electric start processing (steps S3808 and S3908), the special electric open processing (steps S3809 and S3909), and the special electric closed processing (steps S3810 and S3910) are the same as steps S609 to S611 in the first embodiment. are identical. In addition, the special electric end processing (step S3811, step S3911) is not provided with the high probability state counter 133 in the main side RAM 84, and when the opening and closing execution mode triggered by the 5R high probability result or the 10R high probability result ends is the high probability mode and the first high frequency support mode, except that the high probability state will continue until the next game round that results in a big hit. (FIG. 23) is executed.

<Special figure fluctuation start process>
First, the special figure fluctuation start processing of steps S3805 and S3905 will be described with reference to the flowchart of FIG.

First, it is determined whether or not the process for the jackpot state is being executed on the side that does not correspond to the special figure special electric control process (FIGS. 63 and 64) of this time (step S4001). As already explained, in this embodiment, even if the game round is executed in one of the first special figure display portion 37a and the second special figure display portion 37b, the game round can be executed in the other. In this case, step S4001 is executed, and when the process for the jackpot state is executed on the side that does not correspond to this special special electric control process (FIGS. 63 and 64), the processes after step S4002 are executed. The start of a new game round is regulated without any change. Thereby, in the situation where the opening and closing execution mode is executed triggered by the game round in one of the first special figure display portion 37a and the second special figure display portion 37b, the game round in the other is not newly started. Regulated. Therefore, it is possible to increase the attention of the player to the opening/closing execution mode. In addition, if this time is the special figure fluctuation start process in the first special figure special electric control process (FIG. 63), it is determined in step S4001 whether the value of the second special figure special electric counter is 3 or more, and 3 or more If it is, it is configured not to execute the processing after step S4002, and if this is the special figure fluctuation start process in the second special figure special electric control process (FIG. 64), the value of the first special figure special electric counter is 3 or more is determined in step S4001, and if the number is 3 or more, the processing after step S4002 is not executed.

If a negative determination is made in step S4001, it is determined whether or not the corresponding pending number is one or more (step S4002). If this time is the special figure fluctuation start process in the first special figure special electric control process (FIG. 63), it is determined whether or not one or more pieces of the first reservation information are stored in the first special figure reservation area 111, and this time If it is a special figure fluctuation start process in the second special figure special electric control process (FIG. 64), it is determined whether or not one or more pieces of second reservation information are stored in the second special figure reservation area 112 .

If an affirmative determination is made in step S4002, data setting processing is executed (step S4003). In the data setting process, if this time is the first special figure special electric control process (Fig. 63), the data stored in the first area 111a of the first special figure reservation area 111 is transferred to the first special figure execution area 192a. Moving. After that, a process of shifting the data stored in the storage area of the first special figure reservation area 111 is executed. This data shift process is a process of sequentially shifting the data stored in the first to fourth areas 111a to 111d to the lower area side. The fourth area 111d is cleared to "0" after the data in each area is shifted in such a manner as second area 111b, fourth area 111d→third area 111c. In this case, the display content of the first special figure reservation display portion 37c in the special figure unit 37 is changed to the content in which the first reservation information is reduced by one. Further, in the data setting process, a command indicating that the first reservation information in the first special figure reservation area 111 has decreased by one is transmitted to the sound and light side MPU 93 . The sound and light side MPU 93 transmits a command corresponding to the command to the display side MPU 103, so that the display of the number of the first pending information in the first pending display area 42a of the pattern display device 41 corresponds to the decrease in the number of pending information. let me change it.

In the data setting process, if this time is the second special figure special electric control process (FIG. 64), the data stored in the first area 112a of the second special figure reservation area 112 is transferred to the execution area 192b for the second special figure. Moving. After that, a process of shifting the data stored in the storage area of the second special figure reservation area 112 is executed. This data shift process is a process for sequentially shifting the data stored in the first to fourth areas 112a to 112d to the lower area side. 2 area 112b, fourth area 112d→third area 112c, etc. After the data in each area is shifted, the fourth area 112d is cleared to "0". In this case, the display content of the second special figure reservation display portion 37d in the special figure unit 37 is changed to the content in which the second reservation information is reduced by one. Further, in the data setting process, a command indicating that the second reservation information in the second special figure reservation area 112 has decreased by one is transmitted to the sound and light side MPU 93 . The sound and light side MPU 93 transmits a command corresponding to the command to the display side MPU 103, so that the display of the number of second pending information in the second pending display area 42b of the pattern display device 41 corresponds to the decrease in the number of pending information. let me change it.

After executing the data setting process, the game round is being executed on the side that does not correspond to this special figure special electric control process (FIGS. 63 and 64), and the holding information that triggered the start of the game round is the jackpot result. (step S4004). If a negative determination is made in step S4004, then a propriety determination process is executed (step S4005). In the success/failure determination process, if the success/failure lottery mode is the low probability mode and the start target of the game round is the first reservation information, the first success/failure table 121 at the time of the low probability is read from the main side ROM 83, and the success/failure lottery mode is the low probability. If the mode is the game round start target is the second reservation information, the second right/fail table 122 at the time of low probability is read from the main side ROM 83, and if the win/fail lottery mode is the high probability mode, the game round start target is the second. The success/failure table 123 at the time of high probability is read out from the main side ROM 83 for any of the 1 pending information and the 2nd pending information. After reading the success/failure table, from the hold information stored in the side of the execution area 192a for the first special figure and the execution area 192b for the second special figure, which is the target for starting the game round this time, , that is, the numerical value information obtained from the win random number counter C1 is read, and it is determined which game result in the success/failure table the read numerical value information corresponds to.

If the result of the success/failure determination process is a jackpot result (step S4006: YES), a jackpot distribution determination process is executed (step S4007). In the big hit distribution determination process, if the game round start target is the first reservation information, the first special figure jackpot distribution table 125 is read from the main side ROM 83, and the game round start target is the second reservation information. If so, read the jackpot distribution table 126 for the second special figure. Then, from the holding information stored in the side of the execution area 192a for the first special figure and the execution area 192b for the second special figure, which is the target for starting the game round this time, the information for distribution determination, that is, the type random number By reading the numerical value information acquired from the counter C2 and referring to the distribution table, it is specified which type of jackpot results the read numerical value information corresponds to.

After executing the distribution determination process for the big win, "1" is set to the flag of the main side RAM 84 corresponding to the type of the big win result specified in the distribution determination process (step S4008). After that, a stop result setting process for the jackpot result is executed (step S4009). Specifically, information on the stop mode of the pattern to be finally stopped and displayed on the special figure display units 37a and 37b, which are the targets for starting the game round this time, is stored in the main ROM 83 in advance. It is specified from the result table, and the specified information is stored in the main side RAM 84 . In the stop result table for the jackpot result, the type of stop mode of the pattern stopped and displayed in the first special figure display section 37a or the second special figure display section 37b is set differently for each type of jackpot result. In step S4009, the main RAM 84 stores information on the pattern stop mode corresponding to the type of the jackpot result specified in step S4008. The pattern stop mode may be set in a one-to-one correspondence with each jackpot result, or a plurality of types of pattern stop modes may be set for at least some of the jackpot results.

When the result of the right or wrong determination process is a time saving result (step S4010: YES), the allocation determination process for time saving is performed (step S4011). In the distribution determination process for time saving, if the start target of the game round is the first reservation information, the time reduction distribution table 127 for the first special figure is read from the main side ROM 83, and the start target of the game round is the second reservation information. If so, read the time saving distribution table 128 for the second special figure. Then, from the holding information stored in the side of the execution area 192a for the first special figure and the execution area 192b for the second special figure, which is the target for starting the game round this time, the information for distribution determination, that is, the type random number By reading the numerical value information acquired from the counter C2 and referring to the distribution table, it is specified which type of time saving result the read numerical value information corresponds to.

After performing the distribution determination process for time saving, "1" is set to the flag of main side RAM84 corresponding to the kind of time saving result specified by the said distribution determination process (step S4012). Then, the stop result setting process for time saving results is performed (step S4013). Specifically, the information on the stop mode of the pattern that is finally stopped and displayed on the special figure display units 37a and 37b, which are the targets for starting the game round this time, is stored in the main ROM 83 in advance. It is specified from the result table, and the specified information is stored in the main side RAM 84 . In this stop result table for the time saving result, the type of stop mode of the pattern stopped and displayed in the first special figure display unit 37a or the second special figure display unit 37b is set differently for each type of time saving result. And, in step S4013, the main RAM 84 stores information on the pattern stop mode corresponding to the type of time saving result specified in step S4012. The pattern stop mode may be set in correspondence with each time saving result on a one-to-one basis, or a plurality of types of pattern stop modes may be set for at least some of the time saving results. The information on the form of the pattern selected in step S4013 is different from the information on the form of the pattern selected in the case of the jackpot result.

When the result of the success/failure determination process is neither the jackpot result nor the time saving result (step S4010: NO), the stop result setting process for the result is executed (step S4014). Specifically, information on the form of the pattern to be finally stopped and displayed on the first special figure display unit 37a or the second special figure display unit 37b in this game round is stored in the main side ROM 83 in advance. The specified information is stored in the main side RAM 84 . The information of the pattern mode selected in this case is different from the information of the pattern mode selected in the case of the jackpot result and the information of the pattern mode selected in the case of the time saving result, and furthermore, the first feature There is one common type in the figure display portion 37a and the second special figure display portion 37b.

On the other hand, if an affirmative determination is made in step S4004, that is, the game round is being executed on the side that does not correspond to the special figure special electric control processing (FIGS. 63 and 64) of this time, and the holding that triggered the start of the game round If the information corresponds to the jackpot result, the already explained stop result setting process for the outlier result is executed without executing the winning judgment process (step S4014). In other words, the pachinko machine 10 has a configuration in which even if one of the first special figure display portion 37a and the second special figure display portion 37b is in a state in which a game round is being executed, the game round can be started in the other. However, if the hold information that triggered the start of the game round that has already been executed corresponds to one of the jackpot results, the hold information that triggered the start of the newly executed game round Regardless of whether or not the game corresponds to the big win result, the game round corresponds to the result of losing. As a result, it is possible to prevent the game times corresponding to the big winning results from being repeated. In addition, in the case of a configuration in which the start of a new game round is blocked when the game round corresponding to the jackpot result has already been executed, even if the hold information for starting the game round is acquired, Regardless, when a new game round is not started, it may become clear that the game round currently being executed is the game round corresponding to the jackpot result, but the game round corresponding to the jackpot result has already been executed. It is possible to prevent such an event from occurring by adopting a configuration in which a new game round can be started even when the game is already played.

When the processing of step S4009, the processing of step S4013 or the processing of step S4014 is executed, on condition that the value of the time saving state counter 134 of the main side RAM84 is 1 or more (step S4015: YES), the time saving state counter 134 1 is subtracted from the value (step S4016). And, if the value of the time saving state counter 134 after the subtraction of 1 is "0" (step S4017: YES), the first time saving end flag and the second time saving end flag provided in the main side RAM84 "1" is set to the time saving end flag on the side corresponding to the figure special electric control process (Fig. 63, Fig. 64) (step S4018). The first time saving end flag is a flag for specifying in the main side MPU 82 that the time saving state should be ended and the normal game state should be shifted to when the game round in the first special figure display portion 37a is finished. be. The second time saving end flag is a flag for specifying in the main side MPU 82 that the time saving state should be ended and the game state should be shifted to the normal game state when the game round in the second special figure display portion 37b is finished. be.

When a negative determination is made in step S4015, when a negative determination is made in step S4017, or when the process of step S4018 is executed, a variable display period specifying process is executed (step S4019). The processing for specifying the variable display period will be described later. After that, the variation command and the type command corresponding to the game turn to be started this time are transmitted to the sound and light side MPU 93 (step S4020). The variation command includes information on the variation display period specified in step S4019, and the game round to be started is either the first special figure display portion 37a or the second special figure display portion 37b. Contains information indicating whether it is supported. The type command includes information indicating whether the game round to be started this time corresponds to a jackpot result, a time saving result, or a losing result, and if it corresponds to the jackpot result, contains information indicating which type of jackpot result it is, and includes information indicating which type of time saving result it is when it corresponds to the time saving result.

In the low-frequency support mode, the sound and light side MPU 93 changes the symbol rows Z1 to Z3 of the symbol display device 41 when receiving the variation command and the type command indicating that the first hold information is the game turn start target. While the variable display of the symbols is started and the display light emitting unit 64 and the speaker unit 65 perform an effect corresponding to the variable display of the symbols, the second reservation information indicates that the game cycle is to be started. Even if the variation command and the type command are received, the variation display of the symbols in the symbol rows Z1 to Z3 of the symbol display device 41 and the corresponding effects in the display light emitting part 64 and the speaker part 65 are not executed. Therefore, when the game round triggered by the first reservation information is executed in the low-frequency support mode, the variation display of the pattern is performed in the first special figure display unit 37a, and the symbol rows Z1 to Z3 of the symbol display device 41 are displayed. In contrast to the variation display of the pattern is performed in the low frequency support mode, when the game round triggered by the second reservation information is executed, the variation display of the pattern is performed in the second special figure display unit 37b On the other hand, in the symbol rows Z1 to Z3 of the symbol display device 41, the symbols are not variably displayed.

In addition, a small display area is set on the outer edge side of the display surface of the pattern display device 41, and in the low frequency support mode, when the game round triggered by the second hold information is executed, the display area A configuration in which blinking display or color switching display is performed may be employed. In addition, in the low-frequency support mode, when a big hit result occurs in a game round triggered by the second hold information, there is an effect of notifying the occurrence of the big win result on the symbol display device 41 at the timing when the game round ends. In the low-frequency support mode, when the time saving result occurs in the game round triggered by the second hold information, the pattern display device 41 announces the occurrence of the time saving result at the timing when the game round ends. is done.

In the first high-frequency support mode or the second high-frequency support mode, the sound and light side MPU 93 receives the variation command and the type command indicating that the second hold information is the game start target, the pattern The variable display of the symbols in the symbol rows Z1 to Z3 of the display device 41 is started, and the display light emitting unit 64 and the speaker unit 65 are caused to perform an effect corresponding to the variable display of the symbols. Even if a variation command and a type command indicating that it is to be started are received, the variation display of the symbols in the symbol rows Z1 to Z3 of the symbol display device 41 and the corresponding effects in the display light emitting unit 64 and the speaker unit 65 are not performed. don't let it run. Therefore, when the game round triggered by the first hold information is executed in the first high-frequency support mode or the second high-frequency support mode, while the fluctuation display of the pattern is performed in the first special figure display unit 37a, In the symbol rows Z1 to Z3 of the symbol display device 41, the symbols are not variably displayed. When it is executed, the second special figure display portion 37b performs the variation display of the pattern, and the symbol rows Z1 to Z3 of the symbol display device 41 perform the variation display of the pattern.

In addition, a small partitioned display area is set on the outer edge side of the display surface of the pattern display device 41, and a game cycle triggered by the first suspension information is executed in the first high-frequency support mode or the second high-frequency support mode. If there is, a configuration may be adopted in which blinking display or color switching display is performed in the display area. In addition, in the first high-frequency support mode or the second high-frequency support mode, when a big hit result occurs in a game round triggered by the first suspension information, the pattern display device 41 is displayed at the timing when the game round ends. An effect is performed to notify the occurrence of the jackpot result, and in the first high-frequency support mode or the second high-frequency support mode, when the time-saving result occurs in the game round triggered by the first hold information, the game round At the timing when the game is finished, the pattern display device 41 performs an effect to announce the occurrence of the time saving result.

After that, the variable display of the design is started in the display part which is the start target of the current game cycle out of the first special figure display part 37a and the second special figure display part 37b (step S4021). Also, if the current process corresponds to the first special figure special electric control process (Fig. 63), 1 is added to the value of the first special figure special electric counter, and the current process corresponds to the second special figure special electric control process ( 64), the value of the second special figure special electric counter is incremented by 1 (step S4022).

FIG. 66 is a flow chart showing the variable display period specifying process executed in step S4019.

If "1" is not set to both the first high frequency flag and the second high frequency flag of the main side RAM 84 (step S4101: NO), that is, if the support mode is the low frequency support mode, the current game round is the first pending information (step S4102). When the start target of the current game cycle is the first reservation information (step S4102: YES), the table group for the normal fluctuation period is read from the main ROM 83 to the main RAM 84 (step S4103). Then, the table group for the normal variable period is used to execute the variable display period selection process (step S4104), and the information on the variable display period selected by the selection process is stored in the first It is set to the special figure side timer counter (step S4105). The update of the numerical value information set in the first special figure side timer counter is executed in the timer update process of step S210 in the timer interrupt process (FIG. 14).

In the situation where the variable display period selection process in step S4104 is executed with reference to the table group for the normal variable period, if a big hit result occurs in the current game round, or if the result of the success/failure determination process is not the result Numerical information corresponding to the reach random number counter C3 in the hold information that is the object of execution corresponds to the occurrence of the out-of-reach display, and if the out-of-reach display occurs in the current game round, the fluctuation type counter at that time By collating the CS numerical information against the table corresponding to the reach in the table group for the normal fluctuation period, the information of the variable display period of the reach display mode is read.

When a time-saving result occurs in the current game cycle, the numerical information of the variation type counter CS at that time is collated against the table corresponding to the time-saving result in the table group for the normal variation period, and the variation display corresponding to the time-saving result is performed. Read period information. Multiple types of information are set for the variable display period corresponding to the time saving result, and any variable display period corresponding to the time saving result is longer than the shortest period on the special figure side, corresponding to the occurrence of reach display. This period is shorter than the variable display period. Specifically, 10 seconds, 11 seconds, 12 seconds and 13 seconds are set as the variable display period corresponding to the time saving result, and the period corresponding to the value of the variable type counter CS acquired among these is the game this time is selected as a variable display period.

In the current game round, when the big hit result and the time saving result do not occur and the out reach display does not occur, the first special figure reservation area 111 starts in a situation where three or more pieces of first reservation information are stored. If it is a game round, the information of the shortest period (specifically 3 seconds) on the special figure side is read as the variable display period of the current game round. As a result, it is possible to increase the efficiency of digestion of game times triggered by the first suspension information in the low-frequency support mode.

On the other hand, when the big hit result and the time saving result do not occur in this game round and the out reach display does not occur, the first reservation information is the execution target of the game round and one or more in the first special figure reservation area 111 If the game cycle is started in a state where two pieces of the first pending information are stored, the numerical information of the fluctuation type counter CS at that time is transferred to the table corresponding to the complete loss result in the table group for the normal fluctuation period. By collating with , the information of the variable display period corresponding to the result of complete deviation is read. Multiple types of information are set for the variable display period corresponding to the complete deviation result, and any variable display period corresponding to the complete deviation result is longer than the shortest period on the special figure side, and the variable display period corresponding to the short time result and a period shorter than the variable display period corresponding to occurrence of reach display. Specifically, 5 seconds, 6 seconds, 7 seconds, and 8 seconds are set as the fluctuation display periods corresponding to the complete deviation result, and the period corresponding to the value of the fluctuation type counter CS acquired among these is this time It is selected as the variable display period of the game round.

In the case of low frequency support mode (step S4101: NO), if the start target of this game round is the second hold information (step S4102: NO), special figure as the variable display period of this game round Information on the longest period of the side (specifically 10 minutes) is set to the second special figure side timer counter provided in the main side RAM84 (step S4106). The update of the numerical value information set in the second special figure side timer counter is executed in the timer update process of step S210 in the timer interrupt process (FIG. 14).

As described above, in the low-frequency support mode, if the first hold information is to start a game round, the variable display period for the game round is selected by referring to the table group for the normal variable period. , If the second hold information is to start the game round, the longest period of the special figure side (specifically 10 minutes) is selected as the variable display period of the game round regardless of the game result of the game round. . The longest period on the special figure side is longer than any variable display period selected with reference to the table group for the normal variable period. Therefore, in the low frequency support mode, the player operates the shooting operation device 28 so that the game ball flows down the left side area PA2 to play the game.

If "1" is set to either the first high-frequency flag or the second high-frequency flag of the main RAM 84 (step S4101: YES), that is, the support mode is the first high-frequency support mode or the second high-frequency support mode. If it is the support mode, it is determined whether or not the start target of the current game round is the first hold information (step S4107). If the start target of this game round is the first pending information (step S4107: YES), the information of the special figure side long period (specifically 2 minutes) as the variable display period of this game round is mainly It is set to the first special figure side timer counter of the side RAM 84 (step S4108).

In the case of the first high-frequency support mode or the second high-frequency support mode (step S4101: YES), if the start target of the current game round is the second hold information (step S4107: NO), a short period of time The variable table group is read from the main ROM 83 to the main RAM 84 (step S4109). Then, the variable display period selection process is executed using the short-term variation table group (step S4110), and the information on the variable display period selected in the selection process is stored in the main side RAM 84 on the second special figure side. A timer counter is set (step S4111).

In the situation where the process of selecting the variable display period in step S4110 is executed with reference to the short-term variable table group, if a big hit result occurs in the current game round, or if the result of the win/fail determination process is out of line. Numerical information corresponding to the reach random number counter C3 in the hold information that is the target of execution corresponds to the occurrence of the reach-out display, and if the display of reach-out failure occurs in the current game round, the fluctuation type counter at that time By collating the CS numerical information against the table corresponding to the reach in the table group for short-term fluctuation, the information of the variable display period of the reach display mode is read.

When no big win result occurs in the current game round and no out-reach display occurs, the game is started in a situation where two or more pieces of second reservation information are stored in the second special figure reservation area 112.例文帳に追加If it is a time, the information of the shortest period (specifically 3 seconds) on the special figure side is read as the variable display period of this game time. As a result, it is possible to increase the consumption efficiency of game rounds triggered by the second hold information in the first high-frequency support mode or the second high-frequency support mode. Also, even if a time saving result occurs in this game round, if it is a game round started in a situation where two or more pieces of second reservation information are stored in the second special figure reservation area 112, Read the information of the shortest period (specifically 3 seconds) on the special figure side.

On the other hand, the game round started in a situation where one piece of the second holding information is stored in the second special figure holding area 112 in the case where no big hit result occurs in the current game round and the out reach display does not occur. In that case, the information of the middle period (specifically 10 seconds) on the side of the special figure is read as the variable display period of the game round this time. This makes it possible to secure a situation in which the second hold information is acquired in the first high-frequency support mode or the second high-frequency support mode. Also, even if a time saving result occurs in this game round, if the game round is started in a situation where one second reservation information is stored in the second special figure reservation area 112, Information for the middle period (specifically, 10 seconds) on the side of the drawing is read.

As described above, in the first high-frequency support mode or the second high-frequency support mode, if the second hold information is the game round start target, the game round fluctuation display with reference to the short-term fluctuation table group While the period is selected, if the first hold information is to start the game round, the long period of the special figure side (specifically 2 minutes) is the game regardless of the game result of the game round is selected as a variable display period. The long period on the special figure side is a period longer than the shortest period (specifically 3 seconds) on the special figure side selected in the game round of the loss result in which the reach display triggered by the second hold information does not occur be. Therefore, in the first high-frequency support mode or the second high-frequency support mode, the player plays the game by operating the shooting operation device 28 so that the game ball flows down the right area PA3.

<Process during special figure fluctuation>
Next, the special figure changing process executed in step S3806 of the first special figure special electric control process (FIG. 63) and step S3906 of the second special figure special electric control process (FIG. 64) will be described.

If the fluctuation display period of the current game round in the special figure display units 37a and 37b to be controlled has not passed, and if it is the update timing of the display contents of the special figure display units 37a and 37b, the special figure Data setting for updating the display contents of the display units 37a and 37b is performed. Thereby, the display contents of the pattern in the special figure display portions 37a and 37b to be controlled are updated to the display contents of the next order.

Aspect at the time of starting the variation display of the pattern in the special figure display unit 37a, 37b, and the update aspect of the variation display of the pattern are performed in a constant manner regardless of the result of the success or failure determination process and the result of the distribution determination process. , is carried out in a fixed manner regardless of the content of the performance for the game round on the symbol display device 41 . For example, when a predetermined update timing occurs a plurality of times, the display content of the pattern rotates once, and a display pattern in which the display order is in a fixed order is repeatedly performed, and when the variable display period has passed, the display pattern The stop result determined at the start of the game round is displayed regardless of the order of display. Thereby, it is possible to simplify the processing configuration for controlling the display of the special figure display units 37a and 37b.

On the other hand, when the variable display period has passed, the final stop command is transmitted to the sound and light side MPU 93 . The final stop command includes information corresponding to the side where the variable display period has passed among the first special figure display portion 37a and the second special figure display portion 37b. After that, the information of the pattern stop mode of the special figure display portions 37a and 37b stored in the main side RAM 84 at the start of the game turn to be ended this time is read. As a result, the variable display of the pattern is stopped in a state where the pattern corresponding to the game result of the current game round is displayed in the special figure display units 37a and 37b to be controlled.

After that, the information of the final stop period (specifically 0.5 sec) is set to the timer counter corresponding to the special figure display units 37a and 37b to be controlled. Thereby, the measurement of the final stop period is started. After that, if the current processing corresponds to the first special special electric control processing (Fig. 63), the value of the first special special electric counter is incremented by 1, and the current processing corresponds to the second special special electric control processing ( 64), add 1 to the value of the second special figure special electric counter.

<Processing during special figure confirmation>
Next, refer to the flowchart of FIG. 67 for the special figure determination process executed in step S3807 of the first special figure special electric control process (FIG. 63) and step S3907 of the second special figure special electric control process (FIG. 64) I will explain while

If the final stop period has passed (step S4201: YES), and if the game result of this game round is a jackpot result (step S4202: YES), this special figure special electric control process (FIG. 63, By determining whether the value of the special figure special electric counter on the side that does not correspond to FIG. It is determined whether or not a game cycle is being executed on the display units 37a and 37b (step S4203). If the value of the special figure special electric counter on the side that does not correspond to this special figure special electric control processing (FIGS. 63 and 64) is not "0" (step S4203: NO), this special figure special electric control processing (FIGS. 63, 64, FIG. 64) ends the fluctuation display of the pattern in the special figure display units 37a and 37b on the side that does not correspond to the result in a stopped state (step S4204). And, the special figure special electric counter of the side which does not correspond to this special figure special electric control processing (FIG. 63, FIG. 64) is cleared to "0" (step S4205). As a result, in the situation where the fluctuation display of the pattern is executed in both the first special figure display portion 37a and the second special figure display portion 37b, the fluctuation display of one pattern is stopped and the opening and closing execution mode becomes a jackpot result. If this occurs, the variable display of the other pattern is forcibly terminated while the result of the error is stopped.

If a negative determination is made in step S4203 or if the processing of step S4205 is executed, the information corresponding to the opening period (specifically 5 seconds) corresponds to this special figure special electric control processing (Fig. 63, Fig. 64) It sets the timer counter on the side to do so (step S4206), and transmits an opening command to the sound and light side MPU 93 (step S4207). When receiving the opening command, the sound and light side MPU 93 causes the pattern display device 41, the display light emitting portion 64 and the speaker portion 65 to perform an effect corresponding to the opening period.

Thereafter, information of 500 times, which is the number of fixed ceilings, is set in the ceiling counter 131 of the main RAM 84 (step S4208). That is, when the opening/closing execution mode is started after the game round corresponding to the jackpot result is completed, the ceiling counter 131 is set with the information of 500 times, which is the number of fixed ceilings. If the ceiling counter 131 is configured to set the number of fixed ceiling times during the opening/closing execution mode or when the opening/closing execution mode ends, not when the opening/closing execution mode is started, the operation is performed after the opening/closing execution mode is started. If the power supply is stopped and the set value update process (step S117) or the RAM clear process (step S119) is executed when the supply of operating power is restarted, the set value update process ( In the step S117) or the RAM clearing process (step S119), the information indicating that the opening/closing execution mode is in progress is cleared as already explained, whereas the value of the ceiling counter 131 is maintained, so that the operation power is supplied. There is a risk that the game may be restarted in a situation where the number of remaining ceilings is small while the profit of the opening/closing execution mode is obtained until the game is stopped. On the other hand, when the opening/closing execution mode is started, the ceiling counter 131 is set with the information of 500 times, which is the number of fixed ceilings, so that the fraudulent act as described above can be neutralized.

After that, if the current processing corresponds to the first special special electric control processing (Fig. 63), the value of the first special special electric counter is incremented by 1, and the current processing corresponds to the second special special electric control processing ( 64), the value of the second special figure special electric counter is incremented by 1 (step S4209).

If the game result of the current game round is not a jackpot result (step S4202: NO), the end determination process of the time saving state is executed in step S4210, the setting process for the time saving result is executed in step S4211, and step S4212 , the subtraction process of the ceiling counter 131 is executed. After that, if the current process corresponds to the first special figure special electric control process (Fig. 63), the first special figure special electric counter is cleared to "0", and the current process corresponds to the second special figure special electric control process ( 64), the second special figure special electric counter is cleared to "0" (step S4213).

Figure 68 is a flow chart showing the end determination process of the time saving state executed in step S4210 of the process during special figure determination (Figure 67).

First, it is determined whether or not "1" is set to the time saving end flag corresponding to the special figure special electric control processing (FIGS. 63 and 64) of this time in the main side RAM 84 (step S4301). That is, if this processing corresponds to the first special figure special electric control processing (FIG. 63), it is determined whether or not "1" is set to the first time saving end flag of the main side RAM84, and this time If the process corresponds to the second special figure special electric control process (FIG. 64), it is determined whether or not "1" is set to the second time saving end flag of the main side RAM84.

If the affirmative determination is made in step S4301, the time saving end flag corresponding to this special special electric control process (FIGS. 63 and 64) is cleared to "0" (step S4302). After that, both the first high frequency flag and the second high frequency flag of the main RAM 84 are cleared to "0" (step S4303). As a result, the time saving state ends and the normal game state is entered.

Even while the game round is being executed in the first special figure display unit 37a, the game round can be started in the second special figure display unit 37b, and the game round is executed in the second special figure display unit 37b. In the configuration where the game round in the first special figure display unit 37a can be started even during the time, the time saving state is when the game round corresponding to the end started in a situation where the remaining number of continuations is 1 is completed. finish. In this case, even if the game round started after the game round corresponding to the end is started and ends earlier than the game round corresponding to the end, the time saving state continues and ends when the game round corresponding to the end ends. . On the other hand, in the time-saving state (that is, the first high-frequency support mode or the second high-frequency support mode), if it is a game turn for which the second hold information is to be executed, the game is played by referring to the table group for short-term fluctuations. While the variable display period of times is selected, the long period of the special figure side (specifically 2 minutes) is uniquely selected in the game times for which the first reservation information is executed. Then, in the time saving state, by operating the shooting operation device 28 so that the game ball basically flows down the right side area PA3, the game round with the second holding information as the execution object is repeatedly executed, and the time saving state By operating the shooting operation device 28 so that the game ball flows down the left area PA2 so that the first reservation information becomes the execution target of the game round when the remaining number of continuations becomes one. It is possible to make the game round corresponding to the end in the time saving state be the game round for which the first suspension information is to be executed. Then, by starting the game round corresponding to the end with the first reservation information as the execution target, the game round corresponding to the end is executed over a long period of time (specifically 2 minutes) on the special figure side, While the game round corresponding to the end is being executed, the shooting operation device 28 is operated so that the game ball flows down the right side area PA3 so that the game round with the second hold information as the execution object is repeatedly executed. By doing so, it is possible to substantially increase the number of continuations of the time saving state.

Figure 69 is a flow chart showing the setting process for the time saving result executed in step S4211 during special figure determination process (Figure 67).

If the game result of the current game round is a time saving result (step S4401: YES), it is determined whether or not the high probability flag of the main RAM 84 is set to "1" (step S4402). And when "1" is set to the high probability flag (step S4402: YES), the setting process for this time saving result is complete|finished, without performing the process after step S4403. In other words, even if the time saving result (first time saving result or second time saving result) is selected in the game round correctness determination process executed in the high probability mode, the time saving result is triggered by the second high frequency The time saving result is invalidated without setting the support mode.

If the high probability flag is not set to "1" (step S4402: NO), it is determined whether or not the first high frequency flag of the main RAM 84 is set to "1" (step S4403). That is, it is determined whether or not the support mode is the first high-frequency support mode. If the support mode is not the first high-frequency support mode (step S4403: NO), the second high-frequency flag in the main RAM 84 is set to "1" (step S4404), and the support mode is the first high-frequency support mode. If there is (step S4403: YES), the process of step S4404 is not executed. Thereby, when the time saving result in the low probability mode and the first high frequency support mode is maintained, the low probability mode and the first high frequency support mode are maintained, and the time saving result in the low probability mode and the second high frequency support mode When it becomes, the low probability mode and the second high frequency support mode are maintained, and when the time saving result is obtained in the low probability mode and the low frequency support mode, it becomes the low probability mode and the second high frequency support mode.

When affirmative determination is made in step S4403 or when the process of step S4404 is performed, it is determined whether this time saving result is the 1st time saving result (step S4405). If this time saving result is the first time saving result (step S4405: YES), the value of the time saving state counter 134 of the main side RAM 84 determines whether it is "100" or more corresponding to the first time saving continuation number (Step S4406). When the value of the time saving state counter 134 is less than the value of the first time saving continuation number (step S4406: NO), the information "100" corresponding to the first time saving continuation number is set to the time saving state counter 134 (step S4407). .

After that, a state designation command transmission process is executed (step S4408). In the transmission process, a state designation command indicating that the time saving state has been started or that the first time saving continuation number has been reset is transmitted to the sound and light side MPU 93.

When the processing of step S4408 is executed after the processing of step S4407 is executed in a situation where the current game state is not the time saving state, the state designation command indicates that the time saving state of the first time saving continuation number is started. Contains information. When the sound and light side MPU 93 receives the state designation command, the pattern display device 41, the display light emitting unit 64 and the speaker unit 65 perform the effect indicating that the time saving state of the first time saving continuation number starts Execute the process to make In this case, in the symbol rows Z1 to Z3 in the symbol display device 41, the combination of the first time-saving generating symbols (“1, 2, 3”) is stopped and displayed. After these stop results are stopped and displayed, the symbol display device 41 displays an image indicating that the time saving state will occur and an image indicating the first number of times of continuing time saving. Since the timing at which the image is displayed is the timing at which the game round ends, a new game round can be started immediately. In this case, the area in which the symbol rows Z1 to Z3 are set on the display surface of the symbol display device 41 is reduced, and while the symbols corresponding to the new game rounds are displayed in the reduced area, by the reduction, The display of the image indicating that the time saving state occurs in the secured area and the image indicating the first time saving continuation number of times is continued. The display of the image ends when one round of the game ends, and when the display of the image ends, the area in which the symbol rows Z1 to Z3 are set returns to its original size.

When the processing of step S4408 is executed after the processing of step S4407 is executed in the situation where the current game state is the time saving state, it indicates that the reset of the first time saving continuation number has been performed in the state designation command Contains information. When the sound and light side MPU 93 receives the state designation command, the design display device 41, the display light emitting unit 64 and the speaker unit 65 perform the effect indicating that the first time saving continuous number of times has been reset. Execute the process to make In this case, in the symbol columns Z1 to Z3 in the symbol display device 41, a combination of symbols corresponding to the jackpot result, a combination of the first time-saving patterns (“1, 2, 3”), and a combination of the second time-saving patterns (“3 4.1”) and a combination of non-reach-out symbols, which is a combination of symbols other than the combination of out-reach-out symbols, is stopped and displayed. Then, after the stop result is stopped and the confirmation display over the final stop period is completed, an image showing that the number of continuous time-savings in the time-saving state has been reset and an image showing the first number of continuous time-savings are displayed. Is displayed. Since the timing at which the image is displayed is the timing at which the game round ends, a new game round can be started immediately. In this case, the area in which the symbol rows Z1 to Z3 are set on the display surface of the symbol display device 41 is reduced, and while the symbols corresponding to the new game rounds are displayed in the reduced area, by the reduction, In the secured area, the display of the image indicating that the number of times of continuous time saving in the time saving state has been reset and the image indicating the reset first number of continuous time saving is continued. The display of the image ends when one round of the game ends, and when the display of the image ends, the area in which the symbol rows Z1 to Z3 are set returns to its original size.

If this time saving result is the second time saving result (step S4405: NO), regardless of the current value of the time saving state counter 134, the time saving state counter 134 corresponding to the second time saving continuation number of times "150" information set (step S4409). After that, transmission processing of the state designation command is executed (step S4410). In the transmission process, a state specifying command indicating that the time saving state has been started or that the second time saving continuation number has been reset is transmitted to the sound and light side MPU 93.

When the process of step S4410 is executed after the process of step S4409 is executed in a situation where the current game state is not the time saving state, the state designation command indicates that the time saving state of the second time saving continuation number is started. Contains information. When the sound and light side MPU 93 receives the state designation command, the pattern display device 41, the display light emitting unit 64 and the speaker unit 65 perform an effect indicating that the time saving state of the second time saving continuation number starts Execute the process to make In this case, in the symbol rows Z1 to Z3 in the symbol display device 41, the combination of the second time-saving generating symbols (“3, 4, 1”) is stop-displayed. After these stop results are stopped and displayed, the pattern display device 41 displays an image indicating that the time saving state will occur and an image indicating the second time saving continuation number of times. Since the timing at which the image is displayed is the timing at which the game round ends, a new game round can be started immediately. In this case, the area in which the symbol rows Z1 to Z3 are set on the display surface of the symbol display device 41 is reduced, and while the symbols corresponding to the new game rounds are displayed in the reduced area, by the reduction, The image indicating that the time saving state occurs in the secured area and the image indicating the second time saving continuation number of times are continued to be displayed. The display of the image ends when one round of the game ends, and when the display of the image ends, the area in which the symbol rows Z1 to Z3 are set returns to its original size.

When the process of step S4410 is executed after the process of step S4409 is executed in the situation where the current game state is the time saving state, it indicates that the second time saving continuation number of times has been reset to the state designation command. Contains information. When the sound and light side MPU 93 receives the state designation command, the pattern display device 41, the display light emitting unit 64 and the speaker unit 65 perform the effect indicating that the second time saving continuation number of times has been reset. Execute the process to make In this case, in the symbol columns Z1 to Z3 in the symbol display device 41, a combination of symbols corresponding to the jackpot result, a combination of the first time-saving patterns (“1, 2, 3”), and a combination of the second time-saving patterns (“3 4.1”) and a combination of non-reach-out symbols, which is a combination of symbols other than the combination of out-reach-out symbols, is stopped and displayed. Then, after the stop result is stopped and the confirmation display over the final stop period is completed, an image showing that the number of continuous time reductions in the time reduction state has been reset and an image showing the second number of continuous time reductions are displayed. Is displayed. Since the timing at which the image is displayed is the timing at which the game round ends, a new game round can be started immediately. In this case, the area in which the symbol rows Z1 to Z3 are set on the display surface of the symbol display device 41 is reduced, and while the symbols corresponding to the new game rounds are displayed in the reduced area, by the reduction, In the secured area, the display of the image indicating that the number of times of continuous time saving in the time saving state has been reset and the image indicating the second number of times of continuing time saving that has been reset is continued. The display of the image ends when one round of the game ends, and when the display of the image ends, the area in which the symbol rows Z1 to Z3 are set returns to its original size.

When the process of step S4408 or the process of step S4410 is performed, each of the 1st time saving end flag and the 2nd time saving end flag provided in main side RAM84 is cleared by "0" (step S4411). As a result, the second hold information is executed while the game round corresponding to the end in the time saving state is being executed for a long period of time (specifically 2 minutes) on the special figure side with the first hold information as the execution target When a time saving result occurs in the game round, the remaining number of continuations of the time saving state is extended. Therefore, it is possible to increase the advantage of executing the game round corresponding to the end in the time saving state with the first suspension information as the execution target.

By being the said structure, when the time saving result occurs in low probability mode and low frequency support mode, it transfers to the time saving state of the time saving continuation frequency corresponding to the kind of the time saving result concerned. Thereby, based on the result of the propriety determination process in low probability mode and low frequency support mode, it becomes possible to produce the situation which a transition to a time saving state generate|occur|produces, without opening-closing execution mode.

When the first time saving result occurs in the low probability mode and the first high frequency support mode, the value of the time saving state counter 134 is reset to 100 times, which is the first time saving continuation number Low probability mode and first high Frequency support mode continues. Also, when the second time saving result occurs in the low probability mode and the first high frequency support mode, the value of the time saving state counter 134 is set to 150 times, which is the second time saving continuation number Low probability mode and the first High frequency support mode continues. Thereby, when the time saving result occurs in the first high-frequency support mode, while continuing the first high-frequency support mode in which the second operation port 34 is more likely to be in an open state than the second high-frequency support mode, until then A situation occurs in which the number of remaining continuations of the time saving state increases. Therefore, it is possible to increase the advantage of the time saving result occurring in the time saving state.

If the value of the time saving state counter 134 is 100 times or more, which is the first time saving continuation number when the first time saving result occurs in the low probability mode and the second high frequency support mode, by the occurrence of this first time saving result The low-probability mode and the second high-frequency support mode continue without any new setting relating to the time-saving state. Also, if the value of the time saving state counter 134 is less than 100 times, which is the first time saving continuation number when the first time saving result occurs in the low probability mode and the second high frequency support mode, the value of the time saving state counter 134 The low-probability mode and the second high-frequency support mode continue in a state of being set to 100 times, which is the first time-saving continuation number. Also, when the second time saving result occurs in the low probability mode and the second high frequency support mode, the value of the time saving state counter 134 is set to 150 times, which is the second time saving continuation number Low probability mode and the second High frequency support mode continues. As a result, when a time saving result occurs in the second high-frequency support mode, a situation can occur in which the number of times the remaining time-saving state continues increases more than before while continuing the second high-frequency support mode. . Therefore, it is possible to increase the advantage of the time saving result occurring in the time saving state.

If a time-saving result occurs in the time-saving state, the larger number of the remaining number of times of the current time-saving state and the number of times of time-saving continuation that can be set by the newly generated time-saving result number of continuations. This makes it possible to increase the advantage of the time saving result occurring in the time saving state.

FIG. 70 is a flow chart showing the subtraction process of the ceiling counter 131 executed in step S4213 of the special figure determination process (FIG. 67).

First, it is determined whether or not the high probability flag of the main RAM 84 is set to "1" (step S4501). Then, if the high probability flag is set to "1" (step S4501: YES), the subtraction process of the main ceiling counter 131 is terminated without executing the processes after step S4502. In other words, the value of the ceiling counter 131 is not decremented in the game cycle executed in the high probability mode, and the ceiling counter 131 value is not decremented, thereby causing a ceiling time reduction. Nor.

If the high probability flag is not set to "1" (step S4501: NO), it is determined whether the value of the ceiling counter 131 is 1 or more (step S4502). If the value of the ceiling counter 131 is "0" (step S4502: NO), the subtraction process of the ceiling counter 131 is terminated without executing the processes after step S4503. As in the first embodiment, the process of setting information in the ceiling counter 131 is performed in a state where none of the "RAM clear operation", "setting change operation" and "setting confirmation operation" are executed and the gaming machine main body 12 is in an open state, step S114 when the supply of operating power is started, step S122 when an information error occurs in the main side RAM 84 when the supply of operating power is started, and opening/closing execution This is only step S4208 when the mode is started, and after the value of the ceiling counter 131 becomes "0", the value of the ceiling counter 131 is maintained at "0" unless any of the above processes are executed. . On the other hand, the ceiling time reduction occurs when the value of the ceiling counter 131 is decremented by 1 in a situation where the value of the ceiling counter 131 is 1 or more, and the value of the ceiling counter 131 becomes "0". In this case, if the value of the ceiling counter 131 is "0" as described above (step S4502: NO), the subtraction process of the ceiling counter 131 is terminated without executing the processes after step S4503. As a result, the value of the ceiling counter 131 after subtracting 1 becomes "0", and a time saving state triggered by the ceiling time saving occurs, and the game times of the number of time saving continuations are digested without a big hit result occurring in the time saving state. When the time saving state ends and the normal game state is entered, the time saving state triggered by the ceiling time saving does not occur even if the game rounds in which no big winning results occur are repeated thereafter. Therefore, it is possible to prevent excessive occurrence of the time-saving state triggered by the ceiling time-saving.

If the value of the ceiling counter 131 is 1 or more (step S4502: YES), 1 is subtracted from the value of the ceiling counter 131 (step S4503), and whether or not the value of the ceiling counter 131 after the subtraction of 1 is "0". (step S4504). When the value of the ceiling counter 131 is "0" (step S4504: YES), regardless of whether the second high frequency flag of the main RAM 84 is set to "1", the second high frequency flag is set to " 1” is set (step S4505). As a result, when the ceiling time is shortened in the low probability mode and the second high frequency support mode, the low probability mode and the second high frequency support mode are maintained, and the ceiling time is shortened in the low probability mode and the low frequency support mode. In this case, the low-probability mode and the second high-frequency support mode are selected. In addition, the low probability mode and the first high frequency support mode occur after the opening and closing execution mode triggered by the 5R low probability result is completed, and when the game times of 100 times, which is the first time saving continuous number, are digested Since the first high-frequency support mode ends, the ceiling time reduction that occurs when 500 games, which is the fixed ceiling number of times, is completed in the low probability mode after the opening and closing execution mode ends is the first high-frequency support mode. does not occur in the situation where

Thereafter, it is determined whether or not the value of the time saving state counter 134 of the main side RAM 84 is equal to or greater than "100" corresponding to the first time saving continuation number (step S4506). When the value of the time saving state counter 134 is less than the value of the first time saving continuation number (step S4506: NO), the information "100" corresponding to the first time saving continuation number is set to the time saving state counter 134 (step S4507). .

After that, a state designation command transmission process is executed (step S4508). In the transmission process, a state designation command indicating that the time saving state has been started or that the first time saving continuation number has been reset is transmitted to the sound and light side MPU 93.

When the processing of step S4508 is executed after the processing of step S4507 is executed in a situation where the current game state is not the time saving state, the state designation command indicates that the time saving state of the first time saving continuation number is started. Contains information. When the sound and light side MPU 93 receives the state designation command, the pattern display device 41, the display light emitting unit 64 and the speaker unit 65 perform the effect indicating that the time saving state of the first time saving continuation number starts Execute the process to make Since the time-saving state triggered by the ceiling time-saving occurs in a game cycle in which neither the jackpot result nor the time-saving result occurs, the pattern columns Z1 to Z3 in the pattern display device 41 are a combination of symbols corresponding to the jackpot result, the first time-saving. A combination of outlier patterns that is a combination of patterns other than the combination of generated patterns (“1, 2, 3”) and the combination of second time-saving patterns (“3, 4, 1”) (including the combination of outlier reach patterns) appears stopped. Then, after the stop result is stopped and the confirmation display over the final stop period is completed, an image showing that the time saving state triggered by the ceiling time saving occurs and an image showing the first number of continuous time saving are displayed. . Since the timing at which the image is displayed is the timing at which the game round ends, a new game round can be started immediately. In this case, the area in which the symbol rows Z1 to Z3 are set on the display surface of the symbol display device 41 is reduced, and while the symbols corresponding to the new game rounds are displayed in the reduced area, by the reduction, The display of the image indicating that the time saving state triggered by the ceiling time saving occurs and the image indicating the first time saving continuation number of times is continued in the secured area. The display of the image ends when one round of the game ends, and when the display of the image ends, the area in which the symbol rows Z1 to Z3 are set returns to its original size.

When the process of step S4508 is executed after the process of step S4507 is executed in the situation where the current game state is the time saving state, it indicates that the first time saving continuation number of times has been reset to the state designation command. Contains information. When the sound and light side MPU 93 receives the state designation command, the design display device 41, the display light emitting unit 64 and the speaker unit 65 perform the effect indicating that the first time saving continuous number of times has been reset. Execute the process to make Since the reset of the first time-saving continuous number triggered by the ceiling time-saving occurs in a game cycle in which neither the jackpot result nor the time-saving result occurs, the pattern rows Z1 to Z3 in the pattern display device 41 are the patterns corresponding to the jackpot results. A combination of symbols other than the combination of the first time-saving pattern (“1/2/3”) and the combination of the second time-saving pattern (“3/4/1”). (including combinations of symbols) are stopped and displayed. Then, after the stop result is stopped and the confirmation display over the final stop period is completed, an image indicating that the time saving state triggered by the ceiling time saving occurs and that the first time saving continuation number has been reset The image shown is displayed. Since the timing at which the image is displayed is the timing at which the game round ends, a new game round can be started immediately. In this case, the area in which the symbol rows Z1 to Z3 are set on the display surface of the symbol display device 41 is reduced, and while the symbols corresponding to the new game rounds are displayed in the reduced area, by the reduction, The display of the image indicating that the time saving state triggered by the ceiling time saving occurs in the secured area and the image indicating that the first time saving continuation number has been reset is continued. The display of the image ends when one round of the game ends, and when the display of the image ends, the area in which the symbol rows Z1 to Z3 are set returns to its original size.

When the affirmative determination is made in step S4506 or when the process of step S4508 is executed, the first time saving end flag and the second time saving end flag provided in the main RAM 84 are cleared to "0" (step S4509). As a result, the second hold information is executed while the game round corresponding to the end in the time saving state is being executed for a long period of time (specifically 2 minutes) on the special figure side with the first hold information as the execution target When a time saving result occurs in the game round, the remaining number of continuations of the time saving state is extended. Therefore, it is possible to increase the advantage of executing the game round corresponding to the end in the time saving state with the first suspension information as the execution target.

Here, in the processing during special figure determination (FIG. 67), the subtraction processing of the ceiling counter 131 (FIG. 70) is executed after the setting processing for the time saving result (FIG. 69) is executed, and the subtraction of the ceiling counter 131 In the process (FIG. 70), even if the value of the ceiling counter 131 after subtracting 1 is "0", if the value of the time saving state counter 134 is "100" or more, the processing of steps S4507 and S4508 is not executed. By doing so, it is possible not to reset the number of continuations of the first time saving triggered by the ceiling time saving in the game times with the first time saving result or the second time saving result. As a result, resetting of the number of continuations of time saving triggered by the result of time saving and resetting of the number of continuations of time saving triggered by the ceiling time saving can be prevented from being performed redundantly. In particular, if the second time saving continuation number triggered by the second time saving result is reset and then the first time saving continuation number triggered by the ceiling time saving is reset, the time saving continuation number will decrease. By adopting the above configuration, it is possible to prevent such inconvenience from occurring.

By being the said structure, when ceiling time saving occurs in low probability mode and low frequency support mode, it transfers to the time saving state of 1st time saving continuation frequency. As a result, it is possible to create a situation in which the transition to the time saving state occurs without going through the opening and closing execution mode based on the completion of the ceiling number of games in the low probability mode and the low frequency support mode.

When the ceiling time saving occurs in the low probability mode and the second high frequency support mode, if the value of the time saving state counter 134 is 100 times or more, which is the first time saving continuation number, the new time saving state due to the occurrence of this ceiling time saving The low-probability mode and the second high-frequency support mode continue without any setting. Also, if the value of the time saving state counter 134 is less than 100 times, which is the first time saving continuation number when the ceiling time saving occurs in the low probability mode and the second high frequency support mode, the value of the time saving state counter 134 is the first The low-probability mode and the first high-frequency support mode continue in a state of being set to 100 times, which is the number of time-saving continuations. In other words, if the ceiling time saving occurs in the time saving state, the remaining number of times of the current time saving state and the number of time saving continuations that can be set due to the newly occurring ceiling time saving, whichever is greater Remaining number of continuations. As a result, if the ceiling time saving occurs in the second high-frequency support mode, a situation can occur in which the number of remaining time saving states continues to increase, so it is possible that the ceiling time saving will occur in the time saving state. It is possible to increase the advantage.

Next, the left-handed informing process executed by the sound/light side MPU 93 will be described with reference to the flowchart of FIG. The left-handed informing process is repeatedly executed in a relatively short period (for example, 4 milliseconds).

If it is not the high probability mode (step S4601: NO) but the high frequency support mode (first high frequency support mode or second high frequency support mode) (step S4602: YES), the current high frequency support mode is started. It is determined whether or not the number of games executed since then is the notification reference number (step S4603). The notification reference number of times is when the remaining number of continuations of the high-frequency support mode (that is, the time saving state) is 5 times. This five times is set as the number of times of a value obtained by adding 1 to the upper limit number of reservations of the second reservation information in the second special figure reservation area 112 .

In step S4603, left-handed notification processing is executed (step S4604). In the left-handed notification process, a process for displaying a left-handed notification image on the symbol display device 41 is executed. As a left-handed notification image, an image that enables the player to recognize that the game ball should be shot aiming at the left area PA2 so that the execution target of the game round five times after the current state is the first reservation information. is displayed. As a result, it is possible to prompt the player to perform the shooting operation so that the game cycle corresponding to the end in the time saving state is executed with the first suspension information as the execution target.

Next, how the game cycle corresponding to the end in the time saving state is executed with the first suspension information as the execution target will be described with reference to the time chart of FIG. 72 . FIG. 72(a) shows a period of time saving state, FIG. 72(b) shows a period during which the game round for execution of the first reservation information is executed, and FIG. 72(c) shows the second reservation information 72(d) shows a period during which the first time-saving end flag of the main RAM 84 is set to "1", and FIG. 72(e) shows The timing of occurrence of the time saving result is shown, and FIG. 72(f) shows the timing of occurrence of the ceiling time saving.

First, the case where the game round corresponding to the end in the time saving state is executed with the first suspension information as the execution object and neither the time saving result nor the ceiling time saving occurs during the game round corresponding to the end will be described.

As shown in FIG. 72(a), at the timing of t1, which is the time-saving state, as shown in FIG. 72(b), a game round for execution of the first hold information is started. The variable display period of the game round is 2 minutes, which is the long period on the special figure side. Since the game round is started in a situation where the remaining number of continuations of the time saving state is one time, it is a game round corresponding to the end of the time saving state, and as shown in FIG. 72 (d) at the timing of t1 "1" is set to the 1st time saving end flag of main side RAM84. After that, as shown in FIG. 72(b), timing t2, timing t3, timing t4, timing t5, and timing t6, which are situations in which the game round corresponding to the end with the first suspension information as the execution object is being executed. At each of a plurality of timings including the timing of , as shown in FIG. In this case, each of the plurality of timings including the timing of t2 to the timing of t6 is in a short time state as shown in FIG. In the game cycle started with , the variable display period of the game cycle is determined by referring to the table group for short-term variation. Each of these game times is started in a situation where two or more pieces of second reservation information are stored in the second special figure reservation area 112, and neither the jackpot result nor the outreach reach display occurs, so the game times The variable display period is the shortest period on the special figure side (specifically 3 seconds).

After that, as shown in FIG. 72(b), at the timing of t7, the end-corresponding game round whose execution target is the first hold information ends. In this case, since "1" is set to the first time saving end flag of the main side RAM84 as shown in FIG. 72(d), the support mode becomes the low frequency support mode, and as shown in FIG. State ends.

As described above, the game round for which the first hold information is to be executed is executed as the game round corresponding to the end in the time saving state, and in the game round corresponding to the end, the variable display period of the game round is a long period on the special figure side (specifically is 2 minutes). Then, in the game rounds corresponding to the end, about 30 game rounds triggered by the second hold information, which is the variable display period of the shortest period, occur. As a result, in the current time saving state, the number of game rounds that are about 30 times higher than the number of times of continuation set as the number of continuations of the first time saving continuation number and the second time saving continuation number of times is executed.

Next, the case where the game round corresponding to the end in the time saving state is executed with the first suspension information as the execution target and the time saving result occurs in the middle of the game round corresponding to the end will be described.

As shown in FIG. 72(a), at the timing of t8, which is the time-saving state, as shown in FIG. 72(b), a game round for execution of the first hold information is started. The variable display period of the game round is 2 minutes, which is the long period on the special figure side. Since the game round is started in a situation where the remaining number of continuations of the time saving state is one time, it is a game round corresponding to the end of the time saving state, and as shown in FIG. 72 (d) at the timing of t8 "1" is set to the 1st time saving end flag of main side RAM84.

After that, as shown in FIG. 72(b), the timing of t9, the timing of t10, the timing of t11, the timing of t13, and the timing of t14 are the situations in which the game round corresponding to the end with the first suspension information as the execution object is being executed. At each of a plurality of timings including the timing of , as shown in FIG. In this case, at each of a plurality of timings including the timing of t9, the timing of t10, the timing of t11, the timing of t13, and the timing of t14, as shown in FIG. A variable display period of a game cycle is determined by referring to a group of tables for short-term variation for each of a plurality of timings including timing, timing t10, timing t11, timing t13, and timing t14. be done. Each of these game times is started in a situation where two or more pieces of second reservation information are stored in the second special figure reservation area 112, and neither the jackpot result nor the outreach reach display occurs, so the game times The variable display period is the shortest period on the special figure side (specifically 3 seconds).

Among a plurality of game rounds including timing t9, timing t10, timing t11, timing t13 and timing t14, the game round at timing t11 is determined as shown in FIG. 72(e). The result of processing is a time-saving result. Therefore, at the timing of t12 when the game round ends, the first time saving end flag of the main side RAM84 is cleared to "0" as shown in FIG. The first time saving continuation frequency is reset in , and if it is the second time saving result, the second time saving continuation frequency is reset in the time saving state counter 134 . Therefore, it will be in the state by which the time saving state was extended.

After that, at the timing of t14, as shown in FIG. 72(b), the end-corresponding game cycle whose execution target is the first hold information ends. However, since the time saving state is extended while the first time saving end flag is cleared to "0" at the timing of t12, the time saving state does not end at the time of t14.

As described above, the game round for which the first hold information is to be executed is executed as the game round corresponding to the end in the time saving state, and in the game round corresponding to the end, the variable display period of the game round is a long period on the special figure side (specifically is 2 minutes). And the time-saving state is extended by the fact that the time-saving result occurs in the game-time for which the second pending information executed in the game-time corresponding to the end is executed. By executing the game round for which the first suspension information is to be executed as the game round corresponding to the end in the time saving state, it is possible to provide the benefit of extension of the time saving state.

Next, a case will be described in which the game round corresponding to the end in the time saving state is executed with the first suspension information as the execution target and the ceiling time saving occurs in the middle of the game round corresponding to the end.

As shown in FIG. 72(a), at the timing of t15, which is the time-saving state, as shown in FIG. 72(b), a game round for execution of the first hold information is started. The variable display period of the game round is 2 minutes, which is the long period on the special figure side. Since the game round is started in a situation where the remaining number of continuations of the time saving state is one time, it is a game round corresponding to the end of the time saving state, and at the timing of t15, as shown in FIG. "1" is set to the 1st time saving end flag of main side RAM84.

After that, as shown in FIG. 72(b), timing t16, timing t17, timing t18, timing t19, and timing t21, which are situations in which the game round corresponding to the end with the first suspension information as the execution target is being executed. At each of a plurality of timings including the timing of , as shown in FIG. In this case, at each of a plurality of timings including the timing of t16, the timing of t17, the timing of t18, the timing of t19 and the timing of t21, as shown in FIG. A variable display period of a game cycle is determined by referring to a group of tables for short-term variation for each of a plurality of timings including timing, timing t17, timing t18, timing t19, and timing t21. be done. Each of these game times is started in a situation where two or more pieces of second reservation information are stored in the second special figure reservation area 112, and neither the jackpot result nor the outreach reach display occurs, so the game times The variable display period is the shortest period on the special figure side (specifically 3 seconds).

1 is subtracted at timing t20, which is the timing at which the game round at timing t19 ends among a plurality of game rounds including timing t16, timing t17, timing t18, timing t19, and timing t21. The value of the ceiling counter 131 later becomes "0", and ceiling time saving occurs as shown in FIG. 72(f). As shown in FIG. 72(d) at the timing of t20, the first time saving end flag of the main side RAM 84 is cleared to "0", and the first time saving continuation number is reset to the time saving state counter 134. Therefore, it will be in the state by which the time saving state was extended.

Thereafter, at the timing of t21, as shown in FIG. 72(b), the end-corresponding game round whose execution target is the first hold information ends. However, since the time saving state is extended while the first time saving end flag is cleared to "0" at the timing of t20, the time saving state does not end at the time of t21.

As described above, the game round for which the first hold information is to be executed is executed as the game round corresponding to the end in the time saving state, and in the game round corresponding to the end, the variable display period of the game round is a long period on the special figure side (specifically is 2 minutes). Then, the second suspension information executed in the game round corresponding to the end is triggered by the game round to be executed, and the time saving state is extended by the occurrence of the ceiling time saving. By executing the game round for which the first suspension information is to be executed as the game round corresponding to the end in the time saving state, it is possible to provide the benefit of extension of the time saving state.

<Eleventh Embodiment>
This embodiment differs from the tenth embodiment in the processing configuration of the variable display period specifying process executed by the main MPU 82 . The configuration different from that of the tenth embodiment will be described below. The description of the same configuration as that of the tenth embodiment is basically omitted.

FIG. 73 is a flow chart showing processing for specifying a variable display period according to the present embodiment, which is executed by the main MPU 82. As shown in FIG.

If both the first high frequency flag and the second high frequency flag of the main RAM 84 are not set to "1" (step S4701: NO), that is, if the support mode is the low frequency support mode, steps S4702 to step The process of S4706 is executed. These steps S4702 to S4706 are the same as steps S4102 to S4106 in the variable display period specifying process (FIG. 66) in the tenth embodiment. That is, in the low-frequency support mode, if the first hold information is to start a game round, the variable display period for the game round is selected by referring to the table group for the normal variable period. If the second hold information is to start the game round, the longest period (specifically 10 minutes) on the special figure side is selected as the variable display period of the game round regardless of the game result of the game round. The longest period on the special figure side is longer than any variable display period selected with reference to the table group for the normal variable period. Therefore, in the low frequency support mode, the player operates the shooting operation device 28 so that the game ball flows down the left side area PA2 to play the game.

If "1" is set to either the first high-frequency flag or the second high-frequency flag of the main RAM 84 (step S4701: YES), that is, the support mode is the first high-frequency support mode or the second high-frequency support mode. If it is the support mode, it is determined whether or not the start target of the current game round is the first hold information (step S4707). If the start target of the game round this time is the first suspension information (step S4707: YES), it is determined whether or not the first time saving end flag of the main RAM 84 is set to "1" (step S4708). That is, it is determined whether or not the game round for which the current first suspension information is to be executed is the game round corresponding to the end in the time saving state. If "1" is set to the first time saving end flag (step S4708: YES), the information on the shortest period (specifically 3 seconds) on the side of the special figure as the variable display period of this game round Set to the first special figure side timer counter of the main side RAM84 (step S4709), and when "1" is not set to the first time saving end flag (step S4708: NO), the fluctuation display of this game round Information of a long period (specifically 2 minutes) on the special figure side as a period is set to the first special figure side timer counter of the main side RAM 84 (step S4710).

In the case of the first high-frequency support mode or the second high-frequency support mode (step S4701: YES), if the start target of the current game cycle is the second hold information (step S4707: NO), step S4711 to execute the processing of step S4713. These steps S4711 to S4713 are the same as steps S4109 to S4111 in the variable display period specifying process (FIG. 66) in the tenth embodiment.

As described above, when the game round triggered by the first suspension information in the time saving state is executed as a game round other than the game round corresponding to the end, the variable display period of the game round triggered by the first suspension information Special figure A long period of time (specifically 2 minutes) on the side is selected. As a result, it is possible to reduce the efficiency of digestion of game rounds triggered by the first suspension information in the time saving state. On the other hand, when the game round triggered by the first hold information is started as the game round corresponding to the end in the time saving state, the shortest period on the special figure side as the variable display period of the game round triggered by the first hold information (Specifically, 3 seconds) is selected. The shortest period on the side of this special figure is a period selected as a variable display period of a game round in which the reach display does not occur, which is a game round triggered by the second hold information in the time saving state. As a result, when the game round triggered by the first hold information becomes the game round corresponding to the end in the time saving state, the game triggered by the second hold information in the situation where the game round corresponding to the end is being executed It is possible to prevent a cycle from being repeatedly executed.

In addition, if the game round corresponding to the end in the time saving state becomes the game round triggered by the first reservation information, if the big hit result occurs in the game round, the shortest on the special figure side as the duration of the game round A configuration may be adopted in which a period longer than the period is selected. For example, it may be configured to select the middle period (specifically 10 seconds) of the special figure side, or may be configured to select the long term (specifically 2 minutes) of the special figure side. Also, using the table for big hits included in the table group for short-term fluctuation read in step S4711 and the value of the fluctuation type counter CS at that time, the fluctuation display period corresponding to the occurrence of the ready-to-win display is determined by lottery. The configuration may be determined. As a result, even when the game round corresponding to the end in the time saving state becomes the game round triggered by the first holding information, it is possible to secure a certain amount of time until the big winning result occurs.

<Twelfth Embodiment>
This embodiment differs from the tenth embodiment in the processing configuration of the variable display period specifying process executed by the main MPU 82 . The configuration different from that of the tenth embodiment will be described below. The description of the same configuration as that of the tenth embodiment is basically omitted.

FIG. 74 is a flow chart showing processing for specifying a variable display period according to the present embodiment, which is executed by the main MPU 82. As shown in FIG.

If both the first high frequency flag and the second high frequency flag of the main RAM 84 are not set to "1" (step S4801: NO), that is, if the support mode is the low frequency support mode, steps S4802 to step The processing of S4806 is executed. These steps S4802 to S4806 are the same as steps S4102 to S4106 in the variable display period specifying process (FIG. 66) in the tenth embodiment. That is, in the low-frequency support mode, if the first hold information is to start a game round, the variable display period for the game round is selected by referring to the table group for the normal variable period. If the second hold information is to start the game round, the longest period (specifically 10 minutes) on the special figure side is selected as the variable display period of the game round regardless of the game result of the game round. The longest period on the special figure side is longer than any variable display period selected with reference to the table group for the normal variable period. Therefore, in the low frequency support mode, the player operates the shooting operation device 28 so that the game ball flows down the left side area PA2 to play the game.

If either the first high-frequency flag or the second high-frequency flag of the main RAM 84 is set to "1" (step S4801: YES), that is, the support mode is the first high-frequency support mode or the second high-frequency support mode. If it is the support mode, it is determined whether or not the start target of the current game round is the first hold information (step S4807). If the start target of the game round this time is the first reservation information (step S4807: YES), it is determined whether or not the first time saving end flag of the main side RAM84 is set to "1" (step S4808). That is, it is determined whether or not the game round for which the current first suspension information is to be executed is the game round corresponding to the end in the time saving state.

When "1" is set to the 1st time saving end flag (step S4808: YES), the table group for the end timing is read from main side ROM83 to main side RAM84 (step S4809). Then, the variable display period selection process is executed using the table group for the end timing (step S4810), and the information of the variable display period selected in the selection process is stored in the first special figure side timer of the main side RAM84. A counter is set (step S4811).

In the situation where the variable display period selection process in step S4810 is executed with reference to the end timing table group, if a big hit result or a time saving result occurs in this game round, the shortest period on the special figure side (specifically Typically 3 seconds) information is read. Even in the present embodiment, the sound and light side MPU 93, like the tenth embodiment, in the first high-frequency support mode or the second high-frequency support mode, the second hold information is the target for starting the game round. When a variation command and a type command indicating that the symbol display device 41 receives a variation command and a type command, the symbol rows Z1 to Z3 of the symbol display device 41 are started to be variably displayed, and an effect corresponding to the variably displayed symbols is displayed by the display light emitting unit 64 and the While the speaker unit 65 is made to perform, even if the variation command and the type command indicating that the first suspension information is the object to start the game round are received, the symbols in the symbol rows Z1 to Z3 of the symbol display device 41 are changed. The variable display and the corresponding effects in the display light emitting unit 64 and the speaker unit 65 are not executed. In addition, in the first high-frequency support mode or the second high-frequency support mode, when a big hit result occurs in the game round triggered by the first suspension information, the pattern display device 41 is displayed at the timing when the game round ends. An effect is performed to notify the occurrence of the jackpot result, and in the first high-frequency support mode or the second high-frequency support mode, when the time saving result occurs in the game round triggered by the first hold information, the game round At the end timing, the design display device 41 performs an effect to notify the occurrence of the time saving result If both the big hit result and the time saving result do not occur in this game round, the numerical information of the fluctuation type counter CS at that time is ended Information on the variable display period corresponding to the end is read out by referring to the table corresponding to the end timing in the table group for timing. As the information of the variable display period corresponding to the end, 3 seconds which is the shortest period of the special figure side, 10 seconds which is the middle period of the special figure side, and 2 minutes which is the long period of the special figure side are set. In the table corresponding to the end timing, the shortest period of the special figure side is selected with a probability of 1/3, the middle period of the special figure side is selected with a probability of 1/3, and the length of the special figure side is selected with a probability of 1/3 A time period is set to be selected.

If "1" is not set to the first time saving end flag (step S4808: NO), the information on the special figure side for a long period of time (specifically 2 minutes) as the variable display period of this game round , Set to the first special figure side timer counter of the main side RAM 84 (step S4812).

If it is the first high-frequency support mode or the second high-frequency support mode (step S4801: YES), and if the start target of the game round this time is the second hold information (step S4807: NO), step S4813 to execute the processing of step S4815. These steps S4813 to S4815 are the same as steps S4109 to S4111 in the variable display period specifying process (FIG. 66) in the tenth embodiment.

As described above, when the game round triggered by the first suspension information in the time saving state is executed as a game round other than the game round corresponding to the end, the variable display period of the game round triggered by the first suspension information Special figure A long period of time (specifically 2 minutes) on the side is selected. As a result, it is possible to reduce the efficiency of digestion of game rounds triggered by the first suspension information in the time saving state. On the other hand, when the game round triggered by the first hold information is started as the game round corresponding to the end in the time saving state, the shortest period on the special figure side as the variable display period of the game round triggered by the first hold information (Specifically 3 seconds), the middle period of the special figure side (specifically 10 seconds) and the long period of the special figure side (specifically 2 minutes) are selected by lottery. When the shortest period on the special figure side is selected, it is unlikely that the game round triggered by the second pending information is repeatedly executed in the situation where the game round corresponding to the end triggered by the first pending information is being executed. When the middle period on the special figure side is selected, the game round triggered by the second hold information is executed a small number of times in a situation where the game round corresponding to the end triggered by the first hold information is executed. When the long period on the special figure side is selected, the game round triggered by the second hold information is repeated many times in the situation where the game round corresponding to the end triggered by the first hold information is executed. . As a result, when a game cycle corresponding to the end is executed with the first hold information as a trigger, the player expects that a longer variable display period will be selected, and it is possible to improve the interest of the game. Become.

<Thirteenth Embodiment>
In this embodiment, the processing configuration of the main MPU 82 is different from that in the first embodiment. The configuration that is different from the first embodiment will be described below. Note that the description of the same configuration as that of the first embodiment is basically omitted.

FIG. 75 is a front view of the main controller 71 in this embodiment.

As shown in FIG. 75, the main controller 71 has a main control board 81 housed in a board box 71a. A main side MPU 82 is mounted on the element mounting surface, which is one plate surface of the main control board 81 . The board box 71a is formed transparent so that the main side MPU 82 accommodated in the board box 71a can be visually observed from the outside of the board box 71a. Although the board box 71a is formed colorless and transparent, it may be formed colored and transparent as long as the main side MPU 82 accommodated in the board box 71a can be visually observed from the outside of the board box 71a. good. The main controller 71 is mounted on the rear surface of the resin base 21 in the board box 71a such that the facing wall portion 71b facing the element mounting surface of the main control board 81 faces the pachinko machine 10 rearward. Therefore, by opening the game machine main body 12 to the front of the pachinko machine 10 with respect to the outer frame 11 and exposing the back surface of the resin base 21, it becomes possible to see the opposing wall portion 71b of the board box 71a and The main MPU 82 can be seen through the opposing wall portion 71b.

The board box 71a is formed by assembling a plurality of case bodies 71c back and forth, and the plurality of case bodies 71c prevents the separation of the case bodies 71c and leaves traces of the case bodies 71c when the case bodies 71c are separated. A coupling portion 71d is provided for leaving the . A plurality of coupling portions 71d are arranged side by side on one side of the substantially rectangular parallelepiped board box 71a. As a result, even if the case body 71c is separated by destroying the part of the coupling portion 71d in a state where the separation of the case body 71c is prevented by using the part of the coupling portion 71d, another coupling is performed after that. By bringing the portion 71d into the coupled state, it becomes possible to prevent the separation of the case body 71c again. In addition, since the connecting portion 71d is destroyed and a trace remains when the case body 71c is separated, it is possible to visually check the connecting portion 71d to determine whether or not the case body 71c has been illegally separated. It becomes possible. In addition, a sealing seal 71e is attached to one side of the substrate box 71a opposite to the one side on which the connecting portions 71d are arranged so as to straddle the boundary between the case bodies 71c. When the sealing seal 71e is peeled off, the adhesive layer remains on the case body 71c. As a result, when the sealing seal 71e is peeled off when the case body 71c is separated, it is possible to leave a trace.

In the main control device 71 having the above configuration, the main control board 81 includes a setting key insertion portion 195, a reset button 196, first to fourth notification display devices 201 to 204, a setting display device 205, and an abnormality display device. 206 are provided. Incidentally, the setting state of the pachinko machine 10 is not limited to the six stages of "setting 1" to "setting 6", but is arbitrary.

The setting key insertion portion 195, the reset button 196, the first to fourth notification display devices 201 to 204, the setting display device 205 and the error display device 206 are all provided on the element mounting surface of the main control board 81. FIG. Further, the device mounting surface of the main control board 81 faces the opposing wall portion 71b of the board box 71a as already described, but the setting key insertion portion 195 and the reset button 196 are not covered by the opposing wall portion 71b. In other words, areas of the opposing wall portion 71b that face the setting key insertion portion 195 and the reset button 196 are individual openings. As a result, the setting key can be inserted into the setting key insertion portion 195 and the reset button 196 can be pressed without opening the board box 71a.

By inserting the setting key into the setting key insertion portion 195 and rotating it in a predetermined direction, the setting key insertion portion 195 is turned on. By starting the supply of operating power to the pachinko machine 10 while pressing the reset button 196 in this state (that is, by starting the supply of operating power to the main side MPU 82 of the main controller 71), the pachinko machine 10 can be changed. In this state, each time the reset button 196 is pressed once, the setting state of the pachinko machine 10 is changed step by step in the range of "setting 1" to "setting 6" in ascending order. When the reset button 196 is operated in the state of "setting 6", the state is updated to "setting 1". In addition, the setting key insertion portion 195 is turned off by rotating the setting key inserted in the setting key insertion portion 195 from the ON operation position in a direction opposite to the predetermined direction to return to the initial position. Become. When the setting key inserting portion 195 is turned off, the state in which the setting value can be changed ends, and the game can be played with the setting value at that time. It should be noted that even if the reset button 196 is operated after the state in which the setting value can be changed ends, the setting value cannot be changed.

The ON operation for the setting key inserting portion 195 is valid only when the supply of operating power to the pachinko machine 10 is started (that is, when the supply of operating power to the main side MPU 82 of the main controller 71 is started). Therefore, even if the setting key insertion portion 195a is turned ON after the main MPU 82 of the main controller 71 completes the operation power supply start process, the setting value cannot be changed.

The setting state of the pachinko machine 10 determines the advantage per unit time in the pachinko machine 10, and the larger the value of "setting n" (n is an integer from "1" to "6") (that is, setting The higher the value, the higher the advantage. There are a low-probability mode in which the probability of winning is relatively low and a high-probability mode in which the probability of winning is relatively high as a success/fail lottery mode for determining the probability of winning a jackpot result, and the higher the set value, the lower the probability. It is set so that the winning probability of the jackpot result is high in each of the mode and the high probability mode.

By starting the supply of operating power to the pachinko machine 10 in a state in which the setting key insertion part 195 is ON-operated and the reset button 196 is not pressed (that is, the operating power to the main side MPU 82 of the main controller 71 ), the setting value of the pachinko machine 10 can be confirmed. Further, when the setting key insertion portion 195 is turned off, the state in which the setting value can be confirmed ends.

By starting the supply of operating power to the pachinko machine 10 while pressing the reset button 196 without turning ON the setting key insertion part 195 (that is, supplying the operating power to the main side MPU 82 of the main controller 71 ), data in a predetermined area in the main RAM 84 is cleared. The ON operation for the reset button 196 is valid only when the supply of operating power to the pachinko machine 10 is started (that is, when the supply of operating power to the main side MPU 82 of the main controller 71 is started). Therefore, even if the reset button 196 is pressed after the main MPU 82 of the main controller 71 completes the operation power supply start process, the data in the main RAM 84 cannot be cleared.

Each of the first to fourth notification display devices 201 to 204 and the setting display device 205 is a segment display device in which eight LED display segments are arranged, but is not limited to this and is a liquid crystal display device. or an organic EL display. Each of the first to fourth information display devices 201 to 204 and the setting display device 205 is installed so that its display surface faces the direction of the element mounting surface of the main control board 81, and the board box 71a. It is covered with the opposing wall portion 71b. In this case, since the substrate box 71a is formed transparent, the display surfaces and setting displays of the first to fourth notification display devices 201 to 204 accommodated in the substrate box 71a can be viewed from the outside of the substrate box 71a. It becomes possible to view the display surface of the device 205 . In addition, the main control device 71 is mounted on the back surface of the resin base 21 in the board box 71a so that the facing wall portion 71b facing the element mounting surface of the main control board 81 faces the rear of the pachinko machine 10. When the main body 12 is opened to the front of the pachinko machine 10 with respect to the outer frame 11 and the back surface of the resin base 21 is exposed to the front of the pachinko machine 10, the first to fourth information display devices 201 are displayed through the opposing wall portion 71b. 204 and the display surface of the setting display device 205 can be visually observed.

The management results of the game history are displayed on the first to fourth notification display devices 201 to 204. FIG. In addition, in the setting display device 205, under the condition that the setting value updating process for changing the setting value is being executed, the setting value to be selected is displayed, and the setting confirmation screen for confirming the setting value is displayed. The set value to be set is displayed while the process is being executed. That is, when the setting value of the selection object or the setting object is "setting 1", "1" is displayed on the setting display device 205, and the setting value of the selection object or the setting object is "setting 2". , "2" is displayed on the setting display device 205; , when the setting value of the selection object or the setting object is "setting 4", "4" is displayed on the setting display device 205, and the setting value of the selection object or the setting object is "setting 5". If there is, "5" is displayed on the setting display device 205, and "6" is displayed on the setting display device 205 when the setting value of the selection object or the setting object is "setting 6". . It should be noted that the setting display device 205 is kept turned off when neither the setting value updating process nor the setting confirmation process is being executed.

First to fourth information display devices 201 to 204 for displaying game history management results and a setting display device 205 for displaying set values are arranged side by side on the element mounting surface of the main control board 81. . As described above, the main controller 71 is mounted on the back surface of the resin base 21 in the board box 71a so that the facing wall portion 71b facing the element mounting surface of the main control board 81 faces the rear of the pachinko machine 10. , When the game machine main body 12 is opened to the front of the pachinko machine 10 with respect to the outer frame 11 and the back surface of the resin base 21 is exposed to the front of the pachinko machine 10, the first to fourth information through the opposing wall portion 71b. The display surfaces of the display devices 201 to 204 and the display surface of the setting display device 205 can be visually observed. Since a setting key inserting portion 195 and a reset button 196 are provided on the element mounting surface of the main control board 81, the game machine main body 12 is placed against the outer frame 11 when executing the setting value updating process or the setting confirmation process. The back surface of the resin base 21 is exposed to the front of the pachinko machine 10 by opening the pachinko machine 10 forward. By being provided on the mounting surface, not only the setting values to be selected or set on the setting display device 205 but also the game history management results on the first to fourth notification display devices 201 to 204 can be displayed. Visual observation becomes possible.

The abnormality display device 206 is provided with a monochromatic LED. The error display device 206 is installed so that its light emitting surface faces the direction in which the device mounting surface of the main control board 81 faces, and is covered with the facing wall portion 71b of the board box 71a. In this case, since the substrate box 71a is formed transparent, the abnormality display device 206 accommodated in the substrate box 71a can be visually observed from the outside of the substrate box 71a. In addition, the main control device 71 is mounted on the back surface of the resin base 21 in the board box 71a so that the facing wall portion 71b facing the element mounting surface of the main control board 81 faces the rear of the pachinko machine 10. When the main body 12 is opened to the front of the pachinko machine 10 with respect to the outer frame 11 and the rear surface of the resin base 21 is exposed to the front of the pachinko machine 10, the abnormality display device 206 can be seen through the opposing wall portion 71b. becomes. When a predetermined abnormality occurs, the abnormality display device 206 changes from the off state to the on state, and the on state continues until the supply of operating power to the main side MPU 82 is stopped.

<Specific control and non-specific control>
Next, the execution contents of various controls in the main MPU 82 will be described.

Various controls executed using programs in the main MPU 82 are classified into specific control and non-specific control. Specifically, control related to game history management and fraud monitoring is defined as non-specific control, and control other than non-specific control, including control for progressing a game based on game operations by a player, is defined as specific control. ing. Specifically, the control by the main process (FIG. 81) executed when the supply of operating power to the main MPU 82 is started is included in the specific control, except for the first management process described later. The first management process is included in non-specific control. In addition, the first timer interrupt processing (FIG. 88) and the second timer interrupt processing (FIG. 114) exist as processing that is periodically interrupted and started, and the second timer interrupt processing (FIG. 114) All processes are included in the specific control, and the first timer interrupt process (FIG. 88) is included in the specific control except for the fraud detection process and the second management process, which will be described later. 2 Administrative processing is included in non-specific control.

FIG. 76 is an explanatory diagram for explaining how programs and data are set in the main-side ROM 83. As shown in FIG. In correspondence with the fact that the control executed by the main MPU 82 is classified into specific control and non-specific control, as shown in FIG. The addresses of the areas in which the data, programs for non-specific control and data for non-specific control are stored are clearly distinguished.

Specifically, specific control programs are collectively stored in areas of consecutive addresses within the range from address X(1) to address X(k+2). Further, addresses X(k+3) to X(k+5) consecutive to addresses X(1) to X(k+2) are addresses of unused areas in which data is not stored. Data for specific control are collectively stored in areas of successive addresses within the range from X(k+6) to address X(m+2). Further, addresses X(m+3) to X(m+5) consecutive to addresses X(k+6) to X(m+2) are addresses of unused areas in which data is not stored. Programs for non-specific control are collectively stored in areas of consecutive addresses within the range from X(m+6) to address X(n+2). Addresses X(n+3) to X(n+5) consecutive to addresses X(m+6) to X(n+2) are addresses of unused areas in which no data is stored. Non-specific control data are collectively stored in areas of consecutive addresses within the range from X(n+6) to address X(p+2). The relationship between programs and data and addresses as described above is set in both physical addresses in the main ROM 83 and logical addresses on the memory map recognized by the main MPU 82 .

As described above, the specific control program and specific control data, and the non-specific control program and non-specific control data, regardless of the execution order of the processes for executing the corresponding controls, When only the specific control program and specific control data are to be checked, the address ranges in which the specific control program and specific control data are stored are stored in different address areas. If only the non-specific control program and non-specific control data are to be checked, the address range in which the non-specific control program and non-specific control data are stored Only areas need to be checked. Therefore, it is possible to efficiently perform work when checking programs and data by distinguishing between specific control and non-specific control. In addition, along with this, it is possible to efficiently perform the work for correcting programs and data by distinguishing between specific control and non-specific control.

No data is stored between the address range of the area in which the specific control program and specific control data are stored and the address range of the area in which the non-specific control program and non-specific control data are stored. By setting the address range of the unused area, it becomes easier to grasp the boundary between the address range for specific control and the address range for non-specific control in checking work.

In each of the address range for specific control and the address range for non-specific control, programs and data are stored in areas of different ranges of addresses, regardless of the execution order of processes for executing the corresponding control. By doing so, it becomes possible to efficiently perform work when checking programs and data separately. In addition, since the address range of an unused area in which no data is stored is set between the address range of the area in which the program is stored and the address range of the area in which the data is stored, the program This makes it easier to grasp the boundary between the address range and the data address range during the checking work.

FIG. 77 is an explanatory diagram for explaining how each area in the main RAM 84 is set. As shown in FIG. 77, in correspondence with the fact that the control executed by using the program in the master side MPU 82 is distinguished between the specific control and the non-specific control, the master side RAM 84 also has a work for specific control. The address ranges of the area 211 and the stack area 212 for specific control are clearly distinguished from the address ranges of the work area 213 for non-specific control and the stack area 214 for non-specific control.

Specifically, an area of each continuous address within the range of address Y(1) to address Y(r+2) is set as a work area 211 for specific control. In addition, addresses Y(r+3) to Y(r+5) that are continuous with addresses Y(1) to Y(r+2) are addresses of unused areas. An area of consecutive addresses within the range of Y(s+2) is set as a stack area 212 for specific control. In addition, addresses Y (s+3) to Y (s+5) consecutive to addresses Y (r+6) to Y (s+2) are addresses of unused areas. An area of consecutive addresses within the range of Y(t+2) is set as a work area 213 for non-specific control. In addition, addresses Y(t+3) to Y(t+5) that are continuous with addresses Y(s+6) to Y(t+2) are addresses of unused areas. An area of consecutive addresses within the range of Y(u+2) is set as a stack area 214 for non-specific control. The relationship between each area and address as described above is set in both the physical address in the main RAM 84 and the logical address on the memory map recognized by the main MPU 82 .

Since the work area 211 for specific control and the work area 213 for non-specific control are separately set as described above, when the main MPU 82 executes the specific control and when the non-specific control is executed, Therefore, different areas of the main RAM 84 are used when executing various calculations. As a result, when one of the specific control and the non-specific control is executed, it is possible to make it difficult to cause an event in which necessary information in the main RAM 84 is erased in the other. Incidentally, when writing information to the work areas 211 and 213 and reading information from the work areas 211 and 213, the main MPU 82 executes a load instruction.

Since the stack area 212 for specific control and the stack area 214 for non-specific control are separately set, the main MPU 82 can determine whether the main MPU 82 executes the specific control or the non-specific control. Different areas of the main RAM 84 are used for saving the information stored in the register of the side MPU 82 and for storing the return address information on the program. As a result, when one of the specific control and non-specific control is executed, when saving the information stored in the register of the main side MPU 82 and when storing the information of the return address on the program, the other can be used. It is possible to make it difficult to cause an event such as the information to be deleted to be erased. Incidentally, when writing information to the stack areas 212 and 214, the main MPU 82 executes a push instruction, and when reading information from the stack areas 212 and 214, the main MPU 82 executes a pop instruction. When reading information from each of the stack areas 212 and 214, the information written later in the stack area 212 and 214 is read first.

Here, when the main MPU 82 executes processing corresponding to specific control, the main MPU 82 can write information to the work area 211 for specific control and the stack area 212 for specific control, Information can be read from the work area 211 for specific control and the stack area 212 for specific control. On the other hand, when the main MPU 82 executes processing corresponding to specific control, the main MPU 82 can read information from the work area 213 for non-specific control and the stack area 214 for non-specific control. , the work area 213 for non-specific control and the stack area 214 for non-specific control cannot be written. This makes it possible to prevent the information used in the process corresponding to the non-specific control from being erroneously deleted while the process corresponding to the specific control is being executed.

When the main MPU 82 executes processing corresponding to non-specific control, the main MPU 82 can write information to the work area 213 for non-specific control and the stack area 214 for non-specific control. In addition, information can be read from the work area 213 for non-specific control and the stack area 214 for non-specific control. On the other hand, when the main MPU 82 executes processing corresponding to non-specific control, although the main MPU 82 can read information from the work area 211 for specific control and the stack area 212 for specific control, Information cannot be written to the work area 211 for specific control and the stack area 212 for specific control. This makes it possible to prevent the information used in the process corresponding to the specific control from being erroneously deleted in a situation where the process corresponding to the non-specific control is being executed.

Although backup power is supplied to the main RAM 84 even after the pachinko machine 10 is powered off, the backup power includes the work area 211 for specific control, the stack area 212 for specific control, and the non-specific control. and the stack area 214 for non-specific control. As a result, the information stored in the work area 211 for specific control, the stack area 212 for specific control, the work area 213 for non-specific control, and the stack area 214 for non-specific control is stored in the power supply of the pachinko machine 10. Even afterward, the memory is retained while the backup power is being supplied.

FIG. 78 is an explanatory diagram for explaining various storage areas provided in the work area 211 for specific control and various storage areas provided in the work area 213 for non-specific control.

The specific control work area 211 includes a first security counter 211a, a special electric monitoring delay timer counter 211b, a general electric monitoring delay timer counter 211c, a confirmation flag group 211d, a previous value storage area 211e, a security flag 211f, and a checking flag 211f. A counter 211g is provided. The work area 213 for non-specific control includes first to eighth winning monitoring timer counters 213a to 213h, a magnetic detection counter 213i, a magnetic monitoring delay timer counter 213j, a second security counter 213k, and first to third general winning abnormalities. Flags 213l to 213n, a special electric prize winning abnormality flag 213o, a first operation winning abnormality flag 213p, a second operation winning abnormality flag 213q, an out abnormality flag 213r, a gate winning abnormality flag 213s and a magnetic abnormality flag 213t are provided.

Both the first security counter 211a in the specific control work area 211 and the second security counter 213k in the non-specific control work area 213 externally output a pulse-shaped security signal from the main MPU 82 to the gaming hall management computer. This is a counter used by the main MPU 82 to determine whether or not it is necessary to do so. This is the counter used. Events that trigger the output of a pulse-shaped security signal to the outside include execution of set value update processing, execution of clearing processing of the main side RAM 84, detection of disconnection of a predetermined detection sensor, detection of a short circuit of a predetermined detection sensor, and winning anomaly. and detection of magnetic anomaly. The event that triggers the external output of the pulse-shaped security signal is not limited to those listed above. 12 opening operations, etc. may be included. Further, the previous value storage area 211e and the security flag 211f are used when executing the external output of the security signal as described above and the processing associated therewith.

The special electric monitoring delay timer counter 211b in the work area 211 for specific control detects the game ball by the special electric detection sensor 234a provided in the special electric prize winning device 32, and the special electric prize winning device 32 in the open state becomes the closed state. This is a counter used by the main MPU 82 to specify a period to be treated as valid even later. The general electric monitoring delay timer counter 211c of the work area 211 for specific control detects the game ball detected by the second working opening detection sensor 236a provided in the second working opening 34, and detects the second working opening 34 in the open state. is a counter used by the main side MPU 82 to specify a period to be treated as valid even after the is closed. In the confirmation flag group 211d of the work area 211 for specific control, to each of the out port 24a, the three general winning ports 31, the special electric winning device 32, the first operating port 33, the second operating port 34 and the through gate 35 Various confirmation flags are provided for the main side MPU 82 to confirm the entry of the game ball. The checking counter 211g of the work area 211 for specific control is used when executing the display control of the first to fourth display devices 201 to 204 for notification.

The first to third winning monitoring timer counters 213a to 213c in the work area 213 for non-specific control correspond to the three general winning ports 31 on a one-to-one basis. The first to third winning monitoring timer counters 213a to 213c disable the detection of the next game ball after detecting one game ball in the winning hole detecting sensors 231a to 233a provided in the corresponding general winning hole 31. This is a counter used for specifying the period treated as . In addition, in the first embodiment, four general prize-winning ports 31 are provided, but in this embodiment, three general prize-winning ports 31 are provided.

The fourth prize winning monitoring timer counter 213d of the work area 213 for non-specific control detects a game ball in the special electric prize detection sensor 234a of the special electric prize winning device 32 and treats the detection of the next game ball as invalid. This is a counter used for identification by the main MPU 82 . The fifth winning monitoring timer counter 213e of the work area 213 for non-specific control detects one game ball in the first operation opening detection sensor 235a provided in the first operation opening 33, and then the next game ball. This is a counter used by the main MPU 82 to specify a period during which detection is treated as invalid. The sixth winning monitoring timer counter 213f of the work area 213 for non-specific control disables the detection of the next game ball after detecting one game ball in the second operation opening detection sensor 236a of the second operation opening 34. This is a counter used for specifying the period treated as . The seventh winning monitoring timer counter 213g of the work area 213 for unspecified control disables the detection of the next game ball after detecting one game ball in the out hole detection sensor 237a provided in the out hole 24a. This counter is used to specify the period to be handled by the main MPU 82 . The eighth winning monitoring timer counter 213h of the work area 213 for non-specific control treats the detection of the next game ball as invalid after detecting one game ball in the gate detection sensor 238a provided in the through gate 35. A counter used to specify the period in the main MPU 82 .

Although the details will be described later, whether or not the game ball enters the three general winning openings 31, the special electric winning device 32, the first operating opening 33, the second operating opening 34, the through gate 35, and the out opening 24a normally Non-specific control includes processing for monitoring whether In this case, whether or not the game ball enters the three general winning holes 31, the special electric winning device 32, the first operating hole 33, the second operating hole 34, the through gate 35 and the out hole 24a normally. Of the various timer counters 211b, 211c, 213a to 213h provided for monitoring, the special electric monitoring delay timer counter 211b and the general electric monitoring delay timer counter 211c are provided in the work area 211 for specific control. On the other hand, the first to eighth winning monitoring timer counters 213a to 213h are provided in the work area 213 for non-specific control.

Since the measurement of the invalid period of game ball detection using the first to eighth winning monitoring timer counters 213a to 213h is triggered by the detection result of each detection sensor 231a to 238a, the start trigger is a specific control process. It is possible to specify in the process of non-specific control without considering the result. Therefore, by providing the first to eighth winning monitoring timer counters 213a to 213h in the work area 213 for non-specific control, the first to eighth winning monitoring timer counters 213a to 213h can be set without considering the processing result of the specific control. It is possible to measure the invalid period of the game ball detection using the non-specific control process. In such circumstances, by providing the first to eighth winning monitoring timer counters 213a to 213h in the work area 213 for non-specific control, the required storage capacity in the work area 211 for specific control can be reduced. It becomes possible.

On the other hand, the measurement of the effective period of game ball detection using the special electric monitoring delay timer counter 211b is started when the special electric winning device 32 is changed from the open state to the closed state. The measurement of the valid period of game ball detection using the delay timer counter 211c is triggered by the execution of the process of changing the second operation port 34 from the open state to the closed state. Since the process of closing the special electric prize winning device 32 and the second operation opening 34 is executed as the process of the specific control, the start timing is set in the process of the non-specific control without taking into consideration the result of the process of the specific control. Impossible to specify. In this case, if the special electricity monitoring delay timer counter 211b and the general electricity monitoring delay timer counter 211c are provided in the non-specific control work area 213, the special electricity monitoring delay timer counter 211b and the general electricity monitoring delay timer counter 211b and the general electricity monitoring delay timer counter 211c There is a risk that the processing configuration for specifying the trigger for starting measurement of the valid period in the counter 211c will become complicated. On the other hand, by providing the special electrical monitoring delay timer counter 211b and the general electrical monitoring delay timer counter 211c in the specific control work area 211 instead of the non-specific control work area 213, the specific control work area In 211, it is possible to avoid complicating the processing configuration even though the necessary storage capacity increases accordingly.

The first to third general prize winning abnormality flags 213l to 213n of the work area 213 for non-specific control are provided in one-to-one correspondence with the three general prize winning ports 31, and the first to third prize winning monitoring timers are provided. As a result of the monitoring process using the counters 213a to 213c, when it is specified by the non-specific control process that the detection of the entering ball of the game ball which is not normal occurs, the first non-specific control process is performed. "1" is set to the corresponding flag among the .about.third general winning abnormality flags 213l to 213n. The special electric prize-winning abnormality flag 213o of the work area 213 for non-specific control is provided corresponding to the special electric prize-winning device 32, and the result of the monitoring processing using the special electric monitoring delay timer counter 211b or the fourth prize-winning monitoring timer counter 213d , When it is specified in the non-specific control process that the abnormal game ball has been detected, the special electric winning abnormality flag 213o is set to "1" in the non-specific control process. .

The first operation winning abnormality flag 213p of the work area 213 for non-specific control is provided corresponding to the first operation opening 33, and as a result of the monitoring processing using the fifth winning monitoring timer counter 213e, the game that is not normal When it is specified in the non-specific control process that the ball has been detected, the first operation winning abnormality flag 213p is set to "1" in the non-specific control process. The second operation winning abnormality flag 213q of the work area 213 for non-specific control is provided corresponding to the second operation port 34, and the general electric monitoring delay timer counter 211c or the sixth winning monitoring timer counter 213f is used. As a result of the monitoring process, when it is specified in the non-specific control process that an abnormal game ball has been detected, the non-specific control process sets the second operation winning abnormality flag 213q to " 1" is set.

The out abnormality flag 213r of the work area 213 for non-specific control is provided corresponding to the out port 24a, and as a result of the monitoring processing using the seventh prize winning monitoring timer counter 213g, the entry of the game ball that is not normal When the occurrence of the detection is specified by the non-specific control process, the out abnormality flag 213r is set to "1" by the non-specific control process. The gate winning abnormality flag 213s of the work area 213 for specific control is provided corresponding to the through gate 35, and as a result of the monitoring processing using the eighth winning monitoring timer counter 213h, the entry of the game ball that is not normal is detected. When it is specified by the non-specific control process that the detection has occurred, the gate winning abnormality flag 213s is set to "1" by the non-specific control process.

The magnetic detection counter 213i of the work area 213 for non-specific control is a counter for specifying the number of times the occurrence of magnetic abnormality is specified by the main MPU 82. FIG. In this embodiment, a magnetic detection sensor (not shown) is provided on the back surface of the game board 24 , and the detection result of the magnetic detection sensor is input to the main side MPU 82 . The magnetic detection sensor outputs a LOW level magnetic detection signal to the main side MPU 82 when not detecting magnetism, and outputs a HI level magnetic detection signal to the main side MPU 82 when detecting magnetism. The magnetism monitoring delay timer counter 213j in the work area 213 for non-specific control is a counter for specifying a period during which no magnetism abnormality is monitored by the main MPU 82. FIG. In the magnetic abnormality flag 213t of the work area 213 for non-specific control, the magnetic detection counter 213i measures the period in which the magnetic abnormality is not monitored by the magnetic monitoring delay timer counter 213j. "1" is set in the non-specific control process when it is specified in the non-specific control process that the number of occurrences of the timing abnormality has reached the abnormality reference number (specifically, "3"). .

<Configuration of command transmission>
FIG. 79 is an explanatory diagram for explaining an electrical configuration for transmitting a command from the main side MPU 82 to the sound and light side MPU 93. FIG.

The main MPU 82 is provided with a specific control processing unit 221 as a function of executing specific control processing using a specific control program and specific control data stored in the main ROM 83 . A non-specific control processing unit 222 is provided as a function of executing non-specific control processing using a non-specific control program and non-specific control data stored in the side ROM 83 . When specific control processing is executed by the specific control processing unit 221, as already described, information is read from and written to the work area 211 for specific control and the stack area 212 for specific control. At the same time, information is read from the work area 213 for non-specific control. When specific control processing is executed by the specific control processing unit 221, information is not written to the work area 213 for non-specific control and the stack area 214 for non-specific control. When non-specific control processing is executed by the non-specific control processing unit 222, as already described, information is read from the work area 213 for non-specific control and the stack area 214 for non-specific control, and information is While writing is performed, information is read from the work area 211 for specific control. When non-specific control processing is executed by the non-specific control processing unit 222, information is not written to the work area 211 for specific control and the stack area 212 for specific control.

Regardless of whether the specific control processing unit 221 executes the specific control processing or the non-specific control processing unit 222 executes the non-specific control processing, the registers provided in the main MPU 82 Information is read from the area 223 and written to the register area 223 . The register area 223 is provided with a general-purpose register area 223a and a command transmission buffer 223b. The general-purpose register area 223a includes flag registers, various general-purpose registers, auxiliary registers, index registers, and the like. A WA register, a BC register, a DE register, a HL register, an IX register and an IY register are provided as various general purpose registers, auxiliary registers and index registers.

The command transmission buffer 223b needs to transmit a predetermined command to the sound and light side MPU 93 provided on the sound light emission control board 92 of the sound light emission control device 91 when the specific control processing is executed by the specific control processing unit 221. is stored. Further, the command transmission buffer 223b stores a specific command to be transmitted when it becomes necessary to transmit a specific command to the sound and light side MPU 93 due to execution of non-specific control processing in the non-specific control processing unit 222. command is stored. The command transmission buffer 223b is provided as a ring buffer having a plurality of unit storage areas capable of storing one type of command. The command to be transmitted is written in the unit storage area corresponding to the information of the write pointer provided in the main MPU 82 . In this case, the unit storage areas to be written are sequentially switched according to a predetermined order, and after the unit storage area in the last order becomes the target for writing, the unit storage area in the first order becomes the target for writing.

Commands written in each unit storage area of the command transmission buffer 223 b are transmitted to the sound and light side MPU 93 by the command transmission circuit 224 provided in the main side MPU 82 . The command transmission circuit 224 is provided with a read pointer, and transmits the command stored in the unit storage area corresponding to the information of the read pointer to the sound and light side MPU 93 . In this case, the unit storage areas to be read are sequentially switched according to a specific order, and after the unit storage area in the last order is to be read, the unit storage area in the first order is to be read.

The command transmission circuit 224 does not involve execution of processing using programs in the specific control processing unit 221 and non-specific control processing unit 222 of the main MPU 82, that is, without intervening execution of processing using programs. A command is read from the read target unit storage area of the command transmission buffer 223b, and the read command is transmitted. Therefore, even in a situation where the command transmission circuit 224 is transmitting a command to the sound and light side MPU 93, the specific control processing can be executed by the specific control processing unit 221, and the non-specific control processing unit 222 A non-specific control process may be performed. Furthermore, even if the command stored in the command transmission buffer 223b is being transmitted by the command transmission circuit 224 due to the execution of the specific control processing by the specific control processing unit 221, the specific control processing unit 221 Not only can the specific control processing be executed in the non-specific control processing unit 222, but also the non-specific control processing can be executed in the non-specific control processing unit 222. As a result, even in a situation where commands stored in the command transmission buffer 223b are being transmitted by the command transmission circuit 224, the non-specific control processing unit 222 can execute non-specific control processing as well as specific control processing. It is a configuration in which the processing of specific control can be executed in the unit 221 .

The command transmission speed of the command transmission circuit 224 to the sound and light side MPU 93 is such that when a new command is stored in the command transmission buffer 223b, the untransmitted command stored in the command transmission buffer 223b is overwritten. It is set to a speed that does not overwhelm you.

How the command is transmitted will be described with reference to the time chart of FIG. FIG. 80(a) shows a period during which specific control processing is executed by the specific control processing unit 221, and FIG. 80(b) shows a period during which non-specific control processing is executed by the non-specific control processing unit 222. FIG. 80(c) shows the timing at which commands are stored in the command transmission buffer 223b, and FIG.

At the timing of t1, as shown in FIG. 80(a), the specific control processing in the specific control processing unit 221 is started. Thereafter, the command is stored in the command transmission buffer 223b as shown in FIG. 80(c) by executing the specific control process at the timing of t2. Since an untransmitted command exists in the command transmission buffer 223b, the command transmission circuit 224 starts transmitting the command at the timing t2 as shown in FIG. 80(d). Since the specific control processing in the specific control processing unit 221 and the command transmission operation in the command transmission circuit 224 are performed independently of each other, as shown in FIG. Even during the period when the command is being transmitted by the command transmission circuit 224, the specific control processing is executed by the specific control processing unit 221 as shown in FIG. 80(a).

After that, as shown in FIG. 80(a), the command is sent again to the command transmission buffer 223b as shown in FIG. Stored. Since an untransmitted command exists in the command transmission buffer 223b, the command transmission circuit 224 starts transmitting the command at the timing t4 as shown in FIG. 80(d).

After that, in a situation where the transmission of the command started at timing t4 continues, at timing t5, the specific control processing unit 221 performs specific control processing as shown in FIGS. The state of execution is switched to the state of non-specific control processing being executed by the non-specific control processing unit 222 . In this case, the operation of transmitting the command in the command transmission circuit 224 is performed not only independently of the specific control processing in the specific control processing unit 221, but also independently of the non-specific control processing in the non-specific control processing unit 222. done. Therefore, even if the situation in which the specific control process is executed is switched to the situation in which the non-specific control process is executed at the timing of t5, the command transmission continues as shown in FIG. 80(d). . Transmission of the command ends at timing t6.

After that, the command is stored in the command transmission buffer 223b as shown in FIG. 80(c) by executing the non-specific control process at the timing of t7. Since an untransmitted command exists in the command transmission buffer 223b, the command transmission circuit 224 starts transmitting the command at the timing t7 as shown in FIG. 80(d). Since the non-specific control processing in the non-specific control processing unit 222 and the command transmission operation in the command transmission circuit 224 are performed independently of each other, as shown in FIG. Even during the period in which the command is transmitted by the command transmission circuit 224, the non-specific control processing is executed by the non-specific control processing unit 222 as shown in FIG. 80(b).

Thereafter, as shown in FIG. 80(b), in a situation where non-specific control processing is being executed by the non-specific control processing unit 222, at the timing of t9, a command is sent to the command transmission buffer 223b as shown in FIG. 80(c). is stored again. Since an untransmitted command exists in the command transmission buffer 223b, the command transmission circuit 224 starts transmitting the command at the timing t9 as shown in FIG. 80(d).

After that, in a situation where the transmission of the command started at the timing of t9 is continued, the non-specific control processing unit 222 performs the non-specific control at the timing of t10 as shown in FIGS. The state in which the process is being executed is switched to the state in which the specific control process is executed by the specific control processing unit 221 . In this case, the operation of transmitting the command in the command transmission circuit 224 is performed not only independently of the non-specific control processing in the non-specific control processing section 222, but also independently of the specific control processing in the specific control processing section 221. done. Therefore, even if the situation in which the specific control process is executed changes to the situation in which the non-specific control process is executed at the timing of t10, the command transmission continues as shown in FIG. 80(d). . Transmission of the command ends at timing t11.

As described above, the specified control processing unit 221 is executing the specific control process, and the non-specific control processing unit 222 is executing the non-specific control process. The received command is stored in the command transmission buffer 223b of the register area 223. FIG. In other words, even if the area to which information is to be written in the main RAM 84 differs between the situation in which the specific control process is executed and the situation in which the non-specific control process is executed, The command writing area is used both in a situation where specific control processing is being executed and in a situation where non-specific control processing is being executed. Therefore, since it is not necessary to concentrate the processing for storing the command into only one of the specific control processing and the non-specific control processing, it is possible to prevent the processing configuration for storing the command from becoming complicated. It becomes possible.

The commands stored in the command transmission buffer 223b are transmitted to the sound/light side MPU 93 by the command transmission circuit 224 that operates independently of the specific control process and the non-specific control process. As a result, there is no need to adjust the command transmission timing in relation to the execution content of the process using the program in the main MPU 82, so it is possible to simplify the processing configuration of the process using the program in the main MPU 82. becomes.

<Main processing>
Next, various processes executed by the main MPU 82 using programs will be described. FIG. 81 is a flow chart showing the main processing in this embodiment executed by the main MPU 82. As shown in FIG. Of the processes in steps S4901 to S4932 in the main process, processes other than the first management process called and executed in step S4927 use the specific control program and specific control data. It is executed by the specific control processing unit 221 of the side MPU 82, and the first management process is executed by the non-specific control processing unit 222 of the main side MPU 82 using a program for non-specific control and data for non-specific control. be.

First, power-on initialization processing is executed (step S4901). In the power-on initial setting process, for example, the process waits without proceeding to the next process until a predetermined wait time (specifically, one second) elapses after the main process is activated. During this predetermined waiting period, the start of operation and initial setting of the pattern display device 41 are completed. Also, access to the main side RAM 84 is permitted.

Thereafter, internal function register setting processing is executed (step S4902). In the internal function register setting process, the interrupt period of the first timer interrupt process (FIG. 88), which is a process that is started by periodically interrupting the main process, is set to the first interrupt period (specifically, 4 milliseconds). seconds), and the interrupt cycle of a second timer interrupt process (FIG. 114), which is a process that is started by periodically interrupting the main process, is set to a cycle shorter than the first interrupt cycle. Set the second interrupt cycle (specifically, 2 milliseconds).

In other words, in this embodiment, there are the first timer interrupt processing (FIG. 88) and the second timer interrupt processing (FIG. 114) so that the interrupt cycles are relatively long and short as the timer interrupt processing. Both the first timer interrupt process (FIG. 88) and the second timer interrupt process (FIG. 114) are started by interrupting the main process. The second timer interrupt process (FIG. 114) is started by interrupting the first timer interrupt process (FIG. 88). On the other hand, the first timer interrupt process (FIG. 88) interrupts the second timer interrupt process (FIG. 114) and is not activated. In addition, if both the first interrupt cycle and the second interrupt cycle have passed in a situation where neither the first timer interrupt processing (FIG. 88) nor the second timer interrupt processing (FIG. 114) are executed, those cycles The second timer interrupt process (FIG. 114) is started first, regardless of the order of progress. In this respect, it can be said that the second timer interrupt process (FIG. 114) is started with priority over the first timer interrupt process (FIG. 88). However, the invention is not limited to this, and the first timer interrupt process (FIG. 88) may be started with priority over the second timer interrupt process (FIG. 114).

In the internal function register setting process, the first interrupt period of the first timer interrupt process (FIG. 88) is set in a predetermined register of the main MPU 82, and the second interrupt period of the second timer interrupt process (FIG. 114) is set as the main interrupt period. A specific register of the side MPU 82 is set. Further, in the internal function register setting process, in addition to the setting of the first and second interrupt cycles, the setting process of the numerical range of various counters such as the numerical range of the winning random number counter C1, for example, is executed.

After that, protection setting processing is executed (step S4903). In the protect setting process, by setting "1" to the protect register 223c provided in the register area 223 of the main MPU 82, the work area 211 for specific control and the stack for specific control among the areas of the main RAM 84 are set. Unused areas other than the area 212, the work area 213 for non-specific control, and the stack area 214 for non-specific control are excluded from targets for writing information (including "0" clear). .

Specifically, the main MPU 82 is provided with a RAM management circuit 225 (see FIG. 79) for writing information to the main RAM 84 and reading information from the main RAM 84 . When the address of the area from which the information is to be read is specified by executing the processing by the program in the main MPU 82, the RAM management circuit 225 reads the information from the area of the specified address and supplies it to the main MPU 82, When the address of an area to which information is to be written is specified by execution of processing by a program in the main MPU 82, the specified information is written in the area of the specified address. In this case, the main ROM 83 has an unused area address range (address Y(r+3) to address Y(r+5), address Y(s+3) to address Y(s+5), address Y(t+3) in the main RAM 84). to address Y(t+5)) are stored in advance. When the protection setting is performed, the RAM management circuit 225, when the address of the area to which the information is to be written is specified, stores the address in the address range of the unused area stored in the main ROM 83. If it is included, the information is not written. Writing this information also includes a '0' clear. This makes it possible to prevent information from being written to an unused area in the main RAM 84 .

It should be noted that the RAM management circuit 225 specifies that the address specified as the target for writing information is included in the address range of the unused area stored in the main-side ROM 83 in the situation where protection is set. When the information is written, the configuration may be such that not only is the information not written but also the abnormality is notified. The execution mode of the abnormality notification is arbitrary, but for example, the display light emitting unit 64 may be configured to emit light for abnormality, the speaker unit 65 may be configured to output sound for abnormality, or a pattern display device. 41 may be configured to perform a display for abnormality, or may be configured to perform an external output for abnormality to a management computer provided in the game hall.

The register area 223 of the main MPU 82 is provided with a protect register 223c as shown in FIG. The protect register 223c is for unused areas in the main RAM 84 (address Y(r+3) to address Y(r+5), address Y(s+3) to address Y(s+5), address Y(t+3) to address Y(t+5)). This is a storage area for specifying in the RAM management circuit 225 whether writing of information is prohibited. When the protection information is set in the protection register 223c, the protection setting is performed, and the addresses included in the address range of the unused area stored in the main-side ROM 83 are written. Even if it is specified, information is not written to the area of the address as described above. On the other hand, if the protection information is not set in the protection register 223c, the protection setting is not performed, and the address included in the address range of the unused area stored in the main ROM 83 is written. When it is specified as a target, information is written in the area of that address.

The protect register 223c is set as a 1-bit area. When "1" is set in the protect register 223c, the protect information is set in the protect register 223c, and when the information in the protect register 223c is "0", the protect register 223c This applies when protection information is not set in When the supply of operating power to the main MPU 82 is started, the information in the protect register 223c is "0", so that the protect information is not set, but the protect setting process of step S4903 is executed. As a result, "1" is set in the protect register 223c and the protect information is set. As a result, information on unused areas in the main RAM 84 (address Y(r+3) to address Y(r+5), address Y(s+3) to address Y(s+5), address Y(t+3) to address Y(t+5)) cannot be written.

The protect register 223c is not limited to a 1-bit area, and may be set as a 2-bit or more area, a 1-byte area, or a 2-byte area.

After that, "1" is set to the start-up processing flag provided in the work area 211 for specific control (step S4904). Even if the first timer interrupt processing (FIG. 88), which will be described later, is started, the start-up processing flag indicates power failure monitoring and updating of various counters among the various processing set in the first timer interrupt processing (FIG. 88). , and the main MPU 82 that the first timer interrupt processing (FIG. 88) should be terminated without executing the processing for progressing the game while executing the processing for managing the game history. It is a flag for specifying in .

The start-up processing flag is set to "1" when the processing (steps S4901 to S4928) at the start of supply of operating power is started in the main processing (FIG. 81). It is cleared to "0" before (steps S4901 to S4928) are completed and the remaining processing (steps S4929 to S4932) is started. In the first timer interrupt processing (FIG. 88), when the start-up processing flag is set to "1", the processing of steps S5506 to S5520 is not executed. Among the processes (steps S4901 to S4928), it is possible to prevent the execution of the process for progressing the game while the setting confirmation process or setting value update process, which will be described later, is being executed. On the other hand, in the first timer interrupt processing (FIG. 88), even if the start-up processing flag is set to "1", by executing the processing of steps S5501 to S5504 and step S5521, Power outage monitoring is executed even in a situation where setting confirmation processing or setting value update processing, which will be described later, is being executed out of the processing (steps S4901 to S4928) at the start of supply, and the winning random number counter C1, type The random number counter C2, the reach random number counter C3, and the random number initial value counter CINI are updated, and the game history is managed.

By the way, in a situation where setting confirmation processing or setting value update processing is being executed, interrupts are not prohibited for either the first timer interrupt processing (FIG. 88) or the second timer interrupt processing (FIG. 114). Interruption is possible at any timing. In this case, when the first timer interrupt process (FIG. 88) or the second timer interrupt process (FIG. 114) is interrupted and started in the setting confirmation process or the setting value update process, the timer interrupt Information on the return address of the main processing (FIG. 81) for returning after the processing is completed is saved in the stack area 212 for specific control, and various registers of the main MPU 82 immediately before the timer interrupt processing is started. information is saved in the stack area 212 for specific control. Then, when the timer interrupt process to be activated ends, the process returns to the main process (FIG. 81) corresponding to the return address information saved in the stack area 212 for specific control. Information saved in the stack area 212 for specific control is returned to various registers of the main MPU 82 .

After setting "1" to the startup processing flag in step S4904, it is determined whether or not "1" is set to the power failure flag provided in the work area 211 for specific control (step S4905). . When power failure processing is executed in the power failure information storage process (step S5501) of the first timer interrupt process (FIG. 88), the power failure flag is set to "1". The power failure flag is a flag for the main MPU 82 to specify whether or not the power failure process was appropriately performed at the time of the previous power failure.

If the power failure flag is set to "1" (step S4905: YES), it is determined whether the checksum is normal (step S4906). Specifically, first, checksums are calculated for the work area 211 for specific control and the stack area 212 for specific control. After that, the work area 211 for specific control and the The checksum for the stack area 212 is read, and the read checksum is compared with the checksum calculated as described above in the current main processing. Then, it is determined whether or not the checksums match.

If the checksums match (step S4906: YES), it is determined whether the setting value corresponding to the information stored in the setting reference area in the specific control work area 211 is within the normal range ( step S4907). The setting reference area is a storage area in which information for specifying the current setting value of the pachinko machine 10 by the main side MPU 82 is stored. When the setting reference area stores the numerical value information of "1", the current setting value of the pachinko machine 10 becomes "setting 1". When the setting reference area stores the numerical value information of "2", the current setting value of the pachinko machine 10 is "setting 2". When the setting reference area stores the numerical value information of "3", the current setting value of the pachinko machine 10 is "setting 3". When the numerical value information of "4" is stored in the setting reference area, the current setting value of the pachinko machine 10 is "setting 4". When the numerical information of "5" is stored in the setting reference area, the current setting value of the pachinko machine 10 is "setting 5". When the numerical information of "6" is stored in the setting reference area, the current setting value of the pachinko machine 10 is "setting 6". In step S4907, it is determined whether or not the setting value information stored in the setting reference area is any one of "1" to "6".

If all of steps S4905 to S4907 are affirmative, it is determined whether or not the setting update display flag provided in the specific control work area 211 is set to "1" (step S4908). The setting update display flag is a flag for specifying in the main side MPU 82 that the setting value update process described later is being executed. When the setting update display flag is set to "1", the main controller A setting display device 205 of 71 displays a setting value that is being updated. The setting update display flag is set to "1" when the setting value update process is started, and is cleared to "0" when the setting value update process ends. Therefore, the setting value update process is executed. In a situation where the setting update display flag is not set to "1", the setting update display flag is basically not set. However, if the supply of operating power to the main MPU 82 is stopped while the setting value update process is being executed, the setting update display will be displayed when the supply of operating power to the main MPU 82 is started after that. The flag is set to "1". The state in which the setting update display flag is set to "1" is maintained until the setting update display flag is cleared to "0" in the setting value updating process.

If a negative determination is made in step S4908 because the setting update display flag is not set to "1", it is determined whether or not the reset button 196 is pressed (step S4909). That is, it is determined whether or not the supply of operating power to the main side MPU 82 is started by performing the power ON operation of the pachinko machine 10 in the state where the reset button 196 is being pressed.

If the reset button 196 is not pressed (step S4909: NO), it is determined whether or not the game stop flag provided in the work area 211 for specific control is set to "1" (step S4910). The game stop flag is set to "1" when the power failure flag is not set to "1", the checksum does not match, or the set value is abnormal. By setting "1" to the game stop flag, while executing the processing of steps S5501 to S5504 and step S5521 in the first timer interrupt processing (FIG. 88), step by making an affirmative determination in step S5505 The processing from S5506 to S5520 is not executed. As a result, when the power failure flag is not set to "1" because the power failure process was not properly performed at the time of the previous power failure, the work area 211 for specific control and the stack area 212 for specific control If the checksum does not match due to a change in the information storage state from the previous power shutdown for at least one of them, or if the set value is abnormal, power failure monitoring, updating of various counters, and game play While the process for managing the history is executed, the process for progressing the game is not executed. If an affirmative determination is made in step S4910, the processing of steps S4924 and S4925, which will be described later, is executed.

If a negative determination is made in step S4910, it is determined whether or not the setting key insertion unit 195 has been turned on using a setting key (step S4911). If the setting key insertion unit 195 is turned on using the setting key (step S4911: YES), a setting confirmation process is executed (step S4913). Even if the setting key insertion unit 195 is not turned on using the setting key (step S4911: NO), the setting confirmation display flag provided in the work area 211 for specific control is set to "1". If set (step S4912: YES), a setting confirmation process is executed (step S4913).

The setting confirmation display flag is a flag for specifying in the main MPU 82 that the setting confirmation process is being executed. A setting display device 205 displays a setting value currently set. The setting confirmation display flag is set to "1" when the setting confirmation process is started, and is cleared to "0" when the setting confirmation process is terminated. In a situation where the setting confirmation display flag is not set to "1", the setting confirmation display flag is basically not set. However, if the supply of operating power to the main MPU 82 is stopped while the setting confirmation process is being executed, the setting confirmation display will be displayed when the supply of operating power to the main MPU 82 is subsequently started. The flag is set to "1". When the setting confirmation display flag is set to "1", the RAM clear processing (step S4919) described later is executed, the set value update processing described later is executed, or the setting confirmation is performed in the setting confirmation processing. This is maintained until the process of clearing the display flag to "0" is executed.

As described above, not only when the reset button 196 is not pressed and the setting key insertion portion 195 is ON (that is, when the "setting confirmation operation" is performed), but also when the reset button 196 is By executing the setting confirmation process even when the setting confirmation display flag is set to "1" when no pressing operation is performed, the power failure process can be performed in the situation where the setting confirmation process is being executed. is executed, the setting confirmation process is executed even if the "setting confirmation operation" is not performed when the supply of operating power is resumed thereafter. As a result, it is possible to continue to confirm the current set values of the pachinko machine 10.例文帳に追加On the other hand, even if the power failure processing is executed while the setting confirmation processing is being executed, if the reset button 196 is pressed when the supply of operating power is resumed after that, the setting confirmation processing is executed. is executed, the RAM clearing process (step S4919) and the set value updating process corresponding to the operation performed at the time of resuming the supply of operating power are executed. This makes it possible to prioritize the execution of the RAM clearing process (step S4919) or the set value updating process over the setting confirmation process.

Here, the setting confirmation processing executed in step S4913 will be described. FIG. 82 is a flow chart showing the setting confirmation process. The processing of steps S5001 to S5007 in the setting confirmation processing is executed by the specific control processing unit 221 of the main MPU 82 using the specific control program and specific control data.

First, interrupt permission is set (step S5001). As a result, the first timer interrupt process (FIG. 88) is interrupted and started at the first interrupt cycle, and the second timer interrupt process (FIG. 114) is interrupted and started at the second interrupt cycle.

In the processing (steps S4901 to S4928) at the start of supply of operating power, the first timer interrupt processing (FIG. 88) and the second timer interrupt processing (FIG. 114) are basically prohibited, and the setting confirmation processing is performed. and interrupts are permitted in the set value update process. Therefore, when the setting confirmation process and the setting value update process are not executed in the process (steps S4901 to S4928) at the start of supply of operating power, the first timer interrupt process (FIG. 88) and the second timer interrupt process (FIG. 114) is prohibited, and the execution of the first timer interrupt process (FIG. 88) and the second timer interrupt process (FIG. 114) is permitted when the setting confirmation process or the set value update process is being executed. be. However, in the situation where the setting confirmation process or the setting value update process is being executed, even if the first timer interrupt process (Fig. 88) is started, the start-up process flag is set to "1". Of the various processes of the first timer interrupt process (FIG. 88), processes for power failure monitoring, updating of various counters, and management of game history are executed, while processes for progressing the game are executed. Without this, the first timer interrupt processing (FIG. 88) is terminated.

After that, on condition that the setting confirmation display flag provided in the work area 211 for specific control is not set to "1", the setting confirmation display flag is set to "1" (step S5002). When the setting confirmation display flag is set to "1", the setting display device 205 of the main controller 71 displays the currently set value.

After that, the confirmation start command is stored in the command transmission buffer 223b in the register area 223 of the main MPU 82 (step S5003). When the confirmation start command is stored in the command transmission buffer 223b, the confirmation start command is transmitted to the sound and light side MPU 93 by the operation of the command transmission circuit 224. FIG. When the sound and light side MPU 93 receives the confirmation start command, an image indicating that the setting confirmation process is being executed and an image for making it possible to recognize the operation content for ending the setting confirmation process are displayed. The display-side MPU 103 is controlled so as to be displayed on the device 41 . As a result, it becomes possible for the manager of the game hall to recognize that the current setting value of the pachinko machine 10 is being confirmed, and to confirm the operation details necessary to end the setting confirmation process. It becomes possible for the manager of the game hall to recognize it.

After that, the setting key inserting unit 195 determines whether or not the setting key is used to switch from the ON state to the OFF state (step S5004). Specifically, it is determined whether or not the reception state of the signal received from the detection sensor that detects the state of the setting key insertion portion 195 has changed from the reception state corresponding to the ON state to the reception state corresponding to the OFF state. . Therefore, the OFF state is maintained not only when the setting key insertion unit 195 is maintained in the ON state, but also when the setting confirmation process is started in a situation where the setting key insertion unit 195 is in the OFF state. Also in this case, a negative determination is made in step S5004. If it is not specified that the setting key insertion unit 195 has been switched from the ON state to the OFF state (step S5004: NO), the process of step S5004 is repeated.

If it is specified that the setting key insertion unit 195 has switched from the ON state to the OFF state (step S5004: YES), the setting confirmation display flag in the work area 211 for specific control is cleared to "0" (step S5005). As a result, the display of the currently set values on the setting display device 205 ends.

After that, interrupt prohibition is set (step S5006). As a result, in the case of ending the setting confirmation process and returning to the process (steps S4901 to S4928) at the start of supply of operating power in the main process (FIG. 81), the first timer interrupt process (FIG. 88) and the first timer interrupt process (FIG. 88) 2 timer interrupt processing (FIG. 114) is disabled.

After that, the return command at the time of confirmation is stored in the command transmission buffer 223b in the register area 223 of the main side MPU 82 (step S5007). By storing the confirmation return command in the command transmission buffer 223 b , the command transmission circuit 224 operates to transmit the confirmation return command to the sound and light side MPU 93 . By receiving the return command at the time of confirmation, the sound and light side MPU 93 can recognize the image indicating that the setting confirmation process is being executed in the pattern display device 41 and the operation content for ending the setting confirmation process. end the display of the image for

As described above, when the setting key inserting portion 195 is turned ON by the setting key without pressing the reset button 196, the pachinko machine 10 is turned on, and the supply of operating power to the main side MPU 82 is started. In the situation where the main processing (FIG. 81) is started, the reset button 196 is not pressed and the setting key insertion portion 195 is turned ON, so that the game proceeds in the main processing (FIG. 81). The setting confirmation process is executed in a situation where the process at the time of starting the supply of the operating power is being executed, which is the situation before the process of (1) is executed. As a result, it is possible to check the set value even when no game is being played.

Returning to the description of the main processing (FIG. 81), when the setting key insertion unit 195 is not turned on using the setting key and the setting confirmation display flag is not set to "1" (steps S4911 and Step S4912: NO), the normal return command is stored in the command transmission buffer 223b in the register area 223 of the main MPU 82 (step S4914). By storing the normal return command in the command transmission buffer 223 b , the command transmission circuit 224 operates to transmit the normal return command to the sound and light side MPU 93 . By receiving the normal return command, the sound and light side MPU 93 specifies that the main side MPU 82 has completed the processing (steps S4901 to S4928) at the time of starting supply of operating power, and at the time of starting supply of operating power this time. (steps S4901 to S4928), it is determined that none of the RAM clearing process (step S4919), setting confirmation process, and setting value update process has been executed. Then, the process corresponding to the reception of the normal return command is executed.

On the other hand, if it is determined in step S4909 that the reset button 196 is pressed and if it is determined in step S4915 that the setting key insertion unit 195 is turned on using the setting key, or step S4915 If it is determined in S4908 that the setting update display flag is set to "1", setting value update processing is executed (step S4916). As described above, not only when the reset button 196 is pressed and the setting key insertion portion 195 is turned ON (that is, when the "setting change operation" is performed), the reset button 196 is pressed. The setting value updating process is executed by executing the setting value updating process even when the setting update display flag is set to "1" regardless of whether or not there is a pressing operation and an ON operation of the setting key insertion unit 195. If the power failure processing is executed in the situation where the power failure is performed, the operation contents at the time of starting the supply of the operating power after that are "no operation", "RAM clear operation", "setting change operation" and "setting confirmation operation". The set value update process is executed in any of the cases. This makes it possible to give priority to the execution of the set value update process.

Here, the setting value updating process executed in step S4916 will be described. FIG. 83 is a flowchart showing setting value update processing. The processing of steps S5101 to S5115 in the set value update process is executed by the specific control processing unit 221 of the main MPU 82 using the specific control program and specific control data.

First, interrupt permission is set (step S5101). As a result, the first timer interrupt process (FIG. 88) is interrupted and started at the first interrupt cycle, and the second timer interrupt process (FIG. 114) is interrupted and started at the second interrupt cycle.

In the processing (steps S4901 to S4928) at the start of supply of operating power, the first timer interrupt processing (FIG. 88) and the second timer interrupt processing (FIG. 114) are basically prohibited, and the setting confirmation processing is performed. and interrupts are permitted in the set value update process. Therefore, when the setting confirmation process and the setting value update process are not executed in the process (steps S4901 to S4928) at the start of supply of operating power, the first timer interrupt process (FIG. 88) and the second timer interrupt process (FIG. 114) is prohibited, and the execution of the first timer interrupt process (FIG. 88) and the second timer interrupt process (FIG. 114) is permitted when the setting confirmation process or the set value update process is being executed. be. However, in the situation where the setting confirmation process or the setting value update process is being executed, even if the first timer interrupt process (Fig. 88) is started, the start-up process flag is set to "1". Of the various processes of the first timer interrupt process (FIG. 88), processes for power failure monitoring, updating of various counters, and management of game history are executed, while processes for progressing the game are executed. Without this, the first timer interrupt processing (FIG. 88) is terminated.

After that, on condition that the setting update display flag provided in the specific control work area 211 is not set to "1", the setting update display flag is set to "1" (step S5102). By setting the setting update display flag to "1", the currently selected setting value is displayed on the setting display device 205 of the main controller 71. FIG.

After that, initial setting at start is performed (step S5103). In the initial setting, the game stop flag provided in the work area 211 for specific control is cleared to "0". If the game stop flag is not set to "1" in the power failure flag because the power failure process was not properly performed at the time of the previous power failure (step S4905: NO), the work area 211 for specific control and If the checksum does not match due to a change in the storage state of information from the previous power shutdown in at least one of the stack areas 212 for specific control (step S4906: NO), or if the setting reference area This flag is set to "1" in step S4922 of the main process (FIG. 81) when the set value corresponding to the stored information is not within the normal range (step S4907: NO). By setting "1" to the game stop flag, while executing the processing of steps S5501 to S5504 and step S5521 in the first timer interrupt processing (FIG. 88), step by making an affirmative determination in step S5505 The processing from S5506 to S5520 is not executed. As a result, when an information abnormality occurs in the main RAM 84 as described above, processing for power failure monitoring, updating of various counters, and management of game history is executed, while processing for progressing the game is executed. will not be executed. By clearing the game stop flag to "0" in the processing of step S5103, it becomes possible to cancel the state in which the occurrence of the information abnormality in the main side RAM 84 is specified when the set value update processing is executed. .

Thereafter, "1" is set in the setting update area in the specific control work area 211 (step S5104). The setting update area is a storage area in which information about setting values that are being updated in the setting value update process is stored. When the setting update area stores the numerical value information "1", the setting value to be selected is "setting 1". When the setting update area stores the numerical value information "2", the setting value to be selected is "setting 2". When the setting update area stores the numerical value information "3", the setting value to be selected is "setting 3". When the setting update area stores the numerical value information "4", the setting value to be selected is "setting 4". When the setting update area stores the numerical value information of "5", the setting value to be selected is "setting 5". When the setting update area stores the numerical value information "6", the setting value to be selected is "setting 6".

By setting "1" in the setting update area in step S5104, the setting value to be selected becomes "setting 1". That is, regardless of the current setting value of the pachinko machine 10, the setting value to be selected becomes "setting 1" when the setting value update process is started. Note that a configuration in which the process of step S5104 is not executed may be adopted. In this case, when the setting value update process is started, the information in the setting reference area is written to the setting update area. is the set value to be selected.

After that, the update start command is stored in the command transmission buffer 223b in the register area 223 of the main MPU 82 (step S5105). By storing the update start command in the command transmission buffer 223 b , the command transmission circuit 224 operates to transmit the update start command to the sound and light side MPU 93 . By receiving the update start command, the sound and light side MPU 93 displays an image indicating that the setting value update process is being executed, an image for making it possible to recognize the operation content for changing the setting value, and setting value update. The display side MPU 103 is controlled to display an image on the pattern display device 41 so that the user can recognize the operation content for terminating the process. This enables the manager of the game hall to recognize that the setting value is being changed, and to complete the operation content and setting value update process necessary to change the setting value. It is possible for the administrator of the game hall to recognize the operation contents necessary for

After that, it is determined whether or not the setting value information stored in the setting update area is any one of "1" to "6" (step S5106). If it is not one of "1" to "6" (step S5106: NO), "1" is set in the setting update area (step S5107). As a result, the setting value to be selected becomes "setting 1".

If an affirmative determination is made in step S5106 or if the process of step S5107 is executed, it is determined whether or not the setting key insertion unit 195 has switched from the ON state to the OFF state using the setting key (step S5108). Specifically, it is determined whether or not the reception state of the signal received from the detection sensor that detects the state of the setting key insertion portion 195 has changed from the reception state corresponding to the ON state to the reception state corresponding to the OFF state. do. Therefore, the OFF state is maintained not only when the setting key insertion unit 195 is maintained in the ON state, but also when the setting value update process is started in a situation where the setting key insertion unit 195 is in the OFF state. Also in this case, a negative determination is made in step S5108.

If a negative determination is made in step S5108, on condition that the reset button 196 is pressed (step S5109: YES), 1 is added to the value of the setting update area (step S5110). As a result, each time the reset button 196 is pressed once, the set value is updated to a value one step higher. If the reset button 196 is not pressed (step S5109: NO) or if the value of the setting update area is incremented by 1, the process returns to step S5106. If it is determined that the area value is 7 or more, "1" is set in the setting update area in step S5107. As a result, when the reset button 196 is pressed once in the state of "setting 6", the setting returns to "setting 1".

If it is specified that the setting key insertion unit 195 has switched from the ON state to the OFF state (step S5108: YES), the setting value information stored in the setting update area is overwritten in the setting reference area (step S5111). ). As a result, the setting value information updated in the setting value update process this time is set in the setting reference area, and the setting value corresponding to the set information is the current setting of the pachinko machine 10. value.

After that, interrupt prohibition is set (step S5112). As a result, when the set value update process is finished and the process (steps S4901 to S4928) at the start of supply of operating power in the main process (FIG. 81) is to be resumed, the first timer interrupt process (FIG. 88) and the first timer interrupt process (FIG. 88) 2 timer interrupt processing (FIG. 114) is disabled.

Thereafter, RAM clear processing is executed (step S5113). In the RAM clear process, except for the area in which the information of the setting value indicating the setting state of the pachinko machine 10 is set in the work area 211 for specific control (that is, the setting reference area) and the setting update display flag, , the work area 211 is cleared to "0" and the initialization is executed. As a result, the area indicating whether or not the winning lottery mode is the high probability mode is cleared to "0", so the winning lottery draws regardless of the winning lottery mode immediately before the supply of the operating power to the pachinko machine 10 is stopped. Mode is low probability mode. In addition, the game round is not executed, the open/close execution mode is not executed, and the normal diagram display section 38a is not displayed in a variable manner, and the general electric accessory 34a is in the closed state. situation. In addition, since the special figure reservation area 84a and the general figure reservation area 84c provided in the work area 211 for specific control are also cleared to "0", the reservation information for the first special figure display unit 37a and the second special figure display The reservation information for the normal diagram display section 38a is erased while the reservation information for the section 37b is erased. Also, the setting confirmation display flag provided in the work area 211 for specific control is cleared to "0". Also, the setting update area provided in the work area 211 for specific control is cleared to "0". Also, the game stop flag provided in the work area 211 for specific control is cleared to "0". In addition, in the RAM clear processing, the stack area 212 for specific control is cleared to "0" and initial setting is executed. Also, in the RAM clearing process, the various registers of the main MPU 82 are also cleared to "0" and then initialized. In this initial setting, the same processing as the internal function register setting processing in step S4902 is executed. For the work area 213 for non-specific control and the stack area 214 for non-specific control, the processing for clearing "0" and the processing for initial setting are not executed.

Thereafter, the return command at the time of update is stored in the command transmission buffer 223b in the register area 223 of the main MPU 82 (step S5114). By storing the update return command in the command transmission buffer 223 b , the command transmission circuit 224 operates to transmit the update return command to the sound and light side MPU 93 . By receiving the return command at the time of updating, the sound and light side MPU 93 makes it possible to recognize the image indicating that the setting value update process is being executed in the pattern display device 41 and the operation content for changing the setting value. and the image for making it possible to recognize the content of the operation for ending the setting value update processing are ended. Thereafter, the setting update display flag in the work area 211 for specific control is cleared to "0" (step S5115).

In addition to performing the power ON operation of the pachinko machine 10 while pressing the reset button 196 as described above, based on the power ON operation of the pachinko machine 10 while performing the ON operation of the setting key insertion part 195 with the setting key, Set value update processing is executed. Also, as already explained, the setting confirmation process is executed based on the power ON operation of the pachinko machine 10 while turning ON the setting key inserting portion 195 with the setting key without pressing the reset button 196 . This makes it possible to share the ON operation for the setting key insertion portion 195 as the operation for executing the setting-related processing related to the setting value. Therefore, it is possible to make the content of the operation for generating the setting-related processing easy for the manager of the game hall to understand.

Further, when the power ON operation of the pachinko machine 10 is performed while the setting key inserting portion 195 is ON-operated by the setting key, and the pressing operation of the reset button 196 is not added, the setting confirmation processing is executed, and the resetting is performed. When pressing the button 196 is added, set value update processing is executed. This makes it possible to differentiate between the setting confirmation process and the setting value update process depending on whether or not the reset button 196 is pressed. Therefore, it is possible to make it easy for the manager of the game hall to understand the operation contents for executing the desired processing out of the setting confirmation processing and the setting value update processing. In addition, by increasing the number of operations for executing the setting value updating process rather than the setting confirmation process, it is possible to make it particularly difficult to illegally perform the setting value updating process.

Returning to the description of the main processing (FIG. 81), after executing the set value update processing in step S4916, the value of the first security counter 211a provided in the work area 211 for specific control is incremented by 1 (step S4917). ). As already explained, the first security counter 211a is a counter used by the main MPU 82 to determine whether or not it is necessary to externally output a pulse-shaped security signal from the main MPU 82 to the management computer of the gaming hall. It is a counter that is used by the main MPU 82 to specify the number of times the pulse-shaped security signal is output to the outside.

When it is determined in step S4909 that the reset button 196 has been pressed in the main processing (FIG. 81) and the setting key insertion unit 195 has not been turned on using the setting key. (Step S4915: NO), it is determined whether or not the game stop flag in the work area 211 for specific control is set to "1" (step S4918). The game stop flag is set to "1" when the power failure flag is not set to "1", the checksum does not match, or the set value is abnormal. By setting "1" to the game stop flag, while executing the processing of steps S5501 to S5504 and step S5521 in the first timer interrupt process (FIG. 88), step by making an affirmative determination in step S5505 The processing from S5506 to S5520 is not executed. As a result, if the power failure flag is not set to "1" because the power failure process was not properly performed at the time of the previous power failure, the work area 211 for the specific control and the stack area 212 for the specific control If the checksum does not match due to a change in the information storage state from the previous power shutdown for at least one of them, or if the set value is abnormal, power failure monitoring, updating of various counters, and game play While the process for managing the history is executed, the process for progressing the game is not executed.

If the game stop flag is not set to "1" (step S4918: NO), RAM clear processing is executed (step S4919). In the RAM clear process, except for the area in which the information of the setting value indicating the setting state of the pachinko machine 10 is set in the work area 211 for specific control (that is, the setting reference area) and the setting update display flag, , the work area 211 is cleared to "0" and the initialization is executed. As a result, the area indicating whether or not the winning lottery mode is the high probability mode is cleared to "0", so the winning lottery draws regardless of the winning lottery mode immediately before the supply of the operating power to the pachinko machine 10 is stopped. Mode is low probability mode. In addition, the game round is not executed, the open/close execution mode is not executed, and the normal diagram display section 38a is not displayed in a variable manner, and the general electric accessory 34a is in the closed state. situation. In addition, since the special figure reservation area 84a and the general figure reservation area 84c provided in the work area 211 for specific control are also cleared to "0", the reservation information for the first special figure display unit 37a and the second special figure display The reservation information for the normal diagram display section 38a is erased while the reservation information for the section 37b is erased. Also, the setting confirmation display flag provided in the work area 211 for specific control is cleared to "0". Also, the setting update area provided in the work area 211 for specific control is cleared to "0". Also, the game stop flag provided in the work area 211 for specific control is cleared to "0". In addition, in the RAM clear processing, the stack area 212 for specific control is cleared to "0" and initial setting is executed. Also, in the RAM clearing process, the various registers of the main MPU 82 are also cleared to "0" and then initialized. In this initial setting, the same processing as the internal function register setting processing in step S4902 is executed. For the work area 213 for non-specific control and the stack area 214 for non-specific control, the processing for clearing "0" and the processing for initial setting are not executed.

After that, 1 is added to the value of the first security counter 211a provided in the work area 211 for specific control (step S4920). As already explained, the first security counter 211a is a counter used by the main MPU 82 to determine whether or not it is necessary to externally output a pulse-shaped security signal from the main MPU 82 to the management computer of the game hall. It is a counter that is used by the main MPU 82 to specify the number of times the pulse-shaped security signal is output to the outside.

Thereafter, the return command for clearing is stored in the command transmission buffer 223b in the register area 223 of the main MPU 82 (step S4921). When the command transmission buffer 223 b stores the return command for clearing, the command transmission circuit 224 operates to transmit the return command for clearing to the sound and light side MPU 93 . The sound and light side MPU 93 receives the return command at the time of clearing, thereby specifying that the main side MPU 82 has completed the operation power supply start processing (steps S4901 to S4928), and at the same time, starts supplying the current operating power. In the time processing (steps S4901 to S4928), it is specified that the RAM clear processing of step S4919 has been executed. Then, the process corresponding to the reception of the return command for clearing is executed.

Here, when the power failure processing is executed while the setting value update processing or the setting confirmation processing is being executed, the processing executed in the main processing (FIG. 81) when the supply of the operating power is resumed thereafter. will be described with reference to the explanatory diagram of FIG.

When the power failure processing is executed in a situation where neither the set value update processing nor the setting confirmation processing is executed, the processing executed in the main processing (FIG. 81) when the supply of the operating power is resumed afterward. First, the contents are explained.

When the supply of operating power is resumed in the "no operation" state, none of the RAM clearing process (step S4919), setting value updating process, and setting confirmation process are executed in the main process (FIG. 81). Further, when the supply of operating power is restarted in a situation where the "RAM clearing operation" has been performed, the RAM clearing process (step S4919) is executed in the main process (FIG. 81), while the set value update process and setting No confirmation processing is performed. When the supply of operating power is restarted in a situation where the "setting change operation" has been performed, the setting value updating process is executed in the main process (FIG. 81), while the RAM clearing process (step S4919) and the No action is taken. When the supply of operating power is resumed in a situation where the "setting confirmation operation" has been performed, the main process (FIG. 81) executes the setting confirmation process, while the RAM clear process (step S4919) and the setting value update. No action is taken.

Next, when the power failure processing is executed in a situation where the setting value update process is being executed (that is, the setting update display flag is set to "1"), the main The contents of the processing executed in the processing (FIG. 81) will be described.

If the supply of operating power is resumed in the state of "no operation", if the supply of operating power is resumed in the state of "RAM clear operation", it will operate in the state of "setting change operation". Regardless of whether the supply of power is restarted or when the supply of operating power is restarted while the "setting confirmation operation" has been performed, the setting value update process is executed in the main process (FIG. 81). On the other hand, RAM clear processing (step S4919) and setting confirmation processing are not executed. In other words, if the power failure process is executed while the set value update process is being executed, the set value update process will be executed again regardless of the operation details when the supply of operating power is resumed thereafter. be started.

With the above configuration, when the supply of operating power is stopped in the middle of the setting value update process, when the supply of operating power is resumed, the setting key insertion unit 195 and the reset button at the time of power ON of the pachinko machine 10 Setting value update processing can be newly started regardless of the operation content to 196 . This makes it possible to reliably generate an opportunity to complete the update of the setting value. Therefore, it is possible to prevent the game from being started even though the update of the setting value is not completed.

Further, when the supply of operating power is stopped in the middle of the setting value updating process, the setting value updating process is uniquely executed regardless of the operation content when resuming the supply of operating power. It is possible to achieve the above-described excellent effects while simplifying the processing configuration as compared with a configuration in which the content of processing to be executed is changed according to the content of each operation.

Next, when the power failure process is executed in a situation where the setting confirmation process is being executed (that is, the setting confirmation display flag is set to “1”), the main The contents of the processing executed in the processing (FIG. 81) will be described.

When the supply of operating power is resumed in a situation where the "RAM clearing operation" has been performed, RAM clearing processing (step S4919) is executed in the main processing (FIG. 81), while setting value update processing and setting confirmation processing are performed. is not executed. In other words, even if the power failure processing is executed while the setting confirmation processing is being executed, the setting confirmation processing (Fig. 81) is not newly executed, RAM clear processing (step S4919) is executed. This makes it possible to prioritize the execution of the RAM clearing process (step S4919) with respect to the "RAM clearing operation". Note that the setting confirmation display flag is cleared to "0" by executing the RAM clearing process (step S4919).

When the supply of operating power is restarted in a situation where the "setting change operation" has been performed, the setting value updating process is executed in the main process (FIG. 81), but the setting confirmation process is not executed. In other words, even if the power failure process is executed while the setting confirmation process is being executed, if the "setting change operation" is performed when the supply of operating power is resumed after that, the setting confirmation process is executed again. Executes setting value update processing without executing This makes it possible to give priority to the execution of the setting value update process for the "setting change operation". Even if the setting confirmation process is not executed in this way, the setting value to be selected is displayed on the setting display device 205 by executing the setting value update process, and at the end of the setting value update process Since the information of the setting value to be selected at that time is set in the setting reference area, the manager of the game hall can confirm the current setting value of the pachinko machine 10 . Note that the setting confirmation display flag is cleared to "0" by executing the RAM clearing process (step S5113) in the setting value updating process.

If the supply of operating power is restarted in a situation where the "setting confirmation operation" has been performed, the main processing (Fig. 81) is for setting confirmation on the condition that no abnormality has occurred in the power failure flag, checksum, and setting value. Execute the process. As a result, even if the power failure processing is executed in the middle of the setting confirmation processing, it is possible to restart the confirmation of the setting value by performing the "setting confirmation operation" when the supply of the operating power is restarted.

When the supply of operating power is restarted in the state of "no operation", in the main process (FIG. 81), on the condition that no abnormality has occurred in the power failure flag, checksum and setting value, the setting key inserting unit 195 The setting confirmation process is executed even if the ON operation is not performed. As a result, even if the power failure processing is executed in the middle of the setting confirmation processing and the supply of operating power is resumed after that, even if there is no operation, the confirmation of the setting value can be restarted. It becomes possible.

If a negative determination is made in any of steps S4905 to S4907 in the main process (FIG. 81), that is, if the power failure flag is not set to "1", if the checksum does not match, or if the set value is abnormal If so, the game stop flag in the work area 211 for specific control is set to "1" (step S4922). As described above, the game stop flag is set to "1", so that the processes of steps S5501 to S5504 and S5521 are executed in the first timer interrupt process (FIG. 88), while the affirmative determination is made in step S5505. By doing so, the processing of steps S5506 to S5520 is not executed. As a result, if the power failure flag is not set to "1" because the power failure process was not properly performed at the time of the previous power failure, the work area 211 for the specific control and the stack area 212 for the specific control If the checksum does not match due to a change in the information storage state from the previous power shutdown for at least one of them, or if the set value is abnormal, power failure monitoring, updating of various counters, and game play While the process for managing the history is executed, the process for progressing the game is not executed.

Thereafter, it is determined whether or not the reset button 196 is pressed (step S4923). If the reset button 196 is not pressed (step S4923: NO), an abnormality command indicating that an abnormality has occurred in the power failure flag, checksum, or set value at the start of supply of operating power is sent to the register area 223 of the main MPU 82. is stored in the command transmission buffer 223b (step S4924). By storing the abnormal command in the command transmission buffer 223 b , the command transmission circuit 224 operates to transmit the abnormal command to the sound and light side MPU 93 . Upon receiving the abnormality command, the sound and light side MPU 93 causes the display light emitting section 64 to emit light in a manner corresponding to the information abnormality at the start of supply of the operating power, and the speaker section 65 reads "Please change the setting." output a sound. Also, the character image "Please change the setting" is displayed on the pattern display device 41.例文帳に追加These notifications are maintained until the supply of operating power to the pachinko machine 10 is stopped, and are terminated when the supply of operating power to the pachinko machine 10 is stopped. However, even if the supply of the operating power to the pachinko machine 10 is temporarily stopped, the notification is started again when the supply of the operating power to the pachinko machine 10 is restarted until the set value update process is executed. It will happen.

After that, external output processing at the time of abnormality is executed (step S4920). In the abnormal external output process, a process for externally outputting an abnormal signal to the management computer of the game hall is executed. In this case, the signal output of the abnormal signal is performed over a predetermined period (for example, 100 milliseconds). However, it is not limited to this, and in the situation where the game stop flag is set to "1", the signal output of the abnormal signal is continued, and the game stop flag is cleared to "0" to output the abnormal signal. A configuration in which signal output is stopped may be employed.

If the reset button 196 has been pressed (step S4923: YES), it is determined whether or not the setting key insertion section 195 has been turned on using the setting key (step S4915). When the reset button 196 is pressed and the setting key insertion unit 195 is turned on using the setting key (steps S4915 and S4923: YES), set value update processing is executed (step S4916). The processing contents of the set value update processing are as already explained. In other words, when the operating power is supplied to the main MPU 82 while the "setting change operation" is being performed, it is determined that the main RAM 84 has an abnormality, and the result of any of steps S4905 to S4907 is negative. Even when the determination is made, the set value update process is executed. This makes it possible to give priority to changing the setting value. Further, in the set value update process, the game stop flag is cleared to "0" by executing the initial setting at the start in step S5103 as already described. As a result, when the set value update process is executed, it is possible to eliminate the state in which the main RAM 84 is abnormal after the update of the set values is completed.

On the other hand, if the reset button 196 has been pressed but the setting key insertion unit 195 has not been turned ON (step S4923: YES, step S4915: NO), the game stop flag in the work area 211 for specific control is set to "1". is set (step S4918). In the process of step S4918 after the game stop flag is set to "1" in step S4922, the game stop flag is set to "1" as a matter of course, so an affirmative determination is made in step S4918. In this case, in step S4924, processing for transmitting an abnormality command to the sound and light side MPU 93 is executed, and in step S4925, an abnormality signal is output to the outside.

In other words, if a negative determination is made in any of steps S4905 to S4907 due to the occurrence of an abnormality related to the power failure flag, checksum, and set value, the operation to the main MPU 82 is performed in the situation where the "RAM clear operation" is being performed. Even if power supply is started, RAM clear processing (step S4919) is not executed. Also, if the game stop flag is set to "1" and the "RAM clear operation" is being performed, the RAM clear processing ( Step S4919) is not executed. As a result, even if the supply of operating power to the main MPU 82 is started while the "RAM clearing operation" is being performed, the state in which the game stop flag is set to "1" is not cleared. It becomes possible. On the other hand, when the "setting change operation" is performed, regardless of whether or not the game stop flag is set to "1", the setting value update process is executed and the setting value update process is executed. The game stop flag is cleared to "0" in the initialization at the start (step S5103). As a result, it becomes necessary to execute the set value update process in order to eliminate the state in which the game stop flag is set to "1". Therefore, when an information abnormality occurs in the work area 211 for specific control, it is possible not only to initialize the work area 211 for specific control, but also to reset the set values. .

Further, when the supply of operating power to the main side MPU 82 is started in a situation where the game stop flag is set to "1", if the "setting change operation" is not performed, that is, "no operation" , or when the "RAM clearing operation" or "setting confirmation operation" is performed, an affirmative determination is made in step S4910 or step S4918, and processing for transmitting an abnormal command is executed in step S4924. In step S4925, external output processing at the time of abnormality is executed. As a result, when the game stop flag is set to "1", regardless of the processing results of steps S4905 to S4907 in the subsequent main processing, as long as the set value update processing is not executed, the operation to the main side MPU 82 Every time the supply of electric power is started, an abnormality notification in the pachinko machine 10 and an external output at the time of abnormality to the outside of the pachinko machine 10 are performed. Therefore, it is possible to make the manager of the game hall recognize that the set value should be changed.

When the process of step S4913 is executed, when the process of step S4914 is executed, when the process of step S4917 is executed, when the process of step S4921 is executed, or when the process of step S4925 is executed, the specific control Information corresponding to the initial check period (specifically, 5 seconds) is set in the checking counter 211g (see FIG. 78) provided in the work area 211 (step S4926). The value set in the checking counter 211g is decremented by 1 each time the second timer interrupt process (FIG. 114) is started. When a value of 1 or more is set in the checking counter 211g, the check display is continued on the first to fourth notification display devices 201 to 204. FIG. The contents of the check display will be described later in detail.

According to the above configuration, when the supply of operating power to the main MPU 82 is started, it is after the processing (steps S4901 to S4928) for starting the supply of operating power in the main MPU 82, which will be described later. Before the rest processing (steps S4929-S4932) starts, an initial check period starts. As a result, it is not necessary to control the initial check period when the operation power supply start process is being executed, so the processing load is reduced when the operation power supply start process is being executed. becomes possible.

Also, while the setting confirmation process and the setting value update process are executed as the process at the start of supply of operating power (steps S4901 to S4928), the process at the start of supply of operating power ends during the initial check period. is started when As a result, even if the check display is performed on the first to fourth notification display devices 201 to 204 during the initial check period, the setting values cannot be displayed using the first to fourth notification display devices 201 to 204. It is possible not to influence it.

After that, the first management process is executed by the CALLI instruction (step S4927). The CALLI instruction and first management processing will be described later in detail.

After that, the start-up processing flag in the work area 211 for specific control is cleared to "0" (step S4928). When the first timer interrupt process (FIG. 88) is started by clearing the start-up process flag to "0", the process of steps S5501 to S5504 and step S5521 is performed by making a negative determination in step S5505. In addition, the processing of steps S5506 to S5520 is executed, and the state in which the processing for progressing the game is not executed is released. In step S4928, the power failure flag in the work area 211 for specific control is also cleared to "0".

After that, the processing advances to remaining processing in steps S4929 to S4932. In other words, the main MPU 82 is configured to periodically execute the first timer interrupt processing (FIG. 88) and the second timer interrupt processing (FIG. 114). will have a residual time. This remaining time fluctuates according to the processing completion time of each timer interrupt process, but such irregular time is used to repeatedly execute the remaining process of steps S4929 to S4932. In this regard, it can be said that the remaining processes of steps S4929 to S4932 are irregular processes that are executed irregularly. In steps S4929 to S4932, the same processes as steps S127 to S130 of the main process (FIG. 13) in the first embodiment are executed.

Next, the process of step S4927 of the main process (FIG. 81) will be described.

In step S4927 of the main process (FIG. 81), the first management process is executed by the CALLI instruction as already described. The first management process is included in the non-specific control process. That is, in the main process (FIG. 81), when the state in which the specific control process is being executed changes to the situation in which the non-specific control process is to be executed, the non-specific control process is called using the CALLI instruction.

When the first management process is executed by the CALLI instruction, information in the flag register of the main MPU 82 is first saved in the stack area 212 for specific control. The flag register includes a carry flag, a zero flag, a P/V flag, a sign flag, a half carry flag, and the like, and the information in the flag register changes according to the execution results of operation instructions, rotate instructions, input/output instructions, and the like. By saving the information in the flag register before the program for the first management process, which is a non-specific control process, is started, it is possible to call the first management process and start the first management process. It is possible to save the information of the flag register in the state before the change later in the stack area 212 for specific control.

When the first management process is executed by the CALLI instruction, after the information in the flag register is saved in the stack area 212 for specific control, the first timer interrupt process (FIG. 88) and the second timer interrupt described later are executed. Interruption of processing (FIG. 114) is prohibited. As a result, the first timer interrupt process (FIG. 88) and the second timer interrupt process (FIG. 114), which are specific control processes, are interrupted and started while the first management process, which is non-specific control process, is being executed. It is possible to prevent it from being lost.

When the first management process is executed by the CALLI instruction, the information in the flag register is saved in the stack area 212 for specific control, and the first timer interrupt process (FIG. 88) and the second timer interrupt process (FIG. 114) are executed. ) is disabled, the program corresponding to the first management process is started.

In this way, with the configuration in which the first management process is executed by the CALLI instruction, the information of the flag register of the main side MPU 82 is saved in the stack area 212 for specific control by one instruction ("CALLI"). At the same time, the first timer interrupt processing (FIG. 88) and the second timer interrupt processing (FIG. 114) are prohibited. Then, a program corresponding to the first management process can be started. For this reason, an instruction to save the information of the flag register of the main MPU 82 to the stack area 212 for specific control and the interruption of the first timer interrupt processing (FIG. 88) and the second timer interrupt processing (FIG. 114) are prohibited. to reduce the number of instructions set in the program for executing the first management process, compared with the case where the instruction for executing the first management process and the instruction for starting the program for the first management process are separately provided. be able to. As a result, the storage capacity of the main ROM 83 for storing programs can be reduced.

FIG. 85 is a flow chart showing the first management process. The processing of steps S5201 to S5216 in the first management process is executed by the non-specific control processing unit 222 of the main MPU 82 using the non-specific control program and non-specific control data.

First, as "LD SP, Y(u+2)", Y(u+2) is set as a fixed address at the start of non-specific control in the stack pointer of the main MPU 82 by a load instruction (step S5201). The stack pointer is an area in which address information is set for the main MPU 82 to specify a storage area to which information is to be written by a push instruction in the stack areas 212 and 214 . Each time a push instruction is performed, the stack pointer information is updated to the address information of the storage area to be written in the next order, and each time a pop instruction is performed, the stack pointer information is updated to the previous order to be written is updated to the information of the address of the storage area. Further, when the stack area 214 for non-specific control is used, the information to be stored is stored from the storage area of the last address in the stack area 214 for non-specific control, and each time the information to be stored is added. Then, the storage area of the storage destination is changed toward the first address side in the stack area 214 for non-specific control. Therefore, in step S5201, the information of the last address in stack area 214 for non-specific control is set in the stack pointer. The fact that information is stored from the storage area of the last address to the storage area of the first address in this manner is the same for the stack area 212 for specific control.

Incidentally, in both the stack area 212 for specific control and the stack area 214 for non-specific control, if a push instruction is additionally executed even though information is set in all storage areas, All areas of the main side RAM 84 are cleared to "0" assuming that an abnormality has occurred in the storage process. As a result, it is possible to prevent the game from proceeding despite the occurrence of an abnormality in the memory processing.

Thereafter, as "LD (_WABUF), WA", the information in the WA register of the main side MPU 82 is saved in the WA buffer set in the non-specific control work area 213 by the load instruction (step S5202). Also, as "LD (_BCBUF), BC", the information in the BC register of the main MPU 82 is saved in the BC buffer set in the non-specific control work area 213 by the load instruction (step S5203). Also, as "LD (_DEBUF), DE", the information in the DE register of the main MPU 82 is saved in the DE buffer set in the non-specific control work area 213 by the load instruction (step S5204). Also, as "LD (_HLBUF), HL", the information in the HL register of the main MPU 82 is saved in the HL buffer set in the non-specific control work area 213 by the load instruction (step S5205). Also, as "LD (_IXBUF), IX", the information in the IX register of the main MPU 82 is saved in the IX buffer set in the non-specific control work area 213 by the load instruction (step S5206). Also, as "LD (_IYBUF), IY", the information in the IY register of the main MPU 82 is saved in the IY buffer set in the non-specific control work area 213 by the load instruction (step S5207).

In the general-purpose register area 223a in the register area 223 of the main MPU 82, there are various general-purpose registers, auxiliary registers and index registers in addition to the flag registers already described. In this case, in steps S5202 to S5207, each information of the WA register, BC register, DE register, HL register, IX register and IY register, which are some of these various general purpose registers, auxiliary registers and index registers is saved in the corresponding buffer in the work area 213 for non-specific control. The information amount of each of the WA register, BC register, DE register, HL register, IX register and IY register is 2 bytes.

These WA register, BC register, DE register, HL register, IX register, and IY register are registers used in the initialization processing (step S5208) and disconnection/short-circuit processing (step S5209), which are processes corresponding to non-specific control. be. By saving the information set in such registers to the work area 213 for non-specific control prior to executing the initial setting process (step S5208) and the disconnection/short-circuit process (step S5209), the information is used for the specific control. It is also possible to save the information in these registers before the non-specific control is started. Therefore, even if these registers are overwritten during the non-specific control, the information saved in the work area 213 for non-specific control is returned to these registers when the non-specific control is terminated. can be returned to the state corresponding to the specific control before the non-specific control is executed.

In addition, instead of saving all information of various general-purpose registers, auxiliary registers, and index registers to the work area 213 for non-specific control, initialization processing (step S5208) and disconnection processing, which are processing corresponding to non-specific control, are performed. By selectively saving the information of the WA register, BC register, DE register, HL register, IX register, and IY register to be used in the short-circuit processing (step S5209) to the work area 213 for non-specific control, It is possible to reduce the capacity to be secured for saving register information in the work area 213 for specific control. Therefore, while securing a large capacity of the work area 213 for non-specific control that can be used for the initial setting process (step S5208) and the disconnection/short-circuit process (step S5209), the above register information is saved. becomes possible.

Of course, among various general-purpose registers, auxiliary registers, and index registers in the main MPU 82, registers other than the WA register, BC register, DE register, HL register, IX register, and IY register support non-specific control. The information set before the start of the processing to be performed is stored and retained until the processing corresponding to the non-specific control ends and the processing corresponding to the specific control is restarted.

In addition, by saving register information in the work area 213 for non-specific control instead of saving it in the stack area 214 for non-specific control, the capacity of the stack area 214 for non-specific control can be reduced accordingly. It becomes possible. Also, when using the stack area 214 for non-specific control, as already explained, information is written in the order in which later information is read out first. Otherwise, all subsequent read order information will be returned to different registers. The probability of occurrence of such an event increases as the amount of information saved in the stack area 214 for non-specific control increases. On the other hand, by saving the register information to the work area 213 for non-specific control, it is possible to prevent the above-described phenomenon from occurring even when there is a large amount of information to be saved. .

After executing the processes of steps S5202 to S5207, the initial setting process (step S5208) and disconnection/short circuit process (step S5209) are executed. When executing the initial setting process (step S5208) and the disconnection/short-circuit process (step S5209), a subroutine corresponding to the initial setting process (step S5208) and the disconnection/short-circuit process (step S5209) set in the non-specific control program When executing the program of the subroutine, in order to specify the return address of the first management process after executing the initial setting process (step S5208) and the disconnection/short-circuit process (step S5209) is written to the stack area 214 for non-specific control by a push instruction. Then, when the initial setting process (step S5208) and the disconnection/short-circuit process (step S5209) are completed, information for specifying the return address is read out by the pop instruction, and the first management process indicated by the return address is executed. program. Details of the initial setting process (step S5208) and the disconnection/short-circuit process (step S5209) will be described later.

After executing the initial setting process (step S5208) and the disconnection/short-circuit process (step S5209), the stack pointer of the main side MPU 82 is set to the end of the first management process by the load instruction as "LD SP, Y(r+a)". Y(r+a) is set as a fixed address when returning to specific control later (step S5210). The address of Y(r+a) is set as an address between Y(r+8) and Y(s) in the stack area 212 for specific control.

Immediately before the first management process is called in step S4927 of the main process (FIG. 81), the amount of information stored in the stack area 212 for specific control is always constant. The stack pointer information (that is, the value of the stack pointer) is constant. In this case, the information stored in the specific control stack area 212 includes, for example, return address information of the main process (FIG. 81) after the first management process ends. The constant information of the stack pointer is Y(r+a). Therefore, when the initial setting process (step S5208) and the disconnection/short-circuit process (step S5209), which are processes corresponding to the non-specific control, are completed and the process corresponding to the specific control is resumed, the certain information Y By setting (r+a) to the stack pointer of the main MPU 82, it is possible to return the information of the stack pointer to the information immediately before the process corresponding to non-specific control is started. By setting the fixed information in the stack pointer in this way, the information of the stack pointer is restored to the information immediately before the processing corresponding to the non-specific control is started, so that the main side corresponding to the specific control It becomes unnecessary to save the information of the stack pointer of the MPU 82 to the main side RAM 84 before starting the processing corresponding to non-specific control. Therefore, it is possible to reduce the processing load and eliminate the need to secure an area for saving in the main RAM 84 .

Thereafter, as "LD WA, (_WABUF)", the WA register of the main MPU 82 is overwritten with the information saved in the WA buffer of the non-specific control work area 213 by the load instruction (step S5211). Also, as "LD BC, (_BCBUF)", the BC register of the main MPU 82 is overwritten with the information saved in the BC buffer of the non-specific control work area 213 by the load instruction (step S5212). Also, as "LD DE, (_DEBUF)", the DE register of the main MPU 82 is overwritten with the information saved in the DE buffer of the non-specific control work area 213 by the load instruction (step S5213). Also, as "LD HL, (_HLBUF)", the HL register of the main MPU 82 is overwritten with the information saved in the HL buffer of the non-specific control work area 213 by the load instruction (step S5214). Also, as "LD IX, (_IXBUF)", the IX register of the main MPU 82 is overwritten with the information saved in the IX buffer of the non-specific control work area 213 by the load instruction (step S5215). Also, as "LD IY, (_IYBUF)", the IY register of the main MPU 82 is overwritten with the information saved in the IY buffer of the non-specific control work area 213 by the load instruction (step S5216). By executing the processing of steps S5211 to S5216, each information of the WA register, BC register, DE register, HL register, IX register and IY register of the main MPU 82 is processed corresponding to non-specific control. It is possible to restore the information corresponding to the specific control immediately before the control.

After executing the processing of steps S5211 to S5216, the RETI instruction returns to the main processing (FIG. 81) included in the specific control processing. By executing the RETI instruction, information in the flag register saved in the stack area 212 for specific control before execution of the first management process is restored to the flag register of the main MPU 82, and the first timer interrupt is executed. The state in which the processing (FIG. 88) and the second timer interrupt processing (FIG. 114) are prohibited is switched to the state in which they are permitted. As a result, the information in the flag register of the main MPU 82 is restored to the information for executing the specific control, and new execution of the first timer interrupt process and the second timer interrupt process becomes possible.

With the configuration for executing the RETI instruction, information in the flag register saved in the stack area 212 for specific control before execution of the first management process is transferred to the main MPU 82 by one instruction ("RETI"). It is possible to restore the flag register and switch from the state in which the generation of the first timer interrupt processing (FIG. 88) and the second timer interrupt processing (FIG. 114) is prohibited to the state in which it is permitted. For this reason, an instruction for restoring the flag register information saved in the stack area 212 for specific control before execution of the first management process to the flag register of the main side MPU 82 and the first timer interrupt process (FIG. 88 ) and second timer interrupt processing (FIG. 114) are set in the program for non-specific control processing, compared to the case where the instruction for switching from the state in which the generation of the second timer interrupt processing (FIG. 114) is prohibited to the state in which it is permitted is provided separately. You can reduce the number of instructions. As a result, it is possible to reduce the storage capacity of the main-side ROM 83 for storing programs for non-specific control processing.

Information stored in the flag register and various registers of the main MPU 82 when the non-specific control process is executed is not saved in the main RAM 84 when the specific control process is restarted. This eliminates the need to secure a storage area for saving the above information in the work area 211 for specific control and the stack area 212 for specific control.

Further, the information stored in the flag register and various registers of the main MPU 82 when the non-specific control process is executed is stored when the non-specific control process is restarted after returning to the specific control process. Information that is not used. In other words, information necessary for a plurality of times of non-specific control processing executed with specific control processing intervening is stored in the work area 213 for non-specific control or the stack area 214 for non-specific control. It is not stored in the flag register and various registers of the main MPU 82. Therefore, even if the information stored in the flag register and various registers of the main side MPU 82 is not saved in the main side RAM 84 when the non-specific control process is executed, a problem arises in executing the non-specific control process. do not have.

Next, the initialization process executed by calling the subroutine program in step S5208 will be described. FIG. 86 is a flowchart showing initialization processing. The processes of steps S5301 to S5304 in the initial setting process are executed by the non-specific control processing unit 222 of the main MPU 82 using a program for non-specific control and data for non-specific control.

In the initial setting process, among the storage areas of the work area 213 for non-specific control, the already explained first to eighth winning monitoring timer counters 213a to 213h, the magnetic detection counter 213i, the magnetic monitoring delay timer counter 213j, the second security counter 213k, first to third general prize winning abnormality flags 213l to 213n, special electric prize winning abnormality flag 213o, first operation winning abnormality flag 213p, second operation winning abnormality flag 213q, out abnormality flag 213r, gate winning abnormality flag 213s and A process for initializing the magnetic anomaly flag 213t is executed. These first to eighth winning monitoring timer counters 213a to 213h, magnetic detection counter 213i, magnetic monitoring delay timer counter 213j, second security counter 213k, first to third general winning abnormality flags 213l to 213n, special electric winning abnormality flag 213o. , the first operation winning abnormality flag 213p, the second operation winning abnormality flag 213q, the out abnormality flag 213r, the gate winning abnormality flag 213s and the magnetic abnormality flag 213t all have a data capacity of 1 byte. The addresses are set so that they are consecutive numbers. 1st to 8th winning monitoring timer counters 213a to 213h, respectively→magnetism detection counter 213i→magnetism monitoring delay timer counter 213j→second security counter 213k→first to third general winning abnormality flags 213l to 213n→special electric winning abnormality flag The address increases by "1" in the order of 213o→first operation winning abnormality flag 213p→second operation winning abnormality flag 213q→out abnormality flag 213r→gate winning abnormality flag 213s→magnetic abnormality flag 213t.

In the initial setting process, first, a start address is set as an initial setting target address in a predetermined register of the main MPU 82 (step S5301). The start address is the address of the first winning monitoring timer counter 213a.

After that, the area corresponding to the initial setting target address is initialized (step S5302). When the initial setting target address is the start address, the area corresponding to the start address is the first winning monitor timer counter 213a, so the first winning monitor timer counter 213a is initialized. Specifically, as an initial setting, the first winning monitoring timer counter 213a is cleared to "0".

After that, it is determined whether or not the initial setting target address is the final address (step S5303). The final address is the address of the magnetic anomaly flag 213t. If the initial setting target address is not the final address (step S5303: NO), the initial setting target address is updated to the next address in order (step S5304). Specifically, 1 is added to the initial setting target address. Then, in step S5302, the area corresponding to the address after adding 1 is initialized, and the processing in step S5303 is executed.

When the process of step S5304 is executed in a situation where the initial setting target address is the start address, the initial setting target address becomes the address of the second winning monitoring timer counter 213b, and the second winning monitoring timer counter 213b Initialization is done. Specifically, as an initial setting, the second winning monitoring timer counter 213b is cleared to "0". Further, when the process of step S5304 is executed in a situation where the address of the second winning monitoring timer counter 213b is the initial setting target address, the initial setting target address becomes the address of the third winning monitoring timer counter 213c. Initial setting is performed for the third prize winning monitoring timer counter 213c. Specifically, as an initial setting, the third winning monitoring timer counter 213c is cleared to "0".

When the address of the magnetic anomaly flag 213t corresponding to the final address is set as the initial setting target address in the process of step S5304 by repeating the processing of steps S5302 to S5304, the magnetic anomaly flag 213t is set as the initial setting. After clearing "0", an affirmative determination is made in step S5303. This initial setting process ends by making an affirmative determination in step S5303. In the initial setting process (FIG. 86), a normal counter area 251, a calculation result storage area 252, a display target setting area 253, a switching timing counter 254, and a display target are provided in the work area 213 for non-specific control. The initialization of step S5302 is not executed for the counter 255 .

Next, the disconnection/short-circuit processing executed by calling the subroutine program in step S5209 will be described. FIG. 87 is a flow chart showing disconnection and short-circuit processing. The processing of steps S5401 to S5411 in the disconnection/short-circuit processing is executed by the non-specific control processing unit 222 of the main MPU 82 using a non-specific control program and non-specific control data.

First, the value of the monitored counter provided in the non-specific control work area 213 is cleared to "0" (step S5401). The monitoring target counter is a counter for specifying the type of detection sensor to be monitored for occurrence of disconnection or short circuit by the main MPU 82 . First to third winning opening detection sensors 231a to 233a provided for each of the three general winning openings 31 as detection sensors to monitor the occurrence of disconnection or short circuit, and provided in the special electric winning device 32 A special electric detection sensor 234a, a first working opening detection sensor 235a provided in the first working opening 33, a second working opening detecting sensor 236a provided in the second working opening 34, an out opening detection sensor provided in the out opening 24a There is a sensor 237a and a gate detection sensor 238a provided on the through gate 35 (see FIG. 90). When the monitored counter value is "0", it corresponds to the first winning opening detection sensor 231a, and when the monitoring target counter value is "1", it corresponds to the second winning opening detection sensor 232a. A case where the value of the monitored counter is "2" corresponds to the third winning opening detection sensor 233a, and a case where the value of the monitored counter is "3" corresponds to the special electric detection sensor 234a. , the case where the value of the monitoring target counter is "4" corresponds to the first working opening detection sensor 235a, and the case where the monitoring target counter value is "5" corresponds to the second working opening detection sensor 236a. A monitored counter value of "6" corresponds to the outlet detection sensor 237a, and a monitored counter value of "7" corresponds to the gate detection sensor 238a.

A voltage of 12V is applied to each of the detection sensors 231a to 238a through an electric path for input. Further, the detection sensors 231a to 238a are connected to the main MPU 82 through electric paths for output, and apply voltages to the main MPU 82 according to the detection results of the detection sensors 231a to 238a. In this case, a plurality of resistors are connected to the electrical path for output, and these resistors keep the voltage applied to the main MPU 82 below a predetermined value and the current supplied thereto below a predetermined value. function is fulfilled.

An electrical signal is input to the main side MPU 82 according to the presence or absence of passage of the game ball at the detection portions of the detection sensors 231a to 238a. In this case, a LOW level electrical signal is input to the main side MPU 82 when the game ball is not passing through the detection parts of the detection sensors 231a to 238a, and a HI level electrical signal is input when the game ball is passing through the detection parts. A signal is input to the main MPU 82 .

When disconnection occurs in each of the electric paths or inside the sensors of the detection sensors 231a to 238a, the voltage input from the detection sensors 231a to 238a to the main side MPU 82 is lower than when it is at the LOW level. voltage (ie 0V). Further, when a short circuit occurs between the electric paths or inside the sensor, the voltage input from the detection sensors 231a to 238a to the main side MPU 82 becomes a higher voltage than in the case of HI level. When the voltage applied from each of the detection sensors 231a to 238a is lower than the LOW level, the main MPU 82 determines that a disconnection has occurred, and the voltage applied from each of the detection sensors 231a to 238a If the voltage applied is higher than the HI level, it is determined that a short circuit has occurred.

In the disconnection/short-circuit processing, after the value of the monitored counter is cleared to "0" in step S5401, the voltage input from the detection sensors 231a to 238a corresponding to the monitored counter value is a voltage lower than the LOW level. (that is, 0 V), it is determined whether or not disconnection has occurred (step S5402). Then, when it is determined that a disconnection has occurred (step S5403: YES), the disconnection generation command is stored in the command transmission buffer 223b in the register area 223 of the main side MPU 82 (step S5404). By storing the disconnection generation command in the command transmission buffer 223 b , the command transmission circuit 224 operates to transmit the disconnection generation command to the sound and light side MPU 93 . The sound and light side MPU 93 receives the disconnection generation command, and causes the display light emitting unit 64, the speaker unit 65 and the pattern display device 41 to notify that the disconnection has occurred. In this disconnection notification, the type of the detection sensor 231a to 238a that specified the current disconnection occurrence may also be notified.

After that, 1 is added to the value of the second security counter 213k provided in the work area 213 for non-specific control (step S5405). As already explained, the second security counter 213k is a counter used by the main MPU 82 to determine whether or not it is necessary to externally output a pulse-shaped security signal from the main MPU 82 to the management computer of the gaming hall. It is a counter that is used by the main MPU 82 to specify the number of times the pulse-shaped security signal is output to the outside.

When a negative determination is made in step S5403, or when the process of step S5405 is executed, the voltage input from the detection sensors 231a to 238a corresponding to the value of the monitoring target counter becomes a higher voltage than in the case of HI level. By determining whether or not there is a short circuit, it is determined whether or not a short circuit has occurred (step S5406). When it is determined that a short circuit has occurred (step S5407: YES), the short circuit generation command is stored in the command transmission buffer 223b in the register area 223 of the main MPU 82 (step S5408). By storing the short-circuit generation command in the command transmission buffer 223 b , the command transmission circuit 224 operates to transmit the short-circuit generation command to the sound and light side MPU 93 . By receiving the short-circuit generation command, the sound and light side MPU 93 causes the display light-emitting section 64, the speaker section 65 and the pattern display device 41 to notify that the short-circuit has occurred. In this short-circuit notification, the type of the detection sensor 231a to 238a that specified the occurrence of the current short-circuit may also be notified.

After that, 1 is added to the value of the second security counter 213k provided in the work area 213 for non-specific control (step S5409). As already explained, the second security counter 213k is a counter used by the main MPU 82 to determine whether or not it is necessary to externally output a pulse-shaped security signal from the main MPU 82 to the management computer of the gaming hall. It is a counter that is used by the main MPU 82 to specify the number of times the pulse-shaped security signal is output to the outside.

If a negative determination is made in step S5407, or if the process of step S5409 is executed, it is determined whether or not the value of the monitored counter is the maximum value of "7" (step S5410). If a negative determination is made in step S5410, after adding 1 to the value of the counter to be monitored (step S5411), the detection sensors 231a to 238a corresponding to the value of the counter to be monitored after the addition of 1 are subjected to step S5402 to step S5402. The processing of S5409 is executed. If it is determined in step S5410 that the value of the monitored counter is the maximum value, this disconnection/short-circuit processing ends.

<First timer interrupt processing>
Next, the first timer interrupt processing executed by the main MPU 82 will be described. FIG. 88 is a flow chart showing the first timer interrupt processing. Of the processes of steps S5501 to S5521 in the first timer interrupt process, processes other than the fraud detection process called and executed in step S5509 and the second management process called and executed in step S5521 is executed by the specific control processing unit 221 of the main MPU 82 using the specific control program and specific control data, and the fraud detection process and the second management process are executed by the non-specific control program and non-specific control It is executed by the non-specific control processing unit 222 of the main MPU 82 using data for specific control.

First, power failure monitoring processing is executed (step S5501). In the power failure monitoring process, it is monitored whether or not a power failure signal corresponding to the occurrence of a power failure is received from the power failure monitoring board 85, and when the occurrence of a power failure is specified, an infinite loop occurs after the power failure process is executed. . In the power failure processing, the power failure flag of the main RAM 84 is set to "1", the checksum is calculated, and the calculated checksum is stored.

After that, random number update processing for lottery is executed (step S5502). In the lottery random number update process, the winning random number counter C1, the type random number counter C2, the reach random number counter C3, and the general electrical random number counter C4 are updated. Specifically, the current numerical information is sequentially read from the hit random number counter C1, the type random number counter C2, the reach random number counter C3 and the general electric random number counter C4, and after executing the process of adding 1 to each of the read numerical information, Executes the process of overwriting the read source counter. In this case, they are cleared to "0" when the counter value exceeds the maximum value. Thereafter, in step S5503, random number initial value update processing is executed in the same manner as in step S4930 of the main processing (FIG. 81), and in step S5504, fluctuation counter update processing is executed in the same manner as in step S4931 of the main processing (FIG. 81). do.

Thereafter, it is determined whether or not "1" is set to either the game stop flag or the start-up processing flag of the main RAM 84 (step S5505). If "1" is set to either the game stop flag or the start-up processing flag (step S5505: YES), the game history is managed in step S5521 without executing the processing of steps S5506 to S5520. Proceed to processing for As a result, in a situation where the game stop flag or the start-up processing flag is set to "1", power failure monitoring, random number update, and game history management are executed in the first timer interrupt process (FIG. 88). However, it is possible to prevent the processing for progressing the game in steps S5506 to S5520 from being executed.

When "1" is not set to both the game stop flag and the start-up processing flag (step S5505: NO), the process for advancing the game in steps S5506 to S5520 is executed. Specifically, first, port output processing is executed (step S5506). In the port output process, when the output information has been set in the previous first timer interrupt process, the process for outputting corresponding to the output information to the various driving units 32b and 34b is executed. For example, when the information to switch the special electric prize winning device 32 to the open state is set, the output of the drive signal to the special electric drive unit 32b is started, and when the information to switch to the closed state is set stops the output of the drive signal. In addition, when information is set to switch the general electric accessory 34a of the second operation port 34 to the open state, the output of the drive signal to the general electric drive unit 34b is started to switch to the closed state. When the information is set, the output of the drive signal is stopped.

After that, read processing is executed (step S5507). In the reading process, signals other than the power failure signal and the winning signal are read, and the read information is stored for use in future processing. After that, ball entry detection processing is executed (step S5508). In the entering ball detection process, signals received from the detection sensors 231a to 238a are read, and the out port 24a, the general winning port 31, the special electric winning device 32, the first operating port 33, the second operating port 34 and the through A process of specifying whether or not the ball has entered the gate 35 is executed.

Thereafter, fraud detection processing is executed by the CALLI instruction (step S5509). The fraud detection process will be described later in detail. After that, specific control timer update processing for collectively updating numerical information of a plurality of types of timer counters provided in the specific control work area 211 of the main RAM 84 is executed (step S5510). In this case, the timer counters that are updated by subtracting the stored numerical information are collectively handled. may be configured. Thereafter, fraud handling processing is executed (step S5511). The fraud handling process will be described later in detail.

After that, a launch control process for controlling the launch of game balls is executed (step S5512). In a situation where the shooting operation is continued with respect to the shooting operation device 28, one game ball is shot every 0.6 seconds so as to have a predetermined shooting cycle as in the first embodiment. After that, as input state monitoring processing, based on the information read in the reading processing of step S5507, open confirmation of the gaming machine main body 12 and the front door frame 14 is performed (step S5513).

After that, along with executing the special figure special electric control processing for performing the execution control of the game round and the execution control of the open/close execution mode (step S5514), the display control of the general figure display unit 38a and the execution control of the general electric open state are performed. Executes the general map general electric control processing for the purpose (step S5515). The processing contents of these special figure special electric control processing and general figure general electric control processing are basically the same as those of the first embodiment. The processing configuration of the different part will be explained later.

In subsequent step S5516, based on the processing results of step S5514 and step S5515 immediately before, setting the output information for reflecting the increase or decrease number of the first reservation information to the first special figure reservation display unit 37c, the second reservation information Set the output information for reflecting the increase/decrease number in the second special figure reservation display section 37d, and set the output information for reflecting the increase/decrease number of the reservation information on the normal diagram side in the normal diagram reservation display section 38b. In addition, in step S5516, based on the processing results of step S5514 and step S5515 immediately before, with setting the output information for updating the display contents of the first special figure display unit 37a and the second special figure display unit 37b , and sets output information for updating the display contents of the normal map display section 38a.

After that, the content of the command and signal received from the payout control device 77 is confirmed, and payout state reception processing for performing processing corresponding to the confirmation result is executed (step S5517). Also, a payout output process for setting the prize ball command as an output target is executed (step S5518). Also, external information setting processing is executed for controlling the start and end of the output of the external signal according to the processing results of the various processing executed in the current first timer interrupt processing (step S5519).

Thereafter, setting monitoring processing is executed (step S5520). In the setting monitoring process, by determining whether or not the setting value information stored in the setting reference area of the main side RAM 84 is one of "1" to "6", it is set as a use target. It is determined whether the setting value is one of "setting 1" to "setting 6". If the setting value information stored in the setting reference area is "0" or 7 or more, it means that the setting value set as the object to be used is abnormal. is set to "1". As a result, the game cannot proceed until the setting value to be used is newly set in the setting value update process (FIG. 83).

If an affirmative determination is made in step S5505, or if the process of step S5520 is executed, the second management process is executed by the CALLI command (step S5521). The second management process will be described later in detail.

<Structure related to winning>
Next, a configuration relating to prize winning will be described. FIG. 89 is an explanatory diagram for explaining a configuration relating to discharge of game balls that have flowed down the game area PA.

As in the first embodiment, a game ball entering any of the general winning port 31, the special electric winning device 32, the first operating port 33, the second operating port 34 and the out port 24a is discharged from the game area PA. be. In other words, the game ball launched from the game ball launching mechanism 27 and flowed into the game area PA is any of the general winning port 31, the special electric winning device 32, the first operating port 33, the second operating port 34 and the out port 24a It will be discharged from the game area PA by entering the ball into. A game ball entering any one of the general prize winning port 31, the special electric prize winning device 32, the first operating port 33, the second operating port 34 and the out port 24a is led to the back side of the game board 24.例文帳に追加

On the back surface of the game board 24, discharge passage portions 231 to 237 are formed corresponding to the general prize winning port 31, the special electric prize winning device 32, the first operating port 33, the second operating port 34 and the out port 24a, respectively. . The game balls that have flowed into the discharge passage portions 231 to 237 flow down the discharged discharge passage portions 231 to 237, and are guided to the lower end portion of the game board 24 on the back side of the game board 24 and to a discharge ball recovery portion (not shown). is recovered. Then, the game balls collected by the discharge ball collecting section are discharged to the ball circulation device of the island facility where the pachinko machine 10 is installed in the game hall.

Various detection sensors 231a to 237a for detecting game balls are provided in the discharge passage portions 231 to 237, respectively. These discharge passage portions 231 to 237 and detection sensors 231a to 237a will be described below. Since three general prize-winning ports 31 are provided, there are discharge passage portions 231 to 233 corresponding to each of the three. A first winning opening detection sensor 231a is provided so that a detection range exists in the middle of the first discharge passage portion 231 corresponding to the leftmost general winning opening 31 among these, and a general winning opening on the right side thereof. A second winning opening detection sensor 232a is provided so that a detection range exists in the middle of the second discharging passage portion 232 corresponding to the opening 31, and a third discharging passage portion corresponding to the rightmost general winning opening 31. A third winning opening detection sensor 233a is provided so that a detection range exists in the middle position of 233 .

A fourth discharge passage portion 234 exists corresponding to the special electric prize winning device 32 . A special electric detection sensor 234a is provided so that a detection range exists in the middle of the fourth discharge passage portion 234, and the game ball entering the special electric winning device 32 passes through the fourth discharge passage portion 234. It is detected by the special electric detection sensor 234a. A fifth discharge passage portion 235 exists corresponding to the first operation port 33 . A first operation opening detection sensor 235a is provided so that a detection range exists in the middle of the fifth discharge passage portion 235, and the game ball entering the first operation opening 33 passes through the fifth discharge passage portion 235. It is detected by the first operating opening detection sensor 235a while passing through. A sixth discharge passage portion 236 is present corresponding to the second operation port 34 . A second operation opening detection sensor 236a is provided so that a detection range exists in the middle of the sixth discharge passage portion 236, and the game ball entering the second operation opening 34 passes through the sixth discharge passage portion 236. It is detected by the second operation opening detection sensor 236a while passing through. A seventh discharge passage portion 237 is present corresponding to the out port 24a. An out-port detection sensor 237a is provided so that a detection range exists in the middle of the seventh discharge passage portion 237, and the game ball entering the out port 24a passes through the seventh discharge passage portion 237. It is detected by the outlet detection sensor 237a.

A game ball that has been detected by any one of the detection sensors 231a to 237a out of the various detection sensors 231a to 237a will not be detected by the other detection sensors 231a to 237a. A gate detection sensor 238a is also provided for the through gate 35, and the game ball passing through the through gate 35 on the way down the game area PA is detected by the gate detection sensor 238a.

Electromagnetic induction type proximity sensors are used as the various detection sensors 231a to 238a, but any sensor can be used as long as it can detect game balls individually. Various detection sensors 231a to 238a are electrically connected to the main side MPU 82, and detection results of the various detection sensors 231a to 238a are output to the main side MPU . Specifically, the various detection sensors 231a to 238a output a LOW level signal when no game ball is detected, and output a HI level signal when a game ball is detected. Note that the relationship between HI and LOW may be reversed without being limited to this.

Next, in the main side MPU 82, based on the detection results of each detection sensor 231a to 238a, the out port 24a, the general prize winning port 31, the special electric prize winning device 32, the first operation port 33, the second operation port 34 and the through gate 35 A description will be given of a configuration for specifying the presence or absence of entry of a game ball to. FIG. 90 is an explanatory diagram for explaining a configuration for inputting the detection results of the detection sensors 231a to 238a to the main MPU 82. As shown in FIG.

An input port 241 is provided in the main MPU 82 . The input port 241 is configured as an 8-bit parallel interface so that it can handle 8 types of signals simultaneously. Areas for storing information of "0" or "1" according to the voltage of each signal are provided in one-to-one correspondence with each terminal. That is, the area includes 0th bit D0 to 7th bit D7. In addition, although more than eight types of signals are input to the input port 241, in order to limit the targets to be input at the same time to eight types, the signal group to be input to the input port 241 depends on the driver IC. Switched through switching control.

In the entering ball detection process (step S5508) of the first timer interrupt process (FIG. 88), the signal group to be input to the input port 241 is set to the signal group from each of the detection sensors 231a to 238a. In such a setting, the 0th bit D0 stores information corresponding to the detection signal from the first winning opening detection sensor 231a, and the first bit D1 corresponds to the detection signal from the second winning opening detection sensor 232a. The second bit D2 stores information corresponding to the detection signal from the third winning opening detection sensor 233a, and the third bit D3 stores information corresponding to the detection signal from the special train detection sensor 234a. , the fourth bit D4 stores information corresponding to the detection signal from the first working opening detection sensor 235a, the fifth bit D5 stores information corresponding to the detection signal from the second working opening detection sensor 236a, and the The sixth bit D6 stores information corresponding to the detection signal from the outlet detection sensor 237a, and the seventh bit D7 stores information corresponding to the detection signal from the gate detection sensor 238a.

Each of the detection sensors 231a to 238a outputs a LOW level signal indicating non-detection as a detection signal when the passage of the game ball is not detected, and when the passage of the game ball is detected. outputs a HI level signal indicating that detection is in progress as a detection signal. When the input port 241 receives a LOW level signal, it stores "0" information in the corresponding bit, and when it receives a HI level signal, stores "1" in the corresponding bit. store the information of In other words, when the detection sensors 231a to 238a do not detect the passage of the game ball, "0" information corresponding to the information indicating non-detection is stored in the corresponding bit, and the passage of the game ball is detected. In the state where detection is being performed, information of "1" corresponding to information indicating that detection is being performed is stored for the corresponding bit.

FIG. 91 is a flow chart showing the ball-entering detection process executed in step S5508 of the first timer interrupt process (FIG. 88). The processing of steps S5601 to S5623 in the ball entry detection process is executed by the specific control processing section 221 of the main side MPU 82 using a program for specific control and data for specific control.

First, various flag clearing processes are executed (step S5601). In the various flag clearing process, the first winning confirmation flag, the second winning confirmation flag, the third winning confirmation flag, the special train winning flag, and the first operation winning confirmation flag provided in the confirmation flag group 211d of the work area 211 for specific control are cleared. , the second operation winning confirmation flag, the out confirmation flag and the gate winning confirmation flag are cleared to "0". The contents of each of these confirmation flags will be explained later. Note that the ball-entering detection process is executed in each process of the first timer interrupt process (FIG. 88) in a situation where a negative determination is made in step S5505 of the first timer interrupt process (FIG. 88). , since the execution of the process corresponding to the state of the confirmation flag is completed after the ball entry detection process is executed in each processing cycle of the first timer interrupt process (FIG. 88), every time the ball entry detection process is started Even if the confirmation flag is cleared to "0" at this time, no problem occurs.

When it is confirmed that the state in which information "0" is stored in the 0th bit D0 has changed to the state in which information "1" is stored, the first winning hole detection sensor 231a detects one It is determined that a game ball has been detected (step S5602: YES). In this case, "1" is set to the first winning confirmation flag in the work area 211 for specific control (step S5603), and the value of the 10 prize ball counter provided in the work area 211 for specific control is set to 1. Add (step S5604). The first winning confirmation flag is a flag for specifying in the main side MPU 82 that one game ball has been detected by the first winning opening detection sensor 231a. The 10 prize ball counter is a counter for specifying the number of times the main side MPU 82 should pay out 10 game balls. When the value of the 10 prize ball counter is 1 or more, the 10 prize ball command is output to the payout control device 77 in the payout output process of step S5518 in the first timer interrupt process (FIG. 88). When the prize ball command is output once, the value of the 10 prize ball counter is decremented by one. When the payout control device 77 receives the 10 prize ball command, it drives and controls the payout device 76 so that 10 game balls are paid out.

When it is confirmed that the state in which the information "0" is stored in the first bit D1 has changed to the state in which the information "1" is stored, the second winning hole detection sensor 232a detects one It is determined that a game ball has been detected (step S5605: YES). In this case, "1" is set to the second winning confirmation flag in the work area 211 for specific control (step S5606), and the value of the counter for 10 prize balls in the work area 211 for specific control is incremented by 1 ( step S5607). The second winning confirmation flag is a flag for specifying in the main side MPU 82 that one game ball has been detected by the second winning opening detection sensor 232a.

When it is confirmed that the state where the information of "0" is stored in the second bit D2 is switched to the state where the information of "1" is stored, the third winning hole detection sensor 233a detects one It is determined that a game ball has been detected (step S5608: YES). In this case, "1" is set to the third winning confirmation flag in the work area 211 for specific control (step S5609), and 1 is added to the value of the counter for 10 prize balls in the work area 211 for specific control ( step S5610). The third winning confirmation flag is a flag for specifying in the main side MPU 82 that one game ball has been detected by the third winning opening detection sensor 233a.

When it is confirmed that the state in which information "0" is stored in the third bit D3 has changed to the state in which information "1" is stored, one game ball is detected by the special electric detection sensor 234a. It is determined that it has been detected (step S5611: YES). In this case, "1" is set to the special electric prize confirmation flag in the work area 211 for specific control (step S5612), and the value of the counter for 15 prize balls provided in the work area 211 for specific control is incremented by 1. (step S5613). The special electric prize confirmation flag is a flag for specifying in the main side MPU 82 that one game ball has entered the special electric prize winning device 32 . By confirming that "1" is set to the special electric prize confirmation flag in the special electric prize control processing (step S5514) of the first timer interrupt processing (FIG. 88), one game to the special electric prize winning device 32 The occurrence of ball entry is specified, and 1 is subtracted from the number of remaining balls that can enter the special electric prize winning device 32 in the round game. In addition, since the contents of the special electric winning confirmation flag are also referred to in the second management processing (step S5521) executed after the special electric special electric control processing (step S5514) in the first timer interrupt processing (FIG. 88), Even if the information of the special electric prize confirmation flag is confirmed in the special electric prize control process (step S5514), the information of the special electric prize confirmation flag is maintained as it is. The 15 prize ball counter is a counter for the main side MPU 82 to specify the number of times the payout of 15 game balls should be executed. When the value of the 15 prize ball counter is 1 or more, the 15 prize ball command is output to the payout control device 77 in the payout output process of step S5518 in the first timer interrupt process (FIG. 88). When the prize ball command is output once, the value of the 15 prize ball counter is subtracted by one. When the payout control device 77 receives the 15 prize ball command, it drives and controls the payout device 76 so that 15 game balls are paid out.

When it is confirmed that the state in which information "0" is stored in the fourth bit D4 has changed to the state in which information "1" is stored, the first operation opening detection sensor 235a detects one It is determined that a game ball has been detected (step S5614: YES). In this case, "1" is set to the first operation winning confirmation flag in the work area 211 for specific control (step S5615), and the value of the one prize ball counter provided in the work area 211 for specific control is changed. 1 is added (step S5618). The one prize ball counter is a counter for specifying the number of times one game ball should be paid out by the main side MPU 82 . When the value of the one-ball counter is 1 or more, the one-ball command is output to the payout control device 77 in the payout output process of step S5518 in the first timer interrupt process (FIG. 88). When the prize ball command is output once, the value of the one prize ball counter is decremented by one. When the payout control device 77 receives the one prize ball command, it drives and controls the payout device 76 so that one game ball is paid out. The first operation winning confirmation flag is a flag for specifying in the main side MPU 82 that one game ball has entered the first operation opening 33 .

FIG. 92 is a flow chart showing the pending information acquisition process in this embodiment executed by the main MPU 82 . The processing of steps S5701 to S5710 in the hold information acquisition processing is executed by the specific control processing unit 221 of the main side MPU 82 using a program for specific control and data for specific control.

If "1" is set to the first operation winning confirmation flag (step S5701: YES), the number of first reservation information stored in the first special figure reservation area 111 is less than the upper limit storage number As a condition (step S5702: YES), a process for acquiring the first pending information is executed. In the process for acquiring the first reservation information, first add 1 to the value of the first special figure reservation counter (step S5703). The display contents of the first special figure reservation display section 37c in the special figure unit 37 are adjusted according to the value of the first special figure reservation counter. As a result, the display content of the first special figure reservation display portion 37 c corresponds to the number of first reservation information stored in the first special figure reservation area 111 . After that, the values of the hit random number counter C1, the type random number counter C2 and the reach random number counter C3 are stored in the first storage area of the first special figure reservation area 111, that is, in step S5703. Store in area (step S5704). After that, the first pending command is stored in the command transmission buffer 223b of the register area 223 (step S5705). By storing the first pending command in the command transmission buffer 223 b , the command transmitting circuit 224 operates to transmit the first pending command to the sound and light side MPU 93 . Thereby, the display side MPU 103 controls the display of the pattern display device 41 so that the display content of the first reserved display area 42a of the pattern display device 41 becomes the display content corresponding to the increase of the first reserved information.

The content of the first operation winning confirmation flag is also referred to in the second management process (step S5521) executed after the special figure special electric control process (step S5514) in the first timer interrupt process (FIG. 88). Therefore, even if the information of the first operation winning confirmation flag is confirmed in the reservation information acquisition process (FIG. 92) in the special figure special electric control process (step S5514), the information of the first operation winning confirmation flag is maintained as is.

Returning to the description of the ball entry detection process (FIG. 91), when it is confirmed that the fifth bit D5 has changed from storing "0" information to storing "1" information. , it is determined that one game ball has been detected by the second operating opening detection sensor 236a (step S5617: YES). In this case, the second operation winning confirmation flag in the work area 211 for specific control is set to "1" (step S5618), and the value of the one-ball counter in the work area 211 for specific control is incremented by 1. (Step S5619).

In the pending information acquisition process shown in FIG. 92, when the second operation winning confirmation flag is set to "1" (step S5706: YES), the second pending information stored in the second special figure pending area 112 is less than the upper limit storage number (step S5707: YES), the process for acquiring the second pending information is executed. In the process for acquiring the second reservation information, 1 is first added to the value of the second special figure reservation counter (step S5708). The display contents of the second special figure reservation display section 37d in the special figure unit 37 are adjusted according to the value of the second special figure reservation counter. As a result, the display content of the second special figure reservation display section 37 d corresponds to the number of second reservation information stored in the second special figure reservation area 112 . After that, the values of the hit random number counter C1, the type random number counter C2 and the reach random number counter C3 are stored in the first storage area of the second special figure reservation area 112, that is, in step S5708. Store in area (step S5709). After that, the second pending command is stored in the command transmission buffer 223b of the register area 223 (step S5710). By storing the second pending command in the command transmission buffer 223 b , the command transmitting circuit 224 operates to transmit the second pending command to the sound and light side MPU 93 . Thus, the display side MPU 103 controls the display of the pattern display device 41 so that the display content of the second reserved display area 42b of the pattern display device 41 becomes the display content corresponding to the increase of the second reserved information.

In addition, the content of the second operation winning confirmation flag is also referred to in the second management process (step S5521) executed after the special figure special electric control process (step S5514) in the first timer interrupt process (FIG. 88). , Even if the information of the second operation winning confirmation flag is confirmed in the special figure special electric control process (step S5514), the information of the second operation winning confirmation flag is maintained as it is.

Returning to the description of the ball-entering detection process (FIG. 91), when it is confirmed that the state in which information "0" is stored in the sixth bit D6 has changed to the state in which information "1" is stored. , it is determined that one game ball has been detected by the outlet detection sensor 237a (step S5620: YES). In this case, the out confirmation flag of the work area 211 for specific control is set to "1" (step S5621). The out confirmation flag is a flag for specifying in the main side MPU 82 that one game ball has been detected in the out mouth detection sensor 237a.

When it is confirmed that the state in which information "0" is stored in the seventh bit D7 has changed to the state in which information "1" is stored, one game ball is detected by the gate detection sensor 238a. It is determined that it has been detected (step S5622: YES). In this case, "1" is set to the gate winning confirmation flag in the work area 211 for specific control (step S5623). The gate winning confirmation flag is a flag for specifying in the main side MPU 82 that one game ball has entered the through gate 35 . By confirming that "1" is set to the gate winning prize confirmation flag in the first timer interrupt processing (FIG. 88) in the general pattern general electrical control process (step S5515), it is stored in the general pattern reservation area 84c On the condition that the number of reserved information on the general map side is less than 4, which is the upper limit number, the numerical information of the current general electric random number counter C4 is stored in the general map reservation area 84c as the reserved information on the general map side. Execute the process.

Next, the process of step S5509 of the first timer interrupt process (FIG. 88) will be described.

In step S5509 of the first timer interrupt process (FIG. 88), the CALLI instruction is used to execute the fraud detection process as already described. Fraud detection processing is included in non-specific control processing. In other words, in the first timer interrupt processing (FIG. 88), when the situation changes from the specific control process to the non-specific control process, the non-specific control process uses the CALLI instruction. Called.

When the fraud detection process is executed by the CALLI instruction, first, the information in the flag register of the main MPU 82 is saved in the stack area 212 for specific control. The flag register includes a carry flag, a zero flag, a P/V flag, a sign flag, a half carry flag, and the like, and the information in the flag register changes according to the execution results of arithmetic instructions, rotate instructions, input/output instructions, and the like. By saving the information in the flag register before the program for the fraud detection process, which is non-specific control processing, is started, changes can be made after the fraud detection process is called or the fraud detection process is started. It is possible to save the information of the flag register in the state before the control in the stack area 212 for specific control.

When the fraud detection process is executed by the CALLI instruction, after the information of the flag register is saved in the stack area 212 for specific control, the first timer interrupt process (FIG. 88) and the second timer interrupt process described later are performed. (FIG. 114) is disabled. As a result, the first timer interrupt processing (FIG. 88) and the second timer interrupt processing (FIG. 114), which are specific control processing, are interrupted and started during the execution of the fraud detection processing, which is non-specific control processing. It is possible to prevent it from being lost.

When fraud detection processing is executed by the CALLI instruction, the information in the flag register is saved in the stack area 212 for specific control, and the first timer interrupt processing (FIG. 88) and the second timer interrupt processing (FIG. 114) are executed. After the interrupt is prohibited, a program corresponding to the fraud detection process is started.

In this way, by adopting a configuration in which fraud detection processing is executed by the CALLI instruction, information in the flag register of the main side MPU 82 is saved in the stack area 212 for specific control by one instruction ("CALLI"). At the same time, the first timer interrupt processing (FIG. 88) and the second timer interrupt processing (FIG. 114) are prohibited. Then, a program corresponding to the fraud detection process can be started. For this reason, an instruction to save the information of the flag register of the main MPU 82 to the stack area 212 for specific control and the interruption of the first timer interrupt processing (FIG. 88) and the second timer interrupt processing (FIG. 114) are prohibited. It is possible to reduce the number of instructions set in the program for executing the fraud detection process, compared to the case where the instruction for executing the fraud detection process and the instruction for starting the program for the fraud detection process are provided separately. can. As a result, the storage capacity of the main ROM 83 for storing programs can be reduced.

FIG. 93 is a flowchart showing fraud detection processing. The processing of steps S5801 to S5818 in the fraud detection process is executed by the non-specific control processing unit 222 of the main MPU 82 using a program for non-specific control and data for non-specific control.

First, as "LD SP, Y(u+2)", Y(u+2) is set as a fixed address at the start of non-specific control in the stack pointer of the main MPU 82 by a load instruction (step S5801). The stack pointer is an area in which address information is set for the main MPU 82 to specify a storage area to which information is to be written by a push instruction in the stack areas 212 and 214 . Each time a push instruction is performed, the stack pointer information is updated to the address information of the storage area to be written in the next order, and each time a pop instruction is performed, the stack pointer information is updated to the previous order to be written is updated to the information of the address of the storage area. Further, when the stack area 214 for non-specific control is used, the information to be stored is stored from the storage area of the last address in the stack area 214 for non-specific control, and each time the information to be stored is added. Then, the storage area of the storage destination is changed toward the first address side in the stack area 214 for non-specific control. Therefore, in step S5801, the information of the last address in stack area 214 for non-specific control is set in the stack pointer.

Thereafter, as "LD (_WABUF), WA", the information in the WA register of the main side MPU 82 is saved in the WA buffer set in the work area 213 for non-specific control by the load instruction (step S5802). Also, as "LD (_BCBUF), BC", the information in the BC register of the main MPU 82 is saved in the BC buffer set in the non-specific control work area 213 by the load instruction (step S5803). Also, as "LD (_DEBUF), DE", the information in the DE register of the main MPU 82 is saved in the DE buffer set in the non-specific control work area 213 by the load instruction (step S5804). Also, as "LD (_HLBUF), HL", the information in the HL register of the main MPU 82 is saved in the HL buffer set in the non-specific control work area 213 by the load instruction (step S5805). Also, as "LD (_IXBUF), IX", the information in the IX register of the main MPU 82 is saved in the IX buffer set in the non-specific control work area 213 by the load instruction (step S5806). Also, as "LD (_IYBUF), IY", the information in the IY register of the main MPU 82 is saved in the IY buffer set in the non-specific control work area 213 by the load instruction (step S5807).

In the general-purpose register area 223a in the register area 223 of the main MPU 82, there are various general-purpose registers, auxiliary registers and index registers in addition to the already explained flag registers. In this case, in steps S5802 to S5807, each information of the WA register, BC register, DE register, HL register, IX register and IY register, which are some of these various general-purpose registers, auxiliary registers and index registers is saved in the corresponding buffer in the work area 213 for non-specific control. The amount of information in the WA register, BC register, DE register, HL register, IX register and IY register is all 2 bytes.

These WA register, BC register, DE register, HL register, IX register, and IY register are processing corresponding to non-specific control, such as information clear processing (step S5808), test firing test processing (step S5809), and timer update for non-specific control. This register is used in the process (step S5810) and the fraud detection execution process (step S5811). The information set in such a register is used to execute information clear processing (step S5808), test firing test processing (step S5809), non-specific control timer update processing (step S5810), and fraud detection execution processing (step S5811). By saving to the non-specific control work area 213 in advance, it is possible to save the information of these registers used for the specific control before the non-specific control is started. Therefore, even if these registers are overwritten during the non-specific control, the information saved in the work area 213 for non-specific control is returned to these registers when the non-specific control is terminated. can be returned to the state corresponding to the specific control before the non-specific control is executed.

In addition, instead of saving all the information of various general-purpose registers, auxiliary registers, and index registers to the work area 213 for non-specific control, information clear processing (step S5808), which is processing corresponding to non-specific control, WA register, BC register, DE register, HL register, IX register, and IY register to be used in test processing (step S5809), non-specific control timer update processing (step S5810), and fraud detection execution processing (step S5811) By selectively saving the information in the work area 213 for non-specific control, it is possible to reduce the capacity to be secured for saving the information in the registers in the work area 213 for non-specific control. Therefore, information clear processing (step S5808), test firing test processing (step S5809), non-specific control timer update processing (step S5810) and fraud detection execution processing (step S5811) work area for non-specific control that can be used 213, it is possible to save the information in the registers as described above.

Of course, among various general-purpose registers, auxiliary registers, and index registers in the main MPU 82, registers other than the WA register, BC register, DE register, HL register, IX register, and IY register support non-specific control. The information set before the start of the processing to be performed is stored and retained until the processing corresponding to the non-specific control ends and the processing corresponding to the specific control is restarted.

In addition, by saving register information in the work area 213 for non-specific control instead of saving it in the stack area 214 for non-specific control, the capacity of the stack area 214 for non-specific control can be reduced accordingly. It becomes possible. Also, when using the stack area 214 for non-specific control, as already explained, information is written in the order in which later information is read out first. Otherwise, all subsequent read order information will be returned to different registers. The probability of occurrence of such an event increases as the amount of information saved in the stack area 214 for non-specific control increases. On the other hand, by saving the register information to the work area 213 for non-specific control, it is possible to prevent the above-described phenomenon from occurring even when there is a large amount of information to be saved. .

After executing the processing of steps S5802 to S5807, information clear processing (step S5808), test firing test processing (step S5809), non-specific control timer update processing (step S5810) and fraud detection execution processing (step S5811). Execute. Information clear processing (step S5808), test firing test processing (step S5809), non-specific control timer update processing (step S5810), and fraud detection execution processing (step S5811) are set in the program for non-specific control. information clear processing (step S5808), test firing test processing (step S5809), non-specific control timer update processing (step S5810), and fraud detection execution processing (step S5811). However, when the subroutine program is executed, information clear processing (step S5808), test firing test processing (step S5809), non-specific control timer update processing (step S5810), and fraud detection execution processing (step S5811) are executed. is written in the non-specific control stack area 214 by a push instruction. Then, when the information clear processing (step S5808), the test firing test processing (step S5809), the non-specific control timer update processing (step S5810), and the fraud detection execution processing (step S5811) are completed, the return address is returned by a pop command. is read out, and the program returns to the fraud detection processing program indicated by the return address.

In the test-firing test process in step S5809, the test-firing test information is generated, and the generated test-firing test information is stored in the work area 213 for non-specific control. In the non-specific control timer update process in step S5810, the numerical information of a plurality of types of timer counters provided in the non-specific control work area 213 of the main RAM 84 is collectively updated. The timer counters include first to eighth winning monitoring timer counters 213a to 213h and a magnetism monitoring delay timer counter 213j. All of these timer counters 213a to 213j are decremented by 1 each time the processing of step S5810 is executed, and the carry flag (or borrow flag) is set to "1" by decrementing by 1 when it is already "0". The timer counter is cleared to "0". Details of the information clearing process (step S5808) and the fraud detection execution process (step S5811) will be described later.

After executing the information clearing process (step S5808), the test firing test process (step S5809), the non-specific control timer update process (step S5810) and the fraud detection execution process (step S5811), "LD SP, Y (r+b) , Y(r+b) is set in the stack pointer of the main MPU 82 by a load instruction as a fixed address when returning to the specific control after the end of the fraud detection process (step S5812). The address of Y(r+b) is set as an address between Y(r+8) and Y(s) in the stack area 212 for specific control.

Immediately before the fraud detection process is called in step S5509 of the first timer interrupt process (FIG. 88), the amount of information stored in the stack area 212 for specific control is always constant. The information of the stack pointer of the side MPU 82 (that is, the value of the stack pointer) is constant. In this case, the information stored in the specific control stack area 212 includes, for example, return address information of the first timer interrupt process (FIG. 88) after the fraud detection process ends. The constant information of the stack pointer is Y(r+b). Therefore, the information clear processing (step S5808), the test firing test processing (step S5809), the non-specific control timer update processing (step S5810), and the fraud detection execution processing (step S5811), which are processing corresponding to the non-specific control, are completed. When returning to the process corresponding to the specific control by setting the constant information Y(r+b) to the stack pointer of the main side MPU 82, the information of the stack pointer is returned to the process corresponding to the non-specific control It is possible to return to the information immediately before the start of By setting the fixed information in the stack pointer in this way, the information of the stack pointer is restored to the information immediately before the processing corresponding to the non-specific control is started, so that the processing corresponding to the non-specific control It becomes unnecessary to save the information of the stack pointer of the main MPU 82 corresponding to the specific control in the main RAM 84 before starting the control. Therefore, it is possible to reduce the processing load and eliminate the need to secure an area for saving in the main RAM 84 .

Thereafter, as "LD WA, (_WABUF)", the WA register of the main MPU 82 is overwritten with the information saved in the WA buffer of the non-specific control work area 213 by the load instruction (step S5813). Also, as "LD BC, (_BCBUF)", the BC register of the main MPU 82 is overwritten with the information saved in the BC buffer of the non-specific control work area 213 by the load instruction (step S5814). Also, as "LD DE, (_DEBUF)", the DE register of the main MPU 82 is overwritten with the information saved in the DE buffer of the non-specific control work area 213 by the load instruction (step S5815). Also, as "LD HL, (_HLBUF)", the HL register of the main MPU 82 is overwritten with the information saved in the HL buffer of the non-specific control work area 213 by the load instruction (step S5816). Also, as "LD IX, (_IXBUF)", the IX register of the main MPU 82 is overwritten with the information saved in the IX buffer of the non-specific control work area 213 by the load instruction (step S5817). Also, as "LD IY, (_IYBUF)", the IY register of the main MPU 82 is overwritten with the information saved in the IY buffer of the non-specific control work area 213 by the load instruction (step S5818). By executing the processing of steps S5813 to S5818, each information of the WA register, BC register, DE register, HL register, IX register and IY register of the main MPU 82 is processed corresponding to non-specific control. It is possible to restore the information corresponding to the specific control immediately before the control.

After executing the processing of steps S5813 to S5818, the RETI instruction returns to the first timer interrupt processing (FIG. 88) included in the specific control processing. By executing the RETI instruction, the information in the flag register saved in the stack area 212 for specific control before execution of the fraud detection process is restored to the flag register of the main MPU 82, and the first timer interrupt process is executed. (FIG. 88) and second timer interrupt processing (FIG. 114) are switched from the state of prohibiting to the state of permitting. As a result, the information in the flag register of the main MPU 82 is restored to the information for executing the specific control, and new execution of the first timer interrupt process and the second timer interrupt process becomes possible. Note that the RETI instruction in the fraud detection process (FIG. 93) may maintain a state in which the generation of the first timer interrupt process is prohibited.

With the configuration for executing the RETI instruction, by one instruction ("RETI"), the information of the flag register saved in the stack area 212 for specific control before the execution of the fraud detection process is transferred to the flag of the main MPU 82. It is possible to switch from a state in which the first timer interrupt processing (FIG. 88) and the second timer interrupt processing (FIG. 114) are prohibited to occur to a state in which they are permitted. For this reason, an instruction for returning the information of the flag register saved in the stack area 212 for specific control before the execution of the fraud detection process to the flag register of the main side MPU 82, and the first timer interrupt process (FIG. 88) and an instruction for switching from a state in which the generation of the second timer interrupt processing (FIG. 114) is prohibited to a state in which it is permitted. can reduce the number of As a result, it is possible to reduce the storage capacity of the main-side ROM 83 for storing programs for non-specific control processing.

Information stored in the flag register and various registers of the main MPU 82 when the non-specific control process is executed is not saved in the main RAM 84 when the specific control process is restarted. This eliminates the need to secure a storage area for saving the above information in the work area 211 for specific control and the stack area 212 for specific control.

Further, the information stored in the flag register and various registers of the main MPU 82 when the non-specific control process is executed is stored when the non-specific control process is restarted after returning to the specific control process. Information that is not used. In other words, information necessary for a plurality of times of non-specific control processing executed with specific control processing intervening is stored in the work area 213 for non-specific control or the stack area 214 for non-specific control. It is not stored in the flag register and various registers of the main MPU 82. Therefore, even if the information stored in the flag register and various registers of the main side MPU 82 is not saved in the main side RAM 84 when the non-specific control process is executed, a problem arises in executing the non-specific control process. do not have.

Next, the information clear processing executed by calling the subroutine program in step S5808 will be described. FIG. 94 is a flowchart showing information clear processing. The processing of steps S5901 to S5904 in the information clearing process is executed by the non-specific control processing unit 222 of the main MPU 82 using the non-specific control program and non-specific control data.

In the information clearing process, among the storage areas of the work area 213 for non-specific control, the already explained first general prize-winning abnormality flag 213l, second general prize-winning abnormality flag 213m, third general prize-winning abnormality flag 213n, special electric prize-winning abnormality A process for clearing the flag 213o, the first operation winning abnormality flag 213p, the second operation winning abnormality flag 213q, the out abnormality flag 213r, the gate winning abnormality flag 213s and the magnetic abnormality flag 213t to "0" is executed. These first general prize-winning abnormality flag 213l, second general prize-winning abnormality flag 213m, third general prize-winning abnormality flag 213n, special electric prize-winning abnormality flag 213o, first operation prize-winning abnormality flag 213p, second operation prize-winning abnormality flag 213q, out abnormality flag 213r, gate winning anomaly flag 213s, and magnetic anomaly flag 213t all have a data capacity of 1 byte, and addresses are set so as to be serial numbers for each of these areas. First general prize-winning abnormality flag 213l→Second general prize-winning abnormality flag 213m→Third general prize-winning abnormality flag 213n→Special electric prize-winning abnormality flag 213o→First operation prize-winning abnormality flag 213p→Second operation prize-winning abnormality flag 213q→Out abnormality flag 213r The address is incremented by "1" in the order of →gate winning anomaly flag 213s →magnetism anomaly flag 213t.

In the information clear process, first, a start address is set as a clear target address in a predetermined register of the main MPU 82 (step S5901). The start address is the address of the first general winning abnormality flag 213l.

Thereafter, the area corresponding to the clear target address is cleared to "0" (step S5902). When the address to be cleared is the start address, the area corresponding to the start address is the first general prize winning abnormality flag 213l, so the first general prize winning abnormality flag 213l is cleared to "0".

After that, it is determined whether or not the address to be cleared is the final address (step S5903). The final address is the address of the magnetic anomaly flag 213t. If the clear target address is not the final address (step S5903: NO), the clear target address is updated to the next address in order (step S5904). Specifically, 1 is added to the address to be cleared. Then, the area corresponding to the address after adding 1 is cleared to "0" in step S5902, and the process of step S5903 is executed.

When the process of step S5904 is executed in a situation where the address to be cleared is the start address, the address to be cleared becomes the address of the second general winning abnormality flag 213m, and the second general winning abnormality flag 213m is set to "0". ” is cleared. Also, when the process of step S5904 is executed in a situation where the address of the second general winning abnormality flag 213m is the address to be cleared, the address to be cleared becomes the address of the third general winning abnormality flag 213n. "0" clearing is performed with respect to the general prize-winning abnormality flag 213n.

When the address of the magnetic anomaly flag 213t corresponding to the final address is set as the address to be cleared in the process of step S5904 by repeating the processing of steps S5902 to S5904, the magnetic anomaly flag 213t is cleared to "0". After that, in step S5903, an affirmative determination is made. This information clearing process ends when an affirmative determination is made in step S5903. In the initial setting process (FIG. 86), the first to eighth winning monitoring timer counters 213a to 213h, magnetic detection counter 213i, magnetic monitoring delay timer counter 213j, and second security counter 213k in the non-specific control work area 213 , normal counter area 251, calculation result storage area 252, display target setting area 253, switching timing counter 254, and display target counter 255 are not cleared in step S5902.

By executing the information clearing process as described above, the first general winning abnormality flag 213l, the second general winning abnormality flag 213m, the third general winning abnormality flag 213n, It is possible to clear the special electric winning abnormality flag 213o, the first operation winning abnormality flag 213p, the second operation winning abnormality flag 213q, the out abnormality flag 213r, the gate winning abnormality flag 213s and the magnetic abnormality flag 213t to "0". The effect of clearing these flags 213l to 213t to "0" before execution of the fraud detection execution process will be described later.

Next, the fraud detection execution process executed by calling the subroutine program in step S5811 will be described. FIG. 95 is a flowchart showing fraud detection execution processing. The processes of steps S6001 to S6019 in the fraud detection execution process are executed by the non-specific control processing unit 222 of the main MPU 82 using a program for non-specific control and data for non-specific control.

First, it is determined whether or not the second operation winning confirmation flag in the work area 211 for specific control is set to "1" (step S6001). As already explained, when it is determined that one game ball has been detected by the second working opening detection sensor 236a in the entering ball detection process (FIG. 91) included in the specific control process, that is, to the second working opening 34 When one game ball wins, "1" is set to the second operation win confirmation flag.

When "1" is set in the second operation winning confirmation flag (step S6001: YES), whether or not "1" is set in the mains open state flag provided in the work area 211 for specific control is determined (step S6002), and it is determined whether or not the value of the general electric monitoring delay timer counter 211c in the work area 211 for specific control is "0" (step S6003).

Here, the general electric power control processing executed in the general electric power control processing of step S5515 of the first timer interrupt processing (FIG. 88) will be described with reference to the flowchart of FIG. The general electrical control process is a process for controlling the general electrical open state of the general electrical accessory 34a in the second operation port 34, as in the first embodiment. The processing of steps S6101 to S6111 in the general electric power control process is executed by the specific control processing unit 221 of the main side MPU 82 using a specific control program and specific control data.

First, it is determined whether or not the general electric open state flag provided in the work area 211 for specific control is set to "1", thereby determining whether or not the second operation port 34 is in the open state. (Step S6101). The general electric open state flag is a flag for the main MPU 82 to specify that the drive signal is being output to the general electric drive unit 34b and the second operation port 34 is in the open state. In addition, when the output of the drive signal to the drive unit 34b for the general electric power is started in the normal electric power control processing (FIG. 15) during the normal electric power control process (step S309), the electric power open state flag is set to "1 ' is set, and also when the output of the driving signal to the drive unit 34b for the general electricity is started in step S6110, which will be described later, the general electricity open state flag is set to "1".

If "1" is set in the electric open state flag (step S6101: YES), processing for closing determination is executed (step S6102). In the closing determination process, when the second operation winning confirmation flag of the confirmation flag group 211d in the specific control work area 211 is set to "1", that is, the winning of the second operation opening 34 has occurred. In this case, the value of the general electric winning counter provided in the work area 211 for specific control is subtracted by one. As in the first embodiment, the general electric prize counter indicates whether the number of game balls entering the second operating port 34 in the current electric open state has reached 10, which is the upper limit number of the general electric side. It is a counter for specifying whether or not at the main side MPU 82 . When the value of the electric winning prize counter after the subtraction of 1 is "0", it is determined that the condition for closing the second operation port 34 is met. In addition, when the winning to the second operation port 34 has not occurred or when the value of the general electrical winning counter is not "0", the value of the general drawing side timer counter provided in the work area 211 for specific control By determining whether or not it is "0", it is determined whether or not the duration of one opening of the second operation port 34 has elapsed. When the value of the normal map side timer counter is "0", it is determined that the closing condition of the second operation port 34 is established.

If the condition for closing the second operating port 34 is satisfied (step S6103: YES), a closing setting process is executed (step S6104). In the closing setting process, the output of the drive signal to the drive unit 34b for general electric power is stopped, thereby closing the second operation port 34. As shown in FIG. After that, the utility power open state flag in the work area 211 for specific control is cleared to "0" (step S6105).

After that, the general electric monitoring delay period information is set in the general electric monitoring delay timer counter 211c in the specific control work area 211 (step S6106). The general electricity monitoring delay timer counter 211c detects the game ball in the second operation opening detection sensor 236a provided in the second operation opening 34, after the second operation opening 34 in the open state is closed. is a counter that is used by the main MPU 82 to specify the period during which the data is treated as valid. The general electricity monitoring delay period is set as a period longer than or equal to the maximum period assumed as the period until the game ball that has won the second operation opening 34 in the open state is detected by the second operation opening detection sensor 236a. Specifically, it is set to 1 second.

Thereafter, end branch processing is executed (step S6107). In the end branch processing, when the value of the general electric winning prize counter is "0", the value of the general electric power counter provided in the work area 211 for specific control is changed assuming that the current general electric open state has ended. Clear "0". As a result, the process to be executed in the next process round of the normal pattern normal electric control process becomes the normal pattern fluctuation start process (step S307). When the value of the general electric prize winning counter is 1 or more, the value of the general electric open counter provided in the work area 211 for specific control is subtracted by 1. As in the first embodiment, the general electrical open counter is a counter for specifying the number of times the general electrical accessory 34a of the second operating port 34 is opened in the current electrical open state by the main side MPU 82. is. If the value of the general electric open counter after subtracting 1 is "0", it is determined that the current electric open state has ended, and the value of the general electric open counter in the work area 211 for specific control is cleared to "0". . As a result, the process to be executed in the next process round of the normal pattern normal electric control process becomes the normal pattern fluctuation start process (step S307). If the value of the general electricity open counter after subtracting 1 is 1 or more, information on the interval period (specifically, 2 seconds) of the general electricity side is transferred to the general electricity side timer counter of the work area 211 for specific control. set. In this case, since the value of the general electric power counter is maintained, the processing to be executed in the next processing round of the general electric power control processing is maintained in the electric power control processing (FIG. 96).

When it is determined that the value of the general electricity open state flag in the work area 211 for specific control in the general electricity control process is "0" (step S6101: NO), the general diagram side timer counter in the work area 211 for specific control is "0", it is determined whether or not the interval period of the common electric side has passed (step S6108). If the interval period on the power side has passed (step S6108: YES), information corresponding to the duration of the long open on the power side (specifically 2 seconds) is set in the timer counter on the power side ( step S6109). Further, the second operation port 34 is opened by outputting the drive signal to the drive unit 34b for general electric power again (step S6110). After that, the mains power open state flag in the work area 211 for specific control is set to "1" (step S6111). In this case, since the value of the general electric power counter is maintained, the processing to be executed in the next processing round of the general electric power control processing is maintained in the electric power control processing (FIG. 96).

Returning to the description of the fraud detection execution process (FIG. 95), in a situation where the second operation winning confirmation flag in the work area 211 for specific control is set to "1" (step S6001: YES), the work for specific control "1" is not set to the general electric open state flag in the area 211 (step S6002: NO), and the value of the general electric monitoring delay timer counter 211c in the work area 211 for specific control is "0". In the case (step S6003: YES), after the second operation opening 34 is in the closed state, the second operation opening detection sensor 236a treats the detection of the game ball as effective, even though the period has passed. It means that a game ball has been detected by the operation opening detection sensor 236a. In this case, the second operation winning abnormality flag 213q in the work area 213 for non-specific control is set to "1" (step S6004). The second operation winning abnormality flag 213q is provided corresponding to the second operation opening 34 as already described. When it is specified by non-specific control processing that a non-normal game ball has been detected as a result of monitoring processing using the general electric monitoring delay timer counter 211c or the sixth winning monitoring timer counter 213g , "1" is set to the second operation winning abnormality flag 213q in the processing of the non-specific control.

After that, the normal electrical winning abnormal command is stored in the command transmission buffer 223b in the register area 223 of the main side MPU 82 (step S6005). By storing the normal electric winning abnormal command in the command transmission buffer 223 b , the normal electric winning abnormal command is transmitted to the sound and light side MPU 93 by the operation of the command transmission circuit 224 . When the sound and light side MPU 93 receives the general electric prize winning abnormality command, the display light emitting unit 64, the speaker unit 65 and the pattern display device 41 notify that an abnormality has occurred regarding the winning of the second operation opening 34. be done.

After that, 1 is added to the value of the second security counter 213k in the work area 213 for non-specific control (step S6006). As already explained, the second security counter 213k is a counter used by the main MPU 82 to determine whether or not it is necessary to externally output a pulse-shaped security signal from the main MPU 82 to the management computer of the gaming hall. It is a counter that is used by the main MPU 82 to specify the number of times the pulse-shaped security signal is output to the outside.

If a negative determination is made in step S6001, if an affirmative determination is made in step S6002, if a negative determination is made in step S6003, or if the processing of step S6006 is executed, special electric winning in the work area 211 for specific control It is determined whether or not the confirmation flag is set to "1" (step S6007). As already described, when it is determined that one game ball is detected by the special electric detection sensor 234a in the entering ball detection process (FIG. 91) included in the specific control process, that is, one to the special electric winning device 32 When the winning of the game ball occurs, "1" is set to the special electric winning confirmation flag.

If the special electric prize confirmation flag is set to "1" (step S6007: YES), it is determined whether or not the special electric open state flag provided in the specific control work area 211 is set to "1". Together with this (step S6008), it is determined whether or not the value of the special electric monitor delay timer counter 211b in the work area 211 for specific control is "0" (step S6009).

Here, the special electric start processing, the special electric open processing, and the special electric closed processing executed in the special electric special electric control processing of step S5514 of the first timer interrupt processing (FIG. 88) are shown in FIGS. ) will be described with reference to the flow chart of FIG. The special electric start process, special electric open process, and special electric closed process are processes for performing opening/closing control of the special electric winning device 32 in the opening/closing execution mode in the same manner as in the first embodiment. In addition, the processing of steps S6201 to S6208 in the special electric start processing, steps S6301 to S6307 in the special electric open processing, and steps S6401 to S6407 in the special electric closed processing use the program for specific control and the data for specific control. Then, it is executed by the specific control processing unit 221 of the main MPU 82 .

As shown in FIG. 97(a), in the special electric start process, by determining whether the value of the special figure side timer counter provided in the work area 211 for specific control is "0", opening and closing execution mode (step S6201). If an affirmative determination is made in step S6201, the round counter provided in the work area 211 for specific control is set with information on the number of round games corresponding to the game result that triggered the execution of the opening/closing execution mode this time ( step S6202). The round counter is a counter for specifying the number of remaining round games in the open/close execution mode in the main side MPU 82 as in the first embodiment. In addition, the information (specifically 29 seconds) of the opening duration of the round game is set to the special figure side timer counter (step S6203). Also, "10" is set in the winning counter provided in the work area 211 for specific control (step S6204). The winning counter is a counter for specifying the remaining number of winning upper limit numbers in the main side MPU 82 as in the first embodiment. Further, the special electric prize winning device 32 is opened by outputting a driving signal to the special electric driving unit 32b (step S6205).

After that, the special electric open state flag provided in the work area 211 for specific control is set to "1" (step S6206). The special electric open state flag is a flag for the main side MPU 82 to specify that the special electric winning device 32 is in an open state with the drive signal being output to the special electric driving unit 32b.

Thereafter, the special electric release command is stored in the command transmission buffer 223b in the register area 223 of the main side MPU 82 (step S6207). By storing the special electric release command in the command transmission buffer 223b, the special electric open command is transmitted to the sound and light side MPU 93 by the operation of the command transmission circuit 224. FIG. When the sound and light side MPU 93 receives the special electric signal open command, the display light emitting unit 64, the speaker unit 65 and the pattern display device 41 execute an effect indicating that the special electric prize winning device 32 is in the open state. .

After that, 1 is added to the value of the special figure special electric counter provided in the work area 211 for specific control (step S6208). As a result, the value of the special figure special electric counter becomes "4" corresponding to the special electric open processing (FIG. 97(b)).

In the special electric open processing shown in FIG. 97(b), processing for closing determination is executed (step S6301). In the closing determination process, when the special electric winning confirmation flag of the confirmation flag group 211d in the work area 211 for specific control is set to "1", that is, when the winning to the special electric winning device 32 occurs, the specified 1 is subtracted from the winning counter value in the control work area 211 . When the value of the winning counter after subtracting 1 is "0", it is determined that the condition for closing the special electric winning device 32 is met. Also, if no winning to the special electric winning device 32 has occurred or if the value of the winning counter is not "0", whether the value of the special figure side timer counter in the work area 211 for specific control is "0" By determining whether or not, it is determined whether or not the open continuation period of the round game has elapsed. When the value of the special figure side timer counter is "0", it is determined that the closing condition of the special electric winning device 32 is established.

If the condition for closing the special electric prize winning device 32 is satisfied (step S6302: YES), a closing setting process is executed (step S6303). In the closing setting process, the special electric prize winning device 32 is brought into a closed state by stopping the output of the drive signal to the driving section 32b for the special electric. After that, the special electric open state flag in the work area 211 for specific control is cleared to "0" (step S6304).

After that, the special electric monitoring delay period information is set in the special electric monitoring delay timer counter 211b in the work area 211 for specific control (step S6305). The special electric monitoring delay timer counter 211b treats the detection of the game ball by the special electric detection sensor 234a provided in the special electric prize winning device 32 as valid even after the special electric prize winning device 32 in the open state is closed. This is a counter used for identification by the main MPU 82 . The special electric monitoring delay period is set as a period longer than or equal to the maximum period assumed as the period until the game ball that has won the special electric prize winning device 32 in the open state is detected by the special electric detection sensor 234a. is set to 1 second.

After that, after subtracting 1 from the value of the round counter in the work area 211 for specific control (step S6306), ending branch processing is executed (step S6307). In the ending branch process, if the value of the round counter after subtracting 1 is 1 or more, after setting the information of the interval period (specifically 3 seconds) to the special figure side timer counter in the work area 211 for specific control , 1 is added to the value of the special figure special electric counter in the work area 211 for specific control. As a result, the value of the special figure special electric counter becomes "5" corresponding to the special electric closing process (FIG. 97(c)). On the other hand, if the value of the round counter after subtracting 1 is "0", the information of the ending period (specifically 5 seconds) is set to the special figure side timer counter in the work area 211 for specific control. Also, the ending command is stored in the command transmission buffer 223b in the register area 223 of the main side MPU82. By storing the ending command in the command transmission buffer 223 b , the command transmission circuit 224 operates to transmit the ending command to the sound and light side MPU 93 . By receiving the ending command, the sound and light side MPU 93 causes the display light emitting section 64, the speaker section 65 and the pattern display device 41 to execute the ending effect of the opening/closing execution mode. After that, add 2 to the value of the special special electric counter. Thereby, the value of the special figure special electric counter becomes "6" corresponding to the special figure special electric end processing (step S612) of the special figure special electric control processing (FIG. 18).

In the special electric closing process shown in FIG. 97 (c), by determining whether the value of the special figure side timer counter in the work area 211 for specific control is "0", whether the interval period has passed It is determined whether or not (step S6401). When the affirmative determination is made in step S6401, the information (specifically 29 seconds) of the open continuation period of the round game is set to the special figure side timer counter (step S6402). Also, "10" is set to the winning counter in the work area 211 for specific control (step S6403). Further, the special electric prize winning device 32 is opened by outputting a drive signal to the special electric drive unit 32b (step S6404).

After that, the special electric open state flag in the work area 211 for specific control is set to "1" (step S6405). Thereafter, the special electric release command is stored in the command transmission buffer 223b in the register area 223 of the main side MPU 82 (step S6406). By storing the special electric release command in the command transmission buffer 223b, the special electric open command is transmitted to the sound and light side MPU 93 by the operation of the command transmission circuit 224. FIG. When the sound and light side MPU 93 receives the special electric signal open command, the display light emitting unit 64, the speaker unit 65 and the pattern display device 41 execute an effect indicating that the special electric prize winning device 32 is in the open state. . After that, the value of the special figure special electric counter in the work area 211 for specific control is subtracted by 1 (step S6407). As a result, the value of the special figure special electric counter becomes "4" corresponding to the special electric open processing (FIG. 97(b)).

Returning to the description of the fraud detection execution process (FIG. 95), in a situation where the special electric winning confirmation flag in the work area 211 for specific control is set to "1" (step S6007: YES), the work area 211 for specific control is not set to "1" (step S6008: NO), and the value of the special electric monitoring delay timer counter 211b in the work area 211 for specific control is "0" (step S6009 : YES), the game ball is detected by the special electric detection sensor 234a even though the period for validating the detection of the game ball by the special electric detection sensor 234a has passed after the special electric prize winning device 32 is closed. means that In this case, "1" is set to the special electric winning abnormality flag 213o in the work area 213 for non-specific control (step S6010). The special electric prize-winning abnormality flag 213o is provided corresponding to the special electric prize-winning device 32 as already explained. As a result of the monitoring process using the special electric monitoring delay timer counter 211b or the fourth prize winning monitoring timer counter 213e, when it is specified by the non-specific control process that an abnormal game ball has been detected, "1" is set to the special electric prize-winning abnormality flag 213o in the processing of the non-specific control.

Thereafter, the special electric winning abnormal command is stored in the command transmission buffer 223b in the register area 223 of the main side MPU 82 (step S6011). By storing the abnormal special electric prize command in the command transmission buffer 223b, the special electric prize abnormal command is transmitted to the sound and light side MPU 93 by the operation of the command transmission circuit 224. FIG. When the sound and light side MPU 93 receives the special electric prize winning abnormality command, the display light emitting unit 64, the speaker unit 65 and the pattern display device 41 notify that an abnormality has occurred regarding the prize winning to the special electric prize winning device 32. make it

After that, 1 is added to the value of the second security counter 213k in the work area 213 for non-specific control (step S6012). As already explained, the second security counter 213k is a counter used by the main MPU 82 to determine whether or not it is necessary to externally output a pulse-shaped security signal from the main MPU 82 to the management computer of the gaming hall. It is a counter that is used by the main MPU 82 to specify the number of times the pulse-shaped security signal is output to the outside.

When a negative determination is made in step S6007, when an affirmative determination is made in step S6008, when a negative determination is made in step S6009, or when the process of step S6012 is executed, the confirmation flag in the work area 211 for specific control Among the first winning confirmation flag, the second winning confirmation flag, the third winning confirmation flag, the special electric winning confirmation flag, the first operation winning confirmation flag, the second operation winning confirmation flag, the out confirmation flag, and the gate winning confirmation flag of the group 211d , determines whether or not the confirmation flag corresponding to the value of the monitored counter provided in the non-specific control work area 213 is set to "1" (step S6013).

The monitoring target counter is a counter for specifying the type of confirmation flag to be monitored in steps S6014 to S6016 by the main MPU . At the timing when the fraud detection execution process (FIG. 95) is started, the value of the monitored counter is "0". The types of confirmation flags to be monitored in steps S6014 to S6016 are the first winning confirmation flag when the value of the monitored counter is "0" and the value of the monitored counter is "1". is the second winning confirmation flag, the case where the monitored counter value is "2" is the third winning confirmation flag, and the case where the monitored counter value is "3" is the special electric winning confirmation flag. When the value of the monitored counter is "4", it is the first operation winning confirmation flag, and when the value of the monitored counter is "5", it is the second operation winning confirmation flag, and the value of the monitored counter is is "6", it is an out confirmation flag, and when the value of the monitored counter is "7", it is a gate win confirmation flag.

If the confirmation flag corresponding to the current value of the monitoring target counter is set to "1" (step S6013: YES), non-specific control among winning monitoring timer counters 213a to 213h in work area 213 for non-specific control It is determined whether or not the value of the winning monitoring timer counters 213a to 213h corresponding to the value of the monitoring target counter in the work area 213 for is 1 or more (step S6014).

As already explained, the first to third winning monitoring timer counters 213a to 213c detect one game ball in the winning opening detection sensors 231a to 233a provided in the corresponding general winning opening 31, and then the next game ball. This is a counter used by the main MPU 82 to specify the period during which the detection of is treated as invalid. As already explained, the fourth prize-winning monitoring timer counter 213d detects one game ball in the special electric prize detection sensor 234a of the special electric prize-winning device 32, and the main side MPU 82 treats the detection of the next game ball as invalid. A counter used for identification. As already explained, the fifth prize-winning monitoring timer counter 213e detects one game ball in the first operation opening detection sensor 235a provided in the first operation opening 33, and treats the detection of the next game ball as invalid. It is a counter used to specify the period in the main MPU 82 . As already explained, the sixth winning monitoring timer counter 213f is mainly for the period from when one game ball is detected by the second operation opening detection sensor 236a of the second operation opening 34 to when the detection of the next game ball is treated as invalid. This is a counter used for identification by the side MPU 82 . As already explained, the seventh prize-winning monitoring timer counter 213g detects one game ball in the out-port detection sensor 237a provided in the out-port 24a, and then treats the detection of the next game ball as invalid. A counter used for identification by the MPU 82 . As already explained, the eighth prize-winning monitoring timer counter 213h detects one game ball in the gate detection sensor 238a provided in the through gate 35, and then treats the detection of the next game ball as invalid. It is a counter used for specifying in .

When the value of the monitoring target counter is "0", the first prize winning monitoring timer counter 213a is to be checked. When the value of the monitoring target counter is "1", the second prize winning monitoring timer counter 213b is to be checked. When the value of the monitoring target counter is "2", the third prize winning monitoring timer counter 213c is to be checked. When the value of the monitoring target counter is "3", the fourth prize winning monitoring timer counter 213d is to be checked. When the value of the monitoring object counter is "4", the fifth prize winning monitoring timer counter 213e becomes the confirmation object. When the value of the monitoring target counter is "5", the sixth prize winning monitoring timer counter 213f is to be checked. When the value of the monitoring target counter is "6", the seventh prize winning monitoring timer counter 213g is to be checked. When the value of the monitoring target counter is "7", the eighth prize winning monitoring timer counter 213h is to be checked.

If the value of the winning monitoring timer counters 213a to 213h corresponding to the monitored counter value is 1 or more (step S6014: YES), the detection result of the detection sensors 231a to 238a corresponding to the monitored counter value is one. It means that the detection result of the detection sensors 231a to 238a becomes a new game ball detection result before the detection invalid period (for example, 0.1 second) elapses after the game ball detection result. When such a situation occurs, for example, chattering of the game ball occurs in the detection range of the detection sensors 231a to 238a, and the detection of the detection sensors 231a to 238a for the passage of one game ball. The result may be a detection result corresponding to the passage of a plurality of game balls. The detection invalid period is set as a period in which no game ball is newly detected when the game ball passes normally without chattering.

If an affirmative determination is made in step S6014, it means that the game ball is detected before the detection invalid period elapses in the detection sensors 231a to 238a corresponding to the value of the monitored counter. In this case, the first general winning abnormality flag 213l, the second general winning abnormality flag 213m, the third general winning abnormality flag 213n, the special electric winning abnormality flag 213o, the first operation winning abnormality flag 213p in the work area 213 for non-specific control, Among the second operation winning abnormality flag 213q, the out abnormality flag 213r and the gate winning abnormality flag 213s, the abnormality flags 213l to 213s corresponding to the value of the monitored object counter are set to "1" (step S6015). When the value of the monitored counter is "0", "1" is set to the first general prize winning abnormality flag 213l. When the value of the monitoring object counter is "1", "1" is set to the second general prize winning abnormality flag 213m. When the value of the monitored object counter is "2", "1" is set to the third general prize winning abnormality flag 213n. When the value of the monitored counter is "3", "1" is set to the special electric prize-winning abnormality flag 213o. When the value of the monitored object counter is "4", "1" is set to the first operation winning abnormality flag 213p. When the value of the monitored counter is "5", "1" is set to the second operation winning abnormality flag 213q. When the value of the monitored counter is "6", "1" is set to the out abnormality flag 213r. When the value of the monitored counter is "7", "1" is set to the gate winning abnormality flag 213s. As a result, when the game ball is detected before the detection invalid period elapses in the detection sensors 231a to 238a corresponding to the value of the counter to be monitored, "1" is set to the corresponding abnormality flags 213l to 213s. be.

When a negative determination is made in step S6014, or when the process of step S6015 is executed, a detection invalid period is set in the winning monitoring timer counters 213a to 213h corresponding to the value of the monitoring target counter (step S6016). As a result, when the detection sensor 231a to 238a corresponding to the counter to be monitored detects the game ball before the detection invalid period elapses, or when the game ball detects the game ball after the detection invalid period elapses. Even if there is, a detection invalid period is set in the winning monitor timer counters 213a to 213h corresponding to the monitored counters.

Thereafter, it is determined whether or not the value of the monitored counter is the maximum value of "7" (step S6017). If the value of the monitored counter is less than the maximum value (step S6017: NO), 1 is added to the value of the monitored counter (step S6018), and the process returns to step S6013. As a result, the monitoring process of steps S6014 to S6016 is executed for the detection sensors 231a to 238a to be monitored in the next order. By executing the processes of steps S6013 to S6018 as described above, it is determined whether or not the game ball is detected within the detection invalid period for each of the detection sensors 231a to 238a.

If the value of the monitored counter is the maximum value (step S6017: YES), magnetic monitoring processing is executed (step S6019). FIG. 98 is a flow chart showing the magnetism monitoring process. The processes of steps S6501 to S6509 in the magnetism monitoring process are executed by the non-specific control processing unit 222 of the main side MPU 82 using a non-specific control program and non-specific control data.

First, it is determined whether or not the value of the magnetism monitoring delay timer counter 213j in the non-specific control work area 213 is "0" (step S6501). As already described, the magnetism monitoring delay timer counter 213j is a counter for the main MPU 82 to specify the magnetism monitoring delay period during which the magnetism abnormality is not monitored. The magnetism monitoring delay period is arbitrary, but in the pachinko machine 10, it is set to 0.5 seconds.

If the value of the magnetism monitoring delay timer counter 213j is "0" (step S6501: YES), whether or not the detection result of the magnetic detection sensor provided on the back of the game board 24 is the detection result corresponding to the magnetic detection. (step S6502). If a negative determination is made in step S6502, the value of the magnetic detection counter 213i in the non-specific control work area 213 is cleared to "0" (step S6503). As already explained, the magnetism detection counter 213i is a counter for specifying the number of times the occurrence of the magnetic anomaly is specified by the main MPU 82 .

If an affirmative determination is made in step S6502, 1 is added to the value of the magnetic detection counter 213i in the non-specific control work area 213 (step S6504). Then, if the value of the magnetic detection counter 213i after the addition of 1 is equal to or greater than the abnormality reference number of times (specifically, "3") (step S6505: YES), the magnetic abnormality flag 213t in the work area 213 for non-specific control is set to "1" (step S6506). By setting "1" to the magnetic anomaly flag 213t, the main MPU 82 executes processing for coping with the occurrence of the magnetic anomaly.

After that, the magnetic abnormality command is stored in the command transmission buffer 223b in the register area 223 of the main side MPU 82 (step S6507). By storing the magnetic abnormality command in the command transmission buffer 223 b , the command transmission circuit 224 operates to transmit the magnetic abnormality command to the sound and light side MPU 93 . By receiving the magnetic abnormality command, the sound and light side MPU 93 causes the display light emitting section 64, the speaker section 65 and the pattern display device 41 to notify that the magnetic abnormality has occurred.

After that, 1 is added to the value of the second security counter 213k in the work area 213 for non-specific control (step S6508). As already explained, the second security counter 213k is a counter used by the main MPU 82 to determine whether or not it is necessary to externally output a pulse-shaped security signal from the main MPU 82 to the management computer of the gaming hall. It is a counter that is used by the main MPU 82 to specify the number of times the pulse-shaped security signal is output to the outside.

When a negative determination is made in step S6505, or when the process of step S6508 is executed, a magnetism monitoring delay period is set in the magnetism monitoring delay timer counter 213j in the non-specific control work area 213 (step S6509). As a result, the measurement of the magnetism monitoring delay period during which the magnetism anomaly is not monitored is started. In this manner, the magnetic monitoring delay period is set during which the magnetic abnormality is not monitored, and when the value of the magnetic detection counter 213i exceeds the abnormality reference number of times defined as a plurality of times as described above, the magnetic abnormality is detected. By adopting a configuration that identifies the occurrence, it is possible to prevent the occurrence of magnetic anomaly from being identified even when magnetism is generated by electrical noise rather than by an illegal magnetic output.

Next, refer to the flowchart of FIG. 99 for the fraud handling process executed in step S5511, which is the processing order after the fraud detection process including the fraud detection execution process in the first timer interrupt process (FIG. 88). I will explain while The processes of steps S6601 to S6625 in the fraud handling process are executed by the specific control processing unit 221 of the main MPU 82 using a specific control program and specific control data.

When "1" is set to the first general prize winning abnormality flag 213l in the work area 213 for non-specific control (step S6601: YES), this irregularity in the first timer interrupt process (FIG. 88) in this processing time The detection of the game ball in the first winning hole detection sensor 231a specified in the ball entering detection process (FIG. 91) of step S5508, which is the processing order before the corresponding process (that is, the winning of the general winning hole 31) is chattering. It means that it is caused by an abnormality caused by In this case, in the first timer interrupt processing (FIG. 88) in this processing cycle, the specific control work area 211 Although "1" is set to the first winning confirmation flag of the confirmation flag group 211d, the first winning confirmation flag is cleared to "0" (step S6602). In the processing order of the first timer interrupt processing (FIG. 88), the fraud handling processing (FIG. 99) is after the entering ball detection processing (FIG. 91) and before the second management processing (described later). set in the processing order. Therefore, it is specified that the game ball is not detected by the first winning hole detection sensor 231a in the second management process described later.

After that, 1 is subtracted from the value of the 10 prize ball counter in the work area 211 for specific control (step S6603). In the first timer interrupt processing (FIG. 88) in the current processing round, the game ball in the first winning hole detection sensor 231a in the entering ball detection processing (FIG. 91) of step S5508, which is the processing order before this fraudulent handling processing The value of the counter for 10 prize balls is incremented by 1 with the detection of . Also, if the value of the 10 prize ball counter is 1 or more, in the payout output process of step S5518, which is the processing order after the fraud handling process in the first timer interrupt process (FIG. 88), A process for transmitting a 10 prize ball command instructing the payout of 10 game balls to the payout control device 77 is executed. In this case, if the game ball detection by the first winning hole detection sensor 231a is caused by an abnormality, the first timer interrupt processing ( 88), the value of the 10 prize ball counter is decremented by 1 in the fraud handling process (FIG. 99) before the payout output process of step S5518 is executed. As a result, it is possible to prevent excessive payout of game balls.

In steps S6604 to S6606, the same processes as in steps S6601 to S6603 are executed for the second winning opening detection sensor 232a, and in steps S6607 to S6609, the same processes as in steps S6601 to S6603 are performed for the third winning opening detection sensor 233a. to run. Specifically, when the second general prize winning abnormality flag 213m in the work area 213 for non-specific control is set to "1" (step S6604: YES), the confirmation flag group 211d in the work area 211 for specific control is cleared to "0" (step S6605), and the value of the counter for 10 prize balls in the work area 211 for specific control is subtracted by 1 (step S6606). Further, when the third general prize winning abnormality flag 213n in the work area 213 for non-specific control is set to "1" (step S6607: YES), the third check flag group 211d in the work area 211 for specific control The winning confirmation flag is cleared to "0" (step S6608), and the value of the counter for 10 prize balls in the work area 211 for specific control is subtracted by 1 (step S6609).

If "1" is set to the special electric winning abnormality flag 213o in the work area 213 for non-specific control (step S6610: YES), this fraudulent handling process in the first timer interrupt process (FIG. 88) in this process The detection of the game ball in the special electric detection sensor 234a specified in the entering ball detection processing (FIG. 91) of step S5508, which is the processing order before (that is, winning the special electric prize winning device 32) is abnormal due to chattering or closed state It means that it is due to the illegality of winning the game ball to the special electric winning device 32 that should be. In this case, in the first timer interrupt processing (FIG. 88) in this processing cycle, the specific control work area 211 Although "1" is set to the special electric prize-winning confirmation flag of the confirmation flag group 211d, the special electric prize-winning confirmation flag is cleared to "0" (step S6611). In the processing order of the first timer interrupt processing (FIG. 88), the fraud handling processing (FIG. 99) is the processing order after the entering ball detection processing (FIG. 91), and is the special figure special electric control processing (step S5514) and later described. The processing order is set before the second management processing to be performed. Therefore, it is specified that the game ball is not detected by the special electric detection sensor 234a in the special electric open processing (FIG. 97(b)) or the second management processing described later.

Thereafter, 1 is subtracted from the value of the 15 prize ball counter in the work area 211 for specific control (step S6612). In the first timer interrupt processing (FIG. 88) in this processing round, the game ball is detected by the special electric detection sensor 234a in the entering ball detection processing (FIG. 91) of step S5508, which is the processing order before this fraud handling processing. As a trigger, 1 is added to the value of the counter for 15 prize balls. Also, if the value of the counter for 15 prize balls is 1 or more, in the payout output process of step S5518, which is the processing order after the fraud handling process in the first timer interrupt process (FIG. 88), A process for transmitting a 15 prize ball command instructing the payout of 15 game balls to the payout control device 77 is executed. In this case, if the detection of the game ball by the special electric detection sensor 234a is abnormal or illegal, the value of the 15 prize ball counter is incremented by 1. The first timer interrupt process (Fig. 88), the value of the counter for 15 prize balls is decremented by 1 in the fraud handling process (FIG. 99) before the payout output process of step S5518 is executed. As a result, it is possible to prevent excessive payout of game balls.

When "1" is set to the first operation winning abnormality flag 213p in the work area 213 for non-specific control (step S6613: YES), this irregularity in the first timer interrupt process (FIG. 88) in this processing time The detection of the game ball in the first working hole detection sensor 235a (that is, the winning of the first working hole 33) specified in the ball entry detection process (FIG. 91) of step S5508, which is the processing order before the corresponding process, is chattering. It means that it is caused by an abnormality such as In this case, in the first timer interrupt processing (FIG. 88) in this processing cycle, the specific control work area 211 Although "1" is set to the first operation winning confirmation flag of the confirmation flag group 211d, the first operation winning confirmation flag is cleared to "0" (step S6614). In the processing order of the first timer interrupt processing (FIG. 88), the fraud handling processing (FIG. 99) is the processing order after the entering ball detection processing (FIG. 91), and is the special figure special electric control processing (step S5514) and later described. The processing order is set before the second management processing to be performed. Therefore, it is specified that the game ball is not detected by the first operating opening detection sensor 235a in the reservation information acquisition process (FIG. 92) or the second management process described later.

Thereafter, 1 is subtracted from the value of the one prize ball counter in the work area 211 for specific control (step S6615). In the first timer interrupt processing (FIG. 88) in this processing round, the game ball in the first operation opening detection sensor 235a in the entering ball detection processing (FIG. 91) of step S5508, which is the processing order before this fraudulent handling processing The value of the one-ball counter is incremented by one with the detection of . Also, if the value of the counter for one prize ball is 1 or more, in the payout output process of step S5518, which is the processing order after the fraud handling process in the first timer interrupt process (FIG. 88), A process for transmitting a one prize ball command instructing the payout of one game ball to the payout control device 77 is executed. In this case, if the detection of the game ball in the first operation opening detection sensor 235a is caused by an abnormality, the first timer interrupt processing ( 88), before the payout output process of step S5518 is executed, the value of the one prize ball counter is decremented by 1 in the fraud handling process (FIG. 99). As a result, it is possible to prevent excessive payout of game balls.

When "1" is set to the second operation winning abnormality flag 213q in the work area 213 for non-specific control (step S6616: YES), this irregularity in the first timer interrupt processing (FIG. 88) in this processing time The detection of the game ball in the second working opening detection sensor 236a specified in the ball entering detection processing (FIG. 91) of step S5508 which is the processing order before the corresponding processing (that is, the winning to the second working opening 34) is chattering. It means that it is due to the illegality of winning the game ball into the second operation port 34 which should be in an abnormal or closed state. In this case, in the first timer interrupt processing (FIG. 88) in this processing cycle, the specific control work area 211 Although "1" is set to the second operation winning confirmation flag of the confirmation flag group 211d, the second operation winning confirmation flag is cleared to "0" (step S6617). In the processing order of the first timer interrupt processing (FIG. 88), the fraud handling processing (FIG. 99) is the processing order after the entering ball detection processing (FIG. 91). The processing order is set before the general electric power control processing (step S5515) and the second management processing described later. Therefore, it is specified that the game ball is not detected by the second operating opening detection sensor 236a in the holding information acquisition process (FIG. 92), the general electric control process (FIG. 96), or the second management process described later.

Thereafter, 1 is subtracted from the value of the one prize ball counter in the work area 211 for specific control (step S6618). In the first timer interrupt processing (FIG. 88) in this processing round, the game ball in the second operation opening detection sensor 236a in the entering ball detection processing (FIG. 91) of step S5508, which is the processing order before this fraudulent handling processing The value of the one-ball counter is incremented by one with the detection of . Also, if the value of the counter for one prize ball is 1 or more, in the payout output process of step S5518, which is the processing order after the fraud handling process in the first timer interrupt process (FIG. 88), A process for transmitting a one prize ball command instructing the payout of one game ball to the payout control device 77 is executed. In this case, if the detection of the game ball by the second operation opening detection sensor 236a is abnormal or illegal, the value of the counter for one prize ball is increased by 1. The first timer interrupt of the processing time Before the payout output process of step S5518 is executed in the process (FIG. 88), the value of the one-ball counter is subtracted by 1 in the fraud handling process (FIG. 99). As a result, it is possible to prevent excessive payout of game balls.

When "1" is set in the out abnormality flag 213r in the work area 213 for non-specific control (step S6619: YES), in the first timer interrupt processing (FIG. 88) in this processing, The detection of the game ball (that is, the ball entering the out port 24a) in the out port detection sensor 237a specified in the ball input detection processing (FIG. 91) of step S5508, which is the previous processing order, was caused by an abnormality such as chattering. means to be In this case, in the first timer interrupt processing (FIG. 88) in this processing cycle, the specific control work area 211 Although the out confirmation flag of the confirmation flag group 211d is set to "1", the out confirmation flag is cleared to "0" (step S6620). In the processing order of the first timer interrupt processing (FIG. 88), the fraud handling processing (FIG. 99) is after the entering ball detection processing (FIG. 91) and before the second management processing (described later). set in the processing order. Therefore, it is specified that the game ball is not detected by the outlet detection sensor 237a in the second management process to be described later.

When "1" is set to the gate winning abnormality flag 213s in the work area 213 for non-specific control (step S6621: YES), this fraud handling process in the first timer interrupt process (FIG. 88) in this process time The detection of the game ball in the gate detection sensor 238a specified in the ball entry detection process (FIG. 91) in step S5508, which is the processing order before (that is, winning the through gate 35) is caused by an abnormality such as chattering. means that In this case, in the first timer interrupt processing (FIG. 88) in this processing cycle, the specific control work area 211 Although "1" is set to the gate winning confirmation flag of the confirmation flag group 211d, the gate winning confirmation flag is cleared to "0" (step S6622). In the processing order of the first timer interrupt processing (FIG. 88), the fraud handling processing (FIG. 99) is the processing order after the entering ball detection processing (FIG. 91), and is from the normal/universal power control processing (step S5515). is also set to the previous processing order. Therefore, it is specified that the game ball is not detected in the gate detection sensor 238a in the process for acquiring the hold information on the side of the general pattern in the general pattern general electric control process (step S5515).

When "1" is set to the magnetic abnormality flag 213t in the work area 213 for non-specific control (step S6623: YES), "1" is set to the game stop flag provided in the work area 211 for specific control (step S6624). If "1" is set to the game stop flag, while executing the processing of steps S5501 to S5504 and step S5521 in the first timer interrupt processing (FIG. 88), step by making an affirmative determination in step S5505 The processing from S5506 to S5520 is not executed. As a result, when it is specified that a magnetic anomaly has occurred, a process for monitoring a power failure, updating various counters, and managing the game history is executed, while a process for progressing the game is executed. will not be executed.

In the fraud handling process, after executing the processes of steps S6601 to S6624, security processing is executed in step S6625. Security processing will be described in detail later.

The state of monitoring whether or not the detection result of the second working port detection sensor 236a is normal will be described with reference to the time chart of FIG. FIG. 100(a) shows the period during which the first timer interrupt process (FIG. 88) is executed, and FIG. 100(b) shows the entering ball detection process (FIG. 91) included in the specific control process. FIG. 100(c) shows the state of the second operation winning confirmation flag of the confirmation flag group 211d in the work area 211 for specific control, and FIG. 100(d) shows the fraud handling process included in the specific control process. (Fig. 99) is executed, Fig. 100 (e) shows a period during which the hold information acquisition process (Fig. 92) included in the specific control process is executed, and Fig. 100 (f) FIG. 100(g) shows a period during which the information clearing process (FIG. 94) included in the non-specific control process is executed, and FIG. FIG. 100(h) shows the state of the second operation winning abnormality flag 213q in the work area 213 for non-specific control.

First, the case where the detection of the game ball by the second operation opening detection sensor 236a is not due to abnormality or fraud will be described.

At the timing of t1, a new processing cycle of the first timer interrupt processing (FIG. 88) is started as shown in FIG. 100(a). Then, at the timing of t2 when the first timer interrupt process (FIG. 88) of the processing time is being executed, the entering ball detection process (FIG. 91) is started as shown in FIG. 100(b). In the winning ball detection process (FIG. 91), first, the first winning confirmation flag, the second winning confirmation flag, the third winning confirmation flag, the special train winning flag, and the first operation winning confirmation flag of the confirmation flag group 211d in the work area 211 for specific control are set. The confirmation flag, the second operation winning confirmation flag, the out confirmation flag and the gate winning confirmation flag are cleared to "0". In addition, by specifying that the game ball is detected by the second operating hole detection sensor 236a in the entering ball detection process (FIG. 91), it is specified as shown in FIG. 100(c) at the timing of t3. "1" is set to the second operation winning confirmation flag of the confirmation flag group 211d in the work area 211 for control.

After that, at the timing t4, as shown in FIG. 100(b), the entering ball detection processing (FIG. 91) ends, and at the timing t4, the fraud detection processing (FIG. 93) is called by the CALLI command. As shown in (f), information clear processing (FIG. 94) is started. In the information clearing process (FIG. 94), as already described, the first general prize-winning abnormality flag 213l, the second general prize-winning abnormality flag 213m, and the third general prize-winning abnormality flag are cleared among the storage areas of the work area 213 for non-specific control. 213n, the special electric prize winning abnormality flag 213o, the first operation winning abnormality flag 213p, the second operation winning abnormality flag 213q, the out abnormality flag 213r, the gate winning abnormality flag 213s and the magnetic abnormality flag 213t are cleared to "0".

After that, at the timing t5, the information clearing process (FIG. 94) ends as shown in FIG. 100(f), and the fraud detection execution process (FIG. 95) starts at the timing t5 as shown in FIG. be done. In the fraud detection execution process (FIG. 95) included in the non-specific control process, it is specified that the second operation winning confirmation flag in the work area 211 for specific control is set to "1". The setting of "1" to the 2-operation winning confirmation flag is not specified as being caused by an abnormality or fraud. Therefore, as shown in FIG. 100(h), the second operation winning abnormality flag 213q in the non-specific control work area 213 is not set to "1", and the information of the second operation winning abnormality flag 213q becomes " 0”.

Thereafter, the fraud detection execution process (FIG. 95) ends as shown in FIG. 100(g) at time t6, and the fraud response process (FIG. 99) starts as shown in FIG. 100(d) at time t6. be done. In the fraud handling process (FIG. 99) included in the specific control process, it is specified that the second operation winning abnormality flag 213q in the work area 213 for non-specific control is not set to "1". The process of clearing the second operation winning confirmation flag in the work area 211 for "0" is not executed. Therefore, as shown in FIG. 100(c), the state in which the second operation winning confirmation flag is set to "1" is maintained.

After that, at the timing of t7, as shown in FIG. 100(d), the fraud handling process (FIG. 99) ends, and at the timing of t7, the pending information acquisition process (FIG. 92) starts as shown in FIG. 100(e). be started. In the reservation information acquisition process (FIG. 92), as shown in FIG. 100 (c), the second operation winning confirmation flag in the work area 211 for specific control is set to "1", so the second special figure reservation On condition that the number of pieces of the second pending information stored in the area 112 is less than the maximum storage number, the processing for acquiring the second pending information is executed. In addition, when the second operation winning confirmation flag is set to "1", "0" will be cleared in the incoming ball detection process (Fig. 91) in the next process of the first timer interrupt process (Fig. 88). It is canceled by being released. After that, at the timing of t8, the current processing cycle of the first timer interrupt processing (FIG. 88) ends as shown in FIG. 100(a).

Next, the case where the detection of the game ball by the second operation opening detection sensor 236a is due to abnormality or fraud will be described.

At the timing of t9, a new processing cycle of the first timer interrupt processing (FIG. 88) is started as shown in FIG. 100(a). Then, at the timing t10 when the first timer interrupt process (FIG. 88) of the processing time is being executed, the ball-entering detection process (FIG. 91) is started as shown in FIG. 100(b). In the winning ball detection process (FIG. 91), first, the first winning confirmation flag, the second winning confirmation flag, the third winning confirmation flag, the special train winning flag, and the first operation winning confirmation flag of the confirmation flag group 211d in the work area 211 for specific control are set. The confirmation flag, the second operation winning confirmation flag, the out confirmation flag and the gate winning confirmation flag are cleared to "0". In addition, by specifying that the game ball is detected by the second operating hole detection sensor 236a in the entering ball detection process (FIG. 91), it is specified at the timing of t11 as shown in FIG. "1" is set to the second operation winning confirmation flag of the confirmation flag group 211d in the work area 211 for control.

After that, at time t12, as shown in FIG. 100(b), the entering ball detection process (FIG. 91) ends, and at time t12, the fraud detection process (FIG. 93) is called by the CALLI command, and the process shown in FIG. As shown in (f), information clear processing (FIG. 94) is started. In the information clearing process (FIG. 94), as already described, the first general prize-winning abnormality flag 213l, the second general prize-winning abnormality flag 213m, and the third general prize-winning abnormality flag are cleared among the storage areas of the work area 213 for non-specific control. 213n, the special electric prize winning abnormality flag 213o, the first operation winning abnormality flag 213p, the second operation winning abnormality flag 213q, the out abnormality flag 213r, the gate winning abnormality flag 213s and the magnetic abnormality flag 213t are cleared to "0".

After that, at the timing of t13, the information clear processing (FIG. 94) ends as shown in FIG. 100(f), and the fraud detection execution processing (FIG. 95) starts at the timing of t13, as shown in FIG. be done. In the fraud detection execution process (FIG. 95) included in the non-specific control process, it is specified that the second operation winning confirmation flag in the work area 211 for specific control is set to "1". Then, it is specified that the setting of "1" to the second operation winning confirmation flag is caused by an abnormality or fraud. Therefore, at the timing of t14, as shown in FIG. 100(h), the second operation winning abnormality flag 213q in the non-specific control work area 213 is set to "1".

Thereafter, the fraud detection execution process (FIG. 95) ends as shown in FIG. 100(g) at time t15, and the fraud response process (FIG. 99) starts as shown in FIG. 100(d) at time t15. be done. In the fraud handling process (FIG. 99) included in the specific control process, it is specified that the second operation winning abnormality flag 213q in the work area 213 for non-specific control is set to "1". Therefore, at the timing of t16, the second operation winning confirmation flag in the work area 211 for specific control is cleared to "0" as shown in FIG. 100(c).

After that, at the timing of t17, the fraud handling process (FIG. 99) ends as shown in FIG. be started. In the pending information acquisition process (FIG. 92), as shown in FIG. 100(c), the second operation winning confirmation flag in the work area 211 for specific control is not set to "1", so the second pending information is Do not perform processing to acquire. After that, at the timing of t18, the current processing cycle of the first timer interrupt processing (FIG. 88) ends as shown in FIG. 100(a).

After that, at the timing of t19, a new processing cycle of the first timer interrupt processing (FIG. 88) is started as shown in FIG. 100(a). Then, at the timing of t20 when the first timer interrupt process (FIG. 88) of the processing time is being executed, the ball-entering detection process (FIG. 91) is started as shown in FIG. 100(b). By specifying that the game ball is not detected by the second operation opening detection sensor 236a in the ball entry detection process (FIG. 91), the work area 211 for specific control is opened as shown in FIG. 100(c). "1" is not set to the second operation winning confirmation flag of the confirmation flag group 211d.

After that, at the timing of t21, as shown in FIG. 100(b), the entering ball detection processing (FIG. 91) ends, and at the timing of t21, the fraud detection processing (FIG. 93) is called by the CALLI command, and the As shown in (f), information clear processing (FIG. 94) is started. In the information clearing process (FIG. 94), as already described, the first general prize-winning abnormality flag 213l, the second general prize-winning abnormality flag 213m, and the third general prize-winning abnormality flag are cleared among the storage areas of the work area 213 for non-specific control. 213n, the special electric prize winning abnormality flag 213o, the first operation winning abnormality flag 213p, the second operation winning abnormality flag 213q, the out abnormality flag 213r, the gate winning abnormality flag 213s and the magnetic abnormality flag 213t are cleared to "0". Therefore, at the timing of t22, the second operation winning abnormality flag 213q is cleared to "0" as shown in FIG. 100(h). After that, at the timing of t23, the information clear processing (FIG. 94) ends as shown in FIG. 100(f), and the fraud detection execution processing (FIG. 95) starts at the timing of t23, as shown in FIG. be done.

As described above, each detection sensor 231a to 238a that detects the entry of a game ball into each of the general winning port 31, the special electric winning device 32, the first operating port 33, the second operating port 34, the out port 24a, and the through gate 35 Entering ball detection processing (FIG. 91) for specifying whether or not a game ball has been detected in , and processing for progressing the game in response to detection of a game ball by each detection sensor 231a to 238a (Holding information acquisition processing (Fig. 92), general electric control processing (Fig. 96), special electric open processing (Fig. 97 (c)), payout output processing (step S5518), etc.) are included in the specific control processing On the other hand, fraud detection execution processing (FIG. 95) for monitoring whether the detection of the game ball by each detection sensor 231a to 238a is due to abnormality or fraud is included in the non-specific control processing . As a result, there is no need to execute fraud detection execution processing (FIG. 95) for monitoring whether the detection of game balls by the respective detection sensors 231a to 238a is due to abnormality or fraud in the specific control processing. , the data capacity allocated to the specific control program and specific control data in the main ROM 83 can be allocated to processes other than the fraud detection execution process (FIG. 95).

In the processing order of the first timer interrupt processing (FIG. 88), the entry ball detection processing which is included in the specific control processing and is the processing for specifying whether or not the game ball is detected by each detection sensor 231a to 238a. After (FIG. 91), fraud detection execution processing (Figure 95) is executed, and after the fraud detection execution process (FIG. 95), it is included in the specific control process and the game is progressed in response to the detection of the game ball by each of the detection sensors 231a to 238a. (holding information acquisition process (FIG. 92), general electric control process (FIG. 96), special electric open process (FIG. 97(c)), payout output process (step S5518), etc.) are executed. As a result, fraud detection execution processing (Fig. 95) for monitoring whether the detection of game balls by the detection sensors 231a to 238a is due to abnormality or fraud is executed as non-specific control processing. Even with this configuration, it is possible to prevent the processing for progressing the game from being executed in response to the detection of game balls by the detection sensors 231a to 238a caused by an abnormality or fraud.

When it is specified that a game ball is detected by the detection sensors 231a to 238a in the entering ball detection process (FIG. 91) included in the process of specific control, the confirmation flag group 211d in the work area 211 for specific control Each provided confirmation flag is set to "1", and it is specified that the detection of the game ball is caused by an abnormality or fraud in the fraud detection execution process (Fig. 95) included in the non-specific control process. is set to "1" in each of the abnormality flags 213l to 213s provided in the work area 213 for non-specific control, and when "1" is set to the abnormality flags 213l to 213s, The confirmation flags corresponding to the abnormality flags 213l to 213s set to "1" in the fraud handling process (FIG. 99) included in the control process are cleared to "0". As a result, information stored in the work area 211 for specific control can be read in both specific control processing and non-specific control processing, whereas information stored in the work area 211 for specific control can be read. can be written in specific control processing, but not in non-specific control processing, and reading of information stored in the work area 213 for non-specific control is possible in specific control processing and non-specific control processing. While it is possible in any case, while writing information to the work area 213 for non-specific control is possible in non-specific control processing but not possible in specific control processing, the above It becomes possible to produce such an excellent effect.

After the fraud detection execution process (FIG. 95) included in the non-specific control process is executed, until the fraud detection execution process (FIG. 95) is executed again, the fraud response process ( FIG. 99) is executed. Then, in the fraud handling process (FIG. 99), the confirmation flag is cleared to "0" and various prize ball counters are reset according to the abnormality flags 213l to 213s whose information is set in the fraud detection execution process (FIG. 95). Execute the subtraction process. In this case, in the fraud detection execution process (FIG. 95), after first clearing the abnormality flags 213l to 213s to "0", a process for setting information to the abnormality flags 213l to 213s is executed. As a result, in a configuration in which writing of information to the work area 213 for non-specific control is possible in non-specific control processing but not possible in specific control processing, an abnormality is detected at an appropriate timing in non-specific control processing. It becomes possible to clear the flags 213l to 213s to "0".

<Configuration related to security signal>
Next, the security processing executed in step S6625 of the fraud handling processing (FIG. 99) included in the specific control processing will be described with reference to the flowchart of FIG. The processing of steps S6701 to S6714 in the security processing is executed by the specific control processing unit 221 of the main MPU 82 using a specific control program and specific control data.

First, it is determined whether or not the value of the second security counter 213k in the non-specific control work area 213 has increased since the previous execution of security processing (step S6701). The specific control work area 211 is provided with a previous value storage area 211e (see FIG. 78) for storing the value of the second security counter 213k when security processing is executed. In step S6701, it is determined whether or not the value of the second security counter 213k is greater than the value of the previous value storage area 211e.

If the value of the second security counter 213k is greater than the value of the previous value storage area 211e (step S6701: YES), the value of the previous value storage area 211e is subtracted from the value of the second security counter 213k, and the value after the subtraction is obtained. is added to the first security counter 211a in the work area 211 for specific control (step S6702). After that, the previous value storage area 211e is overwritten with the value of the second security counter 213k (step S6703).

As already explained, the trigger for adding "1" to the first security counter 211a is when the set value update process (step S4916) is executed in the main process (FIG. 81) (step S4917) and when the main process (FIG. 81) is executed. ), the RAM clearing process (step S4919) is executed (step S4920). As already explained, the trigger for adding "1" to the second security counter 213k is when a disconnection is confirmed in the disconnection short-circuit processing (FIG. 87) (step S5405), and when the disconnection short-circuit processing (FIG. 87) is confirmed (step S5409), and in the fraud detection execution process (FIG. 95), it is confirmed that a game ball enters the closed second operating port 34 (step S6006), fraud detection is executed. When it is confirmed in the processing (FIG. 95) that a game ball has entered the special electric winning device 32 which is in the closed state (step S6012), and when it is confirmed in the magnetic monitoring processing (FIG. 98) that a magnetic abnormality has occurred ( step S6508).

If a negative determination is made in step S6701 or if the process of step S6703 is executed, it is determined whether or not the value of the first security counter 211a is 1 or more (step S6704). If the value of the first security counter 211a is 1 or more (step S6704: YES), the security flag 211f (see FIG. 78) provided in the specific control work area 211 is set to "1" (step S6705). When the security flag 211f is set to "1", the abnormality display device 206 mounted on the main control board 81 of the main control device 71 is in a light emitting state. Incidentally, when the value of the security flag 211f is "0", the abnormality display device 206 is kept turned off. The state in which the security flag 211f is set to "1" is maintained when the supply of operating power to the main MPU 82 is continued, and the RAM clear processing (step S4919) in the main processing (FIG. 81) or the set value The security flag 211f is cleared to "0" when the RAM clearing process (step S5113) in the update process (FIG. 83) is executed.

If a negative determination is made in step S6704 or if the process of step S6705 is executed, it is determined whether or not the current situation is a situation in which a security signal is being externally output from the main MPU 82 to the management computer of the gaming hall (step S6706). If the security signal is not being output to the outside (step S6706: NO), it is determined whether or not the value of the first security counter 211a is 1 or more (step S6707). is "0" (step S6708). The continuation period counter measures the output continuation period when the output of the security signal continues for the output continuation period (specifically 200 milliseconds), and the stop continuation period (specifically is 200 milliseconds). The value set in the duration counter is decremented by 1 each time the specific control timer update process of step S5510 in the first timer interrupt process (FIG. 88) is executed.

If the value of the first security counter 211a is 1 or more and the value of the duration counter is "0" (steps S6707 and S6708: YES), security signal output start processing is executed (step S6709). As a result, the main MPU 82 starts to output a security signal to the management computer of the game hall. Thereafter, information corresponding to the output duration (specifically, 200 milliseconds) is set in the duration counter in the work area 211 for specific control (step S6710). Also, 1 is subtracted from the value of the first security counter 211a (step S6711).

If the security signal is being output to the outside (step S6706: YES), the output duration is determined by determining whether the value of the duration counter in the work area 211 for specific control is "0". has elapsed (step S6712). If the value of the duration counter is "0" (step S6712: YES), security signal output stop processing is executed (step S6713). As a result, the external output of the security signal from the main side MPU 82 to the management computer of the game hall is stopped. Thereafter, information corresponding to the stop duration (specifically, 200 milliseconds) is set in the duration counter in the work area 211 for specific control (step S6714).

Next, how the security signal is output to the outside will be described with reference to the time chart of FIG. FIG. 102(a) shows the period during which specific control processing is executed, FIG. 102(b) shows the value of the first security counter 211a in the work area 211 for specific control, and FIG. FIG. 102(d) shows the value of the second security counter 213k in the work area 213 for non-specific control, and FIG. FIG. 102(f) shows the state of the security flag 211f in the work area 211 for specific control, and FIG. FIG. 102(h) shows a period during which the abnormality display device 206 mounted on the control board 81 is in a light-emitting state, and FIG.

From timing t1 to timing t3, as shown in FIG. 102(a), the main MPU 82 executes specific control processing. In this case, the main process (FIG. 81) is executed when the supply of operating power to the main MPU 82 is started. Then, in the main process (FIG. 81), the set value update process (step S4916) or the RAM clear process (step S4919) is executed, so that the first security counter is cleared at the timing t2 as shown in FIG. 102(b). 211a is incremented by one.

After that, at timing t3, the first management process (FIG. 85) included in the non-specific control process is called by the CALLI command while the specific control process is being executed in the main process (FIG. 81) (step S4927). ). The first management process (FIG. 85) is executed from timing t3 to timing t5 as shown in FIG. 102(c). In this case, the occurrence of disconnection or short circuit is specified in the disconnection and short-circuit processing (FIG. 87) in the first management processing (FIG. 85). Therefore, at the timing of t4, the value of the second security counter 213k is incremented by 1 as shown in FIG. 102(d).

After that, when the first management process (FIG. 85) ends at the timing t5, the specific control process is executed from the timing t5 to the timing t6 as shown in FIG. 102(a). In the specific control process, the process of steps S4927 to S4932 in the main process (FIG. 81) and the process of steps S5501 to S5508 in the first timer interrupt process (FIG. 88) are executed.

After that, at the timing of t6, while specific control processing is being executed in the first timer interrupt processing (FIG. 88), the CALLI instruction calls fraud detection processing (FIG. 93) included in non-specific control processing ( step S5509). The fraud detection process (FIG. 93) is executed from timing t6 to timing t7 as shown in FIG. 102(c). In this case, in the fraud detection execution processing (FIG. 95) in the fraud detection processing (FIG. 93), the winning to the closed second operation opening 34, the winning to the special electric winning device 32 in the closed state, and the magnetic abnormality Since the occurrence is not specified, the value of the second security counter 213k is maintained without being incremented by one.

After that, when the fraud detection process (FIG. 93) ends at the timing t7, the specific control process is executed from the timing t7 to the timing t10 as shown in FIG. 102(a). In the specific control process, the process of steps S5510 to S5520 in the first timer interrupt process (FIG. 88) is executed. In this case, security processing (FIG. 101) is executed in fraud handling processing (step S5511) as shown in FIG. 102(e) from timing t8 to timing t9.

In the security processing (FIG. 101), it is specified that the value of the second security counter 213k in the work area 213 for non-specific control is greater than the value in the previous value storage area 211e in the work area 211 for specific control. By doing so, the incremented value is added to the first security counter 211a. Therefore, as shown in FIG. 102(b), the value of the first security counter 211a increases from "1" to "2" at the timing of t8.

In the security processing (FIG. 101), by specifying that the value of the first security counter 211a is 1 or more, "1" is set to the security flag 212f as shown in FIG. 102(f) at the timing of t8. do. By setting "1" to the security flag 212f, the abnormality display device 206 becomes a light emitting state as shown in FIG. 102(g) at the timing of t8.

In the security processing (FIG. 101), by specifying that the value of the first security counter 211a is 1 or more, external output of the security signal is started at timing t9 as shown in FIG. 102(h), As shown in FIG. 102(b), 1 is subtracted from the value of the first security counter 211a.

After that, at the timing of t10, under the condition that specific control processing is being executed in the first timer interrupt processing (FIG. 88), the second management processing (FIG. 107), which is included in the non-specific control processing, is executed by the CALLI instruction. The second management process (FIG. 107) called (step S5521) is executed from timing t10 to timing t11 as shown in FIG. 102(c).

After that, when the second management process (FIG. 107) ends at the timing t11, the specific control process is executed from the timing t11 to the timing t12 as shown in FIG. 102(a). In the specific control process, the process of steps S4927 to S4932 in the main process (FIG. 81) and the process of steps S5501 to S5508 in the first timer interrupt process (FIG. 88) are executed.

After that, at the timing of t12, while specific control processing is being executed in the first timer interrupt processing (FIG. 88), the CALLI instruction calls fraud detection processing (FIG. 93) included in non-specific control processing ( step S5509). The fraud detection process (FIG. 93) is executed from timing t12 to timing t13 as shown in FIG. 102(c). In this case, in the fraud detection execution processing (FIG. 95) in the fraud detection processing (FIG. 93), the winning to the closed second operation opening 34, the winning to the special electric winning device 32 in the closed state, and the magnetic abnormality Since the occurrence is not specified, the value of the second security counter 213k is maintained without being incremented by one.

After that, when the fraud detection process (FIG. 93) ends at the timing of t13, the specific control process is executed from the timing of t13 to the timing of t16 as shown in FIG. 102(a). In the specific control process, the process of steps S5510 to S5520 in the first timer interrupt process (FIG. 88) is executed. In this case, security processing (FIG. 101) is executed in fraud handling processing (step S5511) as shown in FIG. 102(e) from timing t14 to timing t15.

In the security process (FIG. 101), the value of the second security counter 213k in the work area 213 for non-specific control does not change from the value in the previous value storage area 211e in the work area 211 for specific control. As shown in (b), the process of increasing the value of the first security counter 211a according to the value of the second security counter 213k is not executed. Further, the state in which the security flag 211f is set to "1" is maintained when the supply of operating power to the main MPU 82 is continued, and the RAM clear processing (step S4919) in the main processing (FIG. 81). 102(g), the light emitting state of the abnormality display device 206 is maintained. Further, since the output continuation period (specifically, 200 milliseconds) has not elapsed since the start of the external output of the security signal, the external output of the security signal is continued as shown in FIG. 102(h).

After that, at the timing of t16, under the condition that specific control processing is being executed in the first timer interrupt processing (FIG. 88), the second management processing (FIG. 107), which is included in the non-specific control processing, is executed by the CALLI instruction. It is called (step S5521).

As described above, the process for specifying whether or not an event targeted for external output of the security signal has occurred is executed not only in the specific control process but also in the non-specific control process. As a result, the process for monitoring whether or not the event targeted for the external output of the security signal has occurred is assigned to the non-specific control process, and the program and data for the specific control process Capacity can be allocated to other processes.

A work area 211 for specific control is provided with a first security counter 211a and a work area 213 for non-specific control is provided with a second security counter 213k. If it is identified that the event has occurred, the value of the first security counter 211a is incremented by 1, and it is identified that the event for which the security signal is to be externally output has occurred in the non-specific control process. If so, 1 is added to the value of the second security counter 213k. As a result, writing of information to the work area 211 for specific control is enabled in specific control processing and disabled in non-specific control processing, and writing of information to the work area 213 for non-specific control is disabled. Although it is possible in specific control processing and not possible in specific control processing, events that are subject to external output of security signals occur in each of specific control processing and non-specific control processing can be appropriately specified.

In the security processing (FIG. 101) included in the specific control processing, the increase in the value of the second security counter 213k in the work area 213 for non-specific control is added to the first security counter 211a. is greater than or equal to 1, a security signal is output to the outside in security processing (FIG. 101). Then, the external output of the pulse-shaped security signal for a predetermined output continuation period or longer with a predetermined stop continuation period intervening is repeatedly executed until the value of the first security counter 211a becomes "0". Thereby, in a configuration in which the occurrence of an event targeted for external output of a security signal is specified in each of the specific control process and the non-specific control process, the process for externally outputting the security signal. can be integrated into specific control processing.

When the value of the first security counter 211a becomes 1 or more, the security flag 211f is set to "1", and when the security flag 211f is set to "1", the abnormality display device 206 is turned on. . The state in which the security flag 211f is set to "1" is maintained as long as the supply of operating power to the main MPU 82 is continued, and the RAM clear processing (step S4919) in the main processing (FIG. 81). ) or the RAM clearing process (step S5113) in the set value updating process (FIG. 83) is executed, and when the security flag 211f is set to "1", the abnormality display device 206 is kept in the light emitting state. be. As a result, at least when the game hall is in operation, regardless of the confirmation timing of the abnormality display device 206, the manager of the game hall can recognize whether or not an event targeted for external output of the security signal has occurred. becomes possible.

<Configuration related to game history management>
Next, a configuration related to game history management will be described.

The contents of various areas 251 to 254 of the non-specific control work area 213 used to manage the game history will be explained. FIG. 103 is an explanatory diagram for explaining various areas of the non-specific control work area 213 used to manage the game history.

A normal counter area 251 is provided in the non-specific control work area 213 . The normal counter area 251 is provided with a general winning counter 251a, a special electric winning counter 251b, a first operation counter 251c, a second operation counter 251d, and an out counter 251e. The general winning counter 251a is a counter for measuring the number of game balls entered into the general winning opening 31 from a predetermined measurement start timing. The special electric prize-winning counter 251b is a counter for measuring the number of game balls entering the special electric prize-winning device 32 from a predetermined measurement start timing. The first operation counter 251c is a counter for measuring the number of game balls entered into the first operation opening 33 from a predetermined measurement start trigger. The second operation counter 251d is a counter for measuring the number of game balls entered into the second operation opening 34 from a predetermined measurement start trigger. The out counter 251e is a counter for measuring the number of game balls entering the out port 24a from a predetermined measurement start timing.

Each of the counters 251a to 251e in the normal counter area 251 is in a state in which the front door frame 14 is in a closed state and neither in the open/close execution mode nor in the high-frequency support mode. , 31 to 34 are used to count the number of game balls entered. The reason why the state in which the front door frame 14 is open is not subject to measurement is that when the front door frame 14 is opened, a game ball enters the ball entry portions 24a, 31 to 34 by maintenance. This is to exclude the number of balls entered in the case where the number of balls is counted. However, the present invention is not limited to this, and the state in which the front door frame 14 is in the open state may be measured in the same manner as the state in which the front door frame 14 is in the closed state.

The non-specific control work area 213 is provided with a calculation result storage area 252 in addition to the normal counter area 251 . The calculation result storage area 252 is an area for storing information on the game history management result calculated using the normal counter area 251 . The information of the management result of the game history stored in the calculation result storage area 252 is stored and held until the newly calculated information of the management result of the game history is overwritten by the newly calculated information.

FIG. 104 is an explanatory diagram for explaining the electrical configuration of the calculation result storage area 252 in the work area 213 for non-specific control.

Information of the base value calculated by the main MPU 82 is stored in the calculation result storage area 252 . The base value is the total number of game balls ejected from the game area PA (that is, the total number of game balls supplied to the game area PA) in neither the opening/closing execution mode due to the jackpot result nor the high-frequency support mode. It is the ratio of the total number of game balls to be paid out.

When one game ball enters the general winning hole 31 in neither the opening/closing execution mode according to the jackpot result nor the high-frequency support mode, the value of the general winning counter 251a is incremented by 1, and the special electric winning device 32 When one game ball enters the first operation port 33, the value of the special electric winning counter 251b is incremented by 1, and when one game ball enters the first operation port 33, the value of the first operation counter 251c increases. 1 is added, and when one game ball enters the second operation port 34, the value of the second operation counter 251d is added by 1, and when one game ball enters the out port 24a The value of the out counter 251e is incremented by one. When the values of the various counters 251a to 251e of the normal counter area 251 are set to K91 to K95 in neither the opening/closing execution mode based on the result of the big win nor the high-frequency support mode, the base values are as follows.
・Base value: Total number of game balls paid out (K91 x “Number of prize balls for winning to general winning port 31” + K92 x “Number of winning balls for winning to special electric winning device 32” + K93 x “To first operation port 33 "Number of prize balls for winning" + K94 x "Number of prize balls for winning to second operation port 34") / total number of game balls discharged from game area PA (K91 + K92 + K93 + K94 + K95).

The calculation of the base value is performed each time the result calculation process (FIG. 110) described later in the second management process (FIG. 107) included in the non-specific control process is executed. The values of the various counters 251a to 251e are in a situation where the management start flag provided in the non-specific control work area 213 is not set to "1", and in either the open/close execution mode or the high-frequency support mode depending on the jackpot result. When the total number of game balls discharged from the game area PA (that is, the total number of game balls supplied to the game area PA) becomes the management start reference number in a situation where it is not, it is cleared to "0" and the management is started. The total number of game balls ejected from the game area PA in a situation where the flag is set to "1" and neither the opening/closing execution mode due to the jackpot result nor the high-frequency support mode (that is, supplied to the game area PA) "0" is cleared when the total number of played game balls) becomes the shift reference number.

The management start reference number is set to 300, which is less than the shift reference number. At the stage of shipment of the pachinko machine 10, the operation of the pachinko machine 10 may be checked before shipment, and at that time, game balls are put in each ball entry section and the operation after that is checked. The base value under such circumstances may be a value different from that under which a normal game is played. Therefore, the total number of game balls discharged from the game area PA in a situation where the management start flag is not set to "1" and neither the opening/closing execution mode due to the jackpot result nor the high-frequency support mode (that is, the game At the stage when the total number of game balls supplied to the area PA) reaches the management start reference number which is smaller than the shift reference number, the various counters 251a to 251e in the normal counter area 251 are cleared to "0". As a result, it is possible to reduce the influence of the operation check on the base value in a situation where normal games are being played after the shipment of the pachinko machine 10 . In addition, the management start reference number is not limited to 300, and may be any number as long as it is plural. good too.

The shift reference number is set to 60,000. Since the pachinko machine 10 shoots a maximum of 100 game balls per minute, 60000 is the maximum number of shots in 10 hours. In this case, the general business hours of the game hall is about 13 hours, and the time during which the game is played in neither the opening/closing execution mode due to the result of the big win nor the high-frequency support mode is about 10 hours. Therefore, the shift reference number is set on the assumption of the maximum number of game balls shot in one business day. By clearing the various counters 251a to 251e in the normal counter area 251 to "0" each time the shift reference number is reached, it is possible to calculate the base value within the range of the shift reference number. Note that the shift reference number is not limited to 60,000, and may be any number as long as it is plural. good.

The calculation result storage area 252 is provided with a current status area 256, a first history area 257, a second history area 258, and a third history area 259 as storage areas for storing the base value information. there is All of these various areas 256 to 259 have the same storage capacity, specifically, a capacity of 1 byte so as to be able to store base value information.

A current area 256 stores the base value calculated in the most recent result calculation process (FIG. 110). That is, the current state area 256 stores the most recent base value.

The first history area 257 stores the final base value in the previous calculation period. In this case, if the previous calculation period is after the management start flag is set to "1", the first history area 257 displays the opening/closing execution mode according to the jackpot result in the previous calculation period. And the base value at the timing when the total number of game balls discharged from the game area PA (that is, the total number of game balls supplied to the game area PA) in a situation that is not in the high frequency support mode becomes the shift reference number Stored. Further, if the management start flag is set to "1" due to the lapse of the previous calculation period, the first history area 257 displays the opening/closing execution mode and The base value at the timing when the total number of game balls discharged from the game area PA (that is, the total number of game balls supplied to the game area PA) in a situation that is not in any of the high-frequency support modes becomes the management start reference number Stored.

A second history area 258 stores the final base value in the calculation period two times before. In this case, if the calculation period two times before is after the management start flag is set to "1", the second history area 258 displays the opening/closing execution mode according to the jackpot result in the calculation period two times before. And the base value at the timing when the total number of game balls discharged from the game area PA (that is, the total number of game balls supplied to the game area PA) in a situation that is not in the high frequency support mode becomes the shift reference number Stored. Further, if the management start flag is set to "1" by the elapse of the calculation period two times before, the second history area 258 displays the opening/closing execution mode and The base value at the timing when the total number of game balls discharged from the game area PA (that is, the total number of game balls supplied to the game area PA) in a situation that is not in any of the high-frequency support modes becomes the management start reference number Stored.

A third history area 259 stores the final base value in the calculation period three times before. In this case, if the calculation period three times before is after the management start flag is set to "1", the third history area 259 displays the opening/closing execution mode according to the jackpot result in the calculation period three times before. And the base value at the timing when the total number of game balls discharged from the game area PA (that is, the total number of game balls supplied to the game area PA) in a situation that is not in the high frequency support mode becomes the shift reference number Stored. Further, if the management start flag is set to "1" by the elapse of the calculation period three times before, the third history area 259 displays the opening/closing execution mode and The base value at the timing when the total number of game balls discharged from the game area PA (that is, the total number of game balls supplied to the game area PA) in a situation that is not in any of the high-frequency support modes becomes the management start reference number Stored.

The base values stored in the current status area 256, the first history area 257, the second history area 258, and the third history area 259 are sequentially notified by the first to fourth notification display devices 201-204. Specifically, every time the display continuation period (specifically, 5 seconds) elapses, the display is displayed in a predetermined order of current area 256→first history area 257→second history area 258→third history area 259. The base value to be notified is switched, and the switching of the base value to be notified is repeated in the predetermined order.

105(a) to 105(d) are for the first to fourth notifications when the base values stored in the various areas 256 to 259 are notified in a situation where the management start flag is set to "1". 2 is an explanatory diagram for explaining display contents of display devices 201 to 204; FIG. FIG. 105(a) shows an example of display contents of the first to fourth notification display devices 201 to 204 when the base value stored in the current status area 256 is notified, and FIG. 105(b) shows the first history. An example of display contents of the first to fourth notification display devices 201 to 204 when the base value stored in the area 257 is notified, FIG. FIG. 105(d) shows an example of display contents of the first to fourth notification display devices 201 to 204 when values are notified, and FIG. An example of display contents of the first to fourth notification display devices 201 to 204 is shown.

As shown in FIGS. 105(a) to 105(d), each of the first to fourth notification display devices 201 to 204 has eight display segments 201a to 204a. The seven display segments 201a to 204a out of the eight display segments 201a to 204a are rod-shaped light emitting regions having the same shape and size, and are arranged to form the figure "8". It is On the other hand, one display segment 201a to 204a is a circular light-emitting area, and is located at the lower right position with respect to the seven display segments 201a to 204a arranged in the shape of the letter "8". is provided. At least one display segment 201a to 204a in each of the first to fourth notification display devices 201 to 204 is in a luminous state even when any of the base values of the various areas 256 to 259 is to be notified.

In the first notification display device 201, a display indicating that the base value is being notified in the first to fourth notification display devices 201 to 204 is performed. Specifically, the character "b" is displayed on the first notification display device 201 regardless of which of the base values in the various areas 256 to 259 is to be notified. When information other than the base value is notified by the first to fourth notification display devices 201 to 204, the first notification display device 201 does not display the character "b". As a result, by confirming that the character "b" is displayed on the first notification display device 201, the manager of the game hall can use the first to fourth notification display devices 201 to 204 as the base. It becomes possible to grasp that the value is notified.

On the second notification display device 202, a display indicating which of the various areas 256 to 259 the base value is being notified is displayed. Specifically, in a situation where the base value of the current area 256 is notified, the character "L." is displayed on the second notification display device 202 as shown in FIG. 105(a). In the situation where the base value of the first history area 257 is notified, the character "1." is displayed on the second notification display device 202 as shown in FIG. 105(b). In the situation where the base value of the second history area 258 is notified, the characters "2." are displayed on the second notification display device 202 as shown in FIG. 105(c). In the situation where the base value of the third history area 259 is notified, the characters "3." are displayed on the second notification display device 202 as shown in FIG. 105(d). As a result, by confirming the characters displayed on the second notification display device 202, the administrator of the game hall can determine which base values are notified by the first to fourth notification display devices 201 to 204. It is possible to grasp whether it is during the calculation period of

In the second notification display device 202, the circular display segments 201a to 204a are in a luminous state regardless of which base value among the various areas 256 to 259 is being notified. On the third notification display device 203 and the fourth notification display device 204, one of the numbers "0" to "9" is displayed as the display corresponding to the base value. In this case, when one of the numbers "1" to "3" is displayed on the second notification display device 202, three numbers are displayed on the second to fourth notification display devices 202 to 204. It will be lined up, and it will be difficult to grasp the base value. On the other hand, when the circular display segments 201a to 204a provided in the lower right of the second notification display device 202 are in a light-emitting state, the second notification display device 202 displays "1" to " 3" is displayed, the number displayed on the second notification display device 202 and the number displayed on the third notification display device 203 and the fourth notification display device 204 It is possible to distinguish between numbers and numbers.

On the third notification display device 203 and the fourth notification display device 204, the number of the base value to be notified is displayed. The base value is calculated as a decimal number up to the second decimal place. The second number is displayed on the display device 204 for fourth notification. Here, when the base value is "1.00", the number "0" is displayed on each of the third display device 203 and the fourth display device 204 for notification. On the other hand, when the base values are not yet stored in the areas 256 to 259 to be notified, the third notification display device 203 and the fourth notification display are displayed as shown in FIG. A “-” character is displayed on each of the devices 204 . As a result, even when a base value calculated as a decimal number up to the second decimal place is reported by two display devices, the third display device 203 and the fourth display device 204, the base value is "1.00" and the display contents can be distinguished between the cases where the base values are not yet stored in the areas 256 to 259 to be notified.

The display contents of the combination of the third notification display device 203 and the fourth notification display device 204 are the same when the base value is "1.00" and when the base value is "0.00". On the other hand, in order to distinguish between the two, one of the former and the latter may be configured to maintain the light emitting state of "00" display, and the other may be configured to blink the display of "00".

When the supply of operating power to the main side MPU 82 is started, the game hall checks whether each display segment 201a to 204a provided in the first to fourth information display devices 201 to 204 can normally be in a light emitting state. In order to allow the administrator to confirm, the check display is performed on the first to fourth notification display devices 201 to 204 until the initial check period elapses. Specifically, as the check display, all the display segments 201a to 204a of the first to fourth notification display devices 201 to 204 are maintained in the light emitting state as shown in the explanatory diagram of FIG. 106(b). .

In a situation where the management start flag in the non-specific control work area 213 is not set to "1", as shown in the explanatory diagram of FIG. In each of the situations where all the display segments 201a and 202a are in the light emitting state, the third notification display device 203 displays the number to the first decimal place of the base value calculated in the current calculation period. At the same time, the second decimal place number of the base value calculated in the current calculation period is displayed on the fourth notification display device 204 . While all the display segments 201a and 202a of the first and second information display devices 201 and 202 are put into a light-emitting state, the third and fourth information display devices 203 and 204 display a number corresponding to the base value. By doing so, it becomes possible for the manager of the game hall to recognize that the currently notified base value is the base value in the situation where the management start flag is not set to "1".

Next, the process of step S5521 of the first timer interrupt process (FIG. 88) will be described.

In step S5521 of the first timer interrupt process (FIG. 88), the second management process is executed by the CALLI instruction as already described. The second management process is included in the non-specific control process. In other words, in the first timer interrupt processing (FIG. 88), when the situation changes from the specific control process to the non-specific control process, the non-specific control process uses the CALLI instruction. Called.

When the second management process is executed by the CALLI instruction, first, the information in the flag register of the main MPU 82 is saved in the stack area 212 for specific control. The flag register includes a carry flag, a zero flag, a P/V flag, a sign flag, a half carry flag, and the like, and the information in the flag register changes according to the execution results of arithmetic instructions, rotate instructions, input/output instructions, and the like. By saving the information of the flag register before the program of the second management process which is non-specific control process is started, the call of the second management process and the start of the second management process can be performed. It is possible to save the information of the flag register in the state before the change later in the stack area 212 for specific control.

When the second management process is executed by the CALLI instruction, after the information in the flag register is saved in the stack area 212 for specific control, the first timer interrupt process (FIG. 88) and the second timer interrupt described later are executed. Interruption of processing (FIG. 114) is prohibited. As a result, the first timer interrupt process (FIG. 88) and the second timer interrupt process (FIG. 114), which are specific control processes, are interrupted and started while the second management process, which is non-specific control process, is being executed. It is possible to prevent it from being lost.

When the second management process is executed by the CALLI instruction, the information in the flag register is saved in the stack area 212 for specific control, and the first timer interrupt process (FIG. 88) and the second timer interrupt process (FIG. 114) are executed. ) is disabled, the program corresponding to the second management process is started.

In this way, with the configuration in which the second management process is executed by the CALLI instruction, information in the flag register of the main side MPU 82 is saved in the stack area 212 for specific control by one instruction ("CALLI"). At the same time, the first timer interrupt processing (FIG. 88) and the second timer interrupt processing (FIG. 114) are prohibited. Then, a program corresponding to the second management process can be started. For this reason, the instruction to save the information of the flag register of the main MPU 82 to the stack area 212 for specific control and the interruption of the first timer interrupt processing (FIG. 88) and the second timer interrupt processing (FIG. 114) are prohibited. to reduce the number of instructions set in the program for executing the second management process, compared to the case where the instruction for executing the second management process and the instruction for starting the program for the second management process are separately provided. be able to. As a result, the storage capacity of the main ROM 83 for storing programs can be reduced.

FIG. 107 is a flow chart showing the second management process. The processing of steps S6801 to S6816 in the second management process is executed by the non-specific control processing unit 222 of the main MPU 82 using the non-specific control program and non-specific control data.

First, as "LD SP, Y(u+2)", the stack pointer of the main MPU 82 is set to Y(u+2) as a fixed address at the start of non-specific control by a load instruction (step S6801). The stack pointer is an area in which address information is set for the main MPU 82 to specify a storage area to which information is to be written by a push instruction in the stack areas 212 and 214 . Each time a push instruction is performed, the stack pointer information is updated to the address information of the storage area to be written in the next order, and each time a pop instruction is performed, the stack pointer information is updated to the previous order to be written is updated to the information of the address of the storage area. Further, when the stack area 214 for non-specific control is used, the information to be stored is stored from the storage area of the last address in the stack area 214 for non-specific control, and each time the information to be stored is added. Then, the storage area of the storage destination is changed toward the first address side in the stack area 214 for non-specific control. Therefore, in step S6801, the information of the last address in stack area 214 for non-specific control is set in the stack pointer.

Thereafter, as "LD (_WABUF), WA", the information in the WA register of the main side MPU 82 is saved in the WA buffer set in the non-specific control work area 213 by the load instruction (step S6802). Also, as "LD (_BCBUF), BC", the information in the BC register of the main MPU 82 is saved in the BC buffer set in the non-specific control work area 213 by the load instruction (step S6803). Also, as "LD (_DEBUF), DE", the information in the DE register of the main side MPU 82 is saved in the DE buffer set in the non-specific control work area 213 by the load instruction (step S6804). Also, as "LD (_HLBUF), HL", the information in the HL register of the main MPU 82 is saved in the HL buffer set in the non-specific control work area 213 by the load instruction (step S6805). Also, as "LD (_IXBUF), IX", the information in the IX register of the main MPU 82 is saved in the IX buffer set in the non-specific control work area 213 by the load instruction (step S6806). Also, as "LD (_IYBUF), IY", the information in the IY register of the main MPU 82 is saved in the IY buffer set in the non-specific control work area 213 by the load instruction (step S6807).

In the general-purpose register area 223a in the register area 223 of the main MPU 82, there are various general-purpose registers, auxiliary registers and index registers in addition to the already explained flag registers. In this case, in steps S6802 to S6807, each information of the WA register, BC register, DE register, HL register, IX register and IY register, which are some of these various general purpose registers, auxiliary registers and index registers is saved in the corresponding buffer in the work area 213 for non-specific control. The amount of information in the WA register, BC register, DE register, HL register, IX register and IY register is all 2 bytes.

These WA register, BC register, DE register, HL register, IX register and IY register are registers used in information abnormality monitoring processing (step S6808) and check processing (step S6809) which are processing corresponding to non-specific control. be. By saving the information set in such registers to the work area 213 for non-specific control prior to execution of the information abnormality monitoring process (step S6808) and the check process (step S6809), the information is used for the specific control. It is also possible to save the information in these registers before the non-specific control is started. Therefore, even if these registers are overwritten during the non-specific control, the information saved in the work area 213 for non-specific control is returned to these registers when the non-specific control is terminated. can be returned to the state corresponding to the specific control before the non-specific control is executed.

In addition, instead of saving all the information of various general-purpose registers, auxiliary registers, and index registers to the work area 213 for non-specific control, information abnormality monitoring processing (step S6808), which is processing corresponding to non-specific control, and By selectively saving the information of the WA register, BC register, DE register, HL register, IX register and IY register to be used in the check processing (step S6809) to the work area 213 for non-specific control, It is possible to reduce the capacity to be secured for saving register information in the work area 213 for specific control. Therefore, while securing a large capacity of the work area 213 for non-specific control that can be used in the information abnormality monitoring process (step S6808) and the check process (step S6809), the above register information is saved. becomes possible.

Of course, among various general-purpose registers, auxiliary registers, and index registers in the main MPU 82, registers other than the WA register, BC register, DE register, HL register, IX register, and IY register support non-specific control. The information set before the start of the processing to be performed is stored and retained until the processing corresponding to the non-specific control ends and the processing corresponding to the specific control is restarted.

In addition, by saving register information in the work area 213 for non-specific control instead of saving it in the stack area 214 for non-specific control, the capacity of the stack area 214 for non-specific control can be reduced accordingly. It becomes possible. Also, when using the stack area 214 for non-specific control, as already explained, information is written in the order in which later information is read out first. Otherwise, all subsequent read order information will be returned to different registers. The probability of occurrence of such an event increases as the amount of information saved in the stack area 214 for non-specific control increases. On the other hand, by saving the register information to the work area 213 for non-specific control, it is possible to prevent the above-described phenomenon from occurring even when there is a large amount of information to be saved. .

After executing the processing of steps S6802 to S6807, information abnormality monitoring processing (step S6808) and check processing (step S6809) are executed. When executing the information abnormality monitoring process (step S6808) and the check process (step S6809), a subroutine corresponding to the information abnormality monitoring process (step S6808) and the check process (step S6809) set in the non-specific control program is executed. When executing the program of the subroutine, in order to specify the return address of the second management process after the information abnormality monitoring process (step S6808) and the check process (step S6809) are executed. is written to the stack area 214 for non-specific control by a push instruction. Then, when the information abnormality monitoring process (step S6808) and the check process (step S6809) are completed, information for specifying the return address is read by the pop command, and the second management process indicated by the return address is performed. program. Details of the information abnormality monitoring process (step S6808) and the check process (step S6809) will be described later.

After executing the information abnormality monitoring process (step S6808) and the check process (step S6809), the stack pointer of the main side MPU 82 is loaded by the load instruction as "LD SP, Y(r+c)", and the second management process is completed. Y(r+c) is set as a fixed address when returning to specific control later (step S6810). The address of Y(r+c) is set as an address between Y(r+8) and Y(s) in the stack area 212 for specific control.

Immediately before the second management process is called in step S5521 of the first timer interrupt process (FIG. 88), the amount of information stored in the specific control stack area 212 is always constant. The information of the stack pointer of the main MPU 82 (that is, the value of the stack pointer) is constant. In this case, the information stored in the specific control stack area 212 includes, for example, the return address information of the first timer interrupt process (FIG. 88) after the second management process ends. The constant information of the stack pointer is Y(r+c). Therefore, when the information abnormality monitoring process (step S6808) and the check process (step S6809), which are processes corresponding to the non-specific control, are completed and the process corresponding to the specific control is resumed, the constant information Y By setting (r+c) to the stack pointer of the main MPU 82, the information of the stack pointer can be restored to the information immediately before the process corresponding to non-specific control is started. By setting the fixed information in the stack pointer in this way, the information of the stack pointer is restored to the information immediately before the processing corresponding to the non-specific control is started, so that the processing corresponding to the non-specific control It becomes unnecessary to save the information of the stack pointer of the main MPU 82 corresponding to the specific control in the main RAM 84 before starting the control. Therefore, it is possible to reduce the processing load and eliminate the need to secure an area for saving in the main RAM 84 .

Thereafter, as "LD WA, (_WABUF)", the WA register of the main MPU 82 is overwritten with the information saved in the WA buffer of the non-specific control work area 213 by the load instruction (step S6811). Also, as "LD BC, (_BCBUF)", the BC register of the main MPU 82 is overwritten with the information saved in the BC buffer of the non-specific control work area 213 by the load instruction (step S6812). Also, as "LD DE, (_DEBUF)", the DE register of the main MPU 82 is overwritten with the information saved in the DE buffer of the non-specific control work area 213 by the load instruction (step S6813). Also, as "LD HL, (_HLBUF)", the HL register of the main MPU 82 is overwritten with the information saved in the HL buffer of the non-specific control work area 213 by the load instruction (step S6814). Also, as "LD IX, (_IXBUF)", the IX register of the main MPU 82 is overwritten with the information saved in the IX buffer of the non-specific control work area 213 by the load instruction (step S6815). Also, as "LD IY, (_IYBUF)", the IY register of the main MPU 82 is overwritten with the information saved in the IY buffer of the non-specific control work area 213 by the load instruction (step S6816). By executing the processing of steps S6811 to S6816, each information of the WA register, BC register, DE register, HL register, IX register and IY register of the main MPU 82 is processed for non-specific control. It is possible to restore the information corresponding to the specific control immediately before the control.

After executing the processing of steps S6811 to S6816, the RETI instruction returns to the first timer interrupt processing (FIG. 88) included in the specific control processing. By executing the RETI instruction, the information in the flag register saved in the stack area 212 for specific control before execution of the second management process is restored to the flag register of the main MPU 82, and the first timer interrupt is executed. The state in which the processing (FIG. 88) and the second timer interrupt processing (FIG. 114) are prohibited is switched to the state in which they are permitted. As a result, the information in the flag register of the main MPU 82 is restored to the information for executing the specific control, and new execution of the first timer interrupt process and the second timer interrupt process becomes possible.

With the configuration for executing the RETI instruction, information in the flag register saved in the stack area 212 for specific control before execution of the second management process is transferred to the main MPU 82 by one instruction ("RETI"). It is possible to restore the flag register and switch from the state in which the generation of the first timer interrupt processing (FIG. 88) and the second timer interrupt processing (FIG. 114) is prohibited to the state in which it is permitted. For this reason, an instruction for restoring the information of the flag register saved in the stack area 212 for specific control before execution of the second management process to the flag register of the main side MPU 82 and the first timer interrupt process (Fig. 88 ) and second timer interrupt processing (FIG. 114) are set in the program for non-specific control processing, compared to the case where the instruction for switching from the state in which the generation of the second timer interrupt processing (FIG. 114) is prohibited to the state in which it is permitted is provided separately. You can reduce the number of instructions. As a result, it is possible to reduce the storage capacity of the main-side ROM 83 for storing programs for non-specific control processing.

Information stored in the flag register and various registers of the main MPU 82 when the non-specific control process is executed is not saved in the main RAM 84 when the specific control process is restarted. This eliminates the need to secure a storage area for saving the above information in the work area 211 for specific control and the stack area 212 for specific control.

Further, the information stored in the flag register and various registers of the main MPU 82 when the non-specific control process is executed is stored when the non-specific control process is restarted after returning to the specific control process. Information that is not used. In other words, information necessary for a plurality of times of non-specific control processing executed with specific control processing intervening is stored in the work area 213 for non-specific control or the stack area 214 for non-specific control. It is not stored in the flag register and various registers of the main MPU 82. Therefore, even if the information stored in the flag register and various registers of the main side MPU 82 is not saved in the main side RAM 84 when the non-specific control process is executed, a problem arises in executing the non-specific control process. do not have.

Next, the check processing executed by calling the subroutine program in step S6809 will be described. FIG. 108 is a flowchart showing check processing. The processing of steps S6901 to S6906 in the check process is executed by the non-specific control processing unit 222 of the main MPU 82 using the non-specific control program and non-specific control data.

In the check process, if the front door frame 14 is not in the open state (step S6901: NO), is not in the open/close execution mode (step S6902: NO), and is not in the high frequency support mode (step S6903: NO), the normal input After executing ball management processing (step S6904), result calculation processing (step S6905) and display processing (step S6906) are executed. On the other hand, if the front door frame 14 is in the open state (step S6901: YES), if it is in the opening/closing execution mode (step S6902: YES), or if it is in the high frequency support mode (step S6903: YES), the normal input Result calculation processing (step S6905) and display processing (step S6906) are executed without executing ball management processing (step S6904).

FIG. 109 is a flowchart showing normal ball entry management processing in step S6904. The processing of steps S7001 to S7014 in the normal ball entry management process is executed by the non-specific control processing unit 222 of the main side MPU 82 using a program for non-specific control and data for non-specific control. .

When the first winning confirmation flag of the confirmation flag group 211d in the specific control work area 211 is set to "1" (step S7001: YES), a winning to the general winning opening 31 occurs and the first winning opening It means that one game ball is normally detected by the detection sensor 231a. In this case, 1 is added to the value of the general winning counter 251a in the normal counter area 251 of the non-specific control work area 213 (step S7002). Further, when the second winning confirmation flag of the confirmation flag group 211d in the work area 211 for specific control is set to "1" (step S7003: YES), the winning to the general winning opening 31 occurs and the second winning confirmation flag is set. It means that one game ball is normally detected by the winning hole detection sensor 232a. In this case, 1 is added to the value of the general winning counter 251a in the normal counter area 251 of the non-specific control work area 213 (step S7004). Further, when the third winning confirmation flag of the confirmation flag group 211d in the work area 211 for specific control is set to "1" (step S7005: YES), winning to the general winning opening 31 occurs and the third It means that one game ball is normally detected by the winning hole detection sensor 233a. In this case, 1 is added to the value of the general winning counter 251a in the normal counter area 251 of the work area 213 for non-specific control (step S7006).

If the special electric prize confirmation flag of the confirmation flag group 211d in the work area 211 for specific control is set to "1" (step S7007: YES), the prize to the special electric prize winning device 32 occurs and the special electric detection sensor 234a It means that one game ball was detected normally. In this case, 1 is added to the value of the special electric prize winning counter 251b in the normal counter area 251 of the work area 213 for non-specific control (step S7008).

When the first operation winning confirmation flag of the confirmation flag group 211d in the work area 211 for specific control is set to "1" (step S7009: YES), the winning to the first operation opening 33 occurs and the first It means that one game ball is normally detected by the operation opening detection sensor 235a. In this case, 1 is added to the value of the first operation counter 251c in the normal counter area 251 of the non-specific control work area 213 (step S7010).

When the second operation winning confirmation flag of the confirmation flag group 211d in the work area 211 for specific control is set to "1" (step S7011: YES), the winning to the second operation opening 34 occurs and the second It means that one game ball was normally detected by the operation opening detection sensor 236a. In this case, 1 is added to the value of the second operation counter 251d in the normal counter area 251 of the non-specific control work area 213 (step S7012).

When the out confirmation flag of the confirmation flag group 211d in the specific control work area 211 is set to "1" (step S7013: YES), the game ball enters the out opening 24a and the out opening is detected. It means that one game ball was normally detected by the sensor 237a. In this case, 1 is added to the value of the out-counter 251e in the normal counter area 251 of the non-specific control work area 213 (step S7014).

A first winning confirmation flag, a second winning confirmation flag, a third winning confirmation flag, a special electric winning confirmation flag, a first operation winning confirmation flag, a second operation winning confirmation flag, and The information of the out confirmation flag is read out in the normal entrance management process included in the non-specific control process, but updating of the information for these flags is not executed in the normal entrance management process. The process of clearing these flags to "0" and the process of setting them to "1" are executed in the entering ball detection process (FIG. 91) included in the specific control process as already described.

FIG. 110 is a flow chart showing result calculation processing executed in step S6905 of the check processing (FIG. 108). The processing of steps S7101 to S7115 in the result calculation process is executed by the non-specific control processing unit 222 of the main MPU 82 using the non-specific control program and non-specific control data.

First, base value calculation processing is executed (step S7101). In the arithmetic processing, the values of various counters 251a to 251e in the normal counter area 251 are used to calculate the base value. The calculation method of the base value is as already explained. Then, the calculated base value is overwritten in the current state area 256 (step S7102).

Thereafter, it is determined whether or not the management start flag provided in the non-specific control work area 213 is set to "1" (step S7103). The management start flag has a value of "0" when the supply of operating power to the pachinko machine 10 is started for the first time after the pachinko machine 10 is manufactured. Further, when the work area 213 for non-specific control including the management start flag is cleared to "0" and initialized, the value of the management start flag becomes "0". The total number of game balls ejected from the game area PA in a situation where the management start flag is a value of "0" and neither the opening/closing execution mode due to the jackpot result nor the high-frequency support mode (that is, the game area PA) When the total number of supplied game balls) becomes the management start reference number, the management start flag is set to "1". Also, when the management start flag is set to "1", the values of the various counters 251a to 251e in the normal counter area 251 are cleared to "0" and a new calculation period is started. As a result, the influence of the operation check at the shipping stage of the pachinko machine 10 can be made less likely to affect the base value in a situation where a normal game is played after the shipment of the pachinko machine 10.例文帳に追加

If a negative determination is made in step S7103, the total number is calculated by adding up all the values of the various counters 251a to 251e in the normal counter area 251 (step S7104). Then, it is determined whether or not the calculated total number is greater than 300, which is the management start reference number (step S7105). In addition, it may be configured to determine whether or not the total number is 300 or more, which is the management start reference number.

If an affirmative determination is made in step S7105, the management start flag is set to "1" (step S7106). Thereafter, data shift processing is executed (step S7107). In the data shift process, the information stored in the current status area 256, the first history area 257, the second history area 258, and the third history area 259 in the calculation result storage area 252 is transferred from the second history area 258 to the third history area 259. , the first history area 257→the second history area 258, and the current state area 256→the first history area 257. As a result, the final base value in the calculation period two times before is stored in the third history area 259 as the final base value in the calculation period three times before, and the final base value in the calculation period one time before is stored. is stored in the second history area 258 as the final base value in the calculation period two times before, and the base value last calculated in the current calculation period is the final base value in the calculation period one time before. 1 is stored in the history area 257 . In data shift processing, an LDIR instruction is used to shift information as described above. In the LDIR instruction, by specifying the address of the information storage source area and the information storage destination area address, the information stored in the storage source area is shifted (copied) to the storage destination area. becomes.

However, in a situation where the management start flag is not set to "1", the base value information is basically not stored in the first to third history areas 257 to 259. Therefore, in step S7107, the management Only the final base value of the calculation period in the situation where the start flag is not set to "1" is shifted to the first history area 257. FIG. Thereafter, the counters 251a to 251e in the normal counter area 251 are all cleared to "0" (step S7108).

If an affirmative determination is made in step S7103, the total number is calculated by adding up all the values of the various counters 251a to 251e in the normal counter area 251 (step S7109). Then, it is determined whether or not the calculated total number is greater than the initial reference number of 6000 (step S7110). If a negative determination is made in step S7110, the calculation initial flag provided in the non-specific control work area 213 is set to "1" (step S7111). The calculation initial flag is cleared to "0" (step S7112). The calculation initial flag indicates the total number of game balls ejected from the game area PA in a situation where neither the opening/closing execution mode due to the jackpot result nor the high-frequency support mode has been performed since the base value calculation period newly started (that is, the game area It is a flag for specifying in the main side MPU 82 whether or not the total number of game balls supplied to the PA has reached the initial reference number.

If the processing of step S7111 or step S7112 has been executed, it is determined whether or not the total number calculated in step S7109 is equal to or greater than 60000, which is the shift reference number (step S7113). If an affirmative determination is made in step S7113, data shift processing is executed (step S7114). In the data shift process, as in step S7107, the information stored in the current status area 256, the first history area 257, the second history area 258, and the third history area 259 in the calculation result storage area 252 is transferred from the second history area 258 to the third history area. 3. Shift in the order of history area 259, first history area 257→second history area 258, current status area 256→first history area 257. As a result, the final base value in the calculation period two times before is stored in the third history area 259 as the final base value in the calculation period three times before, and the final base value in the calculation period one time before is stored. is stored in the second history area 258 as the final base value in the calculation period two times before, and the base value last calculated in the current calculation period is the final base value in the calculation period one time before. 1 is stored in the history area 257 . In data shift processing, an LDIR instruction is used to shift information as described above. In the LDIR instruction, by specifying the address of the information storage source area and the information storage destination area address, the information stored in the storage source area is shifted (copied) to the storage destination area. becomes. After that, the counters 251a to 251e in the normal counter area 251 are all cleared to "0" (step S7115).

Next, a configuration for notifying the base value will be described. First, the configuration for controlling the display of various display units by the main MPU 82 will be described. FIG. 111 is a block diagram for explaining the configuration for controlling the display of various display units by the main MPU 82. As shown in FIG.

As targets for which display control is performed by the main side MPU 82, the first special figure display portion 37a, the second special figure display portion 37b, the first special figure reservation display portion 37c, the second special figure reservation display portion 37d, the general figure display At least the unit 38a, the normal map reservation display unit 38b, the setting display device 205 and the first to fourth notification display devices 201 to 204 exist. Each of these is provided as a segment display portion in which a plurality of segments for display by LEDs are arranged. These segment display portions are set to a light emitting state by setting data corresponding to the light emitting state (for example, data of "1" which is one of the binary data), and data corresponding to the light emitting state (for example, binary data). Data of "0", which is the other of the two, is set to turn off the light.

The main control board 81 is provided with a first display circuit 261 corresponding to the first special figure display portion 37a, and a second display circuit 262 is provided corresponding to the second special figure display portion 37b. , A third display circuit (not shown) is provided in correspondence with the first special figure reservation display portion 37c, and a fourth display circuit (not shown) is provided in correspondence with the second special figure reservation display portion 37d. A fifth display circuit (not shown) is provided corresponding to the normal map display unit 38a, and a sixth display circuit (not shown) is provided corresponding to the normal map reservation display unit 38b, A seventh display circuit 263 is provided corresponding to the setting display device 205, and an eighth display circuit 264 is provided corresponding to the first to fourth notification display devices 201-204.

The first display circuit 261 provides data corresponding to the supplied display data to each of the plurality of display segments of the first special figure display section 37a. As a result, each display segment of the first special figure display portion 37a becomes a light emitting state or a light emitting state in a manner corresponding to the display data provided to the first display circuit 261. FIG. In this case, the first display circuit 261 can store and hold the supplied display data for a predetermined period (for example, 20 milliseconds), but after the predetermined period elapses, the display data gradually become all "0". will approach the state of Therefore, the display segment of the first special figure display portion 37a, which is in the light emitting state by the display data provided to the first display circuit 261, is not provided with new display data to the first display circuit 261 for a predetermined period. is gradually turned off. Further, even if the display content of the first special figure display unit 37a is not changed, not only when the display content of the first special figure display unit 37a is changed by such a configuration, the previous display The same display data as the data output processing is supplied to the first display circuit 261 .

The second display circuit 262 provides data corresponding to the supplied display data to each of the plurality of display segments of the second special figure display section 37b. As a result, each display segment of the second special figure display portion 37b is in a light emitting state or a light-out state in a manner corresponding to the display data provided to the second display circuit 262. FIG. In this case, the second display circuit 262 can store and hold the provided display data for a predetermined period (for example, 20 milliseconds), but after the predetermined period elapses, the display data gradually become all "0". will approach the state of Therefore, the display segment of the second special figure display portion 37b, which is in the light emitting state due to the display data provided to the second display circuit 262, does not provide new display data to the second display circuit 262 for a predetermined period. is gradually turned off. Moreover, even if the display content of the second special figure display portion 37b is not changed, not only when the display content of the second special figure display portion 37b is changed by such a configuration, the previous display The same display data as the data output processing is supplied to the second display circuit 262 .

The third display circuit provides data corresponding to the supplied display data to each of the plurality of display segments of the first special figure reservation display section 37c. As a result, each display segment of the first special figure reservation display section 37c becomes a light emitting state or an extinguished state in a manner corresponding to the display data provided to the third display circuit. In this case, although the third display circuit can store and hold the supplied display data for a predetermined period (for example, 20 milliseconds), the display data gradually change to all "0" after the predetermined period. state is approaching. Therefore, the display segment of the first special-figure reservation display portion 37c, which is in the light emitting state due to the display data provided to the third display circuit, does not provide new display data to the third display circuit for a predetermined period of time. As the time elapses, the light is gradually turned off. In addition, due to such a configuration, not only when the display content of the first special figure reservation display unit 37c is changed, but also when the display content of the first special figure reservation display unit 37c is not changed, the previous The same display data as the display data output processing in 1 is supplied to the third display circuit.

The fourth display circuit provides data corresponding to the supplied display data to each of the plurality of display segments of the second special figure reservation display section 37d. As a result, each display segment of the second special figure reservation display section 37d becomes a light emission state or a light extinction state in a manner corresponding to the display data provided to the fourth display circuit. In this case, although the fourth display circuit can store and hold the supplied display data for a predetermined period (for example, 20 milliseconds), the display data gradually change to all "0" after the predetermined period. state is approaching. Therefore, the display segment of the second special-figure reservation display portion 37d, which is in the light emitting state by the display data provided to the fourth display circuit, does not provide new display data to the fourth display circuit for a predetermined period of time. As the time elapses, the light is gradually turned off. Also, due to such a configuration, not only when the display content of the second special figure reservation display unit 37d is changed, but also when the display content of the second special figure reservation display unit 37d is not changed, the previous The same display data as the display data output processing in 1 is supplied to the fourth display circuit.

The fifth display circuit provides data corresponding to the supplied display data to each of the plurality of display segments of the general-purpose display section 38a. As a result, each display segment of the normal diagram display section 38a is turned on or off in a mode corresponding to the display data provided to the fifth display circuit. In this case, the fifth display circuit can store and hold the supplied display data for a predetermined period (for example, 20 milliseconds), but after the predetermined period elapses, the display data gradually become all "0". state is approaching. Therefore, the display segment of the general-purpose display section 38a, which is in the light emitting state by the display data provided to the fifth display circuit, does not provide new display data to the fifth display circuit for a predetermined period of time. gradually turns off. In addition, due to such a configuration, even when the display contents of the normal pattern display unit 38a are not changed, as well as when the display contents of the normal pattern display unit 38a are not changed, the previous display data output process The same display data as the first display circuit is supplied to the fifth display circuit.

The sixth display circuit provides data corresponding to the supplied display data to each of the plurality of display segments of the normal drawing holding display section 38b. As a result, each display segment of the normal drawing holding display section 38b is turned into a light emitting state or a light emitting state in a manner corresponding to the display data provided to the sixth display circuit. In this case, the sixth display circuit can store and hold the supplied display data for a predetermined period (for example, 20 milliseconds), but after the predetermined period elapses, the display data gradually becomes all "0". state is approaching. Therefore, the predetermined period elapses without new display data being provided to the sixth display circuit for the display segments of the normal pattern holding display section 38b which are in the light emitting state due to the display data provided to the sixth display circuit. As a result, the lights gradually turn off. In addition, due to such a configuration, not only when the display contents of the general pattern reservation display unit 38b are changed, but also when the display contents of the general pattern reservation display unit 38b are not changed, the previous display data The same display data as the output processing time is supplied to the sixth display circuit.

The seventh display circuit 263 provides data corresponding to the supplied display data to each of a plurality of display segments provided in each of the setting display devices 205 . As a result, each display segment of the setting display device 205 is turned on or off in a mode corresponding to the display data provided to the seventh display circuit 263 . In this case, the seventh display circuit 263 can store and hold the supplied display data for a predetermined period (for example, 20 milliseconds), but after the predetermined period elapses, the display data gradually become all "0". will approach the state of Therefore, the display segment of the setting display device 205, which is in the light emitting state by the display data provided to the seventh display circuit 263, passes a predetermined period without new display data being provided to the seventh display circuit 263. As a result, the lights gradually turn off. Further, with such a configuration, not only when the display content of the setting display device 205 is changed, but also when the display content of the setting display device 205 is not changed, the previous display data output processing can be performed. The same display data is supplied to the seventh display circuit 263 .

The eighth display circuit 264 provides data corresponding to the supplied display data to each of a plurality of display segments provided in each of the first to fourth notification display devices 201-204. As a result, each display segment of the first to fourth notification display devices 201 to 204 is turned on or off in a mode corresponding to the display data provided to the eighth display circuit 264 . In this case, the eighth display circuit 264 can store and hold the supplied display data for a predetermined period (for example, 20 milliseconds), but after the predetermined period elapses, the display data gradually becomes all "0". will approach the state of Therefore, new display data is provided to the eighth display circuit 264 for the display segments of the first to fourth notification display devices 201 to 204 which are in the light emitting state due to the display data provided to the eighth display circuit 264. After a predetermined period of time elapses, the light is gradually turned off. In addition, due to such a configuration, not only the display contents of the first to fourth notification display devices 201 to 204 are changed, but also the display contents of the first to fourth notification display devices 201 to 204 are changed. Even if it is not performed, the same display data as the output processing of the previous display data is supplied to the eighth display circuit 264 .

Each of the first to fourth notification display devices 201 to 204 is provided with eight display segments. On the other hand, display data is provided in units of 8 bits. When the display data of the first to fourth notification display devices 201 to 204 are provided to the eighth display circuit 264, the 8-bit display data corresponding to the first notification display device 201 is provided as 8-bit unit data. After that, 8-bit display data corresponding to the second notification display device 202 is provided as 8-bit unit data, and then 8-bit display data corresponding to the third notification display device 203 is provided as 8-bit unit data. Finally, 8-bit display data corresponding to the fourth notification display device 204 is provided as 8-bit unit data.

In the configuration provided with the first to eighth display circuits 261 to 264 as described above, the main MPU 82 supplies display data to the display IC 266 . In other words, the display ICs 266 are not provided in a one-to-one correspondence with the first to eighth display circuits 261 to 264, but one IC is common to all of the first to eighth display circuits 261 to 264. display IC 266 is provided. When supplying display data to the display IC 266, the main MPU 82 also supplies the display IC 266 with type data indicating which of the first to eighth display circuits 261 to 264 the display data corresponds to.

In detail, the electrical connection between the main MPU 82 and the display IC 266 is as follows. It is electrically connected using the line LN4. All of these signal lines LN1 to LN4 are signal lines for transmitting signals from the main side MPU 82 to the display IC 266 by one-way communication.

The type data is transmitted by serial communication from the main MPU 82 to the display IC 266 using the type data signal line LN1. In this case, each 1-bit division of the type data by serial communication is indicated by the type clock signal transmitted from the main side MPU 82 to the display IC 266 using the type clock signal line LN2. The type data is data indicating which of the first to eighth display circuits 261 to 264 the display data to be transmitted corresponds to. The type data is transmitted as 8-bit data consisting of the 1st bit to the 8th bit. When the display data corresponds to the first display circuit 261, the first bit becomes HI level and the other bits become LOW level. When the display data corresponds to the second display circuit 262, the second bit becomes HI level and the other bits become LOW level. When the display data corresponds to the third display circuit, the third bit becomes HI level and the other bits become LOW level. When the display data corresponds to the fourth display circuit, the fourth bit becomes HI level and the other bits become LOW level. When the display data corresponds to the fifth display circuit, the fifth bit becomes HI level and the other bits become LOW level. When the display data corresponds to the sixth display circuit, the sixth bit becomes HI level and the other bits become LOW level. When the display data corresponds to the seventh display circuit 263, the seventh bit becomes HI level and the other bits become LOW level. When the display data corresponds to the eighth display circuit 264, the eighth bit becomes HI level and the other bits become LOW level.

Display data is transmitted by serial communication from the main MPU 82 to the display IC 266 using the display data signal line LN3. In this case, each 1-bit division of the display data by serial communication is indicated by the display clock signal transmitted from the main side MPU 82 to the display IC 266 using the display clock signal line LN4. The display data is transmitted in 8-bit units of 1st to 8th bits.

The main MPU 82 transmits display data corresponding to each of the first to eighth display circuits 261 to 264 to the display IC 266 in second timer interrupt processing (FIG. 114), which will be described later. In this case, in one processing cycle of the second timer interrupt processing, display data is transmitted to one of the first to eighth display circuits 261 to 264, and the nth display circuit→n+1th display is performed. The display circuits 261 to 264 to which the display data is to be transmitted are changed one by one each time a new processing cycle of the second timer interrupt processing occurs according to the circuit order. In addition, in the second timer interrupt processing in the processing cycle next to the processing cycle in which the display data corresponding to the eighth display circuit 264, which is the last sequence in the order, is transmitted, the first display circuit 261, which is the first sequence in the above sequence, Send the corresponding display data. Note that only one piece of 8-bit unit display data is transmitted in the processing cycle of the second timer interrupt processing for transmitting display data to any one of the first to seventh display circuits 261 to 263, but the eighth display circuit 264 In the processing cycle of the second timer interrupt processing for transmitting display data to , four 8-bit unit display data are transmitted corresponding to the number of the first to fourth notification display devices 201 to 204 .

In the configuration in which the main MPU 82 transmits display data as described above, the work area 211 for specific control and the work area 213 for non-specific control are various storage areas referred to by the main MPU 82 in order to transmit display data. is set. FIG. 112 is an explanatory diagram for explaining various buffers 271 to 278 provided in the work area 211 for specific control.

As shown in FIG. 112, the work area 211 for specific control includes a first display data buffer 271, a second display data buffer 272, a third display data buffer 273, a fourth display data buffer 274, and a fifth display buffer. A data buffer 275, a sixth display data buffer 276, a seventh display data buffer 277, and an eighth display data buffer 278 are provided.

Display data to be supplied to the first display circuit 261 is stored in the first display data buffer 271 . Since the first display circuit 261 is provided corresponding to the first special figure display portion 37a as already explained, the first display data buffer 271 is provided to cause the first special figure display portion 37a to perform a predetermined display. display data is stored. In this case, the display data is stored in the first display data buffer 271 in the display control process (step S5516) based on the contents of the special figure special electric control process (step S5514) in the first timer interrupt process (FIG. 88). . When the second timer interrupt process (FIG. 114) for transmitting display data to the first display circuit 261 comes to process, only when the display data stored in the first display data buffer 271 is changed. Instead, the display data stored in the first display data buffer 271 is transmitted to the display IC 266 even if the display data has not been changed.

Display data to be supplied to the second display circuit 262 is stored in the second display data buffer 272 . Since the second display circuit 262 is provided corresponding to the second special figure display section 37b as already explained, the second display data buffer 272 is provided to cause the second special figure display section 37b to perform a predetermined display. display data is stored. In this case, the display data is stored in the second display data buffer 272 in the display control process (step S5516) based on the contents of the special figure special electric control process (step S5514) in the first timer interrupt process (FIG. 88). . Further, when the second timer interrupt process (FIG. 114) for transmitting display data to the second display circuit 262 comes to process, only when the display data stored in the second display data buffer 272 is changed. Instead, the display data stored in the second display data buffer 272 is transmitted to the display IC 266 even if the display data has not been changed.

The third display data buffer 273 stores display data to be supplied to the third display circuit. Since the third display circuit is provided corresponding to the first special figure reservation display section 37c as already explained, the third display data buffer 273 is used to cause the first special figure reservation display section 37c to perform a predetermined display. display data is stored. In this case, the storage of the display data in the third display data buffer 273 is performed in the display control process (step S5516) based on the contents of the special figure special electric control process (step S5514) in the first timer interrupt process (FIG. 88). . Further, when the second timer interrupt processing (FIG. 114) for transmitting display data to the third display circuit comes to the processing time, it is not only when the display data stored in the third display data buffer 273 is changed that The display data stored in the third display data buffer 273 is transmitted to the display IC 266 even if the display data is not changed.

The fourth display data buffer 274 stores display data to be supplied to the fourth display circuit. Since the fourth display circuit is provided corresponding to the second special figure reservation display section 37d as already explained, the fourth display data buffer 274 is used to cause the second special figure reservation display section 37d to perform a predetermined display. display data is stored. In this case, the storage of the display data in the fourth display data buffer 274 is performed in the display control process (step S5516) based on the contents of the special figure special electric control process (step S5514) in the first timer interrupt process (FIG. 88). . Further, when the second timer interrupt processing (FIG. 114) for transmitting display data to the fourth display circuit comes to the processing time, it is not only when the display data stored in the fourth display data buffer 274 is changed that The display data stored in the fourth display data buffer 274 is transmitted to the display IC 266 even if the display data is not changed.

The fifth display data buffer 275 stores display data to be supplied to the fifth display circuit. As already explained, the fifth display circuit is provided corresponding to the normal map display unit 38a, so the fifth display data buffer 275 stores display data for causing the normal map display unit 38a to perform a predetermined display. will be In this case, display data is stored in the fifth display data buffer 275 in the display control process (step S5516) based on the contents of the normal/universal power control process (step S5515) in the first timer interrupt process (FIG. 88). will be Further, when the second timer interrupt processing (FIG. 114) for transmitting display data to the fifth display circuit comes to the processing time, it is not only when the display data stored in the fifth display data buffer 275 is changed that The display data stored in the fifth display data buffer 275 is transmitted to the display IC 266 even if the display data is not changed.

The sixth display data buffer 276 stores display data to be supplied to the sixth display circuit. Since the sixth display circuit is provided to correspond to the normal pattern reservation display portion 38b as already explained, the sixth display data buffer 276 stores display data for causing the normal pattern reservation display portion 38b to perform a predetermined display. will be stored. In this case, the display data is stored in the sixth display data buffer 276 in the display control process (step S5516) based on the contents of the normal/universal power control process (step S5515) in the first timer interrupt process (FIG. 88). will be Further, when the second timer interrupt process (FIG. 114) for transmitting display data to the sixth display circuit comes to the time of processing, only when the display data stored in the sixth display data buffer 276 is changed, The display data stored in the sixth display data buffer 276 is transmitted to the display IC 266 even if the display data is not changed.

Display data to be supplied to the seventh display circuit 263 is stored in the seventh display data buffer 277 . Since the seventh display circuit 263 is provided corresponding to the setting display device 205 as already described, display data for causing the setting display device 205 to perform a predetermined display is stored in the seventh display data buffer 277 . will be Specifically, when the setting confirmation process (FIG. 82) is being executed, in the second timer interrupt process (FIG. 114), which is the process corresponding to the specific control, Display data for displaying the current setting values of the pachinko machine 10 is stored in the seventh display data buffer 277 . Further, when the setting value update process (FIG. 83) is being executed, the second timer interrupt process (FIG. 114), which is the process corresponding to the specific control, causes the pachinko machine 10 Display data is stored in the seventh display data buffer 277 so as to display the current set value of . When it is time to process the second timer interrupt process for transmitting display data to the seventh display circuit 263, not only when the display data stored in the seventh display data buffer 277 is changed, but also when the display data is not changed, the display data stored in the seventh display data buffer 277 is transmitted to the display IC 266 .

The eighth display data buffer 278 stores display data to be supplied to the eighth display circuit 264 . Since the eighth display circuit 264 is provided corresponding to the first to fourth notification display devices 201 to 204 as already described, the eighth display data buffer 278 stores the first to fourth notification display devices 201 204 to perform a predetermined display is stored. When it is time to process the second timer interrupt process for transmitting display data to the eighth display circuit 264, not only when the display data stored in the eighth display data buffer 278 is changed, but also when the display data is not changed, the display data stored in the eighth display data buffer 278 is transmitted to the display IC 266 .

Here, the display corresponding to the base value is performed on the first to fourth notification display devices 201 to 204. FIG. In this case, since the eighth display data buffer 278 is provided in the work area 211 for specific control, the process of storing display data in the eighth display data buffer 278 is performed as a process corresponding to specific control. On the other hand, the processing for deriving the base value is performed as processing corresponding to non-specific control, and each base stored in the current status area 256, the first history area 257, the second history area 258 and the third history area 259 The values are sequentially displayed on the first to fourth display devices 201 to 204 for notification.

Therefore, as shown in FIG. 103, the non-specific control work area 213 includes not only the calculation result storage area 252 for storing each base value, but also the current status area 256, first history area 257, and second history area 258. A display target setting area 253 is provided for storing the base values to be displayed on the first to fourth notification display devices 201 to 204 among the base values stored in the third history area 259. . Since the period during which one base value is continuously displayed is 5 seconds, in the processing corresponding to the non-specific control, the base value to be displayed according to a predetermined display order every time 5 seconds elapses A value is read from the calculation result storage area 252 and the read base value is stored in the display target setting area 253 . Then, when the base value is displayed on the first to fourth notification display devices 201 to 204, the second timer interrupt processing (FIG. 114), which is processing corresponding to specific control, displays The display data stored in the setting area 253 is read, and the read display data is stored in the eighth display data buffer 278 .

In the configuration in which the first to eighth display data buffers 271 to 278 are provided as described above, the main MPU 82 displays the display data corresponding to each processing cycle of the second timer interrupt processing (FIG. 114). The display data is read out from the buffers 271-278, the read display data is transmitted to the display IC 266, and the type data indicating to which of the first to eighth display circuits 261-264 the display data corresponds. It transmits to display IC266. FIG. 113 is an explanatory diagram for explaining the electrical configuration of the display IC 266. As shown in FIG.

The display IC 266 includes a type data buffer 281, a selection signal output section 282, a display data buffer 283, and a display data output section 284, as shown in FIG. Display data received from the main MPU 82 is stored in the display data buffer 283 . The display data output unit 284 transmits the display data stored in the display data buffer 283 to the first to eighth display circuits 261-264. The type data buffer 281 stores the type data received from the main MPU 82 . The selection signal output unit 282 outputs a selection signal for designating the display circuit 261 to 264 corresponding to the type data stored in the type data buffer 281 among the first to eighth display circuits 261 to 264 as the reception destination of the display data. to output

Specifically, as shown in FIG. 111, the display IC 266 and the first display circuit 261 are electrically connected using a display signal group 291 . The display signal group 291 is provided so as to enable 8-bit display data to be transmitted at once, and the 8-bit display data is transmitted from the display IC 266 by parallel communication. A branched signal group 292 is provided by branching from the display signal group 291, and the branched signal group 292 includes a second display circuit 262, a third display circuit, a fourth display circuit, a fifth display circuit, and a sixth display circuit. The display circuit is electrically connected to each of the seventh display circuit 263 and the eighth display circuit 264 . Similar to the display signal group 291, the branch signal group 292 is provided so as to enable 8-bit display data to be transmitted at once, and the 8-bit display data is transmitted from the display IC 266 by parallel communication. be.

Since the display signal group 291 and the branch signal group 292 are provided as described above, when the display data stored in the display data buffer 283 is transmitted by the display data output unit 284, the display data is transferred to the first display data. to all eighth display circuits 261-264. In this case, first to eighth selection signal lines 301 to 304 are provided to receive the supplied display data and specify the display circuits 261 to 264 to be used.

The first selection signal line 301 is provided to electrically connect the display IC 266 and the first display circuit 261 . When the type data buffer 281 stores the type data corresponding to the first display circuit 261, the display data supplied from the display data output unit 284 is received by the first display circuit 261 and used. , the selection signal output unit 282 of the display IC 266 transmits the first selection signal to the first display circuit 261 through the first selection signal line 301 . As a result, the display data supplied to all of the first to eighth display circuits 261 to 264 through the display signal group 291 and branch signal group 292 are received and used only by the first display circuit 261 .

A second selection signal line 302 is provided to electrically connect the display IC 266 and the second display circuit 262 . When the type data corresponding to the second display circuit 262 is stored in the type data buffer 281, the second display circuit 262 receives and uses the display data supplied from the display data output unit 284. , the selection signal output unit 282 of the display IC 266 transmits the second selection signal to the second display circuit 262 through the second selection signal line 302 . As a result, the display data supplied to all of the first to eighth display circuits 261 to 264 through the display signal group 291 and branch signal group 292 are received and used only by the second display circuit 262 .

A third selection signal line (not shown) is provided to electrically connect the display IC 266 and the third display circuit. When the classification data corresponding to the third display circuit is stored in the classification data buffer 281, the display data is required to receive and use the display data supplied from the display data output unit 284 to the third display circuit. The selection signal output section 282 of the IC 266 transmits the third selection signal to the third display circuit through the third selection signal line. As a result, the display data supplied to all the first to eighth display circuits 261 to 264 through the display signal group 291 and branch signal group 292 are received and used only in the third display circuit.

A fourth selection signal line (not shown) is provided to electrically connect the display IC 266 and the fourth display circuit. When the type data buffer 281 stores the type data corresponding to the fourth display circuit, the display data is required to receive and use the display data supplied from the display data output unit 284 to the fourth display circuit. The selection signal output section 282 of the IC 266 transmits the fourth selection signal to the fourth display circuit through the fourth selection signal line. As a result, the display data supplied to all the first to eighth display circuits 261 to 264 through the display signal group 291 and branch signal group 292 are received and used only in the fourth display circuit.

A fifth selection signal line (not shown) is provided to electrically connect the display IC 266 and the fifth display circuit. When the classification data corresponding to the fifth display circuit is stored in the classification data buffer 281, the display data is displayed in order to cause the fifth display circuit to receive and use the display data supplied from the display data output unit 284. The selection signal output section 282 of the IC 266 transmits the fifth selection signal to the fifth display circuit through the fifth selection signal line. As a result, the display data supplied to all the first to eighth display circuits 261 to 264 through the display signal group 291 and branch signal group 292 are received and used only in the fifth display circuit.

A sixth selection signal line (not shown) is provided to electrically connect the display IC 266 and the sixth display circuit. When the classification data corresponding to the sixth display circuit is stored in the classification data buffer 281, the display data supplied from the display data output unit 284 is received and used by the sixth display circuit. The selection signal output section 282 of the IC 266 transmits the sixth selection signal to the sixth display circuit through the sixth selection signal line. As a result, the display data supplied to all the first to eighth display circuits 261 to 264 through the display signal group 291 and branch signal group 292 are received and used only in the sixth display circuit.

A seventh selection signal line 303 is provided to electrically connect the display IC 266 and the seventh display circuit 263 . When the classification data corresponding to the seventh display circuit 263 is stored in the classification data buffer 281, the display data supplied from the display data output unit 284 is received by the seventh display circuit 263 and used. , the selection signal output unit 282 of the display IC 266 transmits the seventh selection signal to the seventh display circuit 263 through the seventh selection signal line 303 . As a result, the display data supplied to all of the first to eighth display circuits 261 to 264 through the display signal group 291 and branch signal group 292 are received and used only by the seventh display circuit 263 .

The eighth selection signal line 304 is provided to electrically connect the display IC 266 and the eighth display circuit 264 . When the type data buffer 281 stores the type data corresponding to the eighth display circuit 264, the eighth display circuit 264 receives and uses the display data supplied from the display data output unit 284. , the selection signal output unit 282 of the display IC 266 transmits the eighth selection signal to the eighth display circuit 264 through the eighth selection signal line 304 . As a result, the display data supplied to all of the first to eighth display circuits 261 to 264 through the display signal group 291 and branch signal group 292 are received and used only by the eighth display circuit 264 .

Next, the second timer interrupt processing in this embodiment executed by the main MPU 82 will be described with reference to the flowchart of FIG. The processes of steps S7201 to S7213 in the second timer interrupt process are executed by the specific control processing unit 221 of the main MPU 82 using the specific control program and specific control data.

First, interrupt inhibition is set to inhibit the occurrence of the first timer interrupt process (FIG. 88) and the second timer interrupt process (FIG. 114) (step S7201). By prohibiting the generation of the first timer interrupt process (Fig. 88), the first timer interrupt process (Fig. 88) interrupts the second timer interrupt process (Fig. 114) even if the first interrupt cycle has passed. It is possible to prevent it from being started with In addition, by prohibiting the occurrence of the second timer interrupt processing (FIG. 114), even if the second interrupt cycle has passed during execution of the second timer interrupt processing (FIG. 114), the second timer interrupt It is possible to prevent the process (FIG. 114) from being started redundantly.

Thereafter, it is determined whether or not the setting update display flag in the work area 211 for specific control is set to "1" (step S7202). The setting update display flag is a flag for specifying in the main MPU 82 whether or not the setting value update process (FIG. 83) is being executed in the main MPU 82 . As already explained, the setting value update process (FIG. 83) is executed in the main process (FIG. 81) when the supply of operating power to the main MPU 82 is started. Interruption is permitted in step S5101 when the set value update process (FIG. 83) is started. Therefore, even when the set value update process (FIG. 83) is being executed in the main MPU 82, the second timer interrupt process (FIG. 114) is interrupted and activated.

The situation in which "1" is set in the setting update display flag means that the set value update process (FIG. 83) is being executed by the main MPU 82 during the second timer interrupt process (FIG. 114) this time. It means that it is a processing time that was started by interrupting the situation. If an affirmative determination is made in step S7202, setting processing to the seventh display data buffer 277 during setting update is executed (step S7203). In the setting process, the display data for causing the setting display device 205 to display the setting values currently selected for the pachinko machine 10 is stored in the seventh display data buffer 277 . As a result, the setting display device 205 displays the current setting value to be selected.

If a negative determination is made in step S7202 or if the process of step S7203 is executed, it is determined whether or not the setting confirmation display flag in the work area 211 for specific control is set to "1" (step S7204). The setting confirmation display flag is a flag for specifying in the main MPU 82 whether or not the main MPU 82 is executing the setting confirmation process (FIG. 82). As already explained, the setting confirmation process (FIG. 82) is executed in the main process (FIG. 81) when the supply of operating power to the main MPU 82 is started. The interrupt is permitted in step S5001 when the setting confirmation process (FIG. 82) is started. Therefore, even when the setting confirmation process (FIG. 82) is being executed in the main MPU 82, the second timer interrupt process (FIG. 114) is interrupted and activated.

The situation in which "1" is set in the setting confirmation display flag means that the main MPU 82 is executing the setting confirmation process (FIG. 82) during the second timer interrupt process (FIG. 114). It means that it is a processing time that was started by interrupting the situation. If an affirmative determination is made in step S7204, setting processing to the seventh display data buffer 277 during setting confirmation is executed (step S7205). In the setting process, display data for causing the setting display device 205 to display the current setting values of the pachinko machine 10 is stored in the seventh display data buffer 277 . As a result, the setting display device 205 displays the setting values that are currently set.

If a negative determination is made in step S7204, or if the processing of step S7205 is executed, setting processing to the eighth display data buffer 278 is executed (step S7206). FIG. 115 is a flow chart showing setting processing for the eighth display data buffer 278 . The processes of steps S7301 to S7310 in the setting process for the eighth display data buffer 278 are executed by the specific control processing unit 221 of the main MPU 82 using a specific control program and specific control data. be.

First, it is determined whether or not the value of the checking counter 211g in the work area 211 for specific control is 1 or more (step S7301). If the value of the checking counter 211g is 1 or more (step S7301: YES), it means that it is the initial check period (specifically, 5 seconds). In this case, check display data is set in the eighth display data buffer 278 in the specific control work area 211 (step S7302). The display data set in the eighth display data buffer 278 is the display data for controlling the display of the first to fourth notification display devices 201 to 204 as already described. In addition, the check display data is display data for performing check display on the first to fourth notification display devices 201 to 204, that is, in each of the first to fourth notification display devices 201 to 204 This is display data for making all the display segments 201a to 204a emit light. By supplying the check display data to the display IC 266, as shown in the explanatory diagram of FIG. display segments 201a to 204a are in a luminous state. As a result, the manager of the game hall can grasp whether the display segments 201a to 204a of the first to fourth notification display devices 201 to 204 can normally be in the light emitting state.

Thereafter, 1 is subtracted from the value of the checking counter 211g in the work area 211 for specific control (step S7303). As a result, when the initial check period is measured using the checking counter 211g, the value of the checking counter 211g is changed periodically every time the second timer interrupt process (FIG. 114) is started. is effectively subtracted.

If the value of the checking counter 211g is "0" and it is not the initial check period (step S7301: NO), whether or not the management start flag provided in the work area 213 for non-specific control is set to "1" (step S7304). If the management start flag is not set to "1" (step S7304: NO), a pre-management display setting process is executed for the first and second notification display devices 201 and 202 (step S7305). In the setting process, display data for making all the display segments 201a and 202a in the light emitting state in the first and second notification display devices 201 and 202 are set in the eighth display data buffer 278, respectively. In addition, it is not limited to the configuration in which all the display segments 201a and 202a of the first and second notification display devices 201 and 202 are in the light emitting state. 202 may be configured so that all the display segments 201a and 202a blink.

After that, the calculation result data set in the display target setting area 253 in the non-specific control work area 213 is read (step S7306), and the read calculation result data is displayed on the third and fourth notification display devices 203 and 204. The display data to be applied is set in the eighth display data buffer 278 (step S7307). Details will be described later, but in the display processing (FIG. 116) included in the non-specific control processing, if the management start flag is not set to "1", the base value is read from the current situation area 256, and the read base value The calculation result data corresponding to the first decimal place number and the second decimal place number are set in the display object setting area 253 . In step S7307, this calculation result data is set in the eighth display data buffer 278 as display data applied to the third and fourth display devices 203 and 204 for notification.

By supplying the display data set in the eighth display data buffer 278 in steps S7305 and S7307 to the display IC 266, as shown in the explanatory diagram of FIG. In a situation where all the display segments 201a and 202a in each of the devices 201 and 202 are in a light emitting state, the base value calculated in the current calculation period by the third notification display device 203 is calculated to the first decimal place. is displayed, and the number to the second decimal place of the base value calculated in the current calculation period is displayed on the fourth notification display device 204 . While all the display segments 201a and 202a of the first and second notification display devices 201 and 202 are put into a luminous state, the third and fourth notification display devices 203 and 204 display numbers corresponding to the base values. By doing so, it becomes possible for the manager of the game hall to recognize that the currently reported base value is the base value in the situation where the management start flag is not set to "1".

In the situation where the management start flag is set to "1", as already explained, every time the display duration period (specifically, 5 seconds) elapses, the current area 256→first history area 257→second history While the base values to be notified are switched in the first to fourth notification display devices 201 to 204 in a predetermined order of area 258→third history area 259, the management start flag is set to "1". is not set, the base value of the current area 256 is maintained as a notification target. As a result, when the operation of the pachinko machine 10 is checked at the shipping stage of the pachinko machine 10, the current base value can be confirmed at any timing.

If the management start flag is set to "1" (step S7304: YES), the display data set in the display target setting area 253 in the non-specific control work area 213 is read, and the read display data is 8 is set in the display data buffer 278 (step S7308). By supplying the display data to the display IC 266, if the base value of the current area 256 is to be notified, the display as shown in the explanatory diagram of FIG. If the base value in the first history area 257 is to be notified, the displays shown in the explanatory diagram of FIG. 105(b) are the first to fourth notification displays. If the base value in the second history area 258 is to be notified, the display shown in the explanatory diagram of FIG. 201 to 204, and if the base value in the third history area 259 is to be notified, the display shown in the explanatory diagram of FIG. .about.204.

After that, it is determined whether or not the initial display flag provided in the non-specific control work area 213 is set to "1" (step S7309). The initial display flag is set in the first notification display device 201 to notify that the base value in the current area 256 is the base value in the initial stage of calculation after the start of the calculation period in a situation where the base value is to be notified. and a flag for specifying, in the main MPU 82, that the second notification display device 202 should blink. If the initial display flag is set to "1" (step S7309: YES), blink setting processing is executed for the first and second notification display devices 201 and 202 (step S7310).

In the blinking setting process, when the display corresponding to the display data currently set in the eighth display data buffer 278 is performed by the first and second notification display devices 201 and 202, the display is blinked. Make settings to As a setting for blinking display, specifically, for transmission of display data to the first and second notification display devices 201 and 202, the display data currently set in the eighth display data buffer 278 is used. The corresponding data is transmitted to the display IC 266 until a predetermined lighting period (for example, 0.5 seconds) elapses, after which all the display segments 201a and 202a of the first and second notification display devices 201 and 202 are turned off. State data is transmitted to the display IC 266 until a predetermined turn-off period (for example, 0.5 seconds) elapses, after which the predetermined turn-on period and the predetermined turn-off period are alternately repeated. As a result, when the base value in the current area 256 becomes a notification target immediately after a new calculation period for the base value is started, the calculation initial display is performed on the first and second notification display devices 201 and 202. Therefore, it is possible for the manager of the game hall to understand that the current base values notified by the first to fourth notification display devices 201 to 204 are those immediately after the start of a new calculation period. It becomes possible.

Here, apart from the first to fourth notification display devices 201 to 204 for displaying the base value, for displaying the setting value in the setting confirmation process (FIG. 82) or the setting value update process (FIG. 83) setting display device 205 is provided, and the setting display device 205 to display the setting value (steps S7202 to S7205), as well as to display the base value on the first to fourth notification display devices 201 to 204 (step S7206). . As a result, when the setting confirmation process (FIG. 82) or the setting value update process (FIG. 83) is being executed, the manager of the gaming hall places the gaming machine body 12 in front of the pachinko machine 10 with respect to the outer frame 11. By exposing the front side of the main control device 71 by rotating it, the setting value displayed on the setting display device 205 and the base value displayed on the first to fourth notification display devices 201 to 204 Both can be visually confirmed. Therefore, the manager of the game hall can set a new setting value while checking the past base value in the setting value update process (Fig. 83), or change the past base value and the current situation in the setting confirmation process (Fig. 82). It is possible to check the correspondence with the set value.

Returning to the description of the second timer interrupt process (FIG. 114), after the process of step S7206 is executed, the signal transmission state through the type data signal line LN1 and the type clock signal line LN2 is turned off (step S7207). ), and the signal transmission state through the display data signal line LN3 and the display clock signal line LN4 is turned off (step S7208). Thereafter, update processing of the type counter provided in the work area 211 for specific control is executed (step S7209).

The type counter is a counter for the main side MPU 82 to specify the transmission target of the display data among the first to eighth display data buffers 271 to 278 in the current processing of the second timer interrupt processing. When the type counter value is "1", the display data in the first display data buffer 271 is to be transmitted, and when the type counter value is "2", the display data in the second display data buffer 272 is to be transmitted. When the type counter value is "3", the display data in the third display data buffer 273 is to be transmitted, and when the type counter value is "4", the display data in the fourth display data buffer 274 is When the value of the type counter is "5", the display data of the fifth display data buffer 275 is the object of transmission, and when the value of the type counter is "6", the display of the sixth display data buffer 276 When the data is to be transmitted and the value of the type counter is "7", the display data in the seventh display data buffer 277 is to be transmitted, and when the value of the type counter is "8", the eighth display data buffer 278 display data is to be transmitted. In the updating process of the type counter, 1 is added to the value of the type counter, and when the value of the type counter after the addition of 1 exceeds the upper limit value of "8", the value of the type counter is set to "1". . As a result, the transmission target of the display data is sequentially changed in the first to eighth display data buffers 271 to 278 for each processing of the second timer interrupt processing.

After that, the type data corresponding to the value of the type counter is read from the main ROM 83 (step S7210). Specifically, when the value of the type counter is "1", the type data corresponding to the first display circuit 261 is read from the main ROM 83, and when the value of the type counter is "2", the second The type data corresponding to the display circuit 262 is read from the main ROM 83, and when the value of the type counter is "3", the type data corresponding to the third display circuit is read from the main ROM 83, and the value of the type counter is "3". If the value of the type counter is "5", the type data corresponding to the fifth display circuit is read from the main ROM 83. When the value of the type counter is "6", the type data corresponding to the sixth display circuit is read from the main ROM 83, and when the value of the type counter is "7", the data is displayed on the seventh display circuit 263. The corresponding type data is read from the main-side ROM 83, and the type data corresponding to the eighth display circuit 264 is read from the main-side ROM 83 when the value of the type counter is "8".

After that, display data is read from the display data buffers 271 to 278 corresponding to the value of the type counter (step S7211). Specifically, when the type counter value is "1", the display data is read from the first display data buffer 271, and when the type counter value is "2", the display data is read from the second display data buffer 272. When the type counter value is "3", the display data is read from the third display data buffer 273, and when the type counter value is "4", the display data is read from the fourth display data buffer 274. When the type counter value is "5", the display data is read from the fifth display data buffer 275, and when the type counter value is "6", the display data is read from the sixth display data buffer 276. When the type counter value is "7", the display data is read from the seventh display data buffer 277, and when the type counter value is "8", the display data is read from the eighth display data buffer 278. Read display data.

Thereafter, transmission processing of various signals is executed (step S7212). In the transmission process, signals are output to the type data signal line LN1 and the type clock signal line LN2 so that the type data read in step S7210 is transmitted to the display IC 266. FIG. Further, in the transmission process, signals are output to the display data signal line LN3 and the display clock signal line LN4 so that the display data read in step S7211 is transmitted to the display IC 266. FIG.

Thereafter, interrupt permission is set to permit the first timer interrupt processing (FIG. 88) and the second timer interrupt processing (FIG. 114) to occur (step S7213).

FIG. 116 is a flow chart showing display processing executed in step S6906 of the check processing (FIG. 108). The processing of steps S7401 to S7420 in the display processing is executed by the non-specific control processing unit 222 of the main MPU 82 using the non-specific control program and non-specific control data.

First, it is determined whether or not the value of the checking counter 211g in the work area 211 for specific control is 1 or more (step S7401). If the value of the checking counter 211g is 1 or more (step S7401: YES), the previous checking flag provided in the non-specific control work area 213 is set to "1" (step S7402). The previous checking flag is a flag for the main MPU 82 to specify that the value of the checking counter 211g is 1 or more in the previous processing of the display processing.

If the value of the checking counter 211g is "0" (step S7401: NO), it is determined whether or not the management start flag in the non-specific control work area 213 is set to "1" (step S7403). . If the management start flag is not set to "1" (step S7403: NO), the previous checking flag in the non-specific control work area 213 is cleared to "0" (step S7404).

Thereafter, the base value is read from the current status area 256, and the calculation result data corresponding to the first and second decimal places in the read base value is displayed in the display target setting area in the non-specific control work area 213. 253 is set (step S7405). By transmitting the display data corresponding to the calculation result data to the display IC 266, the first decimal place number in the base value of the current area 256 is displayed on the third notification display device 203, and the base value of the current area 256 is displayed. The second decimal place number in the value is displayed on the fourth notification display device 204 . With the above configuration, when the management start flag is not set to "1", only the base value calculated in the current calculation period is notified without notifying the base value in the past calculation period. be done.

In a situation where the management start flag is not set to "1", although the calculation result data is set in the display object setting area 253, the display type data is not set. When the base value is notified in a situation where the management start flag is not set to "1", as already described, the display contents of the first notification display device 201 and the second notification display device 202 The displayed content is different from the case where the base value is notified in the situation where the start flag is set to "1". Specifically, all display segments 201a and 202a of the first and second notification display devices 201 and 202, respectively, are in a light emitting state.

If the management start flag is set to "1" (step S7403: YES), it is determined whether or not the previous check flag in the work area 213 for non-specific control is set to "1" (step S7406). ). If the previous checking flag is not set to "1" (step S7406: NO), the value of the switching timing counter 254 (see FIG. 103) provided in the non-specific control work area 213 is subtracted by 1 (step S7407). The switching timing counter 254 selects one of the base values stored in the current status area 256, the first history area 257, the second history area 258, and the third history area 259 of the calculation result storage area 252. This is a counter for the main MPU 82 to identify the timing of switching the base value to be notified in the display devices 201 to 204 . As already explained, every time the display continuation period (specifically, 5 seconds) elapses, notification is made in a predetermined order of current area 256→first history area 257→second history area 258→third history area 259. The target base value is switched, and the switching of the notification target base value is repeated in the predetermined order.

When the processing of step S7407 is executed, by determining whether or not the value of the switching timing counter 254 after subtracting 1 is "0", the base value that is the current notification target becomes the notification target. Then, it is determined whether or not the display continuation period has elapsed (step S7408). If an affirmative determination is made in step S7408, 1 is added to the value of the display object counter 255 (see FIG. 103) provided in the non-specific control work area 213 (step S7409). When the value of the display object counter 255 after adding 1 exceeds the maximum value of "3" (step S7410: YES), the value of the display object counter 255 is cleared to "0" (step S7411).

The display target counter 255 stores the first to fourth notification values among the base values stored in the current status area 256, the first history area 257, the second history area 258, and the third history area 259 in the calculation result storage area 252. This counter is used by the main MPU 82 to specify the base value to be notified by the display devices 201 to 204 . Specifically, when the value of the counter to be displayed is "0", the base value stored in the current status area 256 is to be notified, and when the value of the counter to be displayed is "1", the first history area 257 is to be notified, and if the value of the display counter is "2", the base value stored in the second history area 258 is to be notified, and the value of the display counter is "3". , the base value stored in the third history area 259 is to be notified.

If a negative determination is made in step S7410, or if the process of step S7411 is executed, the display duration ( Specifically, a value corresponding to 5 seconds) is set (step S7412).

When a negative determination is made in step S7408, or when the process of step S7412 is executed, the display data corresponding to the base value to be reported this time is displayed in the display target setting area 253 in the work area 213 for non-specific control. Execute the process to set the Specifically, first, the display type data corresponding to the value of the display target counter 255 is set in the display target setting area 253 (step S7413). The display type data includes display data for causing the first notification display device 201 to display that the notification target of the first to fourth notification display devices 201 to 204 is the base value, and display data for causing the first notification display device 201 to display the base value of the notification target. A display indicating which of the current state area 256, first history area 257, second history area 258 and third history area 259 in the calculation result storage area 252 the value corresponds to is displayed on the second notification display device 202. and display data for causing it to occur.

After that, the base value is read out from the area corresponding to the value of the display object counter 255 among the current state area 256, the first history area 257, the second history area 258, and the third history area 259 in the calculation result storage area 252. Calculation result data corresponding to the number with the first decimal place and the number with the second decimal place in the base value are set in the display object setting area 253 (step S7414). The calculation result data includes display data for causing the third notification display device 203 to display the number corresponding to the first decimal place in the base value to be notified, and the second decimal place to the base value to be notified. and display data for causing the fourth notification display device 204 to display corresponding to .

As described above, the display data including the display type data and the calculation result data is set in the display object setting area 253 . By transmitting the display data to the display IC 266 in the second timer interrupt process (FIG. 114), the display corresponding to the display data is performed on the first to fourth notification display devices 201 to 204. FIG.

The processing of step S7414 is executed each time the display processing (FIG. 116) is executed regardless of the switching timing of the base value to be notified. As already explained, each time the calculation result storage process (FIG. 110) is executed, the base value is calculated using the current values of the counters 251a to 251e in the normal counter area 251, and the calculated base value is It is stored in the current state area 256 of the calculation result storage area 252 . In this case, every time the processing for display (FIG. 116) is executed regardless of the switching timing of the base value to be notified in step S7414 for setting the calculation result data in the display target setting area 253 as described above. is executed, if the base value of the current area 256 is to be notified and the base value is changed, the changed base value can be notified.

After that, it is determined whether or not the base value of the current area 256 is to be notified based on the value of the display target counter (step S7415), and the calculation initial flag provided in the work area 213 for non-specific control is set to " 1” is set (step S7416). As already explained, the calculation initial flag is the total number of game balls ejected from the game area PA in neither the open/close execution mode nor the high-frequency support mode after the base value calculation period has newly started. (ie, the total number of game balls supplied to the game area PA) is a flag for specifying in the main side MPU 82 whether or not the initial reference number has been reached. If both steps S7415 and S7416 result in an affirmative determination, the initial display flag in the non-specific control work area 213 is set to "1" (step S7417), and either step S7415 or step S7416 returns negative. If so, the initial display flag is cleared to "0" (step S7418).

The initial display flag is set in the first notification display device 201 to notify that the base value in the current area 256 is the base value in the initial stage of calculation after the start of the calculation period in a situation where the base value is to be notified. and a flag for specifying, in the main MPU 82, that the second notification display device 202 should blink. When it is specified that "1" is set to the initial display flag in the second timer interrupt process (FIG. 114), not only the display data stored in the display target setting area 253 is transmitted to the display IC 266, When the display corresponding to the display data is performed on the first to fourth notification display devices 201 to 204, the first notification display device 201 and the second notification display device 202 are blinked and the third notification display device is displayed. The display device 203 and the fourth notification display device 204 are lit up. If it is determined in the second timer interrupt process (FIG. 114) that the initial display flag is not set to "1", the display corresponding to the display data stored in the display target setting area 253 is displayed in the first to When the fourth notification display devices 201 to 204 are used, the first to fourth notification display devices 201 to 204 are illuminated.

When the value of the checking counter 211g in the work area 211 for specific control is "0" and the management start flag in the work area 213 for non-specific control is set to "1" (step S7401: NO, step S7403: YES), if the previous checking flag in the work area 213 for non-specific control is set to "1" (step S7406: YES), the management start flag is set to "1" It means that the initial check period (specifically, 5 seconds) has elapsed when the supply of operating power to the main MPU 82 is started under the circumstances. In this case, after the previous checking flag in work area 213 for non-specific control is cleared to "0" (step S7419), the switching timing counter 254 is set (step S7420).

In the process of setting the switching timing counter 254, the switching timing counter 254 in the non-specific control work area 213 is set to a value corresponding to the display continuation period (specifically, 5 seconds) as a value corresponding to the next notification target switching timing. set. On the other hand, the value of the display target counter 255 in the non-specific control work area 213 is maintained without being updated. The display target counter 255 stores the first to fourth notification values among the base values stored in the current status area 256, the first history area 257, the second history area 258, and the third history area 259 in the calculation result storage area 252. This counter is used by the main MPU 82 to specify the base value to be notified by the display devices 201 to 204 .

After executing the processes of steps S7419 and S7420, the processes of steps S7413 to S7418 are executed. As a result, among the base values stored in the current status area 256, the first history area 257, the second history area 258, and the third history area 259 in the calculation result storage area 252, the base value corresponding to the value of the display target counter 255 is displayed. Display of the value is started on the first to fourth display devices 201 to 204 for notification.

When the supply of operating power to the main MPU 82 is started as described above, in the processing at the start of supply of operating power (steps S4901 to S4928), the setting confirmation processing (FIG. 82) or the setting value update processing (FIG. 83) ) is executed to start displaying the base value on the first to fourth notification display devices 201 to 204, and then the setting confirmation process (FIG. 82) or the setting value update process (FIG. 83) ends. When the initial check period (specifically, 5 seconds) occurs, and when the initial check period ends, the current status area 256, the first history area 257, and the second history area 258 in the calculation result storage area 252 are displayed. and the base values stored in the third history area 259, which were subject to notification immediately before the start of the initial check period, are displayed on the first to fourth notification display devices 201 to 204. Along with the restart, the restarted display of the base value is performed over the display continuation period (specifically, 5 seconds) regardless of the remaining display continuation period at the timing when the initial check period was started. This makes it possible to appropriately display the base value after the end of the initial check period.

Note that the switching timing counter 254 and the display object counter 255 are provided in the work area 213 for non-specific control as already described. RAM clear processing (step S5113) is executed in the setting value update processing (FIG. 83). Although clear processing is executed, clear processing for the work area 213 for non-specific control and the stack area 214 for non-specific control is not executed. Therefore, even if the RAM clearing process (step S5113) is executed in the set value updating process (FIG. 83), the information of the switching timing counter 254 and the information of the display object counter 255 are maintained without being cleared.

FIG. 117 is a time chart showing how various displays are performed on the first to fourth notification display devices 201 to 204 and the setting display device 205 when the supply of operating power to the main MPU 82 is started. 117(a) shows the period during which operating power is supplied to the main MPU 82, FIG. 117(b) shows the period during which the set value update process (FIG. 83) is executed, and FIG. FIG. 117(d) shows the period during which the base value stored in the current area 256 in the calculation result storage area 252 is displayed on the first to fourth notification display devices 201 to 204. FIG. 117(e) shows the period during which the base values stored in the first history area 257 are displayed on the first to fourth notification display devices 201 to 204, and FIG. 117(f) shows the period during which the base values stored in the history area 258 are displayed on the first to fourth notification display devices 201 to 204, and FIG. 117(g) shows the period during which the base value stored in is displayed on the first to fourth notification display devices 201 to 204, and FIG. FIG. 117(h) shows the period during which the setting value is displayed on the setting display device 205, and FIG. Indicates the period during which the display for

First, the case where the setting confirmation process (FIG. 82) and the setting value update process (FIG. 83) are not executed when the supply of operating power is started will be described.

At the timing of t1, supply of operating power to the main side MPU 82 is started as shown in FIG. 117(a). In this case, execution of the first timer interrupt process (FIG. 88) and the second timer interrupt process (FIG. 114) is prohibited. Since the execution of the second timer interrupt process (FIG. 114) is prohibited, the first to fourth notification display devices 201 to 204 are maintained in the off state and display of the base value is not started.

After that, at the timing of t2, the setting process of the checking counter 211g (step S4926) is executed, and the execution of the first timer interrupt process (FIG. 88) and the second timer interrupt process (FIG. 114) is permitted. Therefore, at the timing t2, the check display is started on the first to fourth notification display devices 201 to 204 as shown in FIG. 117(i). By visually confirming the check display, the manager of the game hall can identify whether or not the first to fourth notification display devices 201 to 204 are faulty.

After that, when the initial check period (specifically, 5 seconds) elapses from timing t2, the first to fourth notification display devices 201 to 204 are checked at timing t3 as shown in FIG. 117(i). display ends. By ending the check display in a situation where execution of the second timer interrupt process (FIG. 114) is permitted, the display of the base value stored in the current status area 256 is displayed as shown in FIG. 117(c). The first to fourth notification display devices 201 to 204 start. Also, at the timing t3, as shown in FIG. 117(g), the switching timing counter 254 is set with information corresponding to the display continuation period (specifically, 5 seconds).

After that, as shown in FIG. 117(g) at the timing of t4, the display continuation period (specifically, 5 seconds) measured by the switching timing counter 254 elapses. ) and as shown in FIG. 117(d), the notification target in the first to fourth notification display devices 201 to 204 changes from the base value stored in the current status area 256 to the base value stored in the first history area 257. value is changed. 117(c) to 117(c) to FIG. 117(c) to FIG. 117(c) to FIG. As shown in 117(f), the base values to be notified in the first to fourth notification display devices 201 to 204 are arranged in a predetermined order (current area 256→first history area 257→second history area 258→ It is sequentially switched according to the third history area 259). In addition, after the display of the base value in the third history area 259, which is the last order, is performed for the display duration period (specifically, 5 seconds), the display of the base value in the current status area 256, which is the first order, is performed. The display is performed over the display duration period (specifically, 5 seconds).

Next, the case where the set value update process (FIG. 83) is executed when the supply of operating power is started will be described.

At the timing of t8, supply of operating power to the main side MPU 82 is started as shown in FIG. 117(a). In this case, execution of the first timer interrupt process (FIG. 88) and the second timer interrupt process (FIG. 114) is prohibited. Since the execution of the second timer interrupt process (FIG. 114) is prohibited, the first to fourth notification display devices 201 to 204 are maintained in the off state and display of the base value is not started.

After that, at the timing of t9, as shown in FIG. 117(b), the main MPU 82 starts the setting value updating process (FIG. 83). When the setting value update process (FIG. 83) is started, the setting display device 205 starts displaying the current setting values to be selected as shown in FIG. be.

Execution of the first timer interrupt process (FIG. 88) and the second timer interrupt process (FIG. 114) is permitted by starting the set value update process (FIG. 83). By permitting the execution of the second timer interrupt process (FIG. 114), the display of the base values stored in the current status area 256 as shown in FIG. The display devices 201 to 204 for use start. As a result, as shown in FIG. 117(h), the set values are displayed on the setting display device 205, and as shown in FIG. The value is displayed. At the timing t9, as shown in FIG. 117(g), the switching timing counter 254 is set with information corresponding to the display continuation period (specifically, 5 seconds).

After that, at the timing of t10, as shown in FIG. 117(g), the display continuation period (specifically, 5 seconds) measured by the switching timing counter 254 elapses. ) and as shown in FIG. 117(d), the notification target in the first to fourth notification display devices 201 to 204 changes from the base value stored in the current status area 256 to the base value stored in the first history area 257. value is changed. Also, at the timing of t10, as shown in FIG. 117(g), the switching timing counter 254 is set with information corresponding to the display continuation period (specifically, 5 seconds).

After that, at the timing of t11, as shown in FIG. 117(g), the display continuation period (specifically, 5 seconds) measured by the switching timing counter 254 elapses. ) and as shown in FIG. 117(e), the notification targets in the first to fourth notification display devices 201 to 204 are stored in the second history area 258 from the base values stored in the first history area 257. is changed to the existing base value. Also, at the timing of t11, as shown in FIG. 117(g), the switching timing counter 254 is set with information corresponding to the display continuation period (specifically, 5 seconds).

After that, at the timing of t12, as shown in FIG. 117(g), the display continuation period (specifically, 5 seconds) measured by the switching timing counter 254 elapses. ) and as shown in FIG. 117(f), the notification targets in the first to fourth notification display devices 201 to 204 are stored in the third history area 259 from the base values stored in the second history area 258. is changed to the existing base value. Also, at the timing of t12, as shown in FIG. 117(g), the switching timing counter 254 is set with information corresponding to the display continuation period (specifically, 5 seconds).

After that, as shown in FIG. 117(g), at the timing of t13 during which the display continuation period is being measured by the switching timing counter 254, the setting value updating process (FIG. 83) ends as shown in FIG. 117(b). When the set value update process (FIG. 83) ends, the display of the set values on the setting display device 205 ends as shown in FIG. 117(h) at the timing of t13. In this case, the setting display device 205 is turned off.

Also, when the set value update process (FIG. 83) ends, display of the base values ends on the first to fourth notification display devices 201 to 204 as shown in FIG. 117(f) at the timing of t13. At the timing of t13, the setting process of the checking counter 211g (step S4926) is executed, and the execution of the first timer interrupt process (FIG. 88) and the second timer interrupt process (FIG. 114) is permitted. . Therefore, at the timing of t13, as shown in FIG. 117(i), the first to fourth notification display devices 201 to 204 start displaying for check. By visually confirming the check display, the manager of the game hall can identify whether or not the first to fourth notification display devices 201 to 204 are faulty.

After that, when the initial check period (specifically, 5 seconds) elapses from the timing of t13, the first to fourth notification display devices 201 to 204 are checked at the timing of t14 as shown in FIG. 117(i). display ends. The display of the base value is started when the display for check ends in the situation where execution of the second timer interrupt process (FIG. 114) is permitted. In this case, as shown in FIG. 117(f), the base value to be notified by the first to fourth notification display devices 201 to 204 is the third history area where the check display was performed immediately before the start of the check display. 259 base value. Further, as shown in FIG. 117(g), information corresponding to the display continuation period (specifically, 5 seconds) is newly set in the switching timing counter 254. FIG. As a result, the display of the base value of the type that was performed immediately before the display for check was started is resumed after the display for check is finished, and the display of the base value is the remaining value immediately before the display for check is started. is performed over the display continuation period, but is performed over the display continuation period by newly setting the display continuation period.

After that, at the timing of t15, as shown in FIG. 117(g), the display continuation period (specifically, 5 seconds) measured by the switching timing counter 254 elapses. ) and as shown in FIG. 117(f), the notification targets in the first to fourth notification display devices 201 to 204 change from the base values stored in the third history area 259 to the base values stored in the current status area 256. value is changed. In addition, as shown in FIG. 117(g) at the timing of t16, the display continuation period (specifically, 5 seconds) measured by the switching timing counter 254 elapses. ) and as shown in FIG. 117(d), the notification target in the first to fourth notification display devices 201 to 204 changes from the base value stored in the current status area 256 to the base value stored in the first history area 257. value is changed.

Aside from the first to fourth notification display devices 201 to 204 for displaying base values, a setting display for displaying setting values in setting confirmation processing (FIG. 82) or setting value update processing (FIG. 83) In a situation where the device 205 is provided and the setting confirmation process (FIG. 82) or the setting value update process (FIG. 83) is being executed in the second timer interrupt process (FIG. 114), setting to the setting display device 205 Not only the processing for displaying the values (steps S7202 to S7205) but also the processing for displaying the base values on the first to fourth notification display devices 201 to 204 (step S7206) are executed. As a result, when the setting confirmation process (FIG. 82) or the setting value update process (FIG. 83) is being executed, the manager of the gaming hall places the gaming machine body 12 in front of the pachinko machine 10 with respect to the outer frame 11. By exposing the front side of the main control device 71 by rotating it, the setting value displayed on the setting display device 205 and the base value displayed on the first to fourth notification display devices 201 to 204 Both can be visually confirmed. Therefore, the manager of the game hall can set a new setting value while checking the past base value in the setting value update process (Fig. 83), or change the past base value and the current situation in the setting confirmation process (Fig. 82). It is possible to check the correspondence with the set value.

Execution of setting confirmation processing (FIG. 82) or setting value update processing (FIG. 83) in the processing (steps S4901 to S4928) when the supply of operating power to the main MPU 82 is started. After the display of the base value is started on the first to fourth notification display devices 201 to 204, the setting confirmation process (FIG. 82) or the setting value update process (FIG. 83) is completed and the initial When the check period (specifically, 5 seconds) occurs, when the initial check period ends, the current status area 256, the first history area 257, the second history area 258 and the third Of the base values stored in each of the history areas 259, the display of the base values that were subject to notification immediately before the start of the initial check period is resumed on the first to fourth notification display devices 201 to 204. At the same time, the restarted display of the base value is performed over the display continuation period (specifically, 5 seconds) regardless of the remaining display continuation period at the timing when the initial check period was started. This makes it possible to appropriately display the base value after the end of the initial check period.

<Process for erasing information>
Next, processing for erasing information will be described. FIG. 118 is a flow chart showing the RAM clearing process executed in step S4919 of the main process (FIG. 81) or step S5113 of the set value update process (FIG. 83). The processing of steps S7501 to S7506 in the RAM clearing process is executed by the specific control processing unit 221 of the main MPU 82 using the specific control program and specific control data.

First, protection release processing is executed (step S7501). In the protection cancellation process, among the areas of the main RAM 84, areas other than the work area 211 for specific control, the stack area 212 for specific control, the work area 213 for non-specific control, and the stack area 214 for non-specific control A certain unused area is processed to cancel the state of being excluded from information writing (including “0” clear).

As already described, the main MPU 82 is provided with a RAM management circuit 225 (see FIG. 79) for writing information to and reading information from the main RAM 84 . When the address of the area from which the information is to be read is specified by executing the processing by the program in the main MPU 82, the RAM management circuit 225 reads the information from the area of the specified address and supplies it to the main MPU 82, When the address of an area to which information is to be written is specified by execution of processing by a program in the main MPU 82, the specified information is written in the area of the specified address. In this case, the data for specific control in the main ROM 83 includes the address range of the unused area in the main RAM 84 (address Y(r+3) to address Y(r+5), address Y(s+3) to address Y(s+5). , address Y(t+3) to address Y(t+5)) are stored in advance. When the protection setting is performed, the RAM management circuit 225 detects the address range of the unused area in which the address is stored in the main ROM 83 when the address of the area to which the information is to be written is specified. On the other hand, if the protection setting is canceled, if it is included in the address specified as the information write target, the unused area will not be written. Even if it is an address range, information is written to the area of that address range. Writing this information also includes a '0' clear.

As already explained, the register area 223 of the main MPU 82 is provided with a protect register 223c (see FIG. 79). The protect register 223c is for unused areas in the main RAM 84 (address Y(r+3) to address Y(r+5), address Y(s+3) to address Y(s+5), address Y(t+3) to address Y(t+5)). This is a storage area for specifying in the RAM management circuit 225 whether writing of information is prohibited. When the protection information is set in the protection register 223c, the protection setting is performed, and the addresses included in the address range of the unused area stored in the main-side ROM 83 are written. Even if it is specified, information is not written to the area of the address as described above. On the other hand, if the protection information is not set in the protection register 223c, the protection setting is not performed, and the address included in the address range of the unused area stored in the main ROM 83 is written. When it is specified as a target, information is written in the area of that address.

The protect register 223c is set as a 1-bit area, and the case where "1" is set in the protect register 223c corresponds to the case where the protect information is set in the protect register 223c. The case where the information of 223c is "0" corresponds to the case where the protection information is not set in the protection register 223c. In the protection cancellation process of step S7501, the protection register 223c is cleared to "0".

After that, the address Y(3) is set as the target address in a predetermined register of the main MPU 82 (step S7502). The address Y(3) is the address of the area included in the work area 211 for specific control in the main RAM 84 as shown in FIG. 1) and the second address Y(2) are set in the following order. The area corresponding to the leading address Y(1) is a setting reference area in which information on setting values to be used is stored. An area corresponding to the second address Y(2) is a setting update display flag. In the RAM clear processing (FIG. 118), the clear processing is executed for the area corresponding to the address after the third address Y(3). Clear processing is not executed for the setting update display flag corresponding to the address Y(2). As a result, it is possible to prevent the information of the set values to be used from being erased by the RAM clear processing (FIG. 118). can be prevented from being erased. Note that the area excluded from the target of the RAM clearing process (FIG. 118) may include the ceiling counter 131 as in the first embodiment.

Thereafter, the area corresponding to the target address is cleared to "0" and initialized (step S7503). When the address to be cleared is the address Y(3), the area corresponding to the address Y(3) is cleared to "0" and initialized. If the address to be cleared is any one of addresses Y(r+3) to Y(r+5), the corresponding area becomes an unused area, but the protect register 223c is cleared to "0" in step S7501. Therefore, the unused area is also cleared to "0" and initialized.

After that, it is determined whether or not the target address is the address Y(s+1) (step S7504). Address Y(s+1) is an address of an area included in stack area 212 for specific control, as shown in FIG. It is the previous order address. Since the information of the program return address after the end of the RAM clear processing (FIG. 118) is set in the final address Y(s+2) in the stack area 212 for specific control, the RAM clear processing (FIG. 118) Excluded from coverage.

If the target address is not the address Y(s+1) (step S7504: NO), the target address is updated to the address in the next order (step S7505). Specifically, 1 is added to the target address. Then, in step S7503, the area corresponding to the address after adding 1 is cleared to "0" and initialized, and the process of step S7504 is executed.

When the process of step S7505 is executed in a situation where the target address is the final address Y(r+2) in the work area 211 for specific control, the target address becomes the address Y(r+3) corresponding to the unused area, "0" clearing and initialization are performed for the unused area. In this case, since initialization is not performed, it is simply cleared to "0". Further, when the processing of step S7505 is executed in a situation where the target address is address Y(r+5) corresponding to an unused area, the target address is the leading address Y(r+6) in stack area 212 for specific control. As a result, "0" clearing and initialization are performed for the area of the start address Y(r+6) in the stack area 212 for the specific control. In this case, since initialization is not performed, it is simply cleared to "0".

By repeating the processing of steps S7503 to S7505, the area of address Y(3) to address Y(r+2) in the work area 211 for specific control, the work area 211 for specific control and the stack area for specific control 212 for the unused area in the address range (address Y(r+3) to address Y(r+5)) and the area from address Y(r+6) to address Y(s+1) in the stack area 212 for specific control is cleared to "0" and initialized. After the area of address Y(s+1) is cleared to "0" and initialized, affirmative determination is made in step S7504.

If an affirmative determination is made in step S7504, protection setting processing is executed (step S7506) as in step S4903 of the main processing (FIG. 81). In the protect setting process, as already explained, "1" is set in the protect register 223c. When "1" is set in the protect register 223c and the protect information is set, unused areas (address Y(r+3) to address Y(r+5), address Y(s+3)) in the main RAM 84 are to address Y(s+5), address Y(t+3) to address Y(t+5)) cannot be written. After that, the RAM clear processing is terminated.

By executing the RAM clearing process (FIG. 118) as described above, part of the work area 211 for specific control and the stack area 212 for specific control are cleared as needed when the supply of operating power is started. area can be cleared. In this case, an unused area (address Y(r+3) to address Y(r+5)) is set between the work area 211 for specific control and the stack area 212 for specific control in the main RAM 84. When the RAM clearing process (FIG. 118) is executed, the protect release process (step S7501) is executed and the protect register 223c is cleared to "0", so that the unused area (address Y(r+3) . . . address Y(r+5), address Y(s+3) through address Y(s+5), address Y(t+3) through address Y(t+5)) is canceled. As a result, in the RAM clearing process (FIG. 118), when clearing the work area 211 for specific control and the stack area 212 for specific control, the work area 211 for specific control and the stack area 212 for specific control A series of data from the work area 211 for specific control to the stack area 212 for specific control including unused areas (address Y(r+3) to address Y(r+5)) set between the stack area 212 and Clear processing can be executed by designating an address range (addresses Y(3) to Y(s+1)). Therefore, the RAM clear processing (FIG. 118) is executed by distinguishing between the address range to be cleared in the work area 211 for specific control and the address range to be cleared in the stack area 212 for specific control. It is possible to reduce the processing load compared to

When the RAM clearing process (FIG. 118) is started, even if the protect canceling process (step S7501) is executed and the protect register 223c is cleared to "0", the clearing process is executed for the area of the address range to be cleared. is completed, a protect setting process (step S7506) is executed to set "1" to the protect register 223c. As a result, when the RAM clearing process (FIG. 118) is completed, unused areas in the main RAM 84 (address Y(r+3) to address Y(r+5), address Y(s+3) to address Y(s+5), It is possible to disable writing of information to addresses Y(t+3) to Y(t+5) again.

In the protection canceling process (step S7501), the protect register 223c in the register area 223 of the main MPU 82 is cleared to "0", and in the protect setting process (step S7506), the protect register 223c is set to "1". . As a result, the unused areas (address Y(r+3) to address Y(r+5), address Y(s+3) to address Y(s+5) in the main RAM 84 are , address Y (t+3) to address Y (t+5)), and the unused area (address Y (r+3) to address Y (r+5), address Y (s+3) to It is possible to perform processing for disabling writing of information to address Y(s+5), address Y(t+3) to address Y(t+5)).

Next, the information abnormality monitoring process executed in step S6808 of the second management process (FIG. 107) included in the non-specific control process will be described with reference to the flowchart of FIG. The processing of steps S7601 to S7606 in the information abnormality monitoring process is executed by the non-specific control processing unit 222 of the main MPU 82 using a program for non-specific control and data for non-specific control.

First, a process for monitoring the work area 213 for non-specific control is executed (step S7601). In the monitoring process, it is determined whether or not the value of the pointer indicating the processing position of the process being executed in the non-specific control program exceeds the normal numerical range. If so, it is identified as abnormal. Also, it is determined whether or not the information stored in the normal counter area 251 in the non-specific control work area 213 is obviously abnormal information. For example, in the normal counter area 251, when the value of the general winning counter 251a is 1000 or more even though the value of the out counter 251e is "0", it is determined that there is an abnormality.

If it is determined that there is an abnormality in the monitoring process in step S7601 (step S7602: YES), the address Y(s+k) is set as the target address in a predetermined register of the main MPU 82 (step S7603). In the non-specific control work area 213, the area from the top address Y(s+6) to the address Y(s+k-1) is the WA of the main side MPU 82 when the specific control process and the non-specific control process are executed. A WA buffer, a BC buffer, a DE buffer, a HL buffer, an IX buffer, and an IY buffer in which information of registers, BC registers, DE registers, HL registers, IX registers, and IY registers are saved. In the information abnormality monitoring process (FIG. 119), the area corresponding to the addresses after the address Y(s+k) in the non-specific control work area 213 is cleared. Clear processing is not executed for the area in the address range from the top address Y(s+6) to the address Y(s+k−1) in . As a result, even if the occurrence of information anomaly is identified in the information anomaly monitoring process (FIG. 119), the WA register, BC register, and DE of the main MPU 82 are changed when the specific control process to the non-specific control process is executed. It is possible to prevent the information saved in the work area 213 for non-specific control from being erased from the registers, the HL register, the IX register, and the IY register.

Thereafter, the area corresponding to the target address is cleared to "0" and initialized (step S7604). When the address to be cleared is the address Y(s+k), the area corresponding to the address Y(s+k) is cleared to "0" and initialized.

After that, it is determined whether or not the target address is the address Y(t+2) (step S7605). Address Y(t+2) is the final address in work area 213 for non-specific control, as shown in FIG.

If the target address is not the final address (t+2) in the work area 213 for non-specific control (step S7605: NO), the target address is updated to the next address in order (step S7606). Specifically, 1 is added to the target address. Then, in step S7604, the area corresponding to the address after adding 1 is cleared to "0" and initialized, and the process of step S7605 is executed. As a result, "0" clearing and initialization are performed for the area included in the predetermined address range (address Y(s+k) to address Y(t+2)) in the work area 213 for non-specific control. In the area of the address range (address Y(s+k) to address Y(t+2)), there are first to eighth award monitoring timer counters 213a to 213h, a magnetic detection counter 213i, a magnetic monitoring delay timer counter 213j, and a second security counter. 213k, first to third general prize winning abnormality flags 213l to 213n, special electric prize winning abnormality flag 213o, first operation winning abnormality flag 213p, second operation winning abnormality flag 213q, out abnormality flag 213r, gate winning abnormality flag 213s, magnetic abnormality A flag 213t, a normal counter area 251, a calculation result storage area 252, a display target setting area 253, a switching timing counter 254, and a display target counter 255 are included. If the final address (t+2) in the work area 213 for non-specific control is cleared and affirmative determination is made in step S7605, this information abnormality monitoring process ends.

As described above, in the information abnormality monitoring process (FIG. 119), when it is specified that an information abnormality has occurred in the work area 213 for non-specific control, the main side is detected in the work area 213 for non-specific control. A clear process is executed for areas other than the area where the information of the registers in the MPU 82 has been saved. This makes it possible to deal with information anomalies.

In the information abnormality monitoring process (FIG. 119), the clearing process is executed for the work area 213 for non-specific control, but the clearing process is not executed for the stack area 214 for non-specific control. An unused area (address Y(t+3) to address Y(t+5)) exists between the work area 213 for non-specific control and the stack area 214 for non-specific control. There is no unused area in the work area 213 of . Therefore, even if a series of address ranges are designated in the information abnormality monitoring process (FIG. 119) and the clear process is executed, it is not necessary to execute the protection release process and the protection setting process.

According to this embodiment detailed above, the following excellent effects are obtained.

A work area 211 for specific control and a stack area 212 for specific control are provided as storage areas of the main RAM 84 in which information is written when the main MPU 82 executes specific control processing. Thus, it is possible to use the work area 211 for specific control and the stack area 212 for specific control according to the role of the storage area to which information is written. In addition, an unused area (address Y(r+3) to address Y(r+5)) is provided between the work area 211 for specific control and the stack area 212 for specific control in the addresses of the main RAM 84, Since information is not written in the unused area when specific control processing is executed, the work area 211 for specific control and the stack area 212 for specific control are clearly defined in the addresses of the main RAM 84. It is possible to distinguish between

In this case, when the RAM clearing process (FIG. 118) is executed, the protection canceling process (step S7501) is executed to clear the protect register 223c to "0", so that an unused area (address Y ( r+3) to address Y(r+5), address Y(s+3) to address Y(s+5), and address Y(t+3) to address Y(t+5)) are canceled. As a result, in the RAM clearing process (FIG. 118), an unused area (address Y(r+3) to address Y( r+5)), and execute the clear process by designating the address range (addresses Y(3) to Y(s+1)) that is a series of ranges from the work area 211 for specific control to the stack area 212 for specific control. do it. Therefore, the RAM clear processing (FIG. 118) is performed by distinguishing between the address range to be cleared in the work area 211 for specific control and the address range to be cleared in the stack area 212 for specific control. It is possible to reduce the processing load compared to

When the RAM clearing process (FIG. 118) is started, even if the protect canceling process (step S7501) is executed and the protect register 223c is cleared to "0", the clearing process is executed for the area of the address range to be cleared. is completed, a protect setting process (step S7506) is executed to set "1" to the protect register 223c. As a result, when the RAM clearing process (FIG. 118) is completed, unused areas in the main RAM 84 (address Y(r+3) to address Y(r+5), address Y(s+3) to address Y(s+5), It is possible to disable writing of information to addresses Y(t+3) to Y(t+5) again.

In the protection canceling process (step S7501), the protect register 223c in the register area 223 of the main MPU 82 is cleared to "0", and in the protect setting process (step S7506), the protect register 223c is set to "1". . As a result, the unused areas (address Y(r+3) to address Y(r+5), address Y(s+3) to address Y(s+5) in the main RAM 84 are , address Y (t+3) to address Y (t+5)), and the unused area (address Y (r+3) to address Y (r+5), address Y (s+3) to It is possible to perform processing for disabling writing of information to address Y(s+5), address Y(t+3) to address Y(t+5)).

In the RAM clear processing (FIG. 118), clear processing is executed for the work area 211 for specific control and the stack area 212 for specific control, including unused areas (address Y(r+3) to address Y(r+5)). However, the clearing process is not executed for the non-specific control work area 213 and the non-specific control stack area 214 that are used in the non-specific control process. As a result, in a configuration in which clear processing is executed including unused areas (addresses Y(r+3) to address Y(r+5)) in order to simplify the processing configuration, even in the execution target of clear processing, A work area 211 for specific control and a stack area 212 for specific control used in the process of , and a work area 213 for non-specific control and a stack for non-specific control used in the process for non-specific control Area 214 can be clearly distinguished.

In the information abnormality monitoring process (FIG. 119), when it is specified that an information abnormality has occurred in the work area 213 for non-specific control, the register in the main MPU 82 is changed in the work area 213 for non-specific control. Clear processing is executed for areas other than the area in which the information was saved. This makes it possible to deal with information anomalies. In this case, in the information abnormality monitoring process (FIG. 119), the clearing process is executed for the work area 213 for non-specific control, but the clearing process is not executed for the stack area 214 for non-specific control. An unused area (address Y(t+3) to address Y(t+5)) exists between the work area 213 for non-specific control and the stack area 214 for non-specific control. There is no unused area in the work area 213 of . In this configuration, even if a series of address ranges are specified in the information abnormality monitoring process (FIG. 119) and the clear process is executed, the protection release process and the protection setting process are not executed. This eliminates the need to cancel protection for unused areas (address Y(r+3) to address Y(r+5), address Y(s+3) to address Y(s+5), address Y(t+3) to address Y(t+5)). It is possible to prevent it from being done in the future.

Aside from the first to fourth notification display devices 201 to 204 for displaying base values, a setting display for displaying setting values in setting confirmation processing (FIG. 82) or setting value update processing (FIG. 83) In a situation where the device 205 is provided and the setting confirmation process (FIG. 82) or the setting value update process (FIG. 83) is being executed in the second timer interrupt process (FIG. 114), setting to the setting display device 205 Not only the processing for displaying the values (steps S7202 to S7205) but also the processing for displaying the base values on the first to fourth notification display devices 201 to 204 (step S7206) are executed. As a result, when the setting confirmation process (FIG. 82) or the setting value update process (FIG. 83) is being executed, the manager of the gaming hall places the gaming machine body 12 in front of the pachinko machine 10 with respect to the outer frame 11. By exposing the front side of the main control device 71 by rotating it, the setting value displayed on the setting display device 205 and the base value displayed on the first to fourth notification display devices 201 to 204 Both can be visually confirmed. Therefore, the manager of the game hall can set a new setting value while checking the past base value in the setting value update process (Fig. 83), or change the past base value and the current situation in the setting confirmation process (Fig. 82). It is possible to check the correspondence with the setting value.

In a configuration in which the first to fourth information display devices 201 to 204 displaying the base values are mounted on the element mounting surface of the main control board 81, the setting display device 205 displaying the set values is also mounted on the element mounting surface. is provided. As a result, both the base values displayed on the first to fourth notification display devices 201 to 204 and the set values displayed on the setting display device 205 can be easily confirmed.

When the set value update process (FIG. 83) is executed when the supply of operating power to the main MPU 82 is started, the first to fourth Display of the base values on the notification display devices 201 to 204 is started. Thereby, it is possible to prevent the display of the base value from starting before the manager of the game hall starts the work for changing the setting value.

When the supply of operating power to the main MPU 82 is started, the display segments 201a to 201a of the first to fourth notification display devices 201 to 204 are displayed in the first to fourth notification display devices 201 to 204. A check display is executed to enable confirmation of whether or not an abnormality has occurred in 204a. As a result, it is possible to confirm whether or not the display on the first to fourth notification display devices 201 to 204 is performed normally before the start of the game. In this case, when the set value update process (FIG. 83) is executed, the check display on the first to fourth notification display devices 201 to 204 is displayed when the set value update process (FIG. 83) is completed. be started. As a result, in the situation where the set value update process (FIG. 83) is being executed, the display devices for the first to fourth notifications 201 to 204 give priority to displaying the base values, while the first to fourth notifications are displayed. It is possible to perform check display on the display devices 201 to 204 for use.

When the supply of operating power to the main MPU 82 is started, the process at the time of starting supply of operating power ends without executing the setting confirmation process (FIG. 82) and the set value update process (FIG. 83). When the processing for progressing the game is to be started, the check display is first started on the first to fourth notification display devices 201 to 204, and after the check display is finished, the display of the base value is started. be done. As a result, in this situation, it is possible to give priority to the display for check over the start of display of the base value.

Execution of setting confirmation processing (FIG. 82) or setting value updating processing (FIG. 83) in the processing (steps S4901 to S4928) at the start of the supply of operating power when the supply of operating power to the main MPU 82 is started. After the display of the base value is started on the first to fourth notification display devices 201 to 204, the setting confirmation process (FIG. 82) or the setting value update process (FIG. 83) is completed and the initial When the check period (specifically, 5 seconds) occurs, when the initial check period ends, the current status area 256, the first history area 257, the second history area 258 and the third Of the base values stored in each of the history areas 259, the display of the base values that were subject to notification immediately before the start of the initial check period is resumed on the first to fourth notification display devices 201 to 204. At the same time, the restarted display of the base value is performed over the display continuation period (specifically, 5 seconds) regardless of the remaining display continuation period at the timing when the initial check period was started. This makes it possible to appropriately display the base value after the end of the initial check period.

When specific control processing is executed, the work area 211 for specific control and the stack area 212 for specific control are to be written information, but the work area 213 for non-specific control and the stack area for non-specific control 214 is not the target of writing information, and when non-specific control processing is executed, the work area 213 for non-specific control and the stack area 214 for non-specific control are the target of writing information. The work area 211 for control and the stack area 212 for specific control are never subject to writing information. This makes it possible to clearly distinguish the type of storage area to which information is written, depending on whether the specific control process is executed or the non-specific control process is executed. On the other hand, even when specific control processing is executed, not only the work area 211 for specific control and the stack area 212 for specific control, but also the work area 213 for non-specific control and the stack for non-specific control Information can be read from the area 214 as well, and even when non-specific control processing is executed, the specific control is performed in addition to the work area 213 for non-specific control and the stack area 214 for non-specific control. Information can also be read from the work area 211 for specific control and the stack area 212 for specific control. This makes it possible to refer to information corresponding to the processing result of one of the specific control process and the non-specific control process in the other process.

In this case, when it is specified that the detection of the game ball in each of the detection sensors 231a to 238a was caused by an abnormality or fraud in the non-specific control process, the corresponding process is executed in the specific control process. be done. As a result, the processing for specifying whether the detection of the game ball in each detection sensor 231a to 238a is caused by an abnormality or fraud is executed as a non-specific control process instead of a specific control process. Even with a configuration that allows a margin for the processing that can be executed as the processing of , the processing corresponding to the fact that the detection of the game ball by each of the detection sensors 231a to 238a is caused by an abnormality or fraud is defined as the processing of the specific control. can be executed.

In the configuration in which the processing for specifying whether or not the game ball is detected by each detection sensor 231a to 238a in the specific control process is executed, the game in each detection sensor 231a to 238a in the non-specific control process When it is specified that the detection of the ball is abnormal or fraudulent, a process for invalidating the detection of the game ball is executed in the specific control process. As a result, the processing for specifying whether the detection of the game ball in each detection sensor 231a to 238a is caused by an abnormality or fraud is executed as a non-specific control process instead of a specific control process. While providing a margin for the processing that can be executed as the processing of (1), the processing for specifying whether or not the game ball is detected by each detection sensor 231a to 238a and the processing for invalidating the detection of the game ball It becomes possible to perform collectively in the process of specific control.

General winning port 31, special electric winning device 32, first operation port 33, second operation port 34, out port 24a and each detection sensor 231a to 238a that detects the entry of the game ball to each of the through gate 35 Entering ball detection processing (FIG. 91) for specifying whether or not a ball has been detected, and processing for progressing the game in response to detection of game balls by the detection sensors 231a to 238a (holding information Acquisition processing (Fig. 92), general electric control processing (Fig. 96), special electric open processing (Fig. 97 (c)), payout output processing (step S5518), etc.) are included in the specific control processing , fraud detection execution processing (FIG. 95) for monitoring whether the detection of game balls by the detection sensors 231a to 238a is due to abnormality or fraud is included in the non-specific control processing. As a result, there is no need to execute fraud detection execution processing (FIG. 95) for monitoring whether the detection of game balls by the detection sensors 231a to 238a is due to an abnormality or fraud in the specific control processing. , the data capacity allocated to the specific control program and specific control data in the main ROM 83 can be allocated to processes other than the fraud detection execution process (FIG. 95).

In the order of processing in the first timer interrupt processing (FIG. 88), entering ball detection processing, which is included in the specific control processing and is processing for specifying whether or not game balls have been detected by the respective detection sensors 231a to 238a. After (FIG. 91), fraud detection execution processing (Figure 95) is executed, and after the fraud detection execution process (FIG. 95), it is included in the specific control process and the game is progressed in response to the detection of the game ball by each of the detection sensors 231a to 238a. (holding information acquisition process (FIG. 92), general electric control process (FIG. 96), special electric open process (FIG. 97(c)), payout output process (step S5518), etc.) are executed. As a result, fraud detection execution processing (Fig. 95) for monitoring whether the detection of game balls by the detection sensors 231a to 238a is due to abnormality or fraud is executed as non-specific control processing. Even with this configuration, it is possible to prevent the processing for progressing the game from being executed in response to the detection of game balls by the detection sensors 231a to 238a caused by an abnormality or fraud.

When it is specified that a game ball is detected by the detection sensors 231a to 238a in the entering ball detection process (FIG. 91) included in the process of specific control, the confirmation flag group 211d in the work area 211 for specific control Each provided confirmation flag is set to "1", and it is specified that the detection of the game ball is caused by an abnormality or fraud in the fraud detection execution process (Fig. 95) included in the non-specific control process. is set to "1" in each of the abnormality flags 213l to 213s provided in the work area 213 for non-specific control, and when "1" is set to the abnormality flags 213l to 213s, The confirmation flags corresponding to the abnormality flags 213l to 213s set to "1" in the fraud handling process (FIG. 99) included in the control process are cleared to "0". As a result, information stored in the work area 211 for specific control can be read in both specific control processing and non-specific control processing, whereas information stored in the work area 211 for specific control can be read. can be written in specific control processing, but not in non-specific control processing, and reading of information stored in the work area 213 for non-specific control is possible in specific control processing and non-specific control processing. While it is possible in any case, while writing information to the work area 213 for non-specific control is possible in non-specific control processing but not possible in specific control processing, the above It becomes possible to produce such an excellent effect.

After the fraud detection execution process (FIG. 95) included in the non-specific control process is executed, until the fraud detection execution process (FIG. 95) is executed again, the fraud response process ( FIG. 99) is executed. Then, in the fraud handling process (FIG. 99), the confirmation flag is cleared to "0" and various prize ball counters are reset according to the abnormality flags 213l to 213s whose information is set in the fraud detection execution process (FIG. 95). Execute the subtraction process. In this case, in the fraud detection execution process (FIG. 95), after first clearing the abnormality flags 213l to 213s to "0", a process for setting information to the abnormality flags 213l to 213s is executed. As a result, in a configuration in which writing of information to the work area 213 for non-specific control is possible in non-specific control processing but not possible in specific control processing, an abnormality is detected at an appropriate timing in non-specific control processing. It becomes possible to clear the flags 213l to 213s to "0".

In a configuration in which identification of whether the detection of a game ball by each detection sensor 231a to 238a is caused by an abnormality or fraud is executed in a non-specific control process, a special electric monitoring delay that is referred to during the identification The timer counter 211b and the general electric monitoring delay timer counter 211c are provided in the work area 211 for specific control. As a result, it becomes possible to perform processing for measuring the period using the special electric monitoring delay timer counter 211b and the general electric monitoring delay timer counter 211c in the specific control processing.

In addition, the measurement of the effective period of game ball detection using the special electric monitoring delay timer counter 211b is started when the special electric winning device 32 is changed from the open state to the closed state, and the general electric monitoring delay is started. The measurement of the valid period of game ball detection using the timer counter 211c is triggered by the execution of the process of changing the second operation port 34 from the open state to the closed state. Since the process of closing the special electric prize winning device 32 and the second operation opening 34 is executed as the process of the specific control, the start timing is set in the process of the non-specific control without taking into consideration the result of the process of the specific control. Impossible to specify. In this case, if the special electricity monitoring delay timer counter 211b and the general electricity monitoring delay timer counter 211c are provided in the non-specific control work area 213, the special electricity monitoring delay timer counter 211b and the general electricity monitoring delay timer counter 211b and the general electricity monitoring delay timer counter 211c There is a risk that the processing configuration for specifying the trigger for starting measurement of the valid period in the counter 211c will become complicated. On the other hand, by providing the special electrical monitoring delay timer counter 211b and the general electrical monitoring delay timer counter 211c in the specific control work area 211 instead of the non-specific control work area 213, the specific control work area In 211, it is possible to avoid complicating the processing configuration even though the necessary storage capacity increases accordingly.

In a configuration in which the identification of whether or not the detection of the game ball by each detection sensor 231a to 238a is caused by an abnormality or fraud is executed by a process of non-specific control, the general winning opening 31, the special electric winning device 32, The first to eighth prize-winning monitoring timers referred to when monitoring whether or not the entry of the game ball into the first operating port 33, the second operating port 34, the through gate 35 and the out port 24a is normal Counters 213a to 213h are provided in work area 213 for non-specific control. Since the measurement of the invalid period of game ball detection using the first to eighth winning monitoring timer counters 213a to 213h is triggered by the detection result of each detection sensor 231a to 238a, the start trigger is a specific control process. It is possible to specify in the process of non-specific control without considering the result. Therefore, by providing the first to eighth winning monitoring timer counters 213a to 213h in the work area 213 for non-specific control, the invalid period of game ball detection using the first to eighth winning monitoring timer counters 213a to 213h can be measured by non-specific control processing. In such circumstances, by providing the first to eighth winning monitoring timer counters 213a to 213h in the work area 213 for non-specific control, the required storage capacity in the work area 211 for specific control can be reduced. It becomes possible.

Regardless of whether the specific control processing unit 221 is executing specific control processing or the non-specific control processing unit 222 is executing non-specific control processing, the command to be transmitted is , is stored in the command transmission buffer 223 b of the register area 223 . In other words, even if the area to which information is to be written in the main RAM 84 differs between the situation in which the specific control process is executed and the situation in which the non-specific control process is executed, The command writing area is used both in a situation where specific control processing is being executed and in a situation where non-specific control processing is being executed. Therefore, since it is not necessary to concentrate the processing for storing the command into only one of the specific control processing and the non-specific control processing, it is possible to prevent the processing configuration for storing the command from becoming complicated. It becomes possible.

The command transmission buffer 223b is provided in the register area 223 of the main MPU 82 instead of the main RAM 84. FIG. As a result, the storage area of the main RAM 84 to which information can be written in the specific control process and the storage area of the main RAM 84 to which information can be written in the non-specific control process are divided into a work area 211 for specific control. And in a configuration in which the stack area 212 for specific control, the work area 213 for non-specific control, and the stack area 214 for non-specific control are clearly distinguished, commands are written while avoiding using these areas 211 to 214 It is possible to share a storage area between specific control processing and non-specific control processing.

The command stored in the command transmission buffer 223b is transmitted to the sound/light side MPU 93 by the command transmission circuit 224 that operates independently of the specific control process and the non-specific control process. As a result, there is no need to adjust the command transmission timing in relation to the execution content of the process using the program in the main MPU 82, so it is possible to simplify the processing configuration of the process using the program in the main MPU 82. becomes.

A process for identifying whether or not an event targeted for external output of a security signal has occurred is executed not only in the specific control process but also in the non-specific control process. As a result, the process for monitoring whether or not the event targeted for the external output of the security signal has occurred is assigned to the non-specific control process, and the program and data for the specific control process Capacity can be allocated to other processes.

A work area 211 for specific control is provided with a first security counter 211a and a work area 213 for non-specific control is provided with a second security counter 213k. If it is identified that the event has occurred, the value of the first security counter 211a is incremented by 1, and it is identified that the event for which the security signal is to be externally output has occurred in the non-specific control process. If so, 1 is added to the value of the second security counter 213k. As a result, writing of information to the work area 211 for specific control is enabled in specific control processing and disabled in non-specific control processing, and writing of information to the work area 213 for non-specific control is disabled. Although it is possible in specific control processing and not possible in specific control processing, events that are subject to external output of security signals occur in each of specific control processing and non-specific control processing can be appropriately specified.

In the security processing (FIG. 101) included in the specific control processing, the increase in the value of the second security counter 213k in the non-specific control work area 213 is added to the first security counter 211a. is greater than or equal to 1, a security signal is output to the outside in security processing (FIG. 101). Then, the external output of the pulse-shaped security signal for a predetermined output continuation period or longer with a predetermined stop continuation period intervening is repeatedly executed until the value of the first security counter 211a becomes "0". Thereby, in a configuration in which the occurrence of an event targeted for external output of a security signal is specified in each of the specific control process and the non-specific control process, the process for externally outputting the security signal. can be integrated into specific control processing.

When the value of the first security counter 211a becomes 1 or more, the security flag 211f is set to "1", and when the security flag 211f is set to "1", the abnormality display device 206 is turned on. . The state in which the security flag 211f is set to "1" is maintained as long as the supply of operating power to the main MPU 82 is continued, and the RAM clear processing (step S4919) in the main processing (FIG. 81). ) or the RAM clearing process (step S5113) in the set value updating process (FIG. 83) is executed, and when the security flag 211f is set to "1", the abnormality display device 206 is kept in the light emitting state. be. As a result, at least when the game hall is in operation, regardless of the timing at which the manager of the game hall checks the abnormality display device 206, the game hall can determine whether or not an event for which the security signal is to be output externally has occurred. It is possible to make the administrator recognize it.

<Fourteenth Embodiment>
This embodiment differs from the thirteenth embodiment in the processing configuration of the first timer interrupt process executed by the main MPU 82 . The configuration different from that of the thirteenth embodiment will be described below. The description of the same configuration as that of the thirteenth embodiment is basically omitted.

FIG. 120 is a flow chart showing first timer interrupt processing in this embodiment executed by the main MPU 82 . Of the processes in steps S7701 to S7719 in the first timer interrupt process, the processes other than the management process called and executed in step S7719 use the specific control program and specific control data. It is executed by the specific control processing unit 221 of the main MPU 82, and the management process is executed by the non-specific control processing unit 222 of the main MPU 82 using the program for non-specific control and the data for non-specific control. .

In steps S7701 to S7707, the same processes as steps S5501 to S5507 of the first timer interrupt process (FIG. 88) in the thirteenth embodiment are executed. In step S7708, ball entry detection processing is executed.

FIG. 121 is a flow chart showing the ball entry detection process in step S7708. The processes of steps S7801 to S7818 in the ball entry detection process are executed by the specific control processing unit 221 of the main side MPU 82 using a specific control program and specific control data.

First, a prize ball counter setting process is executed (step S7801). The prize ball counter setting process sets each prize ball counter according to the contents of the ball entry detection process (FIG. 121) and the contents of the fraud detection execution process (step S7911) in the previous process. is the processing of The details of the prize ball counter setting process will be described later.

After that, various flag clearing processes are executed (step S7802). In the various flag clearing processes, similar to the various flag clearing processes (step S5601) in the thirteenth embodiment, the first winning confirmation flag, the second winning confirmation flag, the second winning confirmation flag, and the third 3 Clear the winning confirmation flag, the special electric winning confirmation flag, the first operation winning confirmation flag, the second operation winning confirmation flag, the out confirmation flag, and the gate winning confirmation flag to "0".

When it is confirmed that the state in which information "0" is stored in the 0th bit D0 has changed to the state in which information "1" is stored, the first winning hole detection sensor 231a detects one It is determined that a game ball has been detected (step S7803: YES). In this case, the first winning confirmation flag in the work area 211 for specific control is set to "1" (step S7804). The first winning confirmation flag is a flag for the main side MPU 82 to specify that one game ball has been detected by the first winning opening detection sensor 231a, as in the thirteenth embodiment.

When it is confirmed that the state in which the information "0" is stored in the first bit D1 has changed to the state in which the information "1" is stored, the second winning hole detection sensor 232a detects one It is determined that a game ball has been detected (step S7805: YES). In this case, the second winning confirmation flag in the work area 211 for specific control is set to "1" (step S7806). The second winning confirmation flag is a flag for specifying in the main side MPU 82 that one game ball has been detected by the second winning opening detection sensor 232a, as in the thirteenth embodiment.

When it is confirmed that the state where the information of "0" is stored in the second bit D2 is switched to the state where the information of "1" is stored, the third winning hole detection sensor 233a detects one It is determined that a game ball has been detected (step S7807: YES). In this case, the third winning confirmation flag in the work area 211 for specific control is set to "1" (step S7808). The third winning confirmation flag is a flag for the main side MPU 82 to specify that one game ball has been detected by the third winning opening detection sensor 233a, as in the thirteenth embodiment.

When it is confirmed that the state in which information "0" is stored in the third bit D3 has changed to the state in which information "1" is stored, one game ball is detected by the special electric detection sensor 234a. It is determined that it has been detected (step S7809: YES). In this case, "1" is set to the special electric winning confirmation flag in the work area 211 for specific control (step S7810). As in the thirteenth embodiment, the special electric winning confirmation flag is a flag for specifying in the main side MPU 82 that one game ball has been detected by the special electric detection sensor 234a.

When it is confirmed that the state in which information "0" is stored in the fourth bit D4 has changed to the state in which information "1" is stored, the first operation opening detection sensor 235a detects one It is determined that a game ball has been detected (step S7811: YES). In this case, "1" is set to the first operation winning confirmation flag in the work area 211 for specific control (step S7812). The first operation winning confirmation flag is a flag for specifying in the main side MPU 82 that one game ball has been detected by the first operation opening detection sensor 235a, as in the thirteenth embodiment.

When it is confirmed that the state where information "0" is stored in the fifth bit D5 has changed to the state where information "1" is stored, the second operating opening detection sensor 236a detects one It is determined that a game ball has been detected (step S7813: YES). In this case, the second operation winning confirmation flag in the work area 211 for specific control is set to "1" (step S7814). As in the thirteenth embodiment, the second operation winning confirmation flag is a flag for specifying in the main side MPU 82 that one game ball has been detected by the second operation opening detection sensor 236a.

When it is confirmed that the state in which information "0" is stored in the sixth bit D6 has changed to the state in which information "1" is stored, one game ball is detected by the outlet detection sensor 237a. is detected (step S7815: YES). In this case, the out confirmation flag in the work area 211 for specific control is set to "1" (step S7816). The out confirmation flag is a flag for the main side MPU 82 to specify that one game ball has been detected by the out port detection sensor 237a, as in the thirteenth embodiment.

When it is confirmed that the state in which information "0" is stored in the seventh bit D7 has changed to the state in which information "1" is stored, one game ball is detected by the gate detection sensor 238a. It is determined that it has been detected (step S7817: YES). In this case, "1" is set to the gate winning confirmation flag in the work area 211 for specific control (step S7818). The gate winning confirmation flag is a flag for specifying in the main side MPU 82 that one gaming ball has been detected by the gate detection sensor 238a, as in the thirteenth embodiment.

Returning to the description of the first timer interrupt processing (FIG. 120), after executing the ball entry detection processing in step S7708, the step of the first timer interrupt processing (FIG. 88) in the thirteenth embodiment is performed in step S7709. As in S5510, specific control timer update processing is executed. After that, the processing of steps S7710 to S7718 is executed. In steps S7710 to S7718, the same processes as steps S5512 to S5520 of the first timer interrupt process (FIG. 88) in the thirteenth embodiment are executed.

In this embodiment, the fraud detection process (step S5509) and fraud response process (step S5511) set in the first timer interrupt process (FIG. 88) in the thirteenth embodiment are not executed. Instead, in the first timer interrupt process (FIG. 120) in this embodiment, the management process is called by the CALLI instruction in step S7719, and the fraud detection execution process is executed in the management process. Note that the process of step S7719 is executed when affirmative determination is made in step S7705 or when the process of step S7718 is executed.

Next, the process of step S7719 of the first timer interrupt process (FIG. 120) will be described.

In step S7719 of the first timer interrupt processing (FIG. 120), management processing is executed by the CALLI instruction as already described. Administrative processing is included in non-specific control processing. In other words, in the first timer interrupt processing (FIG. 120), when the situation changes from the specific control process to the non-specific control process, the non-specific control process uses the CALLI instruction. Called.

When the management process is executed by the CALLI instruction, first, the information in the flag register of the main MPU 82 is saved in the stack area 212 for specific control. The flag register includes a carry flag, a zero flag, a P/V flag, a sign flag, a half carry flag, and the like, and the information in the flag register changes according to the execution results of arithmetic instructions, rotate instructions, input/output instructions, and the like. By saving the information in the flag register before the program for management processing, which is non-specific control processing, is started, the information before the management processing is called or changed after the management processing is started. It is possible to save the information of the status flag register in the stack area 212 for specific control.

When management processing is executed by the CALLI instruction, after the information in the flag register is saved in the stack area 212 for specific control, the first timer interrupt processing (FIG. 120) and the second timer interrupt processing (FIG. 114) are executed. ) interrupts are disabled. As a result, the first timer interrupt processing (FIG. 120) and the second timer interrupt processing (FIG. 114), which are specific control processing, are interrupted and started while the management processing, which is non-specific control processing, is being executed. It is possible to prevent

When management processing is executed by the CALLI instruction, the information in the flag register is saved in the stack area 212 for specific control, and the first timer interrupt processing (FIG. 120) and the second timer interrupt processing (FIG. 114) are executed. After interrupts are disabled, a program corresponding to administrative processing is started.

In this way, with a configuration in which management processing is executed by the CALLI instruction, information in the flag register of the main side MPU 82 is saved in the stack area 212 for specific control by one instruction ("CALLI"). , the first timer interrupt processing (FIG. 120) and the second timer interrupt processing (FIG. 114) are prohibited. A program corresponding to the management process can then be started. For this reason, an instruction to save the information of the flag register of the main MPU 82 to the stack area 212 for specific control and the interruption of the first timer interrupt processing (FIG. 120) and the second timer interrupt processing (FIG. 114) are prohibited. The number of instructions set in the program for executing the management process can be reduced compared to the case where the instruction for executing the management process and the instruction for starting the program for the management process are separately provided. As a result, the storage capacity of the main ROM 83 for storing programs can be reduced.

FIG. 122 is a flow chart showing management processing. The processing of steps S7901 to S7920 in the management process is executed by the non-specific control processing unit 222 of the main MPU 82 using the non-specific control program and non-specific control data.

First, as "LD SP, Y(u+2)", Y(u+2) is set as a fixed address at the start of non-specific control in the stack pointer of the main MPU 82 by a load instruction (step S7901). The stack pointer is an area in which address information is set for the main MPU 82 to specify a storage area to which information is to be written by a push instruction in the stack areas 212 and 214 . Each time a push instruction is performed, the stack pointer information is updated to the address information of the storage area to be written in the next order, and each time a pop instruction is performed, the stack pointer information is updated to the previous order to be written is updated to the information of the address of the storage area. Further, when the stack area 214 for non-specific control is used, the information to be stored is stored from the storage area of the last address in the stack area 214 for non-specific control, and each time the information to be stored is added. Then, the storage area of the storage destination is changed toward the first address side in the stack area 214 for non-specific control. Therefore, in step S6801, the information of the last address in stack area 214 for non-specific control is set in the stack pointer.

Thereafter, as "LD (_WABUF), WA", the information in the WA register of the main side MPU 82 is saved in the WA buffer set in the non-specific control work area 213 by the load instruction (step S7902). Also, as "LD (_BCBUF), BC", the information in the BC register of the main MPU 82 is saved in the BC buffer set in the non-specific control work area 213 by the load instruction (step S7903). Also, as "LD (_DEBUF), DE", the information in the DE register of the main MPU 82 is saved in the DE buffer set in the non-specific control work area 213 by the load instruction (step S7904). Also, as "LD (_HLBUF), HL", the information in the HL register of the main side MPU 82 is saved in the HL buffer set in the non-specific control work area 213 by the load instruction (step S7905). Also, as "LD (_IXBUF), IX", the information in the IX register of the main MPU 82 is saved in the IX buffer set in the non-specific control work area 213 by the load instruction (step S7906). Also, as "LD (_IYBUF), IY", the information in the IY register of the main MPU 82 is saved in the IY buffer set in the non-specific control work area 213 by the load instruction (step S7907).

These WA register, BC register, DE register, HL register, IX register, and IY register are processing corresponding to non-specific control, such as information clear processing (step S7908), test firing test processing (step S7909), and timer update for non-specific control. This register is used in processing (step S7910), fraud detection execution processing (step S7911), information abnormality monitoring processing (step S7912), and check processing (step S7913). The information set in such registers is cleared information processing (step S7908), trial firing test processing (step S7909), non-specific control timer update processing (step S7910), fraud detection execution processing (step S7911), information abnormality By saving the information in the non-specific control work area 213 prior to execution of the monitoring process (step S7912) and the check process (step S7913), non-specific control is started for the information of these registers used for specific control. It is possible to retreat before. Therefore, even if these registers are overwritten during the non-specific control, the information saved in the work area 213 for non-specific control is returned to these registers when the non-specific control is terminated. can be returned to the state corresponding to the specific control before the non-specific control is executed.

In addition, instead of saving all information of various general-purpose registers, auxiliary registers, and index registers to the work area 213 for non-specific control, information clear processing (step S7908), which is processing corresponding to non-specific control, WA to be used in test processing (step S7909), non-specific control timer update processing (step S7910), fraud detection execution processing (step S7911), information abnormality monitoring processing (step S7912) and check processing (step S7913) By selectively saving the information of the register, BC register, DE register, HL register, IX register and IY register to the non-specific control work area 213, the register information is saved in the non-specific control work area 213. It is possible to suppress the capacity to be secured in order to Therefore, information clear processing (step S7908), trial firing test processing (step S7909), non-specific control timer update processing (step S7910), fraud detection execution processing (step S7911), information abnormality monitoring processing (step S7912) and check processing While securing a large capacity of the work area 213 for non-specific control that becomes available at (step S7913), it is possible to save the information in the register as described above.

Of course, among various general-purpose registers, auxiliary registers, and index registers in the main MPU 82, registers other than the WA register, BC register, DE register, HL register, IX register, and IY register support non-specific control. The information set before the start of the processing to be performed is stored and retained until the processing corresponding to the non-specific control ends and the processing corresponding to the specific control is restarted.

After executing the processing of steps S7902 to S7907, information clear processing (step S7908), test firing test processing (step S7909), non-specific control timer update processing (step S7910), fraud detection execution processing (step S7911), Information abnormality monitoring processing (step S7912) and check processing (step S7913) are executed. Information clear processing (step S7908), trial firing test processing (step S7909), non-specific control timer update processing (step S7910), fraud detection execution processing (step S7911), information abnormality monitoring processing (step S7912) and check processing (step S7913), information clear processing set in the program for non-specific control (step S7908), test firing test processing (step S7909), timer update processing for non-specific control (step S7910), fraud detection execution processing (step S7911), the information abnormality monitoring process (step S7912), and the check process (step S7913). , Trial test processing (step S7909), non-specific control timer update processing (step S7910), fraud detection execution processing (step S7911), information abnormality monitoring processing (step S7912), and management after execution of check processing (step S7913) Information for specifying the return address of the processing for use is written in the stack area 214 for non-specific control by a push instruction. Then, information clear processing (step S7908), trial firing test processing (step S7909), non-specific control timer update processing (step S7910), fraud detection execution processing (step S7911), information abnormality monitoring processing (step S7912), and check processing When (step S7913) is completed, information for specifying the return address is read by the pop instruction, and the program for management processing indicated by the return address is returned to.

The processing contents of the information clearing process (step S7908) are the same as the information clearing process (FIG. 94) executed in step S5808 of the fraud detection process (FIG. 93) in the thirteenth embodiment. The contents of the trial shooting test process (step S7909) are the same as the trial shooting test process executed in step S5809 of the fraud detection process (FIG. 93) in the thirteenth embodiment. The contents of the non-specific control timer update process (step S7910) are the same as the non-specific control timer update process executed in step S5810 of the fraud detection process (FIG. 93) in the thirteenth embodiment. The content of the fraud detection execution process (step S7911) is the same as the fraud detection execution process (FIG. 95) executed in step S5811 of the fraud detection process (FIG. 93) in the thirteenth embodiment. The contents of the information abnormality monitoring process (step S7912) are the same as the information abnormality monitoring process (FIG. 119) executed in step S6808 of the second management process (FIG. 107) in the thirteenth embodiment. The contents of the check process (step S7913) are the same as the check process (FIG. 108) executed in step S6809 of the second management process (FIG. 107) in the thirteenth embodiment.

Information clear processing (step S7908), trial firing test processing (step S7909), non-specific control timer update processing (step S7910), fraud detection execution processing (step S7911), information abnormality monitoring processing (step S7912) and check processing (step After S7913) is executed, "LD SP, Y(r+d)" is set to the stack pointer of the main side MPU 82 by the load instruction, Y(r+d) as a fixed address at the time of returning to the specific control after the end of the management process. ) is set (step S7914). The address of Y(r+d) is set as an address between Y(r+8) and Y(s) in the stack area 212 for specific control.

The amount of information stored in the specific control stack area 212 is always constant immediately before the management process is called in step S7719 of the first timer interrupt process (FIG. 120). The information of the stack pointer of the MPU 82 (that is, the value of the stack pointer) is constant. In this case, the information stored in the stack area 212 for specific control includes, for example, return address information of the main process (FIG. 81) after the first timer interrupt process (FIG. 120) ends. The constant information of the stack pointer is Y(r+d). Therefore, information information clear processing (step S7908), which is processing corresponding to non-specific control, trial firing test processing (step S7909), non-specific control timer update processing (step S7910), fraud detection execution processing (step S7911), information When the abnormality monitoring process (step S7912) and the check process (step S7913) are completed and the process corresponding to the specific control is returned to, the fixed information Y(r+d) is set in the stack pointer of the main MPU 82. By doing so, it is possible to return the information of the stack pointer to the information immediately before the process corresponding to the non-specific control is started. By setting the fixed information in the stack pointer in this way, the information of the stack pointer is restored to the information immediately before the processing corresponding to the non-specific control is started, so that the processing corresponding to the non-specific control It becomes unnecessary to save the information of the stack pointer of the main MPU 82 corresponding to the specific control in the main RAM 84 before starting the control. Therefore, it is possible to reduce the processing load and eliminate the need to secure an area for saving in the main RAM 84 .

Thereafter, as "LD WA, (_WABUF)", the WA register of the main MPU 82 is overwritten with the information saved in the WA buffer of the non-specific control work area 213 by the load instruction (step S7915). Also, as "LD BC, (_BCBUF)", the BC register of the main MPU 82 is overwritten with the information saved in the BC buffer of the non-specific control work area 213 by the load instruction (step S7916). Also, as "LD DE, (_DEBUF)", the DE register of the main MPU 82 is overwritten with the information saved in the DE buffer of the non-specific control work area 213 by the load instruction (step S7917). Also, as "LD HL, (_HLBUF)", the HL register of the main MPU 82 is overwritten with the information saved in the HL buffer of the non-specific control work area 213 by the load instruction (step S7918). Also, as "LD IX, (_IXBUF)", the IX register of the main MPU 82 is overwritten with the information saved in the IX buffer of the non-specific control work area 213 by the load instruction (step S7919). Also, as "LD IY, (_IYBUF)", the IY register of the main MPU 82 is overwritten with the information saved in the IY buffer of the non-specific control work area 213 by the load instruction (step S7920). By executing the processing of steps S7915 to S7920, each information of the WA register, BC register, DE register, HL register, IX register and IY register of the main MPU 82 is processed for non-specific control. It is possible to restore the information corresponding to the specific control immediately before the control.

After executing the processing of steps S7915 to S7920, the RETI instruction returns to the first timer interrupt processing (FIG. 120) included in the specific control processing. By executing the RETI instruction, the information in the flag register saved in the stack area 212 for specific control before execution of the management process is restored to the flag register of the main MPU 82, and the first timer interrupt process ( 120) and the second timer interrupt processing (FIG. 114) are switched from being prohibited to being permitted. As a result, the information in the flag register of the main MPU 82 is restored to the information for executing the specific control, and new execution of the first timer interrupt process and the second timer interrupt process becomes possible.

With the configuration for executing the RETI instruction, by one instruction ("RETI"), the information of the flag register saved in the stack area 212 for specific control before execution of the management process is transferred to the flag register of the main MPU 82. , and the state in which the first timer interrupt processing (FIG. 120) and the second timer interrupt processing (FIG. 114) are prohibited can be switched to the state in which they are permitted. For this reason, an instruction for returning the information of the flag register saved in the stack area 212 for specific control before the execution of the management process to the flag register of the main side MPU 82, the first timer interrupt process (FIG. 120) and Compared to the case where an instruction for switching from the state in which the generation of the second timer interrupt processing (FIG. 114) is prohibited to the state in which it is permitted is separately provided, the number of commands set in the program for non-specific control processing number can be reduced. As a result, it is possible to reduce the storage capacity of the main-side ROM 83 for storing programs for non-specific control processing.

Information stored in the flag register and various registers of the main MPU 82 when the non-specific control process is executed is not saved in the main RAM 84 when the specific control process is restarted. This eliminates the need to secure a storage area for saving the above information in the work area 211 for specific control and the stack area 212 for specific control.

Further, the information stored in the flag register and various registers of the main MPU 82 when the non-specific control process is executed is stored when the non-specific control process is restarted after returning to the specific control process. Information that is not used. In other words, information necessary for a plurality of times of non-specific control processing executed with specific control processing intervening is stored in the work area 213 for non-specific control or the stack area 214 for non-specific control. It is not stored in the flag register and various registers of the main MPU 82. Therefore, even if the information stored in the flag register and various registers of the main side MPU 82 is not saved in the main side RAM 84 when the non-specific control process is executed, a problem arises in executing the non-specific control process. do not have.

As described above, in the present embodiment, non-specific control processing is not distributed and set in the first timer interrupt processing (FIG. 120), but is collectively set as one processing. As a result, processing for saving information of various registers of the main side MPU 82 to the main side RAM 84 when the situation changes from the situation in which the specific control process is executed to the situation in which the non-specific control process is executed, and the non-specific control When the process of (1) is completed and the specific control process is returned to, the process of returning the information saved in the main side RAM 84 to various registers of the main side MPU 82 is one process of the first timer interrupt process (Fig. 120). It does not need to be repeated every time. Therefore, it is possible to reduce the processing load of the first timer interrupt processing (FIG. 120).

Non-specific control processing, which is collectively set as one processing in the first timer interrupt processing (FIG. 120), is set as the last processing order in the first timer interrupt processing (FIG. 120). As a result, it becomes possible to execute non-specific control processing in each processing cycle of the first timer interrupt processing (FIG. 120) based on the processing contents of all specific control processing in that processing cycle. In addition, by setting non-specific control processing to the last processing order in the first timer interrupt processing (FIG. 120), the first timer interrupt processing (FIG. 120) after the processing of the non-specific control is completed. There is no need to store the return address information in the main side RAM 84 .

Since non-specific control processing is aggregated and set to the last processing order in the first timer interrupt processing (FIG. 120), execution of ball entry detection processing (step S7708) in the first timer interrupt processing (FIG. 120) It is later and the fraud detection execution process (step S7911) is not executed before the execution of the special figure special electric control process (step S7712), the general figure general electric control process (step S7713) and the payout output process (step S7716). In this case, the processing result of the entering ball detection processing (step S7708) in a predetermined processing time of the first timer interrupt processing (FIG. 120) is used as the special figure special electric control processing (step S7712) in the predetermined processing time, If it is used as it is in the general electric control process (step S7713) and the payout output process (step S7716), the process for advancing the game triggered by the winning result of the game ball caused by an abnormality or fraud or the game to the player There is a risk that the process for putting out the ball will be executed. A processing configuration for preventing such inconvenience from occurring will be described below.

FIG. 123 is a flow chart showing the pending information acquisition process in this embodiment executed by the main MPU 82 . The processing of steps S8001 to S8022 in the hold information acquisition processing is executed by the specific control processing unit 221 of the main side MPU 82 using a program for specific control and data for specific control.

In step S8001, it is determined whether or not the first storage standby flag provided in the work area 211 for specific control is set to "1". It is determined whether or not the storage standby flag is set to "1". The first storage standby flag is in a situation where the storage of the first reservation information in the first special figure reservation area 111 is waiting after it is specified that the game ball is detected by the first operation opening detection sensor 235a It is a flag for specifying in the main side MPU 82 that there is. The second storage standby flag is in a situation where the storage of the second reservation information in the second special figure reservation area 112 is on standby after it is specified that the game ball is detected by the second operation opening detection sensor 236a It is a flag for specifying in the main side MPU 82 that there is.

If the first storage standby flag is not set to "1" (step S8001: NO) and the second storage standby flag is not set to "1" (step S8008: NO), the specific control It is determined whether or not "1" is set to the first operation winning confirmation flag in the work area 211 (step S8015). When "1" is set to the first operation winning confirmation flag (step S8015: YES), the number of first reservation information stored in the first special figure reservation area 111 is less than the upper limit memory number As a condition (step S8016: YES), each value of the winning random number counter C1, the type random number counter C2, and the reach random number counter C3 is stored in the first standby area provided in the work area 211 for specific control (step S8017). . In the first standby area, the first holding information acquired when the game ball is detected by the first operation opening detection sensor 235a is displayed as the detection of the game ball by the first operation opening detection sensor 235a. It is an area for waiting without storing in the first special figure reservation area 111 until it is specified in the fraud detection execution process (step S7911) that it is not caused. After that, the first storage standby flag in the work area 211 for specific control is set to "1" (step S8018).

When "1" is set to the first storage standby flag (step S8001: YES), it is checked whether "1" is set to the first operation winning abnormality flag 213p in the work area 213 for non-specific control. Determine (step S8002). That is, the detection of the game ball in the first operation opening detection sensor 235a, which triggered the setting of "1" to the first storage standby flag, is the fraud detection in the first timer interrupt processing (FIG. 120) of the previous processing time. It is determined whether or not it is identified as being caused by an abnormality in the execution process (step S7911).

When "1" is not set to the first operation winning abnormality flag 213p (step S8002: NO), the game in the first operation opening detection sensor 235a that triggered the setting of "1" to the first storage standby flag This means that the detection of the sphere was not identified as being caused by an abnormality in the fraud detection execution process (step S7911) in the first timer interrupt process (FIG. 120) of the previous process. In this case, 1 is added to the value of the first special figure reservation counter (step S8003). The display contents of the first special figure reservation display section 37c in the special figure unit 37 are adjusted according to the value of the first special figure reservation counter. As a result, the display content of the first special figure reservation display portion 37 c corresponds to the number of first reservation information stored in the first special figure reservation area 111 . After that, the first reservation information waiting in the first waiting area is stored in the first storage area of the first special figure reservation area 111, that is, in the storage area corresponding to the number of reservation storage added by 1 in step S8003 ( step S8004). After that, the first pending command is stored in the command transmission buffer 223b of the register area 223 (step S8005). By storing the first pending command in the command transmission buffer 223 b , the command transmitting circuit 224 operates to transmit the first pending command to the sound and light side MPU 93 . Thereby, the display side MPU 103 controls the display of the pattern display device 41 so that the display content of the first reserved display area 42a of the pattern display device 41 becomes the display content corresponding to the increase of the first reserved information.

On the other hand, when "1" is set to the first operation winning abnormality flag 213p (step S8002: YES), the first operation opening detection sensor 235a that triggered the setting of "1" to the first storage standby flag. It means that the detection of the game ball in is specified as being caused by an abnormality in the fraud detection execution process (step S7911) in the first timer interrupt process (FIG. 120) of the previous process. In this case, the first pending information waiting in the first waiting area is erased (step S8006). Also, when the process of step S8005 or the process of step S8006 is executed, the first storage standby flag is cleared to "0" (step S8007).

When a negative determination is made in step S8015, when a negative determination is made in step S8016, or when the process of step S8018 is executed, the second operation winning confirmation flag in the work area 211 for specific control is set to "1". (step S8019). When "1" is set to the second operation winning confirmation flag (step S8019: YES), the number of second reservation information stored in the second special figure reservation area 112 is less than the upper limit memory number As a condition (step S8020: YES), each value of the hit random number counter C1, the type random number counter C2, and the reach random number counter C3 is stored in the second standby area provided in the work area 211 for specific control (step S8021). . In the second standby area, the second holding information acquired when the game ball is detected by the second operation opening detection sensor 236a It is an area for waiting without storing in the second special figure reservation area 112 until it is specified in the fraud detection execution process (step S7911) that it is not due to fraud. After that, the second storage standby flag in the work area 211 for specific control is set to "1" (step S8022).

When "1" is set to the second storage standby flag (step S8008: YES), it is checked whether "1" is set to the second operation winning abnormality flag 213q in the work area 213 for non-specific control. Determine (step S8009). That is, the detection of the game ball in the second operation opening detection sensor 236a, which triggered the second storage standby flag to be set to "1", is the fraud detection in the first timer interrupt process (FIG. 120) of the previous processing time. It is determined whether or not it is identified as being caused by an abnormality in the execution process (step S7911).

When "1" is not set to the second operation winning abnormality flag 213q (step S8009: NO), the game in the second operation opening detection sensor 236a that triggered the second storage standby flag to be set to "1" This means that the detection of the sphere was not identified as being caused by an abnormality or fraud in the fraud detection execution process (step S7911) in the first timer interrupt process (FIG. 120) of the previous processing. In this case, 1 is added to the value of the second special figure reservation counter (step S8010). The display contents of the second special figure reservation display section 37d in the special figure unit 37 are adjusted according to the value of the second special figure reservation counter. As a result, the display content of the second special figure reservation display section 37 d corresponds to the number of second reservation information stored in the second special figure reservation area 112 . After that, the second reservation information waiting in the second waiting area is stored in the first storage area of the second special figure reservation area 112, that is, in the storage area corresponding to the number of reservation storages added by 1 in step S8010 ( step S8011). After that, the second pending command is stored in the command transmission buffer 223b of the register area 223 (step S8012). By storing the second pending command in the command transmission buffer 223 b , the command transmitting circuit 224 operates to transmit the second pending command to the sound and light side MPU 93 . Thus, the display side MPU 103 controls the display of the pattern display device 41 so that the display content of the second reserved display area 42b of the pattern display device 41 becomes the display content corresponding to the increase of the second reserved information.

On the other hand, when the second operation winning abnormality flag 213q is set to "1" (step S8009: YES), the second operation opening detection sensor 236a that triggered the second storage standby flag to be set to "1". It means that the detection of the game ball in is specified as being caused by abnormality or fraud in the fraud detection execution process (step S7911) in the first timer interrupt process (FIG. 120) of the previous processing time. In this case, the second pending information waiting in the second waiting area is erased (step S8013). Also, when the process of step S8012 or the process of step S8013 is executed, the second storage standby flag is cleared to "0" (step S8014).

With the above configuration, in the ball entry detection process (step S7708) in the predetermined processing times of the first timer interrupt process (FIG. 120), the game ball is detected by the first operation opening detection sensor 235a or the second operation opening detection sensor 236a. is detected, in the hold information acquisition process (FIG. 123) in the first timer interrupt process (FIG. 120) of the predetermined processing time, the hold information corresponding to it is temporarily transferred to the corresponding wait Wait in the area. Then, in the fraud detection execution processing (step S7911) in the first timer interrupt processing (FIG. 120) of the predetermined processing time, the detection of the game ball that triggered the acquisition of the reservation information was abnormal or caused by fraud. If it is specified that it is not a thing, wait in the waiting area in the pending information acquisition process (FIG. 123) in the first timer interrupt process (FIG. 120) of the next processing time for the predetermined processing time The reserved information is stored in the special figure reserved areas 111 and 112 corresponding thereto. As a result, the first timer interrupt processing (FIG. 120) includes the fraud detection execution processing (step S7911) and non-specific control processing is aggregated in the last processing order. (Fig. 120), between the entry detection process (step S7708) and the hold information acquisition process (Fig. 123), even if the fraud detection execution process (step S7911) is not set, It is possible to prevent the reservation information from being stored in the special figure reservation areas 111 and 112 with the detection of the game ball caused by.

It should be noted that, as described above, the execution of the predetermined process triggered by the detection of the game ball is once waited, and then in the fraud detection execution process (step S7911), the detection of the game ball is not caused by an abnormality or fraud. The configuration for executing the predetermined process that has been waiting when it is specified is the suspension of the general pattern side in the general pattern general electric control processing (step S7713) triggered by the detection of the game ball in the gate detection sensor 238a. It is also used in processing for acquiring information.

FIG. 124 is a flow chart showing the winning ball counter setting process executed in step S7801 of the entering ball detection process (FIG. 121). It should be noted that the processing of steps S8101 to S8120 in the processing for setting the winning ball counter is executed by the specific control processing section 221 of the main side MPU 82 using the program for specific control and the data for specific control.

When the first winning confirmation flag in the work area 211 for specific control is set to "1" (step S8101: YES), the first general winning abnormality flag 213l in the work area 213 for non-specific control is set to "1". is not set (step S8102: NO), 1 is added to the value of the 10 prize ball counter in the work area 211 for specific control (step S8103). When it is specified that the detection of the game ball in the first winning hole detection sensor 231a is caused by an abnormality in the fraud detection execution process (step S7911) of the first timer interrupt process (FIG. 120) in the previous process time "1" is set to the first general winning abnormality flag 213l. When the value of the 10 prize ball counter is 1 or more, the 10 prize ball command is output to the payout control device 77 in the payout output process of step S7716 in the first timer interrupt process (FIG. 120). When the prize ball command is output once, the value of the 10 prize ball counter is subtracted by one. When the payout control device 77 receives the 10 prize ball command, it drives and controls the payout device 76 so that 10 game balls are paid out. The first winning confirmation flag is cleared to "0" in step S7802 of the entering ball detection process (FIG. 121) after the current winning ball counter setting process (FIG. 124) is completed.

When the second winning confirmation flag in the work area 211 for specific control is set to "1" (step S8104: YES), the second general winning abnormality flag 213m in the work area 213 for non-specific control is set to "1". is not set (step S8105: NO), the value of the 10 prize ball counter in the specific control work area 211 is incremented by 1 (step S8106). When it is specified that the detection of the game ball in the second winning opening detection sensor 232a is caused by an abnormality in the fraud detection execution process (step S7911) of the first timer interrupt process (FIG. 120) in the previous process time "1" is set to the second general winning abnormality flag 213m. When the value of the 10 prize ball counter is 1 or more, the 10 prize ball command is output to the payout control device 77 in the payout output process of step S7716 in the first timer interrupt process (FIG. 120). When the prize ball command is output once, the value of the 10 prize ball counter is decremented by one. When the payout control device 77 receives the 10 prize ball command, it drives and controls the payout device 76 so that 10 game balls are paid out. The second winning confirmation flag is cleared to "0" in step S7802 of the entering ball detection process (FIG. 121) after the current winning ball counter setting process (FIG. 124) is completed.

When the third winning confirmation flag in the work area 211 for specific control is set to "1" (step S8107: YES), the third general winning abnormality flag 213n in the work area 213 for non-specific control is set to "1". is not set (step S8108: NO), the value of the 10 prize ball counter in the specific control work area 211 is incremented by 1 (step S8109). When it is specified that the detection of the game ball in the third winning opening detection sensor 233a is caused by an abnormality in the fraud detection execution process (step S7911) of the first timer interrupt process (FIG. 120) in the previous process time , "1" is set to the third general winning abnormality flag 213n. When the value of the 10 prize ball counter is 1 or more, the 10 prize ball command is output to the payout control device 77 in the payout output process of step S7716 in the first timer interrupt process (FIG. 120). When the prize ball command is output once, the value of the 10 prize ball counter is decremented by one. When the payout control device 77 receives the 10 prize ball command, it drives and controls the payout device 76 so that 10 game balls are paid out. The third winning confirmation flag is cleared to "0" at step S7802 of the entering ball detection process (FIG. 121) after the current winning ball counter setting process (FIG. 124) is completed.

When "1" is set to the special electric prize confirmation flag in the work area 211 for specific control (step S8110: YES), "1" is set to the special electric prize abnormal flag 213o in the work area 213 for non-specific control. (step S8111: NO), the value of the 15 prize ball counter in the work area 211 for specific control is incremented by 1 (step S8112), and the winning counter in the work area 211 for specific control If the value is 1 or more, 1 is subtracted from this value (step S8113). When it is specified that the detection of the game ball in the special electric detection sensor 234a is abnormal or due to fraud in the fraud detection execution process (step S7911) of the first timer interrupt process (FIG. 120) in the previous processing time "1" is set to the special electric prize-winning abnormality flag 213o. When the value of the 15 prize ball counter is 1 or more, the 15 prize ball command is output to the payout control device 77 in the payout output process of step S7716 in the first timer interrupt process (FIG. 120). When the prize ball command is output once, the value of the 15 prize ball counter is subtracted by one. When the payout control device 77 receives the 15 prize ball command, it drives and controls the payout device 76 so that 15 game balls are paid out. Further, when the value of the prize winning counter becomes "0", a process for closing the special electric prize winning device 32 in the open state in the special electric special electric control processing (step S7712) is executed. The special electric winning confirmation flag is cleared to "0" at step S7802 of the entering ball detection process (FIG. 121) after the current winning ball counter setting process (FIG. 124) is completed.

When the first operation winning confirmation flag in the work area 211 for specific control is set to "1" (step S8114: YES), the first operation winning abnormality flag 213p in the work area 213 for non-specific control is set to "1". is not set (step S8115: NO), the value of the one prize ball counter in the work area 211 for specific control is incremented by 1 (step S8116). When it is specified that the detection of the game ball in the first operation opening detection sensor 235a is caused by an abnormality in the fraud detection execution process (step S7911) of the first timer interrupt process (FIG. 120) in the previous process time "1" is set to the first operation winning abnormality flag 213p. When the value of the 1-ball counter is 1 or more, the 1-ball command is output to the payout control device 77 in the payout output process of step S7716 in the first timer interrupt process (FIG. 120). When the prize ball command is output once, the value of the one prize ball counter is decremented by one. When the payout control device 77 receives the one prize ball command, it drives and controls the payout device 76 so that one game ball is paid out. The first operation winning confirmation flag is cleared to "0" at step S7802 of the entering ball detection process (FIG. 121) after the current winning ball counter setting process (FIG. 124) is completed.

When the second operation winning confirmation flag in the work area 211 for specific control is set to "1" (step S8117: YES), the second operation winning abnormality flag 213q in the work area 213 for non-specific control is set to "1". is not set (step S8118: NO), the value of the one prize ball counter in the work area 211 for specific control is incremented by 1 (step S8119), and the work area 211 for specific control 1 is subtracted from this value when the value of the general electric winning counter is 1 or more (step S8120). In the fraud detection execution process (step S7911) of the first timer interrupt process (FIG. 120) in the previous process, it is specified that the detection of the game ball in the second operation opening detection sensor 236a is abnormal or caused by fraud. In this case, "1" is set to the second operation winning abnormality flag 213q. When the value of the 1-ball counter is 1 or more, the 1-ball command is output to the payout control device 77 in the payout output process of step S7716 in the first timer interrupt process (FIG. 120). When the prize ball command is output once, the value of the one prize ball counter is decremented by one. When the payout control device 77 receives the one prize ball command, it drives and controls the payout device 76 so that one game ball is paid out. Also, when the value of the general electric winning prize counter becomes "0", the processing for closing the second operation port 34 which is in the open state in the general electric general electric control processing (step S7713) is executed. . The second operation winning confirmation flag is cleared to "0" at step S7802 of the entering ball detection process (FIG. 121) after the current winning ball counter setting process (FIG. 124) is completed.

With the above configuration, it is specified that the game ball is detected by the various detection sensors 231a to 236a in the ball entry detection process (step S7708) in the predetermined processing times of the first timer interrupt process (FIG. 120). However, in the payout output process (step S7716) in the first timer interrupt process (FIG. 120) of the predetermined processing time, the process for executing the payout of the corresponding game ball is not executed, and the predetermined In the special figure special electric control processing (step S7712) in the first timer interrupt processing (FIG. 120) of the processing time, the processing for advancing the round game is not executed, and the first timer interrupt processing ( In FIG. 120), the general pattern general electric control processing (step S7713) does not execute the processing for advancing the general electric open state. Then, in the fraud detection execution process (step S7911) in the first timer interrupt process (FIG. 120) of the predetermined processing times, the detection of the game ball by the various detection sensors 231a to 236a is not caused by abnormality or fraud. When it is specified, the processing for executing the payout of the game ball, the processing for advancing the round game, and the processing for advancing the electric open state are executed. As a result, the first timer interrupt processing (FIG. 120) includes the fraud detection execution processing (step S7911) and non-specific control processing is aggregated in the last processing order. (Figure 120) Entering ball detection processing (step S7708) and payout output processing (step S7716), special figure special electric control processing (step S7712) and general figure public electric control processing (step S7713) Fraud detection execution processing between Even if (step S7911) is not set, processing for executing payout of game balls triggered by detection of game balls caused by abnormality or fraud, processing for proceeding with round game, and general It is possible to prevent the execution of processing for promoting the disconnection state.

FIG. 125 is a flow chart showing normal incoming ball management processing executed in the check processing in step S7913 of the management processing (FIG. 122). The processing of steps S8201 to S8221 in the normal ball entry management process is executed by the non-specific control processing unit 222 of the main side MPU 82 using a program for non-specific control and data for non-specific control. .

When the first winning confirmation flag in the work area 211 for specific control is set to "1" (step S8201: YES), the first general winning abnormality flag 213l in the work area 213 for non-specific control If "1" is not set (step S8202: NO), it means that a winning to the general winning opening 31 occurs and one game ball is normally detected by the first winning opening detection sensor 231a. do. In this case, 1 is added to the value of the general winning counter 251a in the normal counter area 251 of the work area 213 for non-specific control (step S8203). Also, when the second winning confirmation flag in the work area 211 for specific control is set to "1" (step S8204: YES), the second general winning abnormality flag in the work area 213 for non-specific control When "1" is not set in 213m (step S8205: NO), winning to the general winning opening 31 occurs and one game ball is normally detected by the second winning opening detection sensor 232a. means In this case, 1 is added to the value of the general winning counter 251a in the normal counter area 251 of the non-specific control work area 213 (step S8206). Also, when the third winning confirmation flag in the work area 211 for specific control is set to "1" (step S8207: YES), the third general winning abnormality flag in the work area 213 for non-specific control 213n is not set to "1" (step S8208: NO), a winning to the general winning opening 31 occurs and one game ball is normally detected by the third winning opening detection sensor 233a. means In this case, 1 is added to the value of the general winning counter 251a in the normal counter area 251 of the work area 213 for non-specific control (step S8209).

When the special electric prize confirmation flag in the work area 211 for specific control is set to "1" (step S8210: YES), the special electric prize abnormal flag 213o in the work area 213 for non-specific control is set to "1". is not set (step S8211: NO), it means that a winning to the special electric prize winning device 32 has occurred and one game ball has been normally detected by the special electric detection sensor 234a. In this case, 1 is added to the value of the special electric winning counter 251b in the normal counter area 251 of the work area 213 for non-specific control (step S8212).

When the first operation winning confirmation flag in the work area 211 for specific control is set to "1" (step S8213: YES), the first operation winning abnormality flag 213p in the work area 213 for non-specific control is not set to "1" (step S8214: NO), the winning to the first working opening 33 occurs and one game ball is normally detected by the first working opening detection sensor 235a. means In this case, 1 is added to the value of the first operation counter 251c in the normal counter area 251 of the non-specific control work area 213 (step S8215).

When the second operation winning confirmation flag in the work area 211 for specific control is set to "1" (step S8216: YES), the second operation winning abnormality flag 213q in the work area 213 for non-specific control is not set to "1" (step S8217: NO), the winning to the second working opening 34 occurs and one game ball is normally detected by the second working opening detection sensor 236a. means In this case, 1 is added to the value of the second operation counter 251d in the normal counter area 251 of the non-specific control work area 213 (step S8218).

When the out confirmation flag in the work area 211 for specific control is set to "1" (step S8219: YES), the out abnormality flag 213r in the work area 213 for non-specific control is set to "1". If not (step S8220: NO), it means that a game ball entered the out port 24a and one game ball was normally detected by the out port detection sensor 237a. In this case, 1 is added to the value of the out-counter 251e in the normal counter area 251 of the non-specific control work area 213 (step S8221).

The normal ball entry monitoring process (FIG. 125) is performed after the ball entry detection process (step S7708) and after the fraud detection execution process (step S7911) in each processing cycle of the first timer interrupt process (FIG. 120). executed. Therefore, after it is specified whether or not the detection of game balls by the various detection sensors 231a to 237a is caused by an abnormality or fraud, the normal ball entry monitoring process (FIG. 125) is executed. In the normal incoming ball monitoring process (FIG. 125), when the abnormality flags 213l to 213r are set to "1", even if the corresponding confirmation flag is set to "1", the "1" "1" is not added to the counters 251a to 251e corresponding to the confirmation flags set. This makes it possible to accurately manage the game history.

<Fifteenth Embodiment>
This embodiment differs from the first embodiment in terms of time saving. The configuration different from that of the first embodiment will be described below. The description of the same configuration as that of the first embodiment is basically omitted.

FIG. 126(a) is an explanatory diagram for explaining the contents of the support mode.

The types of support modes in this embodiment are the same as those in the first embodiment. Specifically, in the support mode, when compared with a situation in which the game ball is continuously shot in the same manner to the game area, the general electric accessory 34a of the second operation port 34 per unit time A high frequency support mode and a low frequency support mode are set so that the frequency of the open state is relatively high and low. A first high-frequency support mode and a second high-frequency support mode are set as high-frequency support modes.

As a determination mode in the case of executing the general pattern suitability determination process for determining by lottery whether or not the general electric role 34a is in the open state, the probability of winning the electric role open is relative. There is a high probability mode on the general map side and a low probability mode on the general map side so that it is relatively high and low. In the low-probability mode of the general map side, the probability of being elected to open the electric role in one general-pattern correctness determination process is 1/2, whereas in the high-probability mode of the general map side, the general-pattern correctness judgment is performed once. In the process, the probability of winning the electric role open is 4/5.

When the normal pattern suitability determination process is executed, the variable display of the pattern is started in the normal pattern display section 38a. In this case, as the variation period of the general pattern, which is the duration of the variation display times in which the variation display of the pattern is executed in the general pattern display section 38a, a long period and a short period are selected so that the period is relatively long and short. exists. The long term is 10 seconds whereas the short term is 1 second. Since the shorter the period, the shorter the shortest period between one electric power open state and the next electric power open state, in a situation where game balls are continued to be shot in a similar manner to the game area. When compared, the frequency with which the universal electrical accessory 34a of the second operating port 34 is in the open state per unit time is relatively high.

When the variable display time of the normal pattern display unit 38a ends, the normal map display unit 38a displays the stop result corresponding to the determination result of the normal pattern correctness determination process that triggered the execution of the variable display time. . In this case, when the determination result of the general/universal pattern correctness determination process is a result of deviation, the stop result corresponding to the result is displayed on the general/universal pattern display unit 38a, and the transition to the general/universal power open state does not occur. When the reservation information on the side of the general pattern is stored in the general pattern reservation area 84c, the reservation information on the side of the general pattern is newly subjected to the general pattern propriety determination process, and is newly displayed in the general pattern display unit 38a. A variable display time is started. On the other hand, if the determination result of the general pattern correctness determination process is the result corresponding to the electric role open winning, the stop result corresponding to the winning result is displayed on the general pattern display unit 38a, and the transition to the general electric open state is performed. Occur.

As execution modes in the general electric open state, there are a high expectation mode and a low expectation mode so that the degree of expectation of a game ball entering the general electric accessory 34a is relatively high and low. In the low-expectation mode, the short opening of the universal electrical accessory 34a occurs once. The duration of the short opening is 0.7 seconds. As in the first embodiment, the shooting cycle of the game ball is 0.6 seconds. Even if the ball is basically generated without being generated, the number of hit balls is about one. The general electric open state also ends when the number of game balls entering the second operation port 34 reaches 10, which is the upper limit number of the general electric side, but when short open occurs once As described above, even if a game ball enters the second operating port 34, it is about one, so the upper limit number of game balls on the power supply side will not enter the second operating port 34.

In the high expectation mode, the long opening of the universal electrical accessory 34a occurs three times. The duration of the long open is 2 seconds. Since the game ball shooting cycle is 0.6 seconds, about three game balls can enter the second operation opening 34 when the general electric accessory 34a is opened once for a long time. Then, in the general electricity open state of the high expectation mode, the long opening occurs three times with an interval period (specifically, 1 second) on the general electricity side in which the second operating port 34 is in the closed state. Therefore, when the high-expectation mode general electric open state occurs, about nine game balls can enter. In addition, as described above, the general electric open state ends when the number of game balls entering the second operation port 34 reaches 10, which is the upper limit number of the general electric side. When the open state occurs, the event that the general electric open state ends can occur when the upper limit number of game balls on the general electric side enter the second operation opening 34 .

As described above, in the configuration in which the determination mode of the general pattern suitability determination process, the execution mode of the general pattern fluctuation period and the general electrical open state in the general pattern display unit 38a are set, in the low frequency support mode, the general pattern suitability determination process The judgment mode of is a low probability mode on the general map side, the fluctuation period of the general pattern is a long period, and the execution mode of the general electric open state is a low expectation mode in which short opening occurs once. In addition, in the first high-frequency support mode, the judgment mode of the general pattern correctness determination process is the high probability mode on the general pattern side, the fluctuation period of the general pattern is short, and the execution mode of the general pattern open state is long open 3 times It becomes a high expectation mode that occurs. In addition, in the second high-frequency support mode, the judgment mode of the general pattern correctness judgment process is the low probability mode on the general pattern side, the fluctuation period of the general pattern is short, and the execution mode of the general pattern open state is long open 3 times It becomes a high expectation mode that occurs. Therefore, when the shooting of the game ball is continued in the same manner so as to generate a winning prize to the through gate 35, the rate at which the general electrical accessory 34a of the second operation port 34 is in the open state per unit time is the highest in the first high-frequency support mode, the second highest in the second high-frequency support mode, and the lowest in the low-frequency support mode. In addition, in the low frequency support mode, since the execution mode of the normal electric open state becomes the low expectation mode, in the low frequency support mode, although the game ball hardly enters the second operation port 34 On the other hand, in the first high-frequency support mode and the second high-frequency support mode, the execution mode of the mains open state is the high-expectation mode, so when the first high-frequency support mode or the second high-frequency support mode It can be expected that the number of game balls entering the second operation port 34 is about the upper limit number of the second reservation information in the second special figure reservation area 112.

It should be noted that the configuration for differentiating the degree of expectation of the rate at which the general electrical accessory 34a of the second operating port 34 is in the open state per unit time between the first high-frequency support mode and the second high-frequency support mode is It is not limited to the above, for example, a short period is selected in the first high-frequency support mode as the fluctuation period of the normal chart, while a short period and a long period are selected in the second high-frequency support mode. In the first high-frequency support mode as the execution mode of the normal power open state, the long open occurs three times, while the long open occurs twice in the second high-frequency support mode. It may also be configured to occur twice. Also, in the first high-frequency support mode and the second high-frequency support mode, although the determination mode of the normal pattern suitability determination process is the same in the high probability mode on the normal map side, the normal pattern fluctuation period or the normal electric open state is executed Depending on the content of the mode, the first high-frequency support mode has a higher expectation of the ratio of the general electrical equipment 34a of the second operation port 34 being in the open state per unit time than the second high-frequency support mode. may be configured. Also, in the first high-frequency support mode and the second high-frequency support mode, although the determination mode of the normal map propriety determination process is the same in the low probability mode on the normal map side, the normal map fluctuation period or the normal electric open state is executed Depending on the content of the mode, the first high-frequency support mode has a higher expectation of the ratio of the general electrical equipment 34a of the second operation port 34 being in the open state per unit time than the second high-frequency support mode. may be configured.

FIG. 126(b) is an explanatory diagram for explaining the contents of the time saving state set in this embodiment.

In this embodiment, as the game state, there are a normal game state, a high probability state, and time saving states ST1 to ST3. The normal game state is a game state in which the winning lottery mode is the low probability mode and the support mode is the low frequency support mode. The high-probability state is a game state in which the winning lottery mode is the high-probability mode and the support mode is the high-frequency support mode. As in the first embodiment, the high-probability state is the same as the above-mentioned first embodiment. Occurs when finished. The time saving states ST1 to ST3 are game states in which the lottery mode is the low probability mode and the support mode is the high frequency support mode. In addition, the time saving state ST1 to ST3, as shown in FIG. 126 (b), the first time saving state ST1, the second time saving state ST2 and the third time saving state ST3 exist.

The first time-saving state ST1 is generated when the game cycle in which the 5R low-probability result (see FIG. 10) in the success/failure determination process ends and the subsequent opening/closing execution mode ends. The first time-saving state ST1 is a game state in which the win/fail lottery mode is the low probability mode and the support mode is the first high-frequency support mode. The first time-saving state ST1 ends when the opening/closing execution mode occurs as a result of a big win, and also ends when 100 game rounds are completed without the result of a big win. When 100 game rounds are completed, the normal game state is entered.

The second time-saving state ST2 occurs when the total number of times of games completed without generating a jackpot result in the normal game state or the time-saving state reaches the ceiling number of times. The setting of the number of ceilings is generated when a big win results as in the first embodiment, and is also generated when supply of operating power is started. However, the present invention is not limited to this, and a configuration in which the ceiling count is not set at the start of supply of operating power may be employed. The ceiling number of times is arbitrary, but is set to 900 times in this embodiment. In this case, the ceiling number of times is set to a number greater than the number of continuations of the first time saving state ST1, and the ceiling number of times is set when a jackpot result occurs as described above. Therefore, the consumption of the ceiling number of games is not completed in the middle of the first time saving state ST1.

The second time-saving state ST2 is a gaming state in which the win/fail lottery mode is the low probability mode and the support mode is the second high-frequency support mode. As already explained, when the shooting of the game ball is continued in the same manner so as to generate a winning prize to the through gate 35, the general electric accessory 34a of the second operation port 34 is opened per unit time. Since the degree of expectation of the rate of being present is higher in the first high-frequency support mode than in the second high-frequency support mode, the general electrical accessory 34a of the second operation port 34 is in the open state per unit time. The degree of expectation of the ratio is more advantageous for the player in the first time saving state ST1 than in the second time saving state ST2.

The second time-saving state ST2 ends when 150 game rounds are completed without any big winning result. When 150 game rounds have been completed, the normal game state is entered. As already explained, the first time-saving state ST1 ends when 100 game rounds are completed without the occurrence of a jackpot result. Therefore, in terms of the duration of the time saving states ST1 to ST3, the second time saving state ST2 is more advantageous for the player than the first time saving state ST1. However, it is not limited to this, and the number of times the game cycle that is the end trigger may be the same in the first time saving state ST1 and the second time saving state ST2, and the first time saving state ST1 is better. It is good also as a structure with many times of completion|finishing of the game round used as an end opportunity rather than 2nd time saving state ST2. In these cases, the first time reduction overall, including the expected rate of the ratio of the general electrical accessory 34a of the second operation port 34 to be in the open state per unit time and the number of times the game cycle is completed as a trigger for termination The state ST1 is more advantageous than the second time saving state ST2.

The second time saving state ST2 is also ended when a jackpot result occurs in the middle of the second time saving state ST2 and the opening/closing execution mode occurs. In this case, when the opening and closing execution mode occurs as a result of 5R low probability, it becomes the first time saving state ST1 after the end of the opening and closing execution mode, so the priority of the time saving states ST1 to ST3 is higher than the second time saving state ST2. It can be said that the one hour reduction state ST1 is set higher.

The third time-saving state ST3 occurs when the time-saving result (FIG. 9) is selected in the success/failure determination process executed in the normal game state or the time-saving states ST1 to ST3. As in the first embodiment, the first right/wrong table 121 at low probability (FIG. 9(a)), the second right/wrong table 122 at low probability (FIG. 9(b)), and the right/wrong table 123 at high probability A time saving result can be selected even if any of (FIG. 9(c)) is referred to. However, even if the time saving result is selected in the high probability state to which the success/failure table 123 at the time of high probability is referred to, the third time saving state ST3 does not occur. Further, in the first embodiment, the first time saving result and the second time saving result are present as the time saving result, but in the present embodiment, there is only one type of time saving result.

The third time-saving state ST3 is a gaming state in which the win/fail lottery mode is the low probability mode and the support mode is the second high-frequency support mode. As already explained, the support mode in the second time saving state ST2 is also the second high frequency support mode. Therefore, when the shooting of game balls is continued in the same manner so as to generate a winning prize to the through gate 35, the rate at which the general electrical accessory 34a of the second operation port 34 is in the open state per unit time is the same as the second time saving state ST2 and the third time saving state ST3. In addition, since the support mode is the first high-frequency support mode in the first time-saving state ST1 as already described, the ratio of the general electrical role 34a of the second operation port 34 to the open state per unit time The degree of expectation is more advantageous for the player in the first time saving state ST1 than in the third time saving state ST3.

The third time-saving state ST3 ends when 50 game rounds have been completed without generating a big win result. When 50 game rounds have been completed, the normal game state is entered. As already explained, the first time-saving state ST1 ends when 100 game rounds are completed without the occurrence of a jackpot result, and the second time-saving state ST2 ends when 150 game rounds are completed without the occurrence of a jackpot result. Terminates when digested. Therefore, in terms of conditions for ending the time saving states ST1 to ST3, the first time saving state ST1 is more advantageous for the player than the third time saving state ST3, and the second time saving state ST2 is more advantageous than the third time saving state ST3. is more advantageous for the player. That is, the first time-saving state ST1 overall, including the expected rate of the ratio of the general electrical accessory 34a of the second operation port 34 to be in the open state per unit time and the number of times the game cycle that triggers the end is completed is more advantageous than the third time saving state ST3, and the second time saving state ST2 is more advantageous than the third time saving state ST3.

The third time-saving state ST3 is also ended when the opening/closing execution mode occurs due to a big hit result in the middle of the third time-saving state ST3. In this case, when the 5R low probability result occurs and the opening/closing execution mode occurs, the game round corresponding to the time saving result is executed in the middle of the first time saving state ST1 while becoming the first time saving state ST1 after the end of the opening/closing execution mode. Even if it does, 1st time saving state ST1 is continued. Therefore, it can be said that the priority of the time saving states ST1 to ST3 is set higher for the first time saving state ST1 than for the third time saving state ST3. In addition, when the ceiling number of game times is completed in the middle of the third time saving state ST3, the third time saving state ST3 ends and the second time saving state ST2 is generated, and the time saving is in the middle of the second time saving state ST2. Even if the game round corresponding to the result is executed, the second time saving state ST2 is continued. Therefore, it can be said that the priority of the time saving states ST1 to ST3 is set higher for the second time saving state ST2 than for the third time saving state ST3. In addition, when the time saving result occurs in the middle of the third time saving state ST3, the remaining number of continuations of the third time saving state ST3 is reset to 50 times corresponding to the third time saving state ST3.

FIG. 127(a) is an explanatory diagram for explaining the data structure of the main-side ROM 83 which is referred to for controlling the game state.

The main ROM 83 contains a game period address table 311, a normal game period table 312, a first stage time saving game period table 313, and a second stage time saving game period table 314. , a game cycle period table 315 for the third stage time saving and a game cycle period table 316 for high probability are provided. These tables 311 to 316 are referred to by the main side MPU 82 when determining the variable display period of game rounds. The normal game cycle period table 312 is referred to by the main MPU 82 when determining the variable display period of the game cycle in the normal game state. When determining the variable display period of the game round in the third time saving state ST1 to ST3, the main side MPU 82 refers to it, and the game round period table 316 for high probability determines the variable display period of the game round in the high probability state. It is referred to by the main side MPU 82 when necessary. In this case, when the game cycle period tables 313 to 315 for the first to third stage time reduction or the game cycle period table 316 for high probability are referred to than when the normal game cycle table 312 is referred to In this case, a shorter period is more likely to be selected as the variable display period of game rounds. In addition, the game cycle period address table 311 is referred to by the main MPU 82 when selecting the game cycle period tables 312 to 315 to be referred to in the normal game state or the first to third time saving states ST1 to ST3.

FIG. 127(b) is an explanatory diagram for explaining the storage area of the main side RAM 84 used for controlling the game state.

The main side RAM 84 contains a high probability flag 321, a first time saving state flag 322, a second time saving state flag 323, a third time saving state flag 324, a ceiling counter 325, a state determination counter 326, and a state continuation A counter 327 is provided.

The high-probability flag 321 is a flag for specifying whether or not the game state is the high-probability state by the main side MPU 82, and is set to "1" when the high-probability state is started. Cleared to "0" when finished. When "1" is set to the high probability flag 321, the success/failure determination process (step S805) is executed in the special figure fluctuation start process (FIG. 20) of the main side MPU 82, the success/failure table 123 at the time of high probability When it is read out and the value of the high probability flag 321 is "0", the success or failure determination process (step S805) is executed in the special figure fluctuation start process (FIG. 20) of the main side MPU 82. Tables 121 and 122 are read. Also, when "1" is set to the high probability flag 321, when executing the general pattern correctness determination process (step S407) in the general pattern fluctuation start process (FIG. 16) of the main side MPU 82, the general pattern side The high probability table (step S406) is read, and when the variable display of the normal pattern display unit 38a is started (step S415), the short period on the normal pattern side is selected as the duration of the variable display times ( step S414). Further, when "1" is set to the high probability flag 321, steps S509 to S511 are executed as control processing of the general electric open state in the general electric map determination process (FIG. 17) of the main side MPU 82. As a result, the general electric open state becomes the high expectation mode.

The first time saving state flag 322 is a flag for specifying whether or not the game state is the first time saving state ST1 in the main side MPU 82, and "1" is set when the first time saving state ST1 is started. and is cleared to "0" when the first time saving state ST1 ends. When "1" is set to the first time saving state flag 322, when executing the normal pattern correctness determination process (step S407) in the normal pattern fluctuation start process (FIG. 16) of the main side MPU 82, the normal pattern side The high probability table (step S406) is read out, and when the fluctuation display of the normal diagram display unit 38a is started (step S415), the short period on the normal diagram side is selected as the duration of the fluctuation display times ( step S414). In addition, when "1" is set to the first time saving state flag 322, step S509 to step S511 are executed as the control processing of the general electric open state in the general diagram determination process (FIG. 17) of the main side MPU 82 As a result, the general electric open state becomes a high expectation mode.

The second time saving state flag 323 is a flag for specifying in the main side MPU 82 whether or not the game state is the second time saving state ST2, and is set to "1" when the second time saving state ST2 is started. and is cleared to "0" when the second time saving state ST2 ends. When "1" is set to the second time saving state flag 323, when executing the general pattern correctness determination process (step S407) in the general pattern fluctuation start processing (FIG. 16) of the main side MPU 82, the general pattern side The low probability table (step S405) is read, and when starting the variable display of the normal pattern display unit 38a (step S415), the short period on the normal pattern side is selected as the duration of the variable display times ( step S414). In addition, when "1" is set to the second time saving state flag 323, step S509 to step S511 are executed as the control processing of the general electric open state in the general diagram determination process (FIG. 17) of the main side MPU 82 As a result, the general electric open state becomes a high expectation mode.

The third time saving state flag 324 is a flag for specifying whether or not the game state is the third time saving state ST3 in the main side MPU 82, and "1" is set when the third time saving state ST3 is started. and is cleared to "0" when the third time saving state ST3 ends. When "1" is set to the third time saving state flag 324, when executing the normal pattern correctness determination process (step S407) in the normal pattern fluctuation start process (FIG. 16) of the main side MPU 82, the normal pattern side The low probability table (step S405) is read out, and when the variable display of the normal pattern display unit 38a is started (step S415), the short period on the normal pattern side is selected as the duration of the variable display times ( step S414). In addition, when "1" is set to the third time saving state flag 324, step S509 to step S511 are executed as the control processing of the general electric open state in the general diagram determination process (FIG. 17) of the main side MPU 82 As a result, the general electric open state becomes a high expectation mode.

Furthermore, when "1" is not set to any of the high probability flag 321 and the first to third time saving state flags 322 to 324, that is, when the game state is the normal game state, the normal state of the main side MPU82 When the general pattern correctness determination process (step S407) is executed in the pattern fluctuation start process (FIG. 16), the low probability table (step S405) of the general pattern side is read, and further the variation display of the general pattern display unit 38a is started. If so (step S415), the long period on the normal side is selected as the continuation period of the variable display times (step S413). Further, when the game state is the normal game state, the general electric The open state is the low expectation mode. Control by this low-frequency support mode is also performed in the opening/closing execution mode.

The ceiling counter 325 is a counter for specifying the remaining number of times of the ceiling necessary until the second time saving state ST2 occurs in the main side MPU82. When a jackpot result is obtained or when supply of operating power is started, "900" is set in the ceiling counter 325 as the number of times of ceiling. The value of this ceiling counter 325 is decremented by 1 each time one game round is executed in the normal game state or the first to third time saving states ST1 to ST3, and the value of the ceiling counter 325 after the 1 subtraction is "0 ], the second time saving state ST2 occurs.

The state determination counter 326 is a counter for identifying the progress of the first to third time saving states ST1 to ST3 in the main side MPU82. A plurality of stages are set in the first to third time-saving states ST1 to ST3 according to the range of the number of times the game is completed, and the determination mode of the variable display period of the game is different in each stage. A value corresponding to each stage is set in the state determination counter 326 . In addition, the state continuation counter 327 is a counter for specifying the remaining number of continuations until the high probability state ends in the main side MPU 82 in the high probability state, and the first to third time saving states ST1 to ST3 In is a counter for specifying the remaining number of continuations in the main side MPU 82 until the above stages of the first to third time saving states ST1 to ST3 are completed.

Next, the contents of various processes executed by the main MPU 82 for controlling the gaming state in this embodiment will be described. FIG. 128 is a flow chart showing processing during special figure determination in this embodiment executed by the main side MPU 82 .

If the value of the special figure side timer counter is "0" and the final stop period has passed (step S8301: YES), and the game result of this game round is a jackpot result (step S8302: YES ), the information corresponding to the opening period (specifically 5 seconds) is set to the special figure side timer counter (step S8303), and the opening command is transmitted to the sound and light side MPU 93 (step S8304). When receiving the opening command, the sound and light side MPU 93 causes the pattern display device 41, the display light emitting portion 64 and the speaker portion 65 to perform an effect corresponding to the opening period.

After that, information of 900 times, which is the number of times of ceiling, is set in the ceiling counter 325 (step S8305). That is, when the opening/closing execution mode is started after the game round corresponding to the jackpot result is completed, the ceiling counter 325 is set with the information of 900 times, which is the ceiling number. If the ceiling counter 325 is set to the number of ceiling times not when the opening/closing execution mode is started, but during the opening/closing execution mode or when the opening/closing execution mode ends, the operating power is reduced after the opening/closing execution mode is started. is stopped and the set value update process (step S117) or RAM clear process (step S119) is executed when the supply of operating power is restarted, the set value update process (step In S117) or RAM clear processing (step S119), the information indicating that the opening/closing execution mode is in progress is cleared as in the first embodiment, while the value of the ceiling counter 325 is maintained. There is a risk that the game may be restarted in a situation where the number of remaining ceiling times is small while the benefit of the opening/closing execution mode is obtained until the supply of operating power is stopped. On the other hand, when the opening/closing execution mode is started, the ceiling counter 325 is set with information of 900 times, which is the number of times the ceiling has been opened.

After that, "1" is set to the outer edge flag at the start of the jackpot provided in the main RAM 84 (step S8306). The outer end flag at the start of the jackpot is a flag for specifying, in the main MPU 82, the trigger for controlling the external output of the signal to the hall computer provided outside the pachinko machine 10 . The contents of control of the external output of the signal will be described later. After that, 1 is added to the value of the special figure special electric counter (step S8307). As a result, the value of the special figure special electric counter becomes "3" corresponding to the special electric start processing (step S609).

If the game result of the current game round is not a jackpot result (step S8302: NO), the time saving progress process is executed in step S8308, the time saving result setting process is executed in step S8309, and step S8310 Subtraction processing of the ceiling counter 325 is executed, and high accuracy progress processing is executed in step S8311. The details of the processing in steps S8308 to S8311 will be described later. After that, the special figure special electric counter is cleared to "0" (step S8312). Thereby, the value of the special figure special electric counter becomes "0" corresponding to special figure variation start processing (step S606).

FIG. 129 is a flow chart showing special electric end processing in this embodiment executed by the main MPU 82 .

If the value of the special figure side timer counter is "0", that is, if the ending period has passed (step S8401: YES), the game result that triggered the opening and closing execution mode this time is a 5R high probability result or 10R When it is a high probability result (step S8402: YES), while setting "1" to the high probability flag 321, each of the first time saving state flag 322, the second time saving state flag 323 and the third time saving state flag 324 is cleared to "0" (step S8403). As a result, the game state after the opening/closing execution mode ends is the high probability mode and the first high-frequency support mode regardless of the game state before the opening/closing execution mode starts.

After that, information of "100", which is the number of high-probability continuations, is set in the state continuation counter 327 (step S8404). As already described, the state continuation counter 327 is a counter for the main MPU 82 to specify the remaining number of continuations until the high-probability state ends in the high-probability state. In this pachinko machine 10, the opening and closing execution mode triggered by the 5R high probability result or the 10R high probability result is ended to enter a high probability state, but in the high probability state, the execution was performed without generating a new jackpot result. When the number of game times reaches 100, which is the high-probability continuation number, the normal game is played in which the success/failure lottery mode is the low-probability mode and the support mode is the low-frequency support mode even if no big win result occurs. state.

On the other hand, if the game result that triggered the opening/closing execution mode this time is the 5R low probability result (step S8402: NO), the high probability flag 321 is cleared to "0" (step S8405). Moreover, while setting "1" to the 1st time saving state flag 322, "0" clears each of the 2nd time saving state flag 323 and the 3rd time saving state flag 324 (step S8406). As a result, the game state after the opening/closing execution mode triggered by the 5R low probability result is the low probability mode and the first high-frequency support mode regardless of the game state before the opening/closing execution mode is started. It becomes 1 o'clock short state ST1.

Then, the information of "20" which is the continuation frequency of the 1st stage of 1st time saving state ST1 is set to the state continuation counter 327 (step S8407). State continuation counter 327, as already explained, in the first to third time saving states ST1 to ST3, the remaining number of continuations until each stage of the first to third time saving states ST1 to ST3 ends is specified by the main side MPU 82 It is a counter for

In detail, for each step in the first to third time saving states ST1 to ST3, the first step, the second step and the third step are set in the step. These stages differ in the manner in which the variable display period of the game cycle is determined. The stage when started in any of the first to third time saving states ST1 to ST3 is the first stage. The first stage continues until 20 game rounds are completed in any of the first to third time saving states ST1 to ST3. When the first step ends in any of the first to third time saving states ST1 to ST3, the second step is performed. The second stage continues until 79 game times are digested in the first time saving state ST1, continues until 129 game times are digested in the second time saving state ST2, and continues until the 3rd time saving state. If it is in the state ST3, it continues until 29 game rounds are completed. When the second stage ends in any of the first to third time saving states ST1 to ST3, the third stage is reached. The third step ends when one game cycle is completed in any of the first to third time saving states ST1 to ST3. In any of the first to third time saving states ST1 to ST3, the last game round is the third step.

Thereafter, "1" is set in the state determination counter 326 (step S8408). The state determination counter 326 is a counter for identifying the progress of the first to third time saving states ST1 to ST3 at the main side MPU 82 as already described, and each stage of the first to third time saving states ST1 to ST3 is set to the value corresponding to Specifically, the state determination counter 326 is set to "1" in the first stage, and the state determination counter 326 is set to "2" in the second stage. If , "3" is set in the state determination counter 326 . Further, when the first to third time saving states ST1 to ST3 end, the state determination counter 326 is cleared to "0". Therefore, the game state when the value of the high probability flag 321 is "0" and the value of the state determination counter 326 is "0" is the normal game state.

If the process of step S8404 or step S8408 has been executed, the state designation command transmission process is executed (step S8409). In the transmission process, a state designation command corresponding to the game state of the pachinko machine 10 determined by the processes of steps S8402 to S8408 is transmitted to the sound and light side MPU 93. The sound and light side MPU 93 executes a process for causing the pattern display device 41, the display light emitting section 64 and the speaker section 65 to execute an effect corresponding to the content of the received state designation command.

In this case, when the transition to the first time saving state ST1 occurs, a state designation command indicating that the first time saving state ST1 has newly started is transmitted to the sound and light side MPU 93. When the sound and light side MPU 93 receives the state designation command, the design display device 41, the display light emitting unit 64 and the speaker unit 65 perform the effect indicating that the first time saving state ST1 is newly started Execute the process for In addition, after the effect indicating that the first time saving state ST1 is newly started, the sound and light side MPU 93 is the pattern display device 41, the display light emitting unit 64 and the processing to be executed by the speaker unit 65 is executed. In this case, the character display corresponding to the first stage is performed in front of the background image corresponding to the first stage on the pattern display device 41 .

After that, "1" is set to the outer end flag at the end of the jackpot provided in the main RAM 84 (step S8410). The outer end flag at the end of the jackpot is a flag for specifying the trigger for controlling the external output of the signal to the hall computer provided outside the pachinko machine 10 in the main side MPU 82 . The contents of control of the external output of the signal will be described later. After that, the special figure special electric counter is cleared to "0" (step S8411). Thereby, the value of the special figure special electric counter becomes "0" corresponding to special figure variation start processing (step S606).

Figure 130 is a flow chart showing the process for high probability progress executed in step S8311 of the process during special figure determination (Figure 128).

If the high probability flag 321 is set to "1" (step S8501: YES), that is, if the state is a high probability state, the value of the state continuation counter 327 is subtracted by 1 (step S8502). Then, if the value of the state continuation counter 327 after the subtraction of 1 is "0" (step S8503: YES), 100 game times, which is the high probability continuation count, will be performed in the high probability state after the end of the opening/closing execution mode. means digested. In this case, the high probability flag 321 is cleared to "0" (step S8504). As a result, the normal game state is the low-probability mode and the low-frequency support mode.

After that, "1" is set to the outer edge flag at the time of high accuracy end provided in the main side RAM 84 (step S8505). The outer end flag at the time of high accuracy end is a flag for specifying the trigger for controlling the external output of the signal to the hall computer provided outside the pachinko machine 10 in the main side MPU 82 . The contents of control of the external output of the signal will be described later.

After that, transmission processing of the state designation command is executed (step S8506). In the transmission process, a state designation command indicating that the high-probability state has ended is transmitted to the sound and light side MPU 93 . By receiving the state designation command, the sound and light side MPU 93 terminates the execution of the effect corresponding to the high probability state in the pattern display device 41, the display light emitting unit 64 and the speaker unit 65, and performs the effect corresponding to the normal game state. to start.

Figure 131 is a flow chart showing the subtraction process of the ceiling counter 325 executed in step S8310 of the process during special figure determination (Figure 128).

First, it is determined whether or not the high probability flag 321 is set to "1" (step S8601). Then, if the high probability flag 321 is set to "1" (step S8601: YES), the subtraction process of the ceiling counter 325 is terminated without executing the processes after step S8602. In other words, the value of the ceiling counter 325 is not subtracted in the game round executed in the high probability state, and the ceiling counter 325 is not subtracted. do not have.

Here, the subtraction process (FIG. 131) of the ceiling counter 325 is executed before the high probability progressing process (FIG. 130) as already explained in the special figure determination process (FIG. 128). As a result, in the last game round in the high probability state, the value of the state continuation counter 327 is decremented by 1 in the high certainty progress processing (FIG. 130) and the value of the state continuation counter 327 becomes "0". Before the high probability flag 321 is cleared to "0", the subtraction process (FIG. 131) of the ceiling counter 325 is executed. Then, when the subtraction process (FIG. 131) of the ceiling counter 325 is executed at this timing, since the high probability flag 321 is still set to "1", the subtraction of the value of the ceiling counter 325 is not executed. Therefore, it is possible to prevent the value of the ceiling counter 325 from being subtracted in the game round in which the winning/losing determination process is executed in the execution mode corresponding to the high-probability state. In addition, such an effect is achieved by setting the processing order of executing the subtraction process (Fig. 131) of the ceiling counter 325 before the high probability progress process (Fig. 130) in the special figure determination process (Fig. 128) It becomes possible to

If the high probability flag 321 is not set to "1" (step S8601: NO), it is determined whether the value of the ceiling counter 325 is 1 or more (step S8602). If the value of the ceiling counter 325 is "0" (step S8602: NO), the subtraction process of the ceiling counter 325 ends without executing the processes after step S8603. As in the first embodiment, the processing for setting the ceiling count information in the ceiling counter 325 is performed in a situation where none of the "RAM clear operation", "setting change operation", and "setting confirmation operation" are executed. Step S114 when the supply of operating power is started in a state where the gaming machine main body 12 is in the open state, Step S122 when an information abnormality occurs in the main side RAM 84 when the supply of operating power is started, Also, it is only step S8305 when the opening/closing execution mode is started, and after the value of the ceiling counter 325 becomes "0", the value of the ceiling counter 325 remains "0" unless one of the above processes is executed. maintained. On the other hand, the second time saving state ST2 occurs when the value of the ceiling counter 325 is decremented by 1 in a situation where the value of the ceiling counter 325 is 1 or more and the value of the ceiling counter 325 becomes "0". In this case, if the value of the ceiling counter 325 is "0" as described above (step S8602: NO), the subtraction process of the ceiling counter 325 is terminated without executing the processes after step S8603. As a result, the value of the ceiling counter 325 after subtraction of 1 becomes "0" and the second time saving state ST2 occurs, and the game of the number of times the second time saving state ST2 continues without a big hit result occurring in the second time saving state ST2. When the round is finished and the second time saving state ST2 is ended to enter the normal game state, the second time saving state ST2 does not occur even if the game round in which no big winning result occurs is repeated after that. Therefore, it is possible to prevent excessive occurrence of the second time saving state ST2 triggered by the ceiling time saving.

If the value of the ceiling counter 325 is 1 or more (step S8602: YES), 1 is subtracted from the value of the ceiling counter 325 (step S8603), and whether or not the value of the ceiling counter 325 after the subtraction of 1 is "0" (step S8604). When the value of the ceiling counter 325 is "0" (step S8604: YES), "1" is set to the second time saving state flag 323, and "0" is cleared to the third time saving state flag 324 (step S8605). . As a result, when the total number of games completed in the normal game state or the first to third time saving states ST1 to ST3 reaches the ceiling number without generating a jackpot result after the opening/closing execution mode ends. , the second time-saving state ST2, which is a low-probability mode and a second high-frequency support mode.

Here, as already explained, in the high probability state, a negative determination is made in step S8601, and the processing after step S8602 is not executed, so the second time saving state ST2 does not occur in the high probability state. In addition, since the ceiling number of times is set to a number greater than the number of times the first time saving state ST1 continues, and the ceiling number of times is set when a jackpot result occurs, the ceiling number of times is set in the middle of the first time saving state ST1. Digestion of game rounds does not occur. On the other hand, the third time saving state ST3 is triggered by the time saving result in the success or failure determination process, and even in the third time saving state ST3, the ceiling counter 325 in step S8603 each time the game round is digested. The value is decremented by 1. Therefore, during the third time-saving state ST3, the ceiling number of games can be consumed. In this case, since the processing of step S8605 is executed even in the middle of the third time saving state ST3, the third time saving state ST3 ends in the middle and the second time saving state ST2 occurs. That is, priority is given to the second time saving state ST2 over the third time saving state ST3.

Then, the information of "20" which is the continuation frequency of the 1st step of 2nd time saving state ST2 is set to the state continuation counter 327 (step S8606). State continuation counter 327, as already explained, in the first to third time saving states ST1 to ST3, the remaining number of continuations until each stage of the first to third time saving states ST1 to ST3 ends is specified by the main side MPU 82 It is a counter for

Thereafter, "1" is set in the state determination counter 326 (step S8607). The state determination counter 326 is a counter for identifying the progress of the first to third time saving states ST1 to ST3 at the main side MPU 82 as already described, and each stage of the first to third time saving states ST1 to ST3 is set to the value corresponding to Specifically, the state determination counter 326 is set to "1" in the first stage, and the state determination counter 326 is set to "2" in the second stage. If , "3" is set in the state determination counter 326 .

After that, "1" is set to the outer end flag at the time of shortening of working hours provided in the main RAM 84 (step S8608). The outer end flag at the time of time saving occurrence is a flag for specifying the trigger for controlling the external output of the signal to the hall computer provided outside the pachinko machine 10 in the main side MPU 82 . The contents of control of the external output of the signal will be described later.

After that, a state designation command transmission process is executed (step S8609). In the transmission process, a state designation command indicating that the second time saving state ST2 has started is transmitted to the sound and light side MPU 93 . When the sound and light side MPU 93 receives the state designation command, the design display device 41, the display light emitting unit 64 and the speaker unit 65 perform the effect indicating that the second time saving state ST2 is started. process. In addition, the sound and light side MPU 93 after the effect indicating that the second time saving state ST2 is newly started, the first stage base effect of the time saving state ST1 to ST3 is the pattern display device 41, the display light emitting unit 64 and the processing to be executed by the speaker unit 65 is executed. In this case, the character display corresponding to the first stage is performed in front of the background image corresponding to the first stage on the pattern display device 41 .

Figure 132 is a flow chart showing the setting process for the time saving result executed in step S8309 of the process during special figure determination (Figure 128).

If the game result of the current game cycle is a time saving result (step S8701: YES), it is determined whether or not the high probability flag 321 is set to "1" (step S8702). And when "1" is set to the high probability flag 321 (step S8702: YES), the setting process for this time saving result is complete|finished, without performing the process after step S8703. In other words, even if the time saving result is selected in the winning/failure determination process of the game round executed in a high probability state, the setting of the third time saving state ST3 triggered by the time saving result is not performed. is disabled.

Here, setting processing for the time saving result (Fig. 132) is executed before the high probability progressing processing (Fig. 130) as already explained in the special figure finalizing processing (Fig. 128). As a result, in the last game round in the high probability state, the value of the state continuation counter 327 is decremented by 1 in the high certainty progress processing (FIG. 130) and the value of the state continuation counter 327 becomes "0". Before the high probability flag 321 is cleared to "0", setting processing for time saving results (FIG. 132) will be executed. Then, when the setting process for the time saving result (FIG. 132) is executed at the timing, the high probability flag 321 is still set to "1", so the setting of the third time saving state ST3 triggered by the time saving result is not performed. Therefore, it is possible to reliably invalidate the time saving result in the game cycle in which the success/failure determination process is executed in the execution mode corresponding to the high probability state. In addition, such an effect is achieved by setting the processing order of executing the setting process (Fig. 132) for the time saving result before the high probability progress process (Fig. 130) in the special figure finalizing process (Fig. 128) It becomes possible to

If "1" is not set to the high probability flag 321 (step S8702: NO), it is determined whether "1" is set to the first time saving state flag 322 or the second time saving state flag 323 (step S8703, step S8704). That is, it is determined whether it is either the first time saving state ST1 or the second time saving state ST2. When it is 1st time saving state ST1 or 2nd time saving state ST2 (step S8703 or step S8704: YES), the setting process for this time saving result is complete|finished, without performing the process after step S8705. That is, even if the time saving result is selected in the game round success/failure determination process executed in the first time saving state ST1 or the second time saving state ST2, the setting process for the time saving result (FIG. 132) is executed. When it is the first time saving state ST1 or the second time saving state ST2 at the timing, the time saving result is invalidated without setting the third time saving state ST3 triggered by the time saving result. Thereby, it becomes possible to give priority to 1st time saving state ST1 and 2nd time saving state ST2 rather than 3rd time saving state ST3.

If "1" is not set to both the first time saving state flag 322 and the second time saving state flag 323 (step S8703 and step S8704: NO), that is, the game state is any of the normal game state and the third time saving state ST3 When it is or, "1" is set to the 3rd time saving state flag 324 (step S8705). Thereby, when the game state is the normal game state, the transition to the third time saving state ST3 occurs, and when the game state is the third time saving state ST3, the third time saving state ST3 is maintained. .

Then, the information of "20" which is the continuation frequency of the 1st step of 3rd time saving state ST3 is set to the state continuation counter 327 (step S8706). State continuation counter 327, as already described, in the first to third time saving states ST1 to ST3, the number of remaining games until each stage of the first to third time saving states ST1 to ST3 is completed is specified by the main side MPU 82 It is a counter for

Thereafter, "1" is set in the state determination counter 326 (step S8707). The state determination counter 326 is a counter for identifying the progress of the first to third time saving states ST1 to ST3 at the main side MPU 82 as already described, and each stage of the first to third time saving states ST1 to ST3 A value corresponding to is set. Specifically, the state determination counter 326 is set to "1" in the first stage, and the state determination counter 326 is set to "2" in the second stage. If , "3" is set in the state determination counter 326 .

Then, "1" is set to the outer end flag at the time of shortening of working hours provided in the main RAM 84 (step S8708). The outer end flag at the time of time saving occurrence is a flag for specifying the trigger for controlling the external output of the signal to the hall computer provided outside the pachinko machine 10 in the main side MPU 82 . The contents of control of the external output of the signal will be described in detail later.

After that, transmission processing of the state designation command is executed (step S8709). In the transmission process, a state designation command indicating that the third time saving state ST3 has newly started is transmitted to the sound and light side MPU 93 . When the sound and light side MPU 93 receives the state designation command, the design display device 41, the display light emitting unit 64 and the speaker unit 65 perform the effect indicating that the third time saving state ST3 is newly started Execute the process for In addition, after the effect indicating that the third time saving state ST3 is newly started, the sound and light side MPU 93 is the pattern display device 41, the display light emitting unit 64 and the processing to be executed by the speaker unit 65 is executed. In this case, the character display corresponding to the first stage is performed in front of the background image corresponding to the first stage on the pattern display device 41 .

Even if the time saving result is selected in the success or failure determination process as described above, depending on the situation at the timing when the setting process for the time saving result (FIG. 132) is executed at the end of the game round that resulted in the time saving result, the The setting of the third time saving state ST3 triggered by the time saving result may or may not be performed. In this case, the stop result that is stopped and displayed on the special figure display units 37a and 37b in the game round in which the time saving result is selected in the success/failure determination process is the setting of the third time saving state ST3 triggered by the time saving result. On the other hand, the stop result stopped and displayed on the pattern display device 41 changes depending on whether or not the setting of the third time saving state ST3 triggered by the time saving result is performed. Such contents will be described in detail below.

5R low probability result, 5R high probability result, 10R high probability result, time saving result and off result exists. The stop result that is stopped and displayed as the fixed display of the game round in the special figure display units 37a and 37b is "1" in the case of the 5R low probability result and "2" in the case of the 5R high probability result, It is "3" in the case of a 10R high probability result, "4" in the case of a time saving result, and "-" in the case of an outlier result. These stop results do not change in any game situation. Therefore, by confirming the stop result of the special figure display portions 37a and 37b, the manager of the game hall can uniquely grasp the game result of the game round.

The stop result that is stop-displayed as the confirmation display of the game cycle on the pattern display device 41 does not change in any game situation when it is a big hit result or when it is a losing result, but it is a time saving result. In some cases, it changes depending on the game situation. This content will be described with reference to the flow chart of FIG. FIG. 133 is a flow chart showing the variation pattern determination process according to the present embodiment, which is executed by the sound and light side MPU 93 . In addition, the determination process of the variation pattern is executed when a variation command and a type command are received from the main MPU 82 .

When information indicating that the game round to be started this time corresponds to the jackpot result is set in the type command received this time (step S8801: YES), stop symbol determination processing for jackpot result is executed. (step S8802), and red is selected as the stop result of the state suggestion area 43 of the pattern display device 41 (step S8803). The contents of these processes are the same as steps S1402 and S1403 of the variation pattern determination process (FIG. 28) in the first embodiment.

If information indicating that the game round to be started this time corresponds to the time saving result is set in the type command received this time (step S8804: YES), the current game state is a high probability state, the second If neither the 1 time saving state ST1 nor the 2nd time saving state ST2, that is, if the current game state is the normal game state or the 3rd time saving state ST3 (step S8805 and step S8806: NO), or the current game state Even if it is the first time saving state ST1 or the second time saving state ST2, if it is the final game round of the time saving state ST1, ST2 (step S8806 and step S8807: YES), stop symbol determination processing for time saving suggestion is executed (Step S8808). In addition, the sound and light side MPU 93 is any of the current game state is the normal game state, the high probability state, the first time saving state ST1, the second time saving state ST2 and the third time saving state ST3 according to the state designation command received from the main side MPU 82 It is possible to specify whether there is, and further the first and second time saving states ST1 and ST2 by the number of times of receiving the variation command after receiving the state designation command corresponding to the start of the first and second time saving states ST1 and ST2 It is possible to specify whether or not it is the final game round.

In the stopping pattern determination process for suggesting time saving, a combination of time saving generating patterns (“1, 2, 3”) is selected as the stop result to be stopped and displayed in the pattern rows Z1 to Z3 of the pattern display device 41 . In addition, in the stopping symbol determination process for suggesting time saving, the effective lines L1 to L5 for stopping and displaying the combination of the stopping symbols corresponding to the result of time saving are determined by lottery. After that, red is selected as the stop result of the state suggestion area 43 of the pattern display device 41 (step S8809).

On the other hand, if information indicating that the game round to be started this time corresponds to the time saving result is set in the type command received this time (step S8804: YES), and the current game state is If it is a high probability state (step S8805: YES), or if the current game state is the first time saving state ST1 or the second time saving state ST2 and it is not the final game round of the time saving state ST1 or ST2 (step S8806: YES, step S8807: NO), stop symbol determination processing for non-reach out is executed (step S8810). In the stop symbol determination process for non-reach out, as the stop result to be stopped and displayed in the symbol rows Z1 to Z3 of the symbol display device 41, a combination of symbols corresponding to the jackpot result, a combination of time-saving generating symbols ("1, 2, 3 ”), and a combination of non-reach out-of-reach symbols, which is a combination of symbols other than the out-of-reach out of reach symbols combination, are stopped and displayed. Also, blue is selected as the stop result of the state suggestion area 43 of the pattern display device 41 (step S8811).

When the type command received this time contains information indicating that the game round to be started this time corresponds to the result of losing (step S8804: NO), stop symbol determination processing for losing is executed. (Step S8812). In the stop symbol determination process for losing, when the variable display period information indicating that the game round to be started this time corresponds to the occurrence of the reach display is set in the variable command received this time , as a stop result to be stopped and displayed in the pattern rows Z1 to Z3 of the pattern display device 41, the combination of the winning reach symbols is determined by lottery, and the effective lines L1 to L5 for stopping and displaying the combination of the determined losing reach symbols are selected by lottery. Determined by In addition, in the stop symbol determination process for failure, information of a variable display period indicating that the game cycle to be started this time does not correspond to the occurrence of the ready-to-win display is set in the variable command received this time. In the case, the combination of symbols corresponding to the jackpot result, the combination of time-saving patterns (“1, 2, 3”), and the combination of patterns other than the combination of outreach patterns are stopped and displayed. The stop result is determined by lottery. do. After that, red is selected as the stop result of the state suggestion area 43 of the pattern display device 41 (step S8813).

If the processing of step S8803, step S8809, step S8811 or step S8813 has been executed, pattern determination processing is executed (step S8814). In the pattern determination process, first, an advance notice lottery process is executed for determining whether or not an advance notice display is to be executed and, if the advance notice display is to be executed, the type of the advance notice display. Then, as a result of the advance notice lottery process, the stop result determined in steps S8801 to S8813 and the variation pattern corresponding to the information of the variation display period included in the variation command received this time are selected, and the selected variation pattern is selected. The corresponding variation pattern table is read from the sound and light side ROM 94 to the sound and light side RAM 95 . The sound and light side MPU 93 controls the display light-emitting unit 64 and the speaker unit 65 according to the read-out variation pattern table, so that the display light-emitting unit 64 and the speaker unit 65 perform the effect of the variation pattern corresponding to the current game round. .

Thereafter, a variation pattern command corresponding to the variation pattern determined in step S8814 is transmitted to the display side MPU 103 (step S8815). The display side MPU 103 reads the display control table corresponding to the received variation pattern command from the display side ROM 104 to the display side RAM 105 . The display-side MPU 103 controls the symbol display device 41 according to the read display control table, thereby causing the symbol display device 41 to display a variation pattern corresponding to the current game turn. In this case, the stop result to be stop-displayed in the symbol rows Z1 to Z3 of the pattern display device 41 and the stop result to be stop-displayed in the state suggestion region 43 of the pattern display device 41 in the game cycle are determined by the variation pattern determination process (FIG. 133). This is the stop result determined in steps S8801 to S8813 in .

As described above, in the case of the time saving result, if it is the final game round of the normal game state, the third time saving state ST3, or the first time saving state ST1 or the second time saving state ST2, one of the symbol rows Z1 to Z3 is valid A combination of time-saving patterns (“1, 2, 3”) is stop-displayed on the lines L1 to L5, and red is stop-displayed in the state suggesting area 43 . In addition, in the final game round of the first time saving state ST1 or the second time saving state ST2, setting processing for time saving results after time saving progress processing (step S8308) for ending the time saving state is executed (Fig. 132) is executed, the time saving state has already ended at the timing when the setting process for the time saving result (FIG. 132) is executed, and it is in the normal game state.

On the other hand, if it is in a high probability state, or if it is a game round other than the final game round of the first time saving state ST1 or the second time saving state ST2, even if the time saving result is obtained, each effective line in the symbol rows Z1 to Z3 Combinations of non-reach out-of-reach symbols are stop-displayed in L1 to L5. The combination of non-reach-out symbols means a combination of symbols other than the combination of symbols corresponding to the jackpot result, the combination of time-saving patterns ("1, 2, 3") and the combination of out-reach-reach symbols. Blue is stopped in the state suggestion area 43 . The combination of non-reach-out symbols is stop-displayed even when the result of the success/failure determination process is an out-of-match result.

The display area of the symbol display device 41 is wider than the display area of the special symbol display portions 37a and 37b, and the symbol display device 41 is arranged substantially in the center of the game area PA, whereas the special symbol display portions 37a and 37b are arranged. is arranged on the corner side of the game area PA, the symbol display device 41 attracts the player's attention more than the special symbol display portions 37a and 37b. In addition, while the symbol display device 41 executes a wide variety of effects such as ready-to-win display, the special symbol display units 37a and 37b perform variable display of patterns in a fixed manner as already described, corresponding to the game results. Since only the stop result is displayed, the symbol display device 41 attracts the player's attention more than the special symbol display portions 37a and 37b also from this point. In such circumstances, if the result is a time saving result that does not trigger the setting of the third time saving state ST3, the non-reach off pattern that can be stopped and displayed in the case of the result of deviating from the effective lines L1 to L5 of the symbol rows Z1 to Z3 By statically displaying the combination, it is possible to make it difficult for the player to recognize that the time saving result has been invalidated despite the selection.

If it is a time saving result that does not trigger the setting of the third time saving state ST3, it is stopped and displayed even if the result of the success/failure determination process is off on each of the valid lines L1 to L5 of the symbol rows Z1 to Z3 as described above. Even if the combination of non-reach-out symbols is stop-displayed, a stop result different from the case where the result of the winning/failure determination processing is a losing result is stop-displayed in the state suggesting area 43 . In other words, when the time saving result does not trigger the setting of the third time saving state ST3, the blue color is stopped in the state suggestion area 43, whereas when the result is off, the red color appears in the state suggestion area 43. Stop is displayed. As a result, in a situation where the special symbol display portions 37a and 37b are difficult for the manager of the gaming hall to visually recognize, the combinations of non-reach out symbols are stopped and displayed on the effective lines L1 to L5 of the symbol rows Z1 to Z3 in the symbol display device 41. In this case, by checking the state suggesting area 43, it is possible to grasp which of the time saving result and the off result.

Figure 134 is a flow chart showing the time-saving progress process executed in step S8308 of the special figure determination process (Figure 128).

First, it is determined whether or not the high probability flag 321 is set to "1" (step S8901). When "1" is set to the high probability flag 321 (step S8901: YES), the processing for shortening working hours is terminated without executing the processing after step S8902.

When "1" is not set to the high probability flag 321 and "1" is set to any of the first time saving state flag 322, the second time saving state flag 323 and the third time saving state flag 324 (Step S8902: YES), that is, if it is one of the first to third time saving states ST1 to ST3, time saving subtraction processing is executed (step S8903). Although details will be described later in the time saving subtraction process, the value of the state continuation counter 327 is decremented by 1, and when the value of the state continuation counter 327 after the 1 subtraction becomes "0", the current situation is the first to the second If it is the first stage of the 3 o'clock reduction state ST1 to ST3, a predetermined value is set to the state continuation counter 327 by executing the process for shifting to the second stage, and the current situation is the 1st to 3rd time reduction state ST1 ~ If it is the second stage of ST3, a predetermined value is set to the state continuation counter 327 by executing the process for moving to the third stage, and the current situation is the third stage of the first to third time-saving states ST1 to ST3. If so, the value of the state continuation counter 327 is maintained at "0".

If the value of the state continuation counter 327 is "0" after performing the subtraction process for time saving in step S8903 (step S8904: YES), the third stage of the first to third time saving states ST1 to ST3 has ended That means that the current first to third time saving states ST1 to ST3 have ended. In this case, clear processing of the time saving state flag is executed (step S8905). In the clearing process, if the first time saving state flag 322 is set to "1", the first time saving state flag 322 is cleared to "0", and the second time saving state flag 323 is set to "1". If so, the second time saving state flag 323 is cleared to "0", and if the third time saving state flag 324 is set to "1", the third time saving state flag 324 is cleared to "0".

After that, "1" is set to the outer end flag at the time of time saving end provided in the main RAM 84 (step S8906). The outer end flag at the time of the time saving end is a flag for specifying the trigger for controlling the external output of the signal to the hall computer provided outside the pachinko machine 10 in the main side MPU 82 . The contents of control of the external output of the signal will be described later.

After that, transmission processing of the state designation command is executed (step S8907). In the transmission process, a state designation command indicating that the current first to third time saving states ST1 to ST3 have ended is transmitted to the sound and light side MPU 93. By receiving the state designation command, the sound and light side MPU 93 ends the execution of the effect corresponding to the first to third time saving states ST1 to ST3 in the pattern display device 41, the display light emitting unit 64 and the speaker unit 65, A performance corresponding to the normal game state is started.

As already explained in the special figure finalizing process (Fig. 128), the time saving progress process (Fig. 133) is executed before the time saving result setting process (Fig. 132). As a result, in the case of the first time saving state ST1 or the second time saving state ST2, even if the result of the success/failure determination process becomes the time saving result in the game round other than the final game round of the current time saving state ST1, ST2 While preventing the setting of the third time-saving state ST3 triggered by the time-saving result, in the final game round of the current time-saving states ST1 and ST2, when the result of the success/failure determination process is the time-saving result, the time-saving result It is possible to set the third time saving state ST3 triggered by . Therefore, even if the execution of the first time saving state ST1 or the second time saving state ST2 is prioritized over the third time saving state ST3, the time saving result in the final game round of the first time saving state ST1 or the second time saving state ST2 By validating the setting of the third time-saving state ST3 triggered by, it is possible to give the player the benefit of selecting the time-saving result in the success/failure determination process as much as possible. . Also, such excellent effects can be produced by setting the execution order of the processes as described above.

Next, the configuration for external output from the pachinko machine 10 to the hall computer HC will be described. FIG. 135 is a schematic diagram for explaining the outline of the electrical configuration of a game hall in which a large number of pachinko machines 10 are installed.

As shown in FIG. 135, an island facility S is provided in the game hall, and a large number of pachinko machines 10 are installed for the island facility S. As shown in FIG. Also, the island facility S is provided with a data counter DC corresponding to each pachinko machine 10 on a one-to-one basis. Each data counter DC is mounted above the corresponding pachinko machine 10, and has a first display portion DC1 for displaying the number of times the game is executed and a second display portion DC1 for displaying the number of times a predetermined advantageous situation is executed. A display section DC2 is provided.

A hall computer HC is provided in the game hall as management control means for managing each pachinko machine 10 and each data counter DC. Hall computer HC is an electronic arithmetic device having a management program, and MPU 501 is mounted therein. The MPU 501 has a ROM 502 that stores various control programs and fixed value data to be executed by the MPU 501, and temporarily stores various data and information input from the pachinko machine 10 when executing the control program stored in the ROM 502. and a RAM 503, which is a memory for temporarily storing data.

The hall computer HC is electrically connected to each pachinko machine 10 through an electric wiring group EL1, and is also electrically connected to each data counter DC through an electric wiring group EL2. Then, it executes a management process based on the information received from each pachinko machine 10, and transmits a signal corresponding to the result of the management process to each data counter DC.

A configuration for transmitting information to the hall computer HC in the pachinko machine 10 will be described in detail with reference to FIG. 136(a) is a rear view of the pachinko machine 10 showing an enlarged external terminal plate 331 provided in the back pack unit 15 of the pachinko machine 10 and its surroundings, and FIG. 136(c) is a block diagram for explaining the electrical configuration of the external terminal board 331. FIG.

As shown in FIG. 136(a), an external terminal plate 331 is provided with a plurality of external terminals (output terminals) 332-339. A total of eight external terminals 332 to 339 are provided, and different types of information are output to the hall computer HC.

The external terminal 332 for the first jackpot signal is for externally outputting the first jackpot signal indicating whether or not the opening/closing execution mode is occurring based on the jackpot result in the win/fail determination processing of the main MPU 82. Used. The external terminal 333 for the second jackpot signal determines whether or not the opening/closing execution mode is occurring based on the jackpot result in the win/fail determination process of the main side MPU 82, and the second jackpot signal based on the completion of the ceiling number of game rounds. To externally output a second jackpot signal indicating whether or not the third time saving state ST3 has occurred based on whether or not the time saving state ST2 has occurred and whether the third time saving state ST3 has occurred based on the time saving result in the propriety determination process of the main side MPU 82 Used. The external terminal 334 for the advantageous state signal indicates whether or not the opening/closing execution mode is occurring based on the big win result in the success/failure determination processing of the main side MPU 82, whether or not the high probability state is occurring, and to externally output an advantageous state signal indicating whether any one of the first to third time saving states ST1 to ST3 is occurring.

In addition to the external terminals 332 to 334, the external terminals 332 to 339 are provided with an external terminal 335 used for externally outputting a signal indicating whether the gaming machine body 12 is open, and one game An external terminal 336 used for outputting information indicating that the round has ended, an external terminal 337 used for outputting information indicating that a winning to the operation ports 33 and 34 has occurred, and a predetermined number of It includes an external terminal 338 used to output information indicating that game balls have been paid out, and an external terminal 339 used to output information indicating that the occurrence of a predetermined fraud has been detected. is

A plurality of output setting unit areas 342 to 349 are provided in the external output buffer 341 of the main RAM 84 in one-to-one correspondence with the external terminals 332 to 339, as shown in FIG. 136(b). It is Each output setting unit area 342 to 349 has an information amount of a predetermined bit, specifically 1 bit. Any information of "1" which is information is set. The amount of information in each of the unit areas 342 to 349 is not limited to 1 bit and is arbitrary, and the data configuration of the no-output information and the output-present information is also arbitrary.

The main MPU 82 is electrically connected to each of the external terminals 332 to 339 of the external terminal plate 331 in a one-to-one correspondence through the electrical wiring group EL3 shown in FIG. ” is set to the external terminals 332-339 corresponding to the unit areas 342-349.

As shown in FIG. 136(c), each of the external terminals 332 to 339 is connected by a photocoupler 351 in order to prevent the reverse flow while allowing transmission of electrical signals from the main MPU 82 to the hall computer HC. It is configured. A light emitting diode 352 on the primary side of the photocoupler 351 is connected to the main side MPU 82 via a resistor 353, and a light receiving element 354 on the secondary side is connected to the hall computer HC. Therefore, when a signal is output from the main MPU 82 to the external terminals 332 to 339 corresponding to the unit areas 342 to 349 set to "1" in the external output buffer 341, the external terminal to which the signal is output The light emitting diodes 352 of 332 to 339 emit light, the light is received by the light receiving elements 354 of the external terminals 332 to 339, converted into electric signals, and the electric signals are output to the hall computer HC.

The form of the electrical signal output to the hall computer HC is arbitrary. In a situation where the main MPU 82 does not output an external signal, a signal of 0 V is output. A mode in which a voltage signal is output may be employed, or a mode in which the output pattern of the signal has a relationship opposite to this may be employed. Also, in a situation where the main MPU 82 does not output externally, a signal with a reference voltage greater than 0 V is output, and when external output is performed, a signal with a voltage greater or less than the reference voltage is output. good too.

Next, processing related to external output executed by the main MPU 82 will be described. However, in the following description, among the external terminals 332 to 339 of the external terminal plate 331, the external terminal 332 for the first jackpot signal, the external terminal 333 for the second jackpot signal, and the external terminal 334 for the advantageous state signal A configuration related to external output will be described. Processing for controlling these external outputs is executed in processing for the outer end. The outer end processing is executed as part of the external information setting processing (step S218) in the timer interrupt processing (FIG. 14). FIG. 137 is a flow chart showing processing for the outer edge.

In the outer edge processing, it is determined whether or not the outer edge flag at the start of the jackpot in the main RAM 84 is set to "1" (step S9001). As already explained, when the game round corresponding to the jackpot result is finished and the opening/closing execution mode is started, the outer end flag at the start of the jackpot is set to "1" in step S8306 in the special figure determination process (FIG. 128). is set. When the outer end flag at the start of the jackpot is set to "1" (step S9001: YES), the first jackpot signal ON process (step S9002), the second jackpot signal ON process (step S9003), and advantageous After executing ON processing of the state signal (step S9004), the outer end flag at the start of the jackpot is cleared to "0" (step S9005).

In the ON processing of the first jackpot signal, "1" is set in the first unit area 342 corresponding to the external terminal 332 for the first jackpot signal in the external output buffer 341 . As a result, the output state of the first jackpot signal through the external terminal 332 for the first jackpot signal is switched from the LOW level to the HI level. When the first jackpot signal is at the HI level, the value of the first unit area 342 remains "1". Note that this HI/LOW relationship may be reversed. In the ON processing of the second jackpot signal, "1" is set in the second unit area 343 corresponding to the external terminal 333 for the second jackpot signal in the external output buffer 341 . As a result, the output state of the second jackpot signal through the external terminal 333 for the second jackpot signal is switched from LOW level to HI level. When the second jackpot signal is at HI level, the value of the second unit area 343 continues to be "1". Note that this HI/LOW relationship may be reversed. In the advantageous state signal ON processing, "1" is set in the third unit area 344 corresponding to the external terminal 334 for the advantageous state signal in the external output buffer 341 . As a result, the output state of the advantageous state signal through the external terminal 334 for the advantageous state signal is switched from LOW level to HI level. When the advantageous state signal is at HI level, the state in which the value of the third unit area 344 is "1" continues. Note that this HI/LOW relationship may be reversed.

In the outer edge processing, it is determined whether or not the outer edge flag at the end of the jackpot in the main RAM 84 is set to "1" (step S9006). As already explained, when the opening/closing execution mode triggered by the jackpot result ends, "1" is set to the outer end flag at the time of jackpot termination at step S8410 in the special electric end processing (FIG. 129). When the outer end flag at the end of the jackpot is set to "1" (step S9006: YES), the first jackpot signal OFF processing (step S9007) and the second jackpot signal OFF processing (step S9008) are executed. After that, the outer end flag at the end of the jackpot is cleared to "0" (step S9009).

In the OFF processing of the first jackpot signal, the first unit area 342 corresponding to the external terminal 332 for the first jackpot signal in the external output buffer 341 is cleared to "0". As a result, the output state of the first jackpot signal through the external terminal 332 for the first jackpot signal is switched from HI level to LOW level. When the first jackpot signal is at the LOW level, the state where the value of the first unit area 342 is "0" continues. In the OFF processing of the second jackpot signal, the second unit area 343 corresponding to the external terminal 333 for the second jackpot signal in the external output buffer 341 is cleared to "0". As a result, the output state of the second jackpot signal through the external terminal 333 for the second jackpot signal is switched from HI level to LOW level. When the second jackpot signal is at the LOW level, the value of the second unit area 343 continues to be "0".

In the outer end processing, it is determined whether or not the outer end flag at the time of high accuracy end in the main RAM 84 is set to "1" (step S9010). As already explained, when the high-probability state ends, "1" is set to the outer edge flag at the time of high-probability completion at step S8505 in the high-probability progress processing (FIG. 130). If "1" is set to the outer end flag at the end of high probability (step S9010: YES), after executing the OFF processing of the advantageous state signal (step S9011), the outer end flag at the end of high probability is set to " 0” is cleared (step S9012).

In the advantageous state signal OFF processing, the third unit area 344 corresponding to the external terminal 334 for the advantageous state signal in the external output buffer 341 is cleared to "0". As a result, the output state of the advantageous state signal through the external terminal 334 for the advantageous state signal is switched from HI level to LOW level. When the advantageous state signal is at the LOW level, the state in which the value of the third unit area 344 is "0" continues.

In the process for the outer end, it is determined whether or not "1" is set to the outer end flag at the time of shortening of working hours of the main RAM 84 (step S9013). As already explained, when the second time saving state ST2 is started by digesting the game times of the ceiling number of times, the outer end flag at the time of time saving occurrence is set to "1 ” is set. In addition, when the third time saving state ST3 is newly started triggered by the time saving result in the right or wrong determination process, in step S8708 in the setting process for the time saving result (Fig. 132) outside the time of time saving "1" is set to the end flag. When "1" is set to the outer end flag at the time of time saving occurrence (step S9013: YES), ON processing of the second jackpot signal (step S9014), ON processing of the advantageous state signal (step S9015), and ON continuation After executing the setting process (step S9016) of the counter, the outer end flag at the time of shortening of working hours is cleared to "0" (step S9017).

The contents of the ON processing of the second jackpot signal are the same as in step S9003. The output state of the second jackpot signal through the external terminal 333 for the second jackpot signal is switched from LOW level to HI level. The contents of the advantageous state signal ON processing are the same as those in step S9004. The output state of the advantageous state signal through the external signal terminal 334 is switched from LOW level to HI level.

In the ON continuation counter setting process, information on the ON continuation period (specifically, 500 milliseconds) is set in the ON continuation counter provided in the main RAM 84 . The ON continuation counter, when the second jackpot signal becomes HI level triggered by the occurrence of the second time saving state ST2 or the third time saving state ST3, outputs the HI level output state with the passage of the ON continuation period. It is a counter for specifying the timing of switching to LOW level in the main MPU 82 . The ON continuation period is a period shorter than the shortest period (specifically, 3 seconds) that can be selected as the variable display period of game rounds.

In the outer end processing, when the value of the ON continuation counter is 1 or more (step S9018: YES), 1 is subtracted from the value of the ON continuation counter (step S9019). Then, when the value of the ON continuation counter after subtracting 1 is "0" (step S9020: YES), the second jackpot signal is turned OFF (step S9021). The contents of the OFF processing of the second jackpot signal are the same as in step S9008. The output state of the second jackpot signal through the external terminal 333 for two jackpot signals is switched from HI level to LOW level.

As already explained, the ON continuation period is a period shorter than the shortest period (specifically, 3 seconds) that can be selected as the variable display period of game rounds. Therefore, even if the output state of the second jackpot signal is switched from the LOW level to the HI level due to the transition to the second time saving state ST2 or the third time saving state ST3 when the game cycle ends, the HI The level will be switched to the LOW level before the next game round ends.

In the outer end processing, it is determined whether or not "1" is set to the outer end flag at the end of time saving in the main RAM 84 (step S9022). As already described, when any of the first to third time saving states ST1 to ST3 ends, the outer end flag at the time of the time saving end is set to "1" in step S8906 in the time saving progress process (FIG. 134). be. If "1" is set to the outer end flag at the end of time saving (step S9022: YES), after executing the OFF processing of the advantageous state signal (step S9023), the outer end flag at the end of time saving is set to "0" Clear (step S9024). The contents of the processing for turning off the advantageous state signal are the same as in step S9011. The output state of the advantageous state signal through the external terminal 334 for is switched from HI level to LOW level.

Next, how the output states of the first jackpot signal, the second jackpot signal and the advantageous state signal are switched will be described with reference to the time chart of FIG. Fig. 138(a) shows the output state of the first jackpot signal, Fig. 138(b) shows the output state of the second jackpot signal, Fig. 138(c) shows the output state of the advantageous state signal, Fig. 138 ( d) shows the period during which the opening/closing execution mode is occurring, FIG. 138(e) shows the period during which the first time saving state ST1 is occurring, and FIG. 138(f) is the second time saving state ST2 occurring FIG. 138(g) shows the period during which the third time saving state ST3 is occurring.

At the timing of t1, the opening/closing execution mode is started as shown in FIG. 138(d). In this case, at the timing of t1, the output state of the first jackpot signal is switched from LOW level to HI level as shown in FIG. 138(a), and the second jackpot signal is output as shown in FIG. 138(b). The state is switched from LOW level to HI level, and the output state of the advantageous state signal is switched from LOW level to HI level as shown in FIG. 138(c).

Then, at the timing of t2, as shown in FIG.138(d), opening-and-closing execution mode is complete|finished, and as shown in FIG.138(e), 1st time saving state ST1 is started. In this case, at the timing of t2, the output state of the first jackpot signal is switched from HI level to LOW level as shown in FIG. 138(a), and the second jackpot signal is output as shown in FIG. 138(b). The state is switched from HI level to LOW level. On the other hand, as shown in FIG. 138(c), the output state of the advantageous state signal is maintained at HI level.

After that, at the timing of t3, as shown in FIG. 138(e), the first time saving state ST1 ends, and the game state becomes the normal game state. In this case, at the timing t3, the output state of the advantageous state signal is switched from HI level to LOW level as shown in FIG. 138(c).

After that, at the timing of t4, the second time-saving state ST2 is started as shown in FIG. In this case, at the timing of t4, the output state of the second jackpot signal is switched from LOW level to HI level as shown in FIG. 138(b), and the output state of the advantageous state signal as shown in FIG. 138(c). is switched from LOW level to HI level.

After that, at the timing of t5, since the ON continuation period (specifically 500 milliseconds), which started to be measured from the timing of t4, has passed, the output state of the second jackpot signal as shown in FIG. 138(b) It is switched from HI level to LOW level. On the other hand, as shown in FIG. 138(c), the output state of the advantageous state signal is maintained at HI level.

After that, at the timing of t6, as shown in FIG. 138(f), the second time saving state ST2 ends, and the game state becomes the normal game state. In this case, at the timing t6, the output state of the advantageous state signal is switched from HI level to LOW level as shown in FIG. 138(c).

After that, at the timing of t7, the third time saving state ST3 is started as shown in FIG. 138(g) by completing the game cycle corresponding to the time saving result. In this case, at the timing of t7, the output state of the second jackpot signal is switched from LOW level to HI level as shown in FIG. 138(b), and the output state of the advantageous state signal as shown in FIG. 138(c). is switched from LOW level to HI level.

After that, at the timing of t8, the ON continuation period (specifically 500 milliseconds), which started to be measured from the timing of t7, has passed, so the output state of the second jackpot signal as shown in FIG. 138(b) It is switched from HI level to LOW level. On the other hand, as shown in FIG. 138(c), the output state of the advantageous state signal is maintained at HI level.

After that, at the timing of t9, as shown in FIG. 138(f), the third time saving state ST3 ends, and the game state becomes the normal game state. In this case, at the timing of t9, the output state of the advantageous state signal is switched from HI level to LOW level as shown in FIG. 138(c).

As described above, the output state of the first jackpot signal is HI level during the period of the open/close execution mode triggered by the jackpot result, and the output state is LOW level in other situations. The second jackpot signal is output when the output state becomes HI level during the period of the open/close execution mode triggered by the jackpot result, and when the second time saving state ST2 is started after the ceiling number of game rounds is completed, or when the time saving state is started. When the game round corresponding to the result is finished and the third time saving state ST3 is started, the output state becomes HI level over the ON duration (specifically 500 milliseconds), and in other situations the output state becomes LOW level. In this case, when the ceiling number of game rounds is completed in the third time saving state ST3, the third time saving state ST3 ends on the way and the second time saving state ST2 is started, but this second time saving state ST2 is started. Also at the start of the state ST2, the output state of the second jackpot signal becomes HI level over the ON continuation period (specifically, 500 milliseconds). In addition, when the game cycle corresponding to the time saving result ends in the third time saving state ST3, the third time saving state ST3 up to that point ends halfway and the third time saving state ST3 is newly started. At the new start of the third time-saving state ST3, the output state of the second jackpot signal becomes HI level over the ON continuation period (specifically, 500 milliseconds). Since the ON continuation period is a period shorter than the shortest period (specifically, 3 seconds) required for completing one game round, in a situation where the output state of the second jackpot signal is HI level, the second There is no opportunity to newly change the output state of the 2 jackpot signal to the HI level. The advantageous state signal is during the period of the opening and closing execution mode triggered by the jackpot result, during the period of the high probability state, and during the period of the first to third time saving states ST1 to ST3. HI level, otherwise the output state is LOW level.

The external terminal plate 331 of the pachinko machine 10 is provided with eight external terminals 332 to 339 as shown in FIG. 136(a). On the other hand, the number of signal paths between one pachinko machine 10 and the hall computer HC is smaller than the number of external terminals 332 to 339 provided in the pachinko machine 10 concerned. In this case, the external terminal 332 for the first jackpot signal, the external terminal 333 for the second jackpot signal, and the external terminal 334 for the advantageous state signal are for external output during the opening/closing execution mode. Although the contents are partially duplicated, the contents of the external outputs of the other external terminals 335 to 339 have no correlation and are independent. Therefore, in a game hall where the pachinko machine 10 is introduced without modifying the conventional equipment, the external terminal 332 for the first jackpot signal, the external terminal 333 for the second jackpot signal, and the external terminal 334 for the advantageous state signal are It is considered that any one of them is selected for electrical connection. In addition, even in a game hall that can provide the same number of signal paths as the number of external terminals 332 to 339 by refurbishing the conventional facilities, the number of execution times of a predetermined advantageous situation can be displayed in the data counter DC. It is necessary to select the terminal for reflecting information on the second display section DC2 from the external terminal 332 for the first jackpot signal, the external terminal 333 for the second jackpot signal, and the external terminal 334 for the advantageous state signal.

When the external terminal 332 for the first jackpot signal is selected, the number of times the output state of the first jackpot signal changes from the LOW level to the HI level is measured, and the measured number of times is displayed on the second display section of the data counter DC. By displaying on DC2, the number of occurrences of the opening/closing execution mode is displayed on the second display portion DC2. When the external terminal 333 for the second jackpot signal is selected, the number of times the output state of the second jackpot signal changes from the LOW level to the HI level is measured, and the measured count is displayed on the second display section of the data counter DC. By displaying on DC2, the total number of occurrences of the opening/closing execution mode, the number of occurrences of the second time saving state ST2, and the number of occurrences of the third time saving state ST3 is displayed on the second display part DC2. When the external terminal 334 for the advantageous state signal is selected, the number of times the output state of the advantageous state signal changes from the LOW level to the HI level is counted, and the counted number of times is displayed on the second display section DC2 of the data counter DC. By displaying, in the second display part DC2, the opening and closing execution mode, the high probability state, and the first to third time saving states ST1 to ST3 occur from the normal game state and return to the normal game state again. The number of occurrences will be displayed.

Next, the execution mode of the production in the first to third time saving states ST1 to ST3 will be described. FIG. 139 is a flow chart showing the time saving subtraction process executed in step S8903 of the time saving progress process (FIG. 134). It should be noted that the time-saving subtraction process is executed when the game cycle ends in any of the first to third time-saving states ST1 to ST3.

First, the value of the state continuation counter 327 is subtracted by 1 (step S9101). Then, if the value of the state continuation counter 327 after subtracting 1 is "0" (step S9102: YES), it is determined whether or not the value of the state determination counter 326 is "1". It is determined whether or not the number of games completed in the time saving states ST1 to ST3 is within the range of the first stage (step S9103).

If the value of the state determination counter 326 is "1" (step S9103: YES), it means that the first stage has ended in the current time saving states ST1 to ST3. In this case, "2" indicating the second stage is set in the state determination counter 326 (step S9104). As a result, the stages of the current time-saving states ST1 to ST3 are changed from the first stage to the second stage. And when "1" is set to the first time saving state flag 322, that is, when the present condition is the first time saving state ST1 (step S9105: YES), the state continuation counter 327 is set to the second time saving state ST1. "79" corresponding to the number of continuations of the stage is set (step S9106). Also, if the second time saving state flag 323 is set to "1", that is, if the current situation is the second time saving state ST2 (step S9107: YES), the state continuation counter 327 is set to the second time saving state ST2 "129" corresponding to the number of continuations of the stage is set (step S9108). Also, if "1" is set to the third time saving state flag 324, that is, if the current situation is the third time saving state ST3 (step S9107: NO), the state continuation counter 327 is the second in the third time saving state ST3 "29" corresponding to the continuation count of the stage is set (step S9109).

If the value of the state determination counter 326 is "2" (step S9110: YES), it means that the second stage has ended in the current time saving states ST1 to ST3. In this case, "3" indicating the third stage is set in the state determination counter 326 (step S9111). As a result, the stages of the current time-saving states ST1 to ST3 are changed from the second stage to the third stage. Then, the state continuation counter 327 is set to "1" corresponding to the number of continuations of the third stage in the time saving states ST1 to ST3 (step S9112). That is, the third stage is one game in any of the first to third time saving states ST1 to ST3, and the one game is the final game round of the time saving states ST1 to ST3. It should be noted that, by determining whether the value of the state determination counter 326 is "3" in step S8807 in the already described variation pattern determination process (FIG. 133), the first time saving state ST1 or the second time saving state It can be determined whether or not it is the final game round of ST2.

If a negative determination is made in step S9102, if the process of step S9106 is executed, if the process of step S9108 is executed, if the process of step S9109 is executed, or if the process of step S9112 is executed, steps S9113 to The process for transmitting the command during time saving to sound light side MPU93 in step S9115 is performed. Specifically, the value of the state determination counter 326 is read (step S9113), and the value of the state continuation counter 327 is read (step S9114). Then, the time-shortening command in which the value of the state determination counter 326 read out in step S9113 and the value of the state continuation counter 327 read out in step S9114 are respectively set is transmitted to the sound/light side MPU 93 (step S9115). Sound and light side MPU93 grasps the progress in time saving state ST1 - ST3 by receiving the command during time saving, does execution control of production in the aspect which corresponds to the grasp result.

On the other hand, when the value of the state determination counter 326 is "3" and the value of the state continuation counter 327 after subtracting 1 in the third stage of the time saving state ST1 to ST3 becomes "0" (step S9110: NO), the value of the state determination counter 326 is cleared to "0" (step S9116). In this case, when the value of the state continuation counter 327 is "0", the operation processing for time saving (FIG. 139) ends and the process proceeds to step S8904 of the processing for time saving progress (FIG. 134). Since the value of the state continuation counter 327 is "0", an affirmative determination is made in step S8904, and processing for ending the time saving states ST1 to ST3 in steps S8905 to S8907 is executed.

Next, a processing configuration for specifying the variable display period of game rounds using the value of the state determination counter 326 will be described. FIG. 140 is an explanatory diagram for explaining an electrical configuration in this embodiment for performing various lotteries in the main MPU 82. As shown in FIG.

As in the first embodiment, as various counters, a winning random number counter C1, a type random number counter C2, a reach random number counter C3, a variation type counter CS, a random number initial value counter CINI, and a general electric random number counter C4 are provided. Also, as in the first embodiment, a special figure reservation area 84a and a general figure reservation area 84c are provided as storage areas, and the first special figure in which the first reservation information is stored in the special figure reservation area 84a A reservation area 111, a second special figure reservation area 112 in which the second reservation information is stored, and a special figure execution area 113 in which the first reservation information or the second reservation information to be executed in the game round is stored are provided. It is In this case, in the first embodiment, the numerical information of the hit random number counter C1, the numerical information of the type random number counter C2, and the numerical information of the reach random number counter C3 are stored as the first reservation information or the second reservation information, Although the numerical information of the fluctuation type counter CS is configured not to be stored as the first reservation information or the second reservation information, in this embodiment, the numerical information of the winning random number counter C1, the numerical information of the type random number counter C2 and the reach random number counter C3 In addition to the numerical information, the numerical information of the fluctuation type counter CS is stored as the first pending information or the second pending information.

FIG. 141 is a flow chart showing processing for specifying a variable display period according to the present embodiment, which is executed by the main MPU 82. FIG. In addition, the specifying process of the variable display period is executed in step S815 in the special figure variation start process (FIG. 20).

First, the game cycle period address table 361 is read from the main ROM 83 (step S9201). FIG. 142 is an explanatory diagram for explaining the game cycle period address table 311. As shown in FIG.

In the game period address table 311, serial addresses of "00A0H" to "00A4H" are set such that the start address is "00A0H" and the end address is "00A4H". Note that "H" represents a hexadecimal number. In the storage area corresponding to each address in the game cycle period address table 311, there is information of the start address having the smallest value among the storage areas of the main ROM 83 in which the game cycle period table to be referred to is stored in advance. is set.

Specifically, in the storage area corresponding to the start address "00A0H" in the game period address table 311, the normal game period table 312 is stored which is referred to in the normal game state. Information on the start address of the storage area is set. In addition, in the storage area corresponding to "00A1H" which is the next address in the game cycle period address table 311, the game cycle for the first stage time saving referred to when it is the first stage in the time saving state ST1 to ST3 Information of the start address of the storage area in which the period table 313 is stored is set. In addition, in the storage area corresponding to "00A2H" which is the next address in the game cycle period address table 311, the game cycle for the second stage time saving referred to when it is the second stage in the time saving state ST1 to ST3 Information of the start address of the storage area in which the period table 314 is stored is set. In addition, in the storage area corresponding to "00A3H", which is the next address in the game cycle period address table 311, the game cycle for the third stage time saving referred to when it is the third stage in the time saving state ST1 to ST3 Information of the start address of the storage area in which the period table 315 is stored is set. In addition, in the storage area corresponding to the end address "00A4H" in the game period address table 311, a storage area storing a high probability game period table 316 to be referred to in the high probability state. information of the start address of is set.

In the variable display period specifying process (FIG. 141), after reading the game cycle period address table 311 in step S9201, if the high probability flag 321 is set to "1", that is, the game state is high probability. If it is in the state (step S9202: YES), "4" is set as the offset value in the general-purpose register of the main MPU 82 (step S9203). If the high probability flag 321 is not set to "1" (step S9202: NO), the value of the state determination counter 326 is read (step S9204), and the read value is offset to the general-purpose register of the main MPU 82. set as a value (step S9205). In this case, since the value of the state determination counter 326 is "0" in the normal game state, the offset value becomes "0", and if it is the first stage of the time saving state ST1 to ST3, the value of the state determination counter 326 is "1", the offset value is "1", and if it is the second stage of the time saving state ST1 to ST3, the value of the state determination counter 326 is "2", so the offset value is "2", and the time saving In the third stage of states ST1 to ST3, the value of the state determination counter 326 is "3", so the offset value is "3".

When the processing of step S9203 or step S9205 is executed, the offset set in step S9203 or step S9205 with respect to the start address ("00A0H") of the game cycle period address table 311 read into the general-purpose register of the main side MPU 82 The values are added (step S9206). Then, in the game cycle period address table 311, the start address set in the storage area corresponding to the address after the addition in step S9206 is read (step S9207), and the game cycle period table 312 to 316 to the main RAM 84 (step S9208). In this case, when "4" is set as the offset value in step S9203, the address calculated in step S9206 is "00A4H", so in step S9208 the high-probability game cycle period table 316 is read out to the main RAM 84 . In addition, when "0" is set as the offset value in step S9205, the address calculated in step S9206 is "00A0H", so in step S9208 the normal game period table 312 is the main one. It is read out to the side RAM 84 . Also, if "1" is set as the offset value in step S9205, the address calculated in step S9206 becomes "00A1H", so in step S9208 the game cycle period table for the first stage time saving 313 is read to the main side RAM 84 . In addition, when "2" is set as the offset value in step S9205, the address calculated in step S9206 becomes "00A2H", so in step S9208 the game cycle period table for the second stage time saving 314 is read into the main side RAM 84 . In addition, when "3" is set as the offset value in step S9205, the address calculated in step S9206 becomes "00A3H". 315 is read into the main side RAM 84 .

With the above configuration, in game states other than the high probability state, the value indicating the game state stored in the state determination counter 326 is used as it is as an offset value, so that the corresponding game from the game cycle address table 311 is used. It becomes possible to read the start address of the cycle period tables 312-315. This makes it possible to simplify the configuration for reading the game cycle period tables 312 to 315 in each stage of the normal game state and the time saving state ST1 to ST3. In particular, in the time saving states ST1 to ST3, the value corresponding to each stage is stored in the state determination counter 326, but since this value is the offset value as it is, each stage of the time saving states ST1 to ST3 is specified. It is possible to read out the game cycle period tables 313 to 315 by using the information for playing.

After that, the game cycle period tables 312 to 316 read out in step S9208 are referred to, and the variable display period selection process is executed (step S9209). In this case, in this embodiment, since the numerical information of the variation type counter CS is included in the first reservation information or the second reservation information, the game period tables 312 to 316 are referred to and the numerical information of the variation type counter CS When selecting the corresponding variable display period, the numerical information of the variable type counter CS is the first reservation information or the second reservation information that triggered the execution of the game round this time is the first special figure reservation area 111 or the second special It becomes the numerical information of the fluctuation type counter CS when stored in the figure reservation area 112 . Then, the information of the variable display period selected in step S9209 is set to the special figure side timer counter provided in the main side RAM84 (step S9210). The update of the numerical value information set in the special figure side timer counter is executed in the timer update process of step S210 in the timer interrupt process (FIG. 14).

The contents of the normal game period table 312 are the same as those of the low-frequency support table group (step S907) in the first embodiment, and the contents of the high-probability game period table 316 are the same as those of the first game period table. This is the same as the highly accurate table group (step S902) in the embodiment.

In the situation where the selection process of the variable display period is executed in step S9209 with reference to the game turn period table 313 for the first stage time saving, if a big hit result occurs in this game turn, or of the success or failure determination process If the numerical value information corresponding to the reach random number counter C3 in the holding information that is the result of the result is a loss result and is the object of execution corresponds to the occurrence of the loss reach display, and if the loss reach display occurs in the current game round, this time Numerical information of the variation type counter CS included in the first suspension information or the second suspension information that triggered the execution of the game round of the game round table 313 for the first stage time reduction against the table corresponding to reach By collating, the information of the variable display period of the reach display mode is read. In this case, the selection mode of the variable display period of the reach display mode is different from the case where the reach correspondence table in the other game cycle period tables 312, 314 to 316 is referred to. A longer variable display period is more likely to be selected than when the table corresponding to reach in the game period table 314 is referred to, and the normal game period table 312, the third stage time saving game period table 315, and the high probability A shorter variable display period is more likely to be selected than when the ready-to-win table in the game period table 316 is referred to. In this case, a period longer than the shortest period (specifically, 3 seconds) of the special figure side is selected as the variable display period of the current game round.

If no big win result occurs in the current game round and no out-reach display occurs, the second reservation information is the execution target of the game round and there are two or more second pieces in the second special figure reservation area 112 If it is a game round started in a situation where the hold information is stored, the information of the shortest period (specifically 3 seconds) on the special figure side is read as the variable display period of the current game round. As a result, it is possible to increase the efficiency of digesting the game times triggered by the second hold information in the first stage of the time saving states ST1 to ST3. In addition, even if a time saving result occurs in this game round, the second reservation information is the execution target of the game round and two or more pieces of second reservation information are stored in the second special figure reservation area 112 If it is a game round started in a situation where it is, the information of the shortest period (specifically 3 seconds) on the special figure side is read. In addition, when the normal game cycle period table 312 is referred to, if no big win result occurs in the current game cycle and no outgoing reach display occurs, the second hold information is the execution target of the game cycle. If it is a game round started in a situation where four pieces of second reservation information are stored in the second special figure reservation area 112, the shortest period (specifically 3 seconds) on the special figure side is selected. , If the second reservation information is the game round execution target and the game round started in the situation where the second reservation information of 3 or less is stored in the second special figure reservation area 112, the shortest on the special figure side A period longer than the period (specifically 3 seconds) is selected.

On the other hand, in the current game round, when no big win result occurs and no out-reach display occurs, the second reserve information is the execution target of the game round and there is one second reserve in the second special figure reserve area 112. When the game round is started in the state in which the information is stored, or when the big win result does not occur in the current game round and the winning reach display does not occur, the first holding information is the execution object of the game round. If it is, the numerical information of the variation type counter CS included in the first hold information or the second hold information that triggered the execution of the game round this time Information on the variable display period of the non-reach display mode is read out by checking against the reach correspondence table. In this case, the selection mode of the variable display period of the non-reach display mode is different from the case where the table corresponding to non-reach in the other game cycle period table is referred to. Specifically, the second stage time-saving game cycle period A longer variable display period is more likely to be selected than when a non-reach table in the table 314 is referred to, and the normal game period table 312, the third stage time saving game period table 315, and the high probability game A shorter variable display period is more likely to be selected than when the non-reach table in the times period table 316 is referred to. In this case, a period longer than the shortest period (specifically, 3 seconds) of the special figure side is selected as the variable display period of the current game round.

In the situation where the selection process of the variable display period is executed in step S9209 with reference to the game turn period table 314 for the second stage time saving, if a big hit result occurs in this game turn, or the success or failure determination process If the numerical value information corresponding to the reach random number counter C3 in the hold information that is the result of the result is a loss result and is the object of execution corresponds to the occurrence of the loss reach display and the loss reach display occurs in the current game round, this time Numerical information of the variation type counter CS included in the first suspension information or the second suspension information that triggered the execution of the game round of the game round table 314 for the second stage time reduction against the table corresponding to reach By collating, the information of the variable display period of the reach display mode is read. In this case, the selection mode of the variable display period of the reach display mode is different from the case where the reach correspondence table in the other game cycle period tables 312, 313, 315, and 316 is referred to. A longer variable display period is more likely to be selected when the reach correspondence table in the period tables 312, 313, 315, and 316 is referred to. In this case, a period longer than the shortest period (specifically, 3 seconds) on the special figure side is selected as the variable display period of the current game round.

When no big hit result occurs in the current game round and no out-reach display occurs, the second reservation information is the execution target of the game round and two or more second If it is a game round started in a situation where the hold information is stored, the information of the shortest period (specifically 3 seconds) on the special figure side is read as the variable display period of the current game round. As a result, it is possible to increase the efficiency of digesting the game times triggered by the second hold information in the second stages of the time saving states ST1 to ST3. In addition, even if a time saving result occurs in this game round, the second reservation information is the execution target of the game round and two or more pieces of second reservation information are stored in the second special figure reservation area 112 If it is a game round started in a situation, the information of the shortest period (specifically 3 seconds) on the special figure side is read.

On the other hand, in the current game round, when no big win result occurs and no out-reach display occurs, the second reserve information is the execution target of the game round and there is one second reserve in the second special figure reserve area 112. When the game round is started in the state in which the information is stored, or when the big win result does not occur in the current game round and the winning reach display does not occur, the first holding information is the execution object of the game round. If it is, the numerical information of the variation type counter CS included in the first hold information or the second hold information that triggered the execution of the game round this time Information on the variable display period of the non-reach display mode is read out by checking against the reach correspondence table. In this case, the selection mode of the variable display period of the non-reach display mode is different from the case of referring to the non-reach corresponding table in the other game cycle period table, specifically, the other game cycle period tables 312 and 313. , 315 and 316, the longer variable display period is more likely to be selected. In this case, a period longer than the shortest period (specifically, 3 seconds) of the special figure side is selected as the variable display period of the current game round.

In the situation where the selection process of the variable display period is executed in step S9209 with reference to the game cycle period table 315 for the third stage time saving, if a big hit result occurs in this game cycle, or the success or failure determination process If the numerical value information corresponding to the reach random number counter C3 in the holding information that is the result of the result is a loss result and is the object of execution corresponds to the occurrence of the loss reach display, and if the loss reach display occurs in the current game round, this time Numerical information of the variation type counter CS included in the first suspension information or the second suspension information that triggered the execution of the game round in the table corresponding to the reach in the game round period table 315 for the third stage time saving By collating, the information of the variable display period of the reach display mode is read. In this case, the selection mode of the variable display period of the reach display mode is different from the case of referring to the reach correspondence table in the other game cycle period tables 312 to 314, 316, specifically, the other game cycle period table. A longer variable display period is more likely to be selected than when the reach correspondence table at 312-314, 316 is referred to. In this case, a period longer than the shortest period (specifically 3 seconds) of the special figure side is selected as the variable display period of the current game round, and more specifically, a period of 30 seconds or more as the variable display period of the game round is selected.

If no big hit result occurs in this game round and no out-reach display occurs, the type of hold information that triggered the start of the game round and the hold information held and stored in the special figure hold area 84a Regardless of the number, the numerical information of the variation type counter CS included in the first hold information or the second hold information that triggered the execution of the game round this time Information on the variable display period of the non-reach display mode is read out by checking against the reach correspondence table. In this case, the selection mode of the variable display period of the non-reach display mode is different from the case where the non-reach corresponding table in the other game cycle period tables 312 to 314, 316 is referred to. A longer variable display period is more likely to be selected than when the non-reach table in the period tables 312 to 314 and 316 is referred to. In this case, a period longer than the shortest period (specifically 3 seconds) of the special figure side is selected as the variable display period of the current game round, and more specifically, a period of 20 seconds or more as the variable display period of the game round is selected. The period of 20 seconds is longer than the longest period (10 seconds) that can be selected when non-reachable tables in the other game period tables 312-314, 316 are referred to.

With the above configuration, the variable display period of the game cycle in the time saving states ST1 to ST3 tends to be the shortest in the second stage, the second shortest in the first stage, and the longest in the third stage. As a result, in the time-saving states ST1 to ST3, the variable display period of the game round is initially shorter than in the normal game state, and then the variable display period of the game round becomes shorter than before, and in the final game round. It is possible to make the variable display period of the game times longer than the beginning of the time saving states ST1 to ST3.

In particular, in the first stage and the second stage of the time saving states ST1 to ST3, when the big hit result and the out reach display do not occur, the second reservation information is the execution target of the game round and two in the second special figure reservation area 112 If the game round is started in a situation where the above second hold information is stored, the shortest period on the special figure side (specifically 3 seconds) is selected as the variable display period of the current game round. On the other hand, in the third stage, which is the final game round of the time saving state ST1 to ST3, even if the jackpot result and the outreach reach display do not occur, the type of hold information that triggered the start of the game round and the special figure hold area Regardless of the number of pending information stored in 84a, the shortest period (specifically 3 seconds) on the special figure side by referring to the table for non-reach in the game cycle period table 315 for the third stage time saving A longer period is selected as the variable display period of game rounds. As a result, in the final game round of the time saving state ST1 to ST3, as a result of the success or failure determination processing of the game round, the type of hold information that triggered the start of the game round and the hold stored in the special figure hold area 84a Regardless of the number of pieces of information, it is possible to ensure a long variable display period of game rounds.

Here, even if the time saving result is selected in the success/failure determination process (step S805) in the time saving state ST1 to ST3, it is invalid unless it is the final game round of the first time saving state ST1 or the second time saving state ST2. become. In this case, when the variable display period of the game round is selected with reference to the game round period tables 313 to 315 for the first to third stages of time saving, the time saving result is treated in the same way as the off result. , it is possible to make the occurrence of the invalidated time-saving result inconspicuous. In addition, when the time saving result is selected in the final game round of the first time saving state ST1 or the second time saving state ST2, the third time saving state ST3 triggered by the time saving result is generated, but in this case Even so, the variable display period of the game round will be the same variable display period as the loss result in which the reach display does not occur, so the time saving result and the loss result will be selected from the variable display period It is possible to make it difficult for the player to recognize which is which.

FIG. 143 is a flow chart showing prefetching processing executed by the main MPU 82 . It should be noted that the prefetching process is executed instead of step S710 when the second reservation information is stored in the second special figure reservation area 112 in the reservation information acquisition process (FIG. 19) in the time saving state ST1 to ST3.

First of all, it is stored in the execution area 113 for the second reservation information or the special figure that is acquired before the second reservation information acquired this time and is stored in the second special figure reservation area 112 and is not the execution target of the game round It is determined whether or not the first reservation information or the second reservation information, which is the execution target of the game round, corresponds to the occurrence of the big hit result (step S9301). If a negative determination is made in step S9301, a big hit determination process is executed (step S9302). In the jackpot determination process, the numerical value information of the winning random number counter C1 included in the second reservation information acquired this time is collated against the second success/failure table 122 at the time of low probability corresponding to the current setting value. , determines whether or not the second reservation information acquired this time corresponds to the jackpot result. When the second hold information acquired this time corresponds to the jackpot result (step S9303: YES), a prefetch command corresponding to the jackpot is transmitted to the sound and light side MPU 93 (step S9304).

If the second hold information acquired this time does not correspond to the jackpot result (step S9303: NO), the variable display period specifying process (FIG. 141) is executed (step S9305). The processing contents of the variable display period specifying process executed in this case are the same as the processing contents of the variable display period specifying process executed when the game round is started. Then, it is determined whether or not the variable display period specified by the variable display period specifying process corresponds to the variable display period corresponding to the occurrence of the predetermined reach (step S9306). If it corresponds to the variable display period corresponding to the occurrence of the predetermined reach (step S9306: YES), a prefetch command corresponding to the predetermined reach is transmitted to the sound and light side MPU 93 (step S9307).

Predetermined reach refers to a reach display mode that occurs in game rounds that are longer than a predetermined variable display period (specifically, 15 seconds). When a big hit result occurs, the variable display period of the game round is surely longer than the predetermined variable display period (specifically, 15 seconds), so the predetermined reach is surely achieved in the game round when the big win results. will occur.

Although the variable display period corresponding to the occurrence of a predetermined reach is a variable display period that can be selected in any of the first, second, and third stages in the time saving states ST1 to ST3, the selection probability is the first stage. , are different in each of the second and third stages. Specifically, the probability that the variable display period corresponding to the occurrence of the predetermined reach is selected is set to be the highest in the third stage, the next highest in the first stage, and the lowest in the second stage. As already explained, when selecting a variable display period, the numerical information of the variation type counter CS in the hold information that triggered the execution of the game round is collated against the game round period tables 312 to 316. If the probability of selecting the variable display period for the occurrence of reach is different in the first to third stages, even if the numerical information of the variable type counter CS is the same, the game round in any of the first to third stages may or may not be selected depending on whether the variable display period corresponding to the occurrence of the predetermined reach is selected.

When the affirmative determination is made in step S9301 or when the negative determination is made in step S9306, a second hold command is transmitted to the sound and light side MPU 93 (step S9308).

FIG. 144 is a flow chart showing production control processing during time reduction executed by the sound and light side MPU 93 . Incidentally, the effect control process during time saving is repeatedly executed in a relatively short cycle (for example, 4 milliseconds) in the time saving states ST1 to ST3.

In production control processing during time saving, it is determined whether or not a command during time saving is received from the main side MPU 82 (step S9401). During the time saving command is transmitted from the main side MPU 82 to the sound and light side MPU 93 in step S9115 in the time saving subtraction process (FIG. 139) as already described. Each of the value of the counter 326 for state determination and the value of the state continuation counter 327 is set to the command during time saving as already demonstrated. In other words, the type of stage of the time saving state ST1 to ST3 after the time saving progress process (FIG. 134) is executed at the main side MPU 82 after one game round is completed set in the command.

If the time saving command is received (step S9401: YES), the value of the state determination counter 326 set in the time saving command is read (step S9402), and the read value of the state determination counter 326 is It is determined whether or not the value of the state determination counter 326 set in the previously received time saving command has changed (step S9403). The value of the state determination counter 326 set in the previously received time-saving medium command is stored in the sound and light side RAM 95 . When an affirmative determination is made in step S9403, change processing of base effect is executed (step S9404).

The base effect is a basic effect executed by the pattern display device 41, the display light emitting unit 64 and the speaker unit 65, and the base effect is used as it is in the game cycle effect executed in the game cycle. There is In the first stage of the time saving state ST1, the base effect of the first stage is executed by the pattern display device 41, the display light emitting section 64 and the speaker section 65. In this case, the character display corresponding to the first stage is performed in front of the background image corresponding to the first stage on the pattern display device 41 . When the game-play effect is executed in the first stage, the background image corresponding to the first stage is displayed and the character display corresponding to the first stage is performed. The variable display of the pattern in Z3 is performed.

In the change processing of the base production, when it is specified that the change from the first stage to the second stage of the time saving states ST1 to ST3 has occurred, the base production of the second stage of the time saving states ST1 to ST3 is the pattern display device. 41, the display light emitting unit 64 and the speaker unit 65 execute processing. In this case, the character display corresponding to the second stage is performed on the pattern display device 41 in front of the background image corresponding to the second stage. When the game-play effect is executed in the second stage, the background image corresponding to the second stage is displayed and the character display corresponding to the second stage is performed. The variable display of the pattern in Z3 is performed. Further, in the change processing of the base production, when it is specified that the change from the second stage to the third stage of the time saving states ST1 to ST3 has occurred, the base production of the third stage of the time saving states ST1 to ST3 is the pattern. Processing is executed to be executed by the display device 41, the display light emitting unit 64, and the speaker unit 65. FIG. In this case, the character display corresponding to the third stage is performed on the pattern display device 41 in front of the background image corresponding to the third stage. When the game-play effect is executed in the third stage, the background image corresponding to the third stage is displayed and the characters corresponding to the third stage are displayed. The variable display of the pattern in Z3 is performed.

If a negative determination is made in step S9403 or if the process of step S9404 is executed, the number of times storage process is executed (step S9405). In the number-of-times storage processing, the value of the state continuation counter 327 set in the time-shortening command received this time is set in the performance-side state continuation counter provided in the sound and light side RAM 95 . As a result, it becomes possible for the sound and light side MPU 93 to specify the remaining number of continuations in the current stage of the time saving states ST1 to ST3.

In the production control process during time saving, it is determined whether or not a prefetch command corresponding to the big hit is received from the main side MPU 82 (step S9406). The prefetch command corresponding to the jackpot is transmitted from the main side MPU 82 to the sound and light side MPU 93 in step S9304 in the prefetching process (FIG. 143) as already described. When the prefetch command corresponding to the big hit is received (step S9406: YES), the reservation lottery process corresponding to the big win is executed (step S9407). The content of the reservation lottery process corresponding to the jackpot will be described later.

It is determined whether or not the look-ahead command corresponding to the predetermined reach is received from the main side MPU 82 in the production control process during time saving (step S9408). The prefetch command corresponding to the predetermined reach is transmitted from the main side MPU 82 to the sound and light side MPU 93 in step S9307 in the prefetching process (FIG. 143) as already explained. If the prefetch command corresponding to the predetermined reach is received (step S9408: YES), on condition that the value of the effect side state continuation counter in the sound and light side RAM 95 is 5 or more (step S9409: NO), the predetermined reach corresponding hold lottery process (step S9410). The content of the reservation lottery process corresponding to the predetermined reach will be described later.

It is determined whether or not the second pending command is received from the main side MPU 82 in the production control process during time saving (step S9411). As already explained, the second hold command is transmitted from the main side MPU 82 to the sound and light side MPU 93 in step S9308 in the look-ahead processing (FIG. 143). If the second hold command has been received (step S9411: YES), normal hold is selected (step S9412). Also, when a prefetch command corresponding to a predetermined reach is received and the value of the effect side state continuation counter in the sound and light side RAM 95 is 4 or less (step S9408 and step S9409: YES), normal hold display is selected (step S9412).

If the processing of step S9407, step S9410 or step S9412 has been executed, a hold increase setting processing is executed (step S9413). In the pending increase setting process, a process for increasing the second pending images G21 and G22 in the second pending display area 42b in the pattern display device 41 is executed. The second reserved images G21 and G22 in the second reserved display area 42b will be described below.

FIG. 145 is an explanatory diagram for explaining the display contents of the pattern display device 41 in the time saving states ST1 to ST3. In addition, in FIG. 145, the display of the background image corresponding to each stage of the time saving state ST1 to ST3 and the display of the character corresponding to each stage are omitted.

In addition to the pattern rows Z1 to Z3 and the state suggestion region 43, a second holding display region 42b is set on the display surface of the pattern display device 41 in the time saving states ST1 to ST3. The number of second pending images G21 and G22 corresponding to the number of second pending information is displayed in the second pending display area 42b. In other words, if the number of second pending information stored is zero, the second pending images G21 and G22 are not displayed in the second pending display area 42b. In addition, if the number of the second reserved information that has been reserved and stored is one, one second reserved image G21, G22 is displayed, and if the number of the second reserved information that has been reserved and stored is two, the second reserved image G21, G22 is displayed. Two 2-hold images G21 and G22 are displayed, and if the number of second hold information held and stored is three, three second hold images G21 and G22 are displayed and the second hold stored hold If the number of pieces of information is four, four second reserved images G21 and G22 are displayed. When a plurality of second reserved images G21 and G22 are displayed, the plurality of second reserved images G21 and G22 are displayed side by side at regular intervals. Further, when the number of the second reserved information held and stored increases, the second reserved images G21 and G22 are displayed so as to increase toward the right, and the second reserved information serves as a trigger for starting the game cycle. When the number of the second pending information stored is reduced, the second pending images G21 and G22 are displayed so as to decrease toward the left.

Sound and light side MPU93 in the time saving state ST1 ~ ST3 when receiving any of the prefetch command corresponding to the jackpot, the prefetch command corresponding to the predetermined reach and the second hold command, the second hold image G21, G22 in the second hold display area 42b increase the number of In addition, when prefetching is won in the reservation lottery process corresponding to the big hit executed when the prefetch command corresponding to the big hit is received, or when the prefetch command corresponding to the predetermined reach is received, the reserved lottery corresponding to the predetermined reach is executed. If the processing results in a prefetch winning, the special pending display is selected as the display mode of the second pending images G21 and G22 to be increased. In this case, in the reserved lottery process corresponding to the big win, the prefetching win is made with a probability of 1/2, and in the reserved lottery process corresponding to the predetermined reach, the prefetching win is made with a probability of 1/3. In addition, if the prefetching winning is not achieved in the reservation lottery process corresponding to the big hit executed when the prefetch command corresponding to the big hit is received, the reservation corresponding to the predetermined reach executed when the prefetch command corresponding to the predetermined reach is received. If the lottery process does not result in a pre-reading win, or if the second hold command is received, the normal hold display is selected as the display mode of the second hold images G21 and G22 to be increased.

In an example of the second reserved display area 42b in FIG. 145, the three second reserved images G21 from the left are the normal reserved display, and the rightmost one second reserved image G22 is the special reserved display. ing. As already explained, since the variation display period of the game round corresponding to the jackpot result is longer than the predetermined variation display period (specifically, 15 seconds), a predetermined ready-to-win display mode occurs, and it corresponds to the losing reach-to-win display. Even if it is a game round, if the variable display period is equal to or longer than a predetermined variable display period (specifically, 15 seconds), a predetermined ready-to-win display mode is generated. Then, when the second suspension information corresponding to the jackpot result is acquired or when the second suspension information corresponding to the outlier reach display that is longer than the predetermined fluctuation display period is acquired, the second suspension images G21 and G22 It can be a special hold indication. Therefore, the player confirms that the second reserved image G22, which is a special reserved display, appears in the second reserved display area 42b, so that at least a predetermined ready-to-win display is performed in the game round corresponding to the second reserved image G22. Be confident that the aspect will occur and expect the jackpot outcome to occur.

Here, even if the sound and light side MPU 93 receives the prefetch command corresponding to the predetermined reach in the time saving production control process (FIG. 144), the value of the production side continuation counter of the sound and light side RAM 95 is 4 or less, that is, the time saving state ST1 ~ When the remaining number of continuations of the current stage in ST3 is 4 times or less, without executing the holding lottery process corresponding to the predetermined reach (step S9410), the display mode of the second holding images G21 and G22 to be increased this time is normal Select Hold Display. As already explained, when selecting the variable display period, the numerical information of the variation type counter CS in the hold information that triggered the execution of the game round is collated against the game round period tables 312 to 316. Since the probability of selecting the variable display period for the occurrence of reach is different in the first to third stages, even if the numerical information of the variable type counter CS is the same, the game round in any of the first to third stages may or may not be selected depending on whether the variable display period corresponding to the occurrence of the predetermined reach is selected.

In this case, the second hold information acquired when the remaining number of continuations of the current stage in the time saving state ST1 to ST3 is 4 times or less is the occurrence of a predetermined reach in the stage in the time saving state ST1 to ST3 at that time Even if it corresponds to the variable display period corresponding to , it is possible that it is in a different stage in the time saving state ST1 to ST3 or a game state other than the time saving state ST1 to ST3 when the game round is actually executed. In such a case, there is a possibility that the variable display period corresponding to the occurrence of the predetermined reach may not be selected in the actual game round. In a situation where a mismatch may occur between the variable display period read ahead when acquiring the second pending information and the variable display period selected in the game round for which the second pending information is to be executed, the second If the special pending display is executed in the second pending images G21 and G22 on the basis of the content of the variable display period prefetched when the pending information is acquired, the special pending display is executed despite the execution of the special pending display. There is a possibility that a discrepancy may occur that the predetermined reach does not actually occur in the game round of the second hold information that is the execution target of . On the other hand, when the current remaining number of continuations in the time saving states ST1 to ST3 is 4 or less, even if a prefetch command corresponding to a predetermined reach is received, the normal hold display is forcibly selected. By doing so, it is possible to prevent the occurrence of mismatches as described above.

In particular, in the time saving states ST1 to ST3, the value of the state continuation counter 327 that stores the remaining number of continuations in the current stage of the time saving states ST1 to ST3 is set to the time saving medium command, and the time saving medium command is the main side MPU 82 to the sound and light side MPU 93. Then, the sound and light side MPU 93 sets the value of the state continuation counter 327 set in the time saving command to the effect side state continuation counter of the sound and light side RAM 95, and when the prefetch command corresponding to the predetermined reach is received, the effect side If the value of the state continuation counter is 4 or less, the normal hold display is forcibly selected. As a result, in the sound and light side MPU 93, when determining whether to forcibly select the normal hold display when a prefetch command corresponding to a predetermined reach is received, for example, from the remaining number of continuations of the time saving state ST1 to ST3 It is not necessary to execute a process for deriving the remaining number of continuations in the current stage, or the like, and it is only necessary to refer to the performance side state continuation counter storing the value of the state continuation counter 327 set in the time saving command. Therefore, it is possible to reduce the processing load for preventing the occurrence of mismatches as described above.

Next, it will be described with reference to the time chart of FIG. 146 how the execution of the special hold display is restricted when the prefetch command corresponding to the predetermined reach is received. Figure 146 (a) shows the period of the first time saving state ST1, Figure 146 (b) shows the period of the third time saving state ST3, Figure 146 (c) shows the state of the state continuation counter 327, 146(d) shows the state of the state determination counter 326, and FIG. 146(e) shows the period during which the execution of the special hold display is restricted when the prefetch command corresponding to the predetermined reach is received.

First, the case of being in the first time saving state ST1 will be described.

At the timing of t1, the first time saving state ST1 is started as shown in FIG. 146(a). In this case, as shown in FIG. 146(c), the state continuation counter 327 is set to "20", which is the number of continuations of the first stage, and the state judgment counter 326 is set to the second state as shown in FIG. 146(d). It is set to "1", which corresponds to one step. And the value of the state continuation counter 327 gradually decreases as shown in FIG.

After that, at the timing of t2, as shown in FIG. 146(c), the value of the state continuation counter 327 becomes 4 times or less, which is the restricted number of special hold display, so that as shown in FIG. 146(e) Pre-reading restriction period. Even if the sound and light side MPU 93 receives a prefetch command corresponding to a predetermined reach during the prefetch restriction period, the display mode of the second hold images G21 and G22 whose display is started upon reception of the command is forced to be normal. It will be displayed on hold.

After that, at timing t3, the value of the state continuation counter 327 becomes "0" as shown in FIG. ” to “2”. Thereby, the stage of the first time saving state ST1 is changed from the first stage to the second stage. In this case, "79" is set in the state continuation counter 327 and becomes a value of 5 or more, so the prefetching restriction period is canceled as shown in FIG. 146(e). Therefore, when the prefetch command corresponding to the predetermined reach is received by the sound and light side MPU 93, the special hold display is selected as the display mode of the second hold images G21 and G22 whose display is started with the reception of the command as a trigger. obtain.

After that, at the timing of t4, as shown in FIG. 146(c), the value of the state continuation counter 327 becomes 4 times or less, which is the restricted number of special hold display, so that as shown in FIG. 146(e) Pre-reading restriction period. Even if the sound and light side MPU 93 receives a prefetch command corresponding to a predetermined reach during the prefetch restriction period, the display mode of the second hold images G21 and G22 whose display is started upon reception of the command is forced to be normal. It will be displayed on hold.

After that, at timing t5, the value of the state continuation counter 327 becomes "0" as shown in FIG. ” to “3”. Thereby, the stage of the first time saving state ST1 is changed from the second stage to the third stage. In this case, "1" is set in the state continuation counter 327, and the value of the state continuation counter 327 is maintained at 4 or less even if the state is changed to the third stage. The lookahead limit period is maintained as follows. Therefore, even if the prefetch command corresponding to the predetermined reach is received by the sound and light side MPU 93 in the situation of the third stage, the display mode of the second hold images G21 and G22 whose display is started with the reception of the command as a trigger is Forced normal hold display.

After that, at the timing of t6, the value of the state continuation counter 327 becomes "0" as shown in FIG. As shown in (e), the read-ahead restriction period is canceled. However, in the normal game state, the processing itself for changing the display mode of the second reserved images G21 and G22 to the special reserved display is not performed, so even if the second reserved information is acquired, it corresponds to the second reserved information. The display mode of the second pending images G21 and G22 is normal pending display. In addition, since the look-ahead restriction period is started at the stage where the remaining number of continuations is 4 times or less in the second stage of the first time saving state ST1, the second suspension corresponding to the second suspension information that does not correspond to the jackpot result The normal game state is not started in a situation where the special hold display is being performed as the images G21 and G22.

Next, the case where it is 3rd time saving state ST3 is demonstrated.

At the timing of t7, the third time saving state ST3 is started as shown in FIG. 146(b). In this case, as shown in FIG. 146(c), the state continuation counter 327 is set to "20", which is the number of continuations of the first stage, and the state judgment counter 326 is set to the second state as shown in FIG. 146(d). It is set to "1", which corresponds to one step. Then, the value of the state continuation counter 327 is gradually decreased as shown in FIG. 146(c) by repeating the game cycle in the first stage of the third time saving state ST3.

After that, at the timing of t8, as shown in FIG. 146(c), the value of the state continuation counter 327 becomes 4 times or less, which is the restricted number of special hold display, and as shown in FIG. 146(e) Pre-reading restriction period. Even if the sound and light side MPU 93 receives a prefetch command corresponding to a predetermined reach during the prefetch restriction period, the display mode of the second hold images G21 and G22 whose display is started upon reception of the command is forced to be normal. It will be displayed on hold.

After that, at timing t9, the value of the state continuation counter 327 becomes "0" as shown in FIG. ” to “2”. Thereby, the stage of the third time saving state ST3 is changed from the first stage to the second stage. In this case, "29" is set in the state continuation counter 327 and becomes a value of 5 or more, so the prefetching restriction period is canceled as shown in FIG. 146(e). Therefore, when the prefetch command corresponding to the predetermined reach is received by the sound and light side MPU 93, the special hold display is selected as the display mode of the second hold images G21 and G22 whose display is started with the reception of the command as a trigger. obtain.

After that, at the timing of t10, as shown in FIG. 146(c), the value of the state continuation counter 327 becomes 4 times or less, which is the restricted number of special hold display, so that as shown in FIG. 146(e) Pre-reading restriction period. Even if the sound and light side MPU 93 receives a prefetch command corresponding to a predetermined reach during the prefetch restriction period, the display mode of the second pending images G21 and G22, which are started to be displayed upon receipt of the command, is forcibly changed. The display is normally held.

After that, at timing t11, the value of the state continuation counter 327 becomes "0" as shown in FIG. ” to “3”. Thereby, the stage of the third time saving state ST3 is changed from the second stage to the third stage. In this case, "1" is set in the state continuation counter 327, and the value of the state continuation counter 327 is maintained at 4 or less even if the state is changed to the third stage. The lookahead limit period is maintained as follows. Therefore, even if the prefetch command corresponding to the predetermined reach is received by the sound and light side MPU 93 in the situation of the third stage, the display mode of the second hold images G21 and G22 whose display is started with the reception of the command as a trigger is Forced normal hold display.

After that, at the timing of t12, the value of the state continuation counter 327 becomes "0" as shown in FIG. As shown in (e), the read-ahead restriction period is canceled. However, in the normal game state, the processing itself for changing the display mode of the second reserved images G21 and G22 to the special reserved display is not performed, so even if the second reserved information is acquired, it corresponds to the second reserved information. The display mode of the second pending images G21 and G22 is normal pending display. In addition, since the look-ahead restriction period is started at the stage when the remaining number of continuations is 4 times or less in the second stage of the third time saving state ST3, the second suspension corresponding to the second suspension information that does not correspond to the jackpot result The normal game state is not started in a situation where the special hold display is being performed as the images G21 and G22.

According to the embodiment detailed above, the following excellent effects are obtained.

By setting the first time saving state ST1, the second time saving state ST2 and the third time saving state ST3 as the time saving state, it is possible to diversify the time saving states ST1 to ST3. In this case, the priority of the first time saving state ST1 is the highest, the second time saving state ST2 is the second highest, and the priority in the case of being an execution target is set so that the third time saving state ST3 is the lowest. . As a result, in the configuration in which each of the first time saving state ST1, the second time saving state ST2, and the third time saving state ST3 occurs at an arbitrary timing, the types of time saving states ST1 to ST3 that occur preferentially are selected in the pachinko machine. It is possible to have 10 design stages.

Even if the game cycle corresponding to the time saving result which is the trigger for the generation of the third time saving state ST3 is executed in the first time saving state ST1, the first time saving state ST1 is maintained, and the second time saving state ST2 corresponds to the time saving result. The second time saving state ST2 is maintained even if the game round is executed. As a result, it is possible to prevent the first time saving state ST1 and the second time saving state ST2 from ending halfway due to the occurrence of the game cycle corresponding to the time saving result.

In particular, the first time-saving state ST1 is a high-probability mode on the side of the general pattern in the general-pattern suitability determination process, whereas the third time-saving state ST3 is a low-probability mode on the general pattern side in the general pattern suitability determination process. As for the mode of execution of the support mode, the first time saving state ST1 is more advantageous for the player than the third time saving state ST3. In this case, by maintaining the first time saving state ST1 even if the game round corresponding to the time saving result is executed in the first time saving state ST1, the first time saving in which the execution mode of the support mode is advantageous. It becomes possible to give priority to the execution of the state ST1.

In the third time saving state ST3, when the ceiling number of game rounds is completed, the third time saving state ST3 ends halfway and the second time saving state ST2 is started. Thereby, it becomes possible to give priority to execution of 2nd time saving state ST2 rather than 3rd time saving state ST3.

In particular, the second time saving state ST2 has a continuation count of 150 times, whereas the third time saving state ST3 has a continuation count of 50 times, so the second time saving state ST2 is more advantageous than the third time saving state ST3. is. In this case, the second time saving state in which the end condition is advantageous to the player by starting the second time saving state ST2 when the ceiling number of game rounds is completed in the third time saving state ST3. It becomes possible to give priority to the execution of ST2.

When the opening/closing execution mode triggered by the 5R low probability result ends, the game moves to the first time saving state ST1, and the first time saving state ST1 ends when 100 game rounds are completed. Further, when the game round is executed 900 times as the ceiling number after the opening/closing execution mode ends, the game shifts to the second time saving state ST2. Therefore, the generation|occurrence|production opportunity of 2nd time saving state ST2 does not generate|occur|produce in the middle of 1st time saving state ST1. Therefore, even if the first time saving state ST1 has a higher priority of execution than the second time saving state ST2, the second time saving state ST2 occurs in the middle of the first time saving state ST1. is invalidated.

When the game times of the ceiling number of times are completed, the opening/closing execution mode is not generated and the second time saving state ST2 is started, and when the game times corresponding to the time saving results are executed, the opening/closing execution mode is generated. Without this, the third time saving state ST3 is started. As a result, it is possible to give the player the impression that a situation has suddenly occurred in which the game ball is more likely to enter the second operation opening 34 than in the normal game state. In this case, when the second time saving state ST2 is started or when the third time saving state ST3 is started, the second unit area 343 corresponding to the external terminal 333 for the second jackpot signal in the external output buffer 341 is set to "1", the output state of the second jackpot signal through the external terminal 333 for the second jackpot signal is switched from LOW level to HI level. As a result, even if the transition to the time saving states ST2 and ST3 occurs without transitioning to the opening/closing execution mode, the hall computer HC of the game hall can grasp that the transition has occurred, so the time saving state ST2. , and ST3, even if an act that illegally generates a state such as ST3 is performed, the manager of the game hall can grasp it.

When the output state of the second jackpot signal becomes HI level triggered by the second time saving state ST2 or the third time saving state ST3, the output state of the second jackpot signal by the lapse of 500 milliseconds, which is the ON duration. is switched to LOW level, the output state of the second jackpot signal becomes LOW level in the middle of the time saving states ST2 and ST3. As a result, even when a plurality of time saving states ST2 and ST3 continue without intervening a normal game state, the second jackpot signal goes from LOW level to HI for each of the plurality of time saving states ST2 and ST3. Switching to a level can occur.

The ON continuation period is a period shorter than the minimum period (for example, 2 seconds) required to complete one game round. Therefore, it is possible to prevent the occurrence of a new opportunity to change the output state of the second jackpot signal to HI level in a situation where the output state of the second jackpot signal is HI level.

Also in the opening and closing execution mode, by setting "1" in the second unit area 343 corresponding to the external terminal 333 for the second jackpot signal in the external output buffer 341, the second jackpot signal through the external terminal 333 for the second jackpot signal 2 The output state of the jackpot signal becomes HI level. Thereby, using the external terminal 333 for the second jackpot signal, the hall computer HC of the game hall not only moves to the opening/closing execution mode but also moves to the second time saving state ST2 or the third time saving state ST3. It is possible to grasp

In the opening and closing execution mode, the output state of the second jackpot signal is maintained at HI level from the start to the end, whereas in the second time saving state ST2 or the third time saving state ST3, when the ON continuation period has passed, the second 2 The output state of the jackpot signal is switched from HI level to LOW level. As a result, the output state of the second jackpot signal is set to HI level regardless of whether the shift to the opening/closing execution mode or the shift to the time-saving states ST2 and ST3 occurs. In the hall computer HC of the hall, it is possible to specify which of the opening/closing execution mode and the time saving state ST2, ST3 corresponds to the period during which the output state of the second jackpot signal is maintained at the HI level.

The external terminal plate 331 is provided with an external terminal 332 for the first jackpot signal separately from the external terminal 333 for the second jackpot signal, and the first jackpot signal output from the external terminal 332 indicates the jackpot result. The output state is HI level during the period of the triggered opening/closing execution mode, and the output state is LOW level in other situations. As a result, a game hall with few signal paths that can be electrically connected to the external terminals 332 to 339 of one pachinko machine 10 has the external terminal 332 for the first jackpot signal and the external terminal for the second jackpot signal. It is possible to select the external terminals 332 and 333 of the terminals 333 that are suitable for managing the pachinko machine 10 as objects to be electrically connected to the hall computer HC.

In the third time saving state ST3, when the game times of the ceiling number of times are consumed, the third time saving state ST3 ends in the middle and the second time saving state ST2 is started, but this second time saving state ST2 Also at the start, the output state of the second jackpot signal becomes HI level over the ON continuation period (specifically, 500 milliseconds). In addition, when the game cycle corresponding to the result of time saving ends in the third time saving state ST3, the third time saving state ST3 ends halfway and the third time saving state ST3 is newly started. At the new start of the third time-saving state ST3, the output state of the second jackpot signal becomes HI level over the ON continuation period (specifically, 500 milliseconds). As a result, when the time saving states ST2 and ST3 are newly set, the output state of the second jackpot signal is switched from the LOW level to the HI level, and the time saving states ST2 and ST3 are newly set. It is possible to grasp what has been done in the hall computer HC.

A plurality of stages are set in the time saving states ST1 to ST3 according to the range of the number of game times completed. Specifically, the stage includes a first stage, a second stage, and a third stage. The stage when started in any of the first to third time saving states ST1 to ST3 is the first stage. The first stage continues until 20 game rounds are completed in any of the first to third time saving states ST1 to ST3. When the first step ends in any of the first to third time saving states ST1 to ST3, the second step is performed. The second stage continues until 79 game times are digested in the first time saving state ST1, continues until 129 game times are digested in the second time saving state ST2, and continues until the third time saving state ST2. If it is in the state ST3, it continues until 29 game rounds are completed. When the second stage ends in any of the first to third time saving states ST1 to ST3, the third stage is reached. The third step ends when one game cycle is completed in any of the first to third time saving states ST1 to ST3. In any of the first to third time saving states ST1 to ST3, the last game round is the third step. Depending on each of these stages, the manner in which the content of execution of the game cycle effect is determined changes. As a result, it is possible to diversify the execution contents of the game cycle effects in the time saving states ST1 to ST3 in accordance with the progress of the time saving states ST1 to ST3.

The variable display period of game rounds in the time saving states ST1 to ST3 tends to be the shortest in the second stage, the second shortest in the first stage, and the longest in the third stage. As a result, in the time-saving states ST1 to ST3, the variable display period of the game round is initially shorter than in the normal game state, and thereafter the variable display period of the game round becomes shorter than before, and in the final game round. It is possible to make the variable display period of the game cycle longer than the beginning of the time saving states ST1 to ST3.

In particular, in the first stage and the second stage of the time saving states ST1 to ST3, when the big hit result and the out reach display do not occur, the second reservation information is the execution target of the game round and two in the second special figure reservation area 112 If the game round is started in a situation where the above second hold information is stored, the shortest period on the special figure side (specifically 3 seconds) is selected as the variable display period of the current game round. On the other hand, in the third stage, which is the final game round of the time saving state ST1 to ST3, even if the jackpot result and the outreach reach display do not occur, the type of hold information that triggered the start of the game round and the special figure hold area Regardless of the number of pending information stored in 84a, the shortest period (specifically 3 seconds) on the special figure side by referring to the non-reach table in the game cycle period table 315 for the third stage time saving A longer period is selected as the variable display period of game rounds. As a result, in the final game round of the time saving state ST1 to ST3, as a result of the success or failure determination process of the game round, the type of hold information that triggered the start of the game round and the hold stored in the special figure hold area 84a Regardless of the number of pieces of information, it is possible to ensure a long variable display period of game rounds.

Even if the time saving result is selected in the success/failure determination process (step S805) in the time saving state ST1 to ST3, it is invalidated unless it is the final game round of the first time saving state ST1 or the second time saving state ST2. . In this case, when the variable display period of the game round is selected with reference to the game round period tables 313 to 315 for the first to third stages of time saving, the time saving result is treated in the same way as the off result. , it is possible to make the occurrence of the invalidated time-saving result inconspicuous. In addition, when the time saving result is selected in the final game round of the first time saving state ST1 or the second time saving state ST2, the third time saving state ST3 triggered by the time saving result is generated, but in this case Even so, the variable display period of the game round will be the same variable display period as the loss result in which the reach display does not occur, so the time saving result and the loss result will be selected from the variable display period It is possible to make it difficult for the player to recognize which is which.

A state determination counter 326 is provided in the main side RAM 84, and "1" is set to the state determination counter 326 in the first stage of the time saving states ST1 to ST3, and state determination in the second stage of the time saving states ST1 to ST3. "2" is set to the counter 326 for use, and "3" is set to the counter 326 for state determination in the third stage of the time saving states ST1 to ST3. Then, in the variable display period specifying process (FIG. 141) in the main MPU 82, the game cycle period tables 313 to 315 corresponding to the value of the state determination counter 326 are read out and the variable display period of the game cycle is selected. This makes it possible to reduce the processing load for selecting the variable display period of game times.

The information corresponding to the first stage, the information corresponding to the second stage, and the information corresponding to the third stage in the state determination counter 326 are set as numerical information having serial numbers "1" to "3". As a result, the above excellent effect can be obtained without setting flag areas individually for the information corresponding to the first stage, the information corresponding to the second stage, and the information corresponding to the third stage. becomes possible.

When reading the game cycle period tables 313 to 315 corresponding to the respective stages of the time saving states ST1 to ST3 from the game cycle period address table 311, the value of the state determination counter 326 is set as an offset value, and the offset value is used in the game cycle By adding to the start address of the period address table 311, the address corresponding to the game cycle period tables 313 to 315 to be read is calculated. Then, based on the start address stored in the storage area corresponding to that address, the game cycle period tables 313 to 315 are read. As a result, in the game state other than the high probability state, the value indicating the game state stored in the state determination counter 326 is used as the offset value as it is. It becomes possible to read the starting address of 312-315. Therefore, it is possible to simplify the configuration for reading out the game cycle period tables 312 to 315 in each stage of the time saving states ST1 to ST3. In particular, in the time-saving states ST1 to ST3, the values corresponding to each stage are stored in the state determination counter 326, but since this value is the offset value as it is, each stage of the time-saving states ST1 to ST3 is specified. It is possible to read out the game cycle period tables 313 to 315 by using the information for playing.

When each stage of the time saving state ST1 to ST3 is started, the number of continuations corresponding to the stage to be started is set in the state continuation counter 327. The value set in the state continuation counter 327 is decremented by 1 each time a game cycle is executed, and when the value of the state continuation counter 327 after the decrement of 1 becomes "0", the current stage is the first stage. Or if it is the second stage, it shifts to the next stage, and if the current stage is the third stage, the time saving state ST1 to ST3 ends and shifts to the normal game state. As a result, it is possible to simplify the processing configuration for specifying the end trigger of each stage in the time saving states ST1 to ST3.

A command during time saving including the value of the state continuation counter 327 is transmitted from the main side MPU 82 to the sound and light side MPU 93 . As a result, the sound and light side MPU 93 can grasp the progress of each stage, and can control the performance according to the progress of each stage.

The time saving command includes not only the information of the state continuation counter 327 but also the information of the state determination counter 326 that stores information indicating which stage of the time saving states ST1 to ST3 is set. Thereby, the sound and light side MPU 93 can grasp which stage of the time saving state ST1 to ST3 is based on the time saving command, and can grasp the progress of the grasped stage.

Even if the sound and light side MPU 93 receives the prefetch command corresponding to the predetermined reach in the time saving production control process (FIG. 144), if the value of the production side continuation counter of the sound and light side RAM 95 is 4 or less, that is, in the time saving state ST1 to ST3 When the number of remaining continuations in the current stage is 4 times or less, the normal hold display is used as the display mode of the second hold images G21 and G22 to be increased this time without executing the hold lottery process corresponding to the predetermined reach (step S9410). select. When selecting the variable display period, the numeric information of the variable type counter CS in the hold information that triggered the execution of the game round is collated against the game round period tables 312 to 316, but a predetermined reach occurs. If the probability of selecting the variation display period for is different in the first to third stages, even if the numerical information of the variation type counter CS is the same, the game round is executed in any of the first to third stages. A variable display period corresponding to the occurrence of a predetermined reach may or may not be selected depending on whether the period is selected or not.

In this case, the second hold information acquired when the remaining number of continuations of the current stage in the time saving state ST1 to ST3 is 4 times or less is the occurrence of a predetermined reach in the stage in the time saving state ST1 to ST3 at that time Even if it corresponds to the variable display period corresponding to , it is possible that it is in a different stage in the time saving state ST1 to ST3 or a game state other than the time saving state ST1 to ST3 when the game round is actually executed. In such a case, there is a possibility that the variable display period corresponding to the occurrence of the predetermined reach may not be selected in the actual game round. In a situation where a mismatch may occur between the variable display period read ahead when acquiring the second pending information and the variable display period selected in the game round for which the second pending information is to be executed, the second If the special pending display is executed in the second pending images G21 and G22 on the basis of the content of the variable display period prefetched when the pending information is acquired, the special pending display is executed despite the execution of the special pending display. There is a possibility that a mismatch occurs that the predetermined reach does not actually occur in the game round of the second reservation information that is the execution target of . On the other hand, when the current remaining number of continuations in the time saving states ST1 to ST3 is four times or less, even if a prefetch command corresponding to a predetermined reach is received, the normal hold display is forcibly selected. By doing so, it is possible to prevent the occurrence of the discrepancy as described above.

In particular, in the time saving states ST1 to ST3, the value of the state continuation counter 327 that stores the remaining number of continuations in the current stage of the time saving states ST1 to ST3 is set to the time saving medium command, and the time saving medium command is the main side MPU 82 to the sound and light side MPU 93. Then, the sound and light side MPU 93 sets the value of the state continuation counter 327 set in the time saving command to the effect side state continuation counter of the sound and light side RAM 95, and when the prefetch command corresponding to the predetermined reach is received, the effect side If the value of the state continuation counter is 4 or less, the normal hold display is forcibly selected. As a result, in the sound and light side MPU 93, when determining whether to forcibly select the normal hold display when a prefetch command corresponding to a predetermined reach is received, for example, from the remaining number of continuations of the time saving state ST1 to ST3 It is not necessary to execute a process for deriving the remaining number of continuations in the current stage, or the like, and it is only necessary to refer to the performance side state continuation counter storing the value of the state continuation counter 327 set in the time saving command. Therefore, it is possible to reduce the processing load for preventing the occurrence of mismatches as described above.

<Another form of the fifteenth embodiment>
(1) In the fifteenth embodiment, regarding the priority of execution of the time saving states ST1 to ST3, the priority of the third time saving state ST3 is lower than the first time saving state ST1 and the second time saving state ST2. It is not limited to this. For example, as shown in the explanatory diagram of FIG. 147(a), the priority of the third time saving state ST3 may be lower than the second time saving state ST2 and higher than the first time saving state ST1. In this case, even if the time saving result occurs in the middle of the second time saving state ST2 as in the first embodiment, the occurrence of the time saving result is invalidated and the second time saving state ST2 continues and the third time saving state When the digestion of the ceiling number of games is completed in the middle of ST3, the third time saving state ST3 ends and the second time saving state ST2 is started, while the time saving result is in the middle of the first time saving state ST1. occurs, the first time saving state ST1 ends and the third time saving state ST3 is started. The support mode of the first time saving state ST1 is the first high frequency support mode, while the support mode of the third time saving state ST3 is per unit time. This is the second high-frequency support mode in which the degree of expectation for the ratio of the current state is lower than that of the first high-frequency support mode. Therefore, the player expects that the time saving result does not occur in a situation where the remaining number of continuations of the first time saving state ST1 is at least greater than the number of continuations of the third time saving state ST3, and the rest of the first time saving state ST1 is sufficiently smaller than the number of continuations of the third time saving state ST3, the player expects that the time saving result will occur.

By the way, even if the priority of the execution of the third time saving state ST3 is higher than the first time saving state ST1 in this way, when the opening and closing execution mode triggered by the jackpot result occurs, the third time saving state ST3 All the time-saving states ST1 to ST3 are terminated once. In this case, when the game round corresponding to the 5R low probability result is executed in the middle of the third time saving state ST3, the third time saving state ST3 ends in the middle due to the occurrence of the opening and closing execution mode, and the opening and closing execution mode ends. 1st time saving state ST1 will be newly started later.

In addition, instead of the above configuration, the priority of the third time saving state ST3 may be lower than the first time saving state ST1 and higher than the second time saving state ST2. In this case, as in the first embodiment, even if the time saving result occurs in the middle of the first time saving state ST1, the occurrence of the time saving result is invalidated and the first time saving state ST1 continues. When the time saving result occurs in the middle of the second time saving state ST2, the second time saving state ST2 is terminated and the third time saving state ST3 is started, and the ceiling number of games is digested in the middle of the third time saving state ST3. Even if is completed, the third time saving state ST3 continues without the second time saving state ST2 being started.

(2) As shown in the explanatory diagram of FIG. 147 (b), there are the first time saving result and the second time saving result as the time saving result, and when the first time saving result is obtained, the first implementation The 3A time saving state ST31 similar to the 3rd time saving state ST3 in the form occurs, and when the second time saving result is obtained, the support mode is the second high frequency support mode and the number of continuations is from the 3A time saving state ST31 It is good also as a structure which the 3B time saving state ST32 which becomes 110 times which is the number of times which is the large number generate|occur|produces. In this case, the execution priority of the 3A time saving state ST31 is set higher than the first time saving state ST1, the second time saving state ST2 and the 3B time saving state ST32, and the execution priority of the 3B time saving state ST32 is the first It is set lower than the time saving state ST1, the second time saving state ST2 and the 3A time saving state ST31. Therefore, when the game round corresponding to the first time saving result is executed in the middle of the first time saving state ST1, the second time saving state ST2 and the 3B time saving state ST32, the 3A time saving state ST31 occurs, and the first time saving state ST31 occurs. Even if the game cycle corresponding to the second time saving result is executed during the state ST1, the second time saving state ST2 and the 3A time saving state ST31, the occurrence of the second time saving result is invalidated and the time saving state ST1, ST2 and ST31 are continued. In this case, the first time saving result does not occur in any of the first time saving state ST1, the second time saving state ST2 and the 3B time saving state ST32 and the remaining number of times of continuation is 50 times or more. is to be expected, and if it is one of the first time saving state ST1, the second time saving state ST2 and the 3A time saving state ST31, after the time saving state ST1, ST2, ST31 ends and the normal game state The player expects that the 2-hour-saving result will occur.

In addition, when the game cycle corresponding to the second time saving result is executed in the middle of the first time saving state ST1, the second time saving state ST2 and the 3A time saving state ST31, the 3B time saving state ST32 may be latent. . In this case, when the execution target time reduction states ST1, ST2, and ST31 are completed while the 3B time reduction state ST32 is latent, the 3B time reduction state ST32 during latency is made to be the execution target, and the time reduction state ST1 ∼ ST32 can be secured for a long time.

In addition, the priority of the execution of the 3B time saving state ST32 is set higher than the first time saving state ST1, the second time saving state ST2 and the 3A time saving state ST31, and the priority of the execution of the 3A time saving state ST31 It is good also as a structure set lower than 1 time saving state ST1, 2nd time saving state ST2, and 3B time saving state ST32.

(3) When the game round corresponding to the time saving result is executed in the third time saving state ST3, the remaining number of continuations of the third time saving state ST3 is initialized to the number of continuations of the third time saving state ST3. Although it has been configured, it is not limited to this, and when the game round corresponding to the time saving result is executed in the third time saving state ST3, the occurrence of the time saving result may be invalidated. Thereby, it is possible to prevent the third time saving state ST3 from continuing excessively.

(4) The ON continuation period in which the output state of the second jackpot signal is maintained at HI level when the second time saving state ST2 or the third time saving state ST3 occurs is a period shorter than the shortest period of one game cycle. is not limited to a configuration that is For example, the ON continuation period may be longer than the shortest period of one game and shorter than the longest period of one game. Thereby, when the second time saving state ST2 or the third time saving state ST3 occurs, it becomes possible to secure a long period in which the output state of the second jackpot signal is maintained at the HI level. Also, the ON continuation period may be a period longer than or equal to the longest period of one game.

(5) When the second time-saving state ST2 or the third time-saving state ST3 occurs, the output state of the second jackpot signal is maintained at HI level over the ON continuation period, and then switched to LOW level. The configuration is not limited to this, and the output state of the second jackpot signal may be maintained at HI level while the second time saving state ST2 or the third time saving state ST3 continues.

(6) When one of the second time saving state ST2 and the third time saving state ST3 occurs, the output state of the second jackpot signal is switched from LOW level to HI level, while the second time saving state ST2 and The output state of the second jackpot signal may be maintained at the LOW level when the other of the third time-saving states ST3 occurs.

(7) When the second time saving state ST2 is started and when the third time saving state ST3 is started, the ON duration during which the output state of the second jackpot signal is maintained at HI level may be different. . For example, the second time saving state ST2 may have a longer ON duration than the third time saving state ST3, and the third time saving state ST3 may have a longer ON duration than the second time saving state ST2. It is good also as a structure which is a period. As a result, the hall computer HC of the game hall can specify which of the second time saving state ST2 and the third time saving state ST3 has occurred by the period during which the output state of the second jackpot signal is maintained at the HI level. Become.

(8) Even if the remaining number of times of continuation of the third time saving state ST3 is initialized to the number of times of continuation of the third time saving state ST3 by executing the game round corresponding to the time saving result in the third time saving state ST3 Although the output state of the 2 jackpot signal is switched from LOW level to HI level, it is not limited to this, and when a shift to the third time saving state ST3 occurs in the normal game state, the second jackpot. While the output state of the signal is switched from the LOW level to the HI level, the remaining number of continuations of the third time saving state ST3 is the third time saving state ST3 by executing the game round corresponding to the time saving result in the third time saving state ST3. , the output state of the second jackpot signal may not be switched from the LOW level to the HI level. As a result, even if the number of continuations of the third time saving state ST3 is initialized, if the third time saving state ST3 continues, the hall computer HC grasps it as one occurrence of the third time saving state ST3. It becomes possible to

(9) State determination counter 326 and state continuation counter 327 are provided in the main RAM 84, and information corresponding to the stages of the time saving state ST1 to ST3 is set in the state determination counter 326 and the time saving state ST1 to Although the number of remaining continuations of each stage of ST3 is set in the state continuation counter 327, the present invention is not limited to this. It may be configured such that the remaining number of continuations of the time saving states ST1 to ST3 is set. In this case, along with specifying the type of the time saving state ST1 ~ ST3 based on the time saving state flags 322 ~ 324, based on the state continuation counter 327 By specifying the number of times of game times executed in the current time saving state ST1 ~ ST3, It is possible to specify which stage of the time saving states ST1 to ST3 the current situation corresponds to.

Moreover, it is good also as a structure by which the command during time saving including the information of the state continuation counter 327 is transmitted to sound light side MPU93 from main side MPU82 in the said structure. In this case, the sound and light side MPU 93 determines which stage of the time saving state ST1 to ST3 the current situation corresponds to from the type of the current time saving state ST1 to ST3 and the information of the state continuation counter 327 included in the time saving command By specifying and executing the performance corresponding to the specified stage, the performance corresponding to each stage of the time saving state ST1 to ST3 is executed by the pattern display device 41, the display light emitting part 64 and the speaker part 65. will be

(10) In the game cycle period address table 311, the start address information of the game cycle period tables 311 to 316 is set to the memory area of the serial numbered address, but it is not limited to this. . For example, the addresses of the storage areas in which the information on the start addresses of the game period tables 311 to 316 are stored are such that the address difference between consecutive storage areas is n (an integer greater than 1). may be set to In this case, at step S9205 in the variable display period specifying process (FIG. 141), the value obtained by multiplying the value of the state determination counter 326 by n is specified as the offset value, and at step S9206 the offset value is the game cycle address. It will be added to the starting address of table 311 . Even with this configuration, it is possible to derive the offset value for deriving the start address of each of the game cycle period tables 311 to 316 using the value of the state determination counter 326 .

(11) In the game round corresponding to the time saving result, the variable display period of the game round may be determined by referring to the game round period table corresponding to the time saving result. In this case, the variable display period of the game round is determined regardless of the retained and stored number of the first suspension information and the second suspension information when determining the variable display period of the game round in the game round corresponding to the time saving result, and furthermore, this The variable display period of the game round determined in the case may be set to a period longer than the shortest period of the game round (specifically, 3 seconds). As a result, it is possible to sufficiently ensure a period for executing the performance corresponding to the time saving result in the game round corresponding to the time saving result.

(12) The configuration for deriving the offset value of the address using the value of the state determination counter 326 is not a configuration for specifying the variable display period of the game round in the time saving states ST1 to ST3, but in other game states It may be applied to a configuration for specifying a variable display period of game rounds. For example, in a configuration in which stages that change according to the number of completed game rounds are set in the high-probability state and selection of the variable display period of the game rounds is performed in a manner corresponding to each stage, the game corresponding to each stage is selected. A configuration may be adopted in which the offset value of the start address of the cycle period table is derived using the value of the state determination counter 326 . Further, in a configuration in which the so-called AT state in the slot machine changes according to the number of times the game is executed is set and the number of additional games is selected in a manner corresponding to each stage, a lottery table corresponding to each stage is provided. may be derived using the value of the state determination counter 326 .

(13) The sound and light side MPU 93 is configured not to execute the holding lottery process (step S9410) corresponding to the predetermined reach when the value of the state continuation counter 327 included in the time saving command is 4 or less, but in addition to this , It is good also as the structure which does not perform the reservation lottery process (step S9407) corresponding to a big hit. Thereby, in a situation where the remaining number of continuations of each stage of the time saving states ST1 to ST3 is 4 times or less, not only the second reservation information corresponding to the predetermined reach display but also the second reservation information corresponding to the jackpot result Even if it is, it will not be a special hold display.

(14) In the sound and light side MPU 93, the content of the effect that regulates the execution according to the value of the state continuation counter 327 included in the time saving command is not limited to the look-ahead effect. For example, the production subject to the regulation may be a production indicating that the jackpot result is confirmed, may be a production that indicates that the time saving result is confirmed, or a reach display in which a specific character is displayed. It may be a so-called pseudo-continuous effect, or a so-called holding continuous effect.

<Sixteenth Embodiment>
In this embodiment, the situation in which the third time-saving state ST3 can be set when the time-saving result is obtained is different from that of the fifteenth embodiment. The configuration different from that of the fifteenth embodiment will be described below. Note that the description of the same configuration as that of the fifteenth embodiment is basically omitted.

FIG. 148 is a flow chart showing setting processing for time saving results in this embodiment executed by the main MPU 82 . In addition, the setting process for the time saving result is executed in step S8309 in the process during special figure determination (FIG. 128).

If the game result of the current game cycle is a time saving result (step S9501: YES) and the high probability flag 321 is not set to "1" (step S9502: NO), the first time saving state flag 322 Or it determines whether "1" is set to the 2nd time saving state flag 323 (step S9503, step S9504). That is, it is determined whether it is either the first time saving state ST1 or the second time saving state ST2. If neither the first time saving state ST1 nor the second time saving state ST2 (step S9503 and step S9504: NO), that is, if the game state is the normal game state or the third time saving state ST3, step S9506 to step S9510 A process for newly starting the third time saving state ST3 is executed.

While "0" clears both the 1st time saving state flag 322 and the 2nd time saving state flag 323, specifically, "1" is set to the 3rd time saving state flag 324 (step S9506). Thereby, 3rd time saving state ST3 is started. After that, the state continuation counter 327 is set to "20", which is the number of continuations of the first stage (step S9507), and the state determination counter 326 is set to "1" corresponding to the first stage (step S9508). After that, set "1" to the outer end flag at the time of time saving occurrence in the main side RAM 84 (step S9509), and transmit a state designation command indicating that the third time saving state ST3 has newly started to the sound and light side MPU 93 (Step S9510).

If it is the first time saving state ST1 or the second time saving state ST2 (step S9503 or step S9504: YES), the remaining number of continuations of the current time saving states ST1 and ST2 is 50 times or more, which is the number of continuations of the third time saving state ST3 (step S9505). Specifically, if the value of the state determination counter 326 is "3", a negative determination is made in step S9505, and if the value of the state determination counter 326 is "2", the value of the state continuation counter 327 is 48 or less, a negative determination is made in step S9505.

When the affirmative determination is made in step S9505, the setting process for this time saving result ends without executing the processes of steps S9506 to S9510. Thereby, if the present condition is 1st time saving state ST1, the 1st time saving state ST1 will be continued, and if the present condition is 2nd time saving state ST2, the 2nd time saving state ST2 will be continued.

When a negative determination is made in step S9505, both the first time saving state flag 322 and the second time saving state flag 323 are cleared to "0", and the third time saving state flag 324 is set to "1" (step S9506). . As a result, if the current situation is the first time saving state ST1, the first time saving state ST1 is terminated on the way and the third time saving state ST3 is started, and if the current situation is the second time saving state ST3, the second time saving state. State ST2 is ended on the way and 3rd time saving state ST3 is started. Thereafter, the state continuation counter 327 is set to "20", which is the number of continuations of the first stage (step S9507), and the state determination counter 326 is set to "1" corresponding to the first stage (step S9508). After that, set "1" to the outer end flag at the time of time saving occurrence in the main side RAM 84 (step S9509), and transmit a state designation command indicating that the third time saving state ST3 has newly started to the sound and light side MPU 93 (Step S9510).

FIG. 149 is a flow chart showing the process of determining the variation pattern in this embodiment, which is executed by the sound and light side MPU 93 . Note that the variation pattern determination process is executed when a variation command and a type command are received from the main MPU 82 .

In steps S9601 to S9603 and steps S9612 to S9615, the same processes as steps S8801 to S8803 and steps S8812 to S8815 of the variation pattern determination process (FIG. 133) in the fifteenth embodiment are executed.

If information indicating that the game round to be started this time corresponds to the time saving result is set in the type command received this time (step S9604: YES), the current game state is a high probability state, the second If neither the 1 time saving state ST1 nor the 2nd time saving state ST2, that is, if the current game state is the normal game state or the 3rd time saving state ST3 (step S9605 and step S9606: NO), or the current game state Even if it is the first time saving state ST1 or the second time saving state ST2, if the remaining number of continuations of the time saving state ST1 and ST2 is 50 times or less (step S9606: YES, step S9607: NO), for time saving suggestion Stop symbol determination processing is executed (step S9608). In addition, the sound and light side MPU 93 is any of the current game state is the normal game state, the high probability state, the first time saving state ST1, the second time saving state ST2 and the third time saving state ST3 according to the state designation command received from the main side MPU 82 It is possible to specify whether there is, and further the first and second time saving states ST1 and ST2 by the number of times of receiving the variation command after receiving the state designation command corresponding to the start of the first and second time saving states ST1 and ST2 The number of remaining continuations can be specified.

In the stopping symbol determination process for suggesting time saving, a combination of time saving generating symbols (“1, 2, 3”) is selected as the stop result to be stopped and displayed in the symbol rows Z1 to Z3 of the symbol display device 41 . In addition, in the stopping symbol determination process for suggesting time saving, the effective lines L1 to L5 for stopping and displaying the combination of the stopping symbols corresponding to the result of time saving are determined by lottery. After that, red is selected as the stop result of the state suggestion area 43 of the pattern display device 41 (step S9609).

On the other hand, when information indicating that the game round to be started this time corresponds to the time saving result is set in the type command received this time (step S9604: YES), and the current game state is If it is in a high probability state (step S9605: YES), or if the current game state is the first time saving state ST1 or the second time saving state ST2 and the number of remaining time saving states ST1 and ST2 is 51 times or more (Step S9606 and step S9607: YES), stop symbol determination processing for non-reach out is executed (step S9610). In the stop symbol determination process for non-reach out, as the stop result to be stopped and displayed in the symbol rows Z1 to Z3 of the symbol display device 41, a combination of symbols corresponding to the jackpot result, a combination of time-saving generating symbols ("1, 2, 3 ”), and a combination of non-reach out-of-reach symbols, which is a combination of symbols other than the out-of-reach out-of-reach symbols combination, is stopped and displayed. Also, blue is selected as the stop result of the state suggestion area 43 of the pattern display device 41 (step S9611).

By the way, in the setting process for the time saving result (FIG. 148), in step S9505 it is determined whether or not the remaining number of continuations of the first time saving state ST1 or the second time saving state ST2 is 50 times or more Then, in the determination process of the variation pattern (FIG. 149), in step S9607, it is determined whether or not the remaining number of continuations of the first time saving state ST1 or the second time saving state ST2 is 51 times or more. The pattern determination process (Fig. 149) is a process executed when the game round is started, whereas the setting process for the time saving result (Fig. 148) is when the game round ends and the state continues. This is because the process is executed after the time-saving progress process (FIG. 134) in which the value of the counter 327 is decremented by one.

According to the above configuration, if a time saving result occurs in the middle of the first time saving state ST1 or the second time saving state ST2, if the remaining number of times of continuation of the time saving state ST1, ST2 is the number of continuations of the third time saving state ST3 or more While the current time saving states ST1 and ST2 are continued, if the remaining number of continuations of the time saving states ST1 and ST2 is less than the number of continuations of the third time saving state ST3, the current time saving states ST1 and ST2 are on the way. It is terminated and the third time saving state ST3 is newly started. As a result, the time saving states ST1 to ST3 can be continued as long as possible.

In a configuration in which the support mode of the first time saving state ST1 is the first high frequency support mode and the support mode of the third time saving state ST3 is the second high frequency support mode, time saving result occurs in the middle of the first time saving state ST1. If, if the number of times the remaining continuation of the first time saving state ST1 is equal to or more than the number of times of continuation of the third time saving state ST3, the current first time saving state ST1 is continued, whereas the remaining number of the first time saving state ST1 If the number of times of continuation is less than the number of times of continuation of the third time saving state ST3, the current first time saving state ST1 is terminated on the way and the third time saving state ST3 is newly started. Thereby, rather than continuing the first high-frequency support mode, which is relatively advantageous, the high-frequency support mode including the first high-frequency support mode and the second high-frequency support mode is continued as long as possible. Priority can be given.

2nd time saving state ST2 is the 2nd high frequency support mode whose support mode is the same as 3rd time saving state ST3. In such circumstances, the second time saving state ST2 is continued if the remaining number of times of continuation of the second time saving state ST2 is greater than or equal to the number of continuations of the third time saving state ST3, while the remaining number of the second time saving state ST2 If the number of times of continuation is less than the number of times of continuation of the third time saving state ST3, the second time saving state ST2 is terminated on the way and the third time saving state ST3 is newly started. As a result, it becomes possible to continue the time-saving states ST2 and ST3, which are the second high-frequency support mode, as long as possible.

In the case of the time saving result, the normal game state, the third time saving state ST3, the first time saving state ST1 or the second time saving state ST2, and the remaining number of continuations after the game round corresponding to the time saving result ends is 50 If it is less than the number of times, the combination of time-saving patterns ("1, 2, 3") is stopped and displayed on any of the effective lines L1 to L5 of the pattern rows Z1 to Z3, and red is displayed in the state suggestion area 43. Stop is displayed. On the other hand, if it is in a high probability state, or if it is the first time saving state ST1 or the second time saving state ST2 and the remaining number of continuations after the game round corresponding to the time saving result is over is 50 times or more, time saving Even if a result is obtained, combinations of non-reach out-of-reach symbols are stopped and displayed on the effective lines L1 to L5 in the symbol rows Z1 to Z3. The combination of non-reach out-of-range symbols is stopped and displayed even when the result of the success/failure determination processing is the out-of-range result. Blue is stop-displayed in the state suggesting area 43 .

The display area of the symbol display device 41 is wider than the display area of the special symbol display portions 37a and 37b, and the symbol display device 41 is arranged substantially in the center of the game area PA, whereas the special symbol display portions 37a and 37b are arranged. is arranged on the corner side of the game area PA, the symbol display device 41 attracts the player's attention more than the special symbol display portions 37a and 37b. In addition, while the symbol display device 41 executes a wide variety of effects such as ready-to-win display, the special symbol display units 37a and 37b perform variable display of patterns in a fixed manner, and the stop result corresponding to the game result is displayed. Since it is only displayed, the symbol display device 41 attracts the player's attention more than the special symbol display portions 37a and 37b also from this point. In such circumstances, if the result is a time saving result that does not trigger the setting of the third time saving state ST3, the non-reach off pattern that can be stopped and displayed in the case of the result of deviating from the effective lines L1 to L5 of the symbol rows Z1 to Z3 By statically displaying the combination, it is possible to make it difficult for the player to recognize that the time saving result has been invalidated despite the selection.

If it is a time saving result that does not trigger the setting of the third time saving state ST3, it is stopped and displayed even if the result of the success/failure determination process is off on each of the valid lines L1 to L5 of the symbol rows Z1 to Z3 as described above. Even if the combination of non-reach-out symbols is stop-displayed, a stop result different from the case where the result of the winning/failure determination processing is a losing result is stop-displayed in the state suggesting area 43 . In other words, when the time saving result does not trigger the setting of the third time saving state ST3, the blue color is stopped in the state suggestion area 43, whereas when the result is off, the red color appears in the state suggestion area 43. Stop is displayed. As a result, in a situation where the special symbol display portions 37a and 37b are difficult for the manager of the gaming hall to visually recognize, the combinations of non-reach out symbols are stopped and displayed on the effective lines L1 to L5 of the symbol rows Z1 to Z3 in the symbol display device 41. In this case, by checking the state suggesting area 43, it is possible to grasp which of the time saving result and the off result.

<Another form of the sixteenth embodiment>
(1) When the game round corresponding to the time saving result is executed in the first time saving state ST1 or the second time saving state ST2, the remaining number of times of continuation in the current time saving state ST1, ST2 is more than the number of times of continuation of the third time saving state ST3 If so, the current time saving states ST1 and ST2 are continued, and if the remaining number of continuations in the current time saving states ST1 and ST2 is less than the number of continuations of the third time saving state ST3, the third time saving state ST3 is newly started. However, it is not limited to this. For example, if the remaining number of continuations in the current time reduction states ST1 and ST2 is greater than the reference number set as the number of times less than the number of continuations of the third time reduction state ST3, the current time reduction states ST1 and ST2 are continued. , The third time saving state ST3 may be newly started if the remaining number of times of continuation in the current time saving states ST1 and ST2 is equal to or less than the reference number of times. In addition, if the remaining number of continuations in the current time reduction states ST1 and ST2 is greater than the reference number set as the number of times greater than the number of continuations of the third time reduction state ST3, the current time reduction states ST1 and ST2 are continued. , The third time saving state ST3 may be newly started if the remaining number of times of continuation in the current time saving states ST1 and ST2 is equal to or less than the reference number of times.

(2) As in (1) above, in the configuration in which the reference number of times, which is the number of times less than the number of continuations of the third time saving state ST3, is set, the game round corresponding to the time saving result is executed in the third time saving state ST3. If it is, the current third time saving state ST3 is continued if the remaining number of times of continuation in the current third time saving state ST3 is greater than the reference number of times, and the remaining number of times in the current third time saving state ST3 If the number of times of continuation is equal to or less than the reference number of times, the third time saving state ST3 may be newly started.

(3) A plurality of third time-saving states with different continuation counts as end conditions are set as the third time-saving state ST3, and each of the plurality of third time-saving states executes a game round that results in a corresponding type of time-saving result. It may be configured to occur when In this case, when the game round corresponding to the predetermined time saving result is executed in the first time saving state ST1 or the second time saving state ST2, the remaining number of continuations in the current time saving state ST1, ST2 is the predetermined time saving result If the number of continuations of the third time saving state corresponding to or more, the current time saving states ST1 and ST2 are continued, and the remaining number of times of continuation in the current time saving states ST1 and ST2 is the third time saving state corresponding to the predetermined time saving result. If it is less than the number of continuations, the third time saving state may be newly started.

(4) When the game round corresponding to the time saving result is executed in the first time saving state ST1 and when the game round corresponding to the time saving result is executed in the second time saving state ST2, the second time corresponding to the time saving result It is good also as a structure with which the remaining continuation frequency|counts of present time reduction states ST1 and ST2 for the three time reduction state ST3 to newly start are different. For example, when the game round corresponding to the time saving result is executed in the first time saving state ST1, the remaining number of continuations in the current first time saving state ST1 is set as a number less than the number of continuations of the third time saving state ST3. If the number of times is greater than the reference number of times, the current first time saving state ST1 is continued, and if the remaining number of continuations in the current first time saving state ST12 is equal to or less than the reference number of times, the third time saving state ST3 newly starts. On the other hand, when the game round corresponding to the time saving result is executed in the second time saving state ST2, if the remaining number of continuations in the current second time saving state ST2 is equal to or more than the number of continuations of the third time saving state ST3 The second time saving state ST2 is continued, and if the remaining number of continuations in the current second time saving state ST2 is less than the number of continuations of the third time saving state ST3, the third time saving state ST3 may be newly started. . In this case, the direction of 1st time saving state ST1 in which support mode is relatively advantageous becomes easier to continue than 2nd time saving state ST2 in which support mode is relatively disadvantageous.

<Seventeenth Embodiment>
In this embodiment, conditions for ending the time saving states ST1 to ST3 are different from those in the fifteenth embodiment. The configuration different from that of the fifteenth embodiment will be described below. Note that the description of the same configuration as that of the fifteenth embodiment is basically omitted.

First, the contents of the lottery results that can be selected by executing the success/failure determination process (step S805) will be described. FIG. 150(a) is an explanatory diagram for explaining the first right/wrong table 361 at the time of low probability when the setting value set to be used is "setting 3", and FIG. FIG. 150(c) is an explanatory diagram for explaining the second right/wrong table 362 at the time of low probability when the setting value set as the object is "setting 3", and FIG. FIG. 13 is an explanatory diagram for explaining a success/failure table 363 at the time of high probability when the value is “setting 3”;

When the success/failure determination process (step S805) is executed for the first reservation information, if the success/failure lottery mode is the low probability mode, the first success/failure table 361 at the time of the low probability shown in FIG. 150(a) is referred to, If the win/loss lottery mode is the high probability mode, the win/fail table 363 for high probability shown in FIG. 150(c) is referred to. Further, when the success/failure determination process (step S805) is executed for the second reservation information, if the success/failure lottery mode is the low probability mode, refer to the second success/failure table 362 at the time of the low probability shown in FIG. 150(b). If the win/loss lottery mode is the high probability mode, the win/fail table 363 for high probability shown in FIG. 150(c) is referred to. In addition, it is good also as a structure by which the success/failure table 363 at the time of high probability is made to correspond to each of 1st reservation information and 2nd reservation information, and is set. This also applies to other embodiments.

As a lottery result in the first success/failure table 361 at the time of low probability and the second success/failure table 362 at the time of low probability, the jackpot result, the time saving result and the off result are set as in the first embodiment, and these In addition, a small hit result is set as a lottery result. Although a big hit result, a small hit result, and a losing result are set as the lottery results in the success/failure table 363 at the time of high probability, the time saving result is not set. The types of jackpot results that can be selected in the event of a jackpot result and the distribution probabilities are the same as in the first embodiment. In addition, there is only one type of time saving result as in the fifteenth embodiment.

The small winning result is a winning/failing result that triggers the transition to the opening/closing execution mode but does not trigger the transition to the win/fail lottery mode and the support mode. Therefore, when a small winning result occurs in the normal game state, the normal game state continues after the opening/closing execution mode ends, and when a small winning result occurs in the high probability state, the high probability occurs after the opening/closing execution mode ends. When the probability state continues and a small hit result occurs in the first time saving state ST1, the first time saving state ST1 continues after the end of the opening and closing execution mode, and a small hitting result occurs in the second time saving state ST2. Second time saving state ST2 continues after the opening/closing execution mode ends, and when a small winning result occurs in the third time saving state ST3, the third time saving state ST3 continues after the opening/closing execution mode ends. In addition, in the opening and closing execution mode triggered by the result of the small hit, the opening of the special electric prize winning device 32 is configured to occur twice in a short period of time (specifically, one second). Therefore, about 1 to 3 game balls enter the special electric prize winning device 32 in the opening/closing execution mode. Even if the open/close execution mode triggered by the result of the small win is generated, the number of ceiling times is not set to the ceiling counter 325. - 特許庁

In the first right or wrong table 361 at the time of low probability shown in FIG. The number is the same as the number of numerical information in C1 and larger than the number of numerical information in the winning random number counter C1 assigned to the result of the big win. However, it is not limited to this, and the number of numerical information of the winning random number counter C1 assigned to the small winning result is more than the number of numerical information of the winning random number counter C1 assigned to the time saving result It is good also as a structure with many, and it is good also as a structure with few. Further, the number of numerical information of the winning random number counter C1 assigned to the result of the small winning may be smaller than the number of numerical information of the winning random number counter C1 assigned to the result of the big winning. A certain configuration may be used. Further, the first right/wrong table 361 at the time of low probability may have a configuration in which no small winning result is set. In addition, the number of numerical information of the winning random number counter C1 assigned to the small winning result is the same even in setting values other than "setting 3", and the winning random number counter C1 assigned to the time saving result The number of numerical information is the same even for setting values other than "setting 3", and the number of numerical information of the winning random number counter C1 assigned to the result of the big win increases as the setting value increases.

In the second right or wrong table 362 at the time of low probability shown in FIG. The number is greater than the number of numerical information in C1 and is greater than the number of numerical information in the winning random number counter C1 assigned to the result of the big win. However, it is not limited to this, and the number of numerical information of the winning random number counter C1 assigned to the small winning result is more than the number of numerical information of the winning random number counter C1 assigned to the time saving result may be configured to have a smaller number of components, or may be configured to have the same configuration. Further, the number of numerical information of the winning random number counter C1 assigned to the result of the small winning may be smaller than the number of numerical information of the winning random number counter C1 assigned to the result of the big winning. A certain configuration may be used. In addition, the number of numerical information of the winning random number counter C1 assigned to the small winning result is the same even in setting values other than "setting 3", and the winning random number counter C1 assigned to the time saving result The number of numerical information is the same even for setting values other than "setting 3", and the number of numerical information of the winning random number counter C1 assigned to the result of the big win increases as the setting value increases.

In the success/failure table 363 at high probability shown in FIG. 150(c), the number of numerical information of the winning random number counter C1 assigned to the small winning result The number is larger than the number of numerical information. However, it is not limited to this, and the number of numerical information of the winning random number counter C1 assigned to the small winning result is greater than the number of numerical information of the winning random number counter C1 assigned to the big winning result. may be configured to have a smaller number of components, or may be configured to have the same configuration. The number of numerical information of the winning random number counter C1 assigned to the small winning result is the same even for setting values other than "setting 3", and the winning random number counter C1 assigned to the big winning result is the same. The number of pieces of numerical information increases as the set value increases.

While the number of numerical information of the hit random number counter C1 assigned to the small hit result in the first right/wrong table 361 at the time of low probability shown in FIG. 150(a) is 100, FIG. ) is 2000 pieces of numerical information of the winning random number counter C1 assigned to the small winning results in the second right/wrong table 362 at the time of low probability shown in FIG. Therefore, if the success/failure lottery mode is the low probability mode, than the case where the success/failure determination process (step S805) is executed for the first reservation information acquired based on the ball entering the first operating port 33, the second The probability that the small hit result is selected is higher when the win/loss determination process (step S805) is executed for the second reservation information acquired based on the ball entering the second operation opening 34. Therefore, the first operation port 33 and the second operation port than the normal game state in which the game is played aiming at the entry ball of the game ball to the first operation port 33 out of the first operation port 33 and the second operation port 34 In the first to third time-saving states ST1 to ST3 in which the game is played aiming at the entry of the game ball into the second operation opening 34, small winning results are more likely to occur.

In the success/failure determination process (step S805), as a result of referring to any of the first success/failure table 361 at the time of low probability, the second success/failure table 362 at the time of low probability, and the success/failure table 363 at the time of high probability, execution of the current game round When it is specified that the numerical information of the winning random number counter C1 included in the target first reservation information or second reservation information corresponds to the small winning result, it corresponds to the small winning result after the end of this game round. The main side RAM 84 stores information for generating the open/close execution mode. When the information is stored in the main side RAM 84, the opening and closing execution mode corresponding to the small hit result is started in the special figure confirmation processing (FIG. 153) executed when the game round of this time is completed. Processing is performed.

FIG. 151 is an explanatory diagram for explaining the content of the time saving state set in this embodiment.

Even in this embodiment, as in the fifteenth embodiment, the game state includes a normal game state, a high probability state, a first time saving state ST1, a second time saving state ST2, and a third time saving state ST3. exists. The contents of the normal game state and the high probability state are the same as those of the fifteenth embodiment. The first to third time-saving states ST1 to ST3 are the same as in the fifteenth embodiment in terms of the occurrence trigger and the type of support mode, but differ in the termination conditions from the fifteenth embodiment. Specifically, the first time-saving state ST1 ends when the opening and closing execution mode occurs as a result of a big win, and when 10 small win results occur without a big win result or when 100 game times occur Terminates when digested. When 10 times of small win results occur or when 100 times of game times are completed, the normal game state is entered. The second time-saving state ST2 ends when the opening/closing execution mode occurs as a result of a big win, and when 15 small win results occur without a big win result or when 150 game rounds are completed. finish. When 15 small winning results occur or when 150 game rounds are completed, the normal game state is entered. The third time-saving state ST3 ends when the opening/closing execution mode occurs as a result of a big win, and when 5 small win results occur without a big win result or when 50 game rounds are completed. finish. When 5 small wins occur or when 50 game rounds are completed, the normal game state is entered.

FIG. 152 is an explanatory diagram for explaining the storage area of the main side RAM 84 used for controlling the game state.

A high probability flag 321, a first time saving state flag 322, a second time saving state flag 323, a third time saving state flag 324 and a ceiling counter 325 are provided in the main side RAM 84 as in the fifteenth embodiment. In addition, instead of the state determination counter 326 and the state continuation counter 327, the main side RAM 84 is provided with a time-saving game number counter 365 and a time-saving small hit number counter 366. Note that the main RAM 84 is provided with a high-probability state counter in the same manner as in the first embodiment in order to count the remaining number of continuations in the high-probability state.

The time-saving game number counter 365 is a counter for measuring the remaining number of continuous game rounds in the first to third time-saving states ST1 to ST3 by the main side MPU 82, and the time-saving small hit number counter 366 is the first to third It is a counter for measuring the number of occurrences of the remaining small hit results in the time saving state ST1 to ST3 at the main side MPU82. When the opening and closing execution mode triggered by the 5R low probability result ends, in the special electric end processing (FIG. 129), in the fifteenth embodiment, "20" is set to the state continuation counter 327 in step S8407, and step Although it was configured to set "1" to the state determination counter 326 in S8408, in this embodiment, instead of these processes, the time saving game number counter 365 is the number of continuations of the first time saving state ST1 "100" is set, and "10", which is the number of occurrences of the small hit results in the first time saving state ST1, is set in the time saving small hit number counter 366. Further, when the number of remaining ceilings counted by the ceiling counter 325 becomes "0", in the subtraction processing of the ceiling counter 325 (FIG. 131), in the fifteenth embodiment, the state continuation counter is set in step S8606. 327 is set to "20", and in step S8607 the state determination counter 326 is set to "1". "150", which is the number of continuations of the state ST2, is set, and "15", which is the number of occurrences of the result of the second time saving state ST2, is set to the time saving small winning number counter 366. In addition, when the game round corresponding to the time saving result ends and the start setting of the third time saving state ST3 triggered by the time saving result is performed, the time saving in the setting process for the time saving result described later (FIG. The game number counter 365 is set to "50", which is the number of continuations of the third time saving state ST3, and the time saving small winning number counter 366 is set to "5", which is the number of occurrences of the small winning result of the third time saving state ST3.

FIG. 153 is a flow chart showing processing during special figure determination in this embodiment executed by the main side MPU82.

If the value of the special figure side timer counter is "0" and the final stop period has passed (step S9701: YES), and the game result of this game round is a jackpot result (step S9702: YES ), the jackpot process is executed (step S9703). In the big hit process, the same processes as steps S8303 to S8307 of the special figure determination process (FIG. 128) in the fifteenth embodiment are executed.

If the game result of the current game round is not a big win result (step S9702: NO), it is determined whether or not the game result of the current game round is a small win result (step S9704). If the game result of the current game round is not a small hit result (step S9704: NO), the value of the special figure special electric counter is cleared to "0" (step S9705). If the game result of the current game round is a small winning result (step S9704: YES), a small winning process for starting the opening/closing execution mode corresponding to the small winning result is executed (step S9706). In the small winning process, information corresponding to the opening period for the small winning result (specifically 1 second) is set to the special figure side timer counter, and the opening command for the small winning result is transmitted to the sound and light side MPU 93 , Add 1 to the value of the special special electric counter. When the small winning process is executed, in steps S609 to S612 in the special special electric control process (FIG. 18), after the opening period for the small winning result is over, the special electric winning device 32 for a short period of time (specifically The special electric prize winning device 32 is driven and controlled so that the opening occurs twice. In addition, since the game ball launch cycle is 0.6 seconds, it does not actually occur. When a ball enters the special electric prize winning device 32, the special electric prize winning device 32 is put in a closed state and the opening/closing execution mode is finished even if the opening is not completed twice in a short period of time. When the opening/closing execution mode corresponding to the small winning result ends, an ending period for the small winning result (specifically, 1 second) occurs. About 1 to 3 game balls enter the special electric prize winning device 32 in the opening/closing execution mode corresponding to the result of the small hit.

When the processing of step S9705 or step S9706 is executed, the processing for time saving progress is executed in step S9707, the subtraction processing of the ceiling counter 325 is executed in step S9708, and the setting processing for time saving result is executed in step S9709. Then, in step S9710, high accuracy progression processing is executed. In the subtraction process of the ceiling counter 325, when the value of the ceiling counter 325 is 1 or more when the high probability state is not reached, 1 is subtracted from the value of the ceiling counter 325, and the value of the ceiling counter 325 after the subtraction of 1 is " 0”, a process for setting the second time saving state ST2 is executed. Specifically, the second time saving state flag 323 is set to "1", the time saving game number counter 365 is set to "150", and the time saving small winning number counter 366 is set to "15". Further, in the high-accuracy progression processing, the same processing as the high-accuracy progression processing (FIG. 130) in the fifteenth embodiment is executed. However, the counter to be decremented by 1 in step S8502 is the high-probability state counter, and in step S8503 it is determined whether or not the high-probability state counter is "0".

Figure 154 is a flow chart showing the time saving progress process of step S9707 in the process during special figure determination (Figure 153).

If "1" is not set to the high probability flag 321 and "1" is set to any of the first to third time saving state flags 322 to 324 (step S9801: NO, step S9802: YES), the value of the time-saving game number counter 365 is subtracted by 1 (step S9803). Also, if a small hit result has occurred in the current game round (step S9804: YES), the value of the time-saving small hit number counter 366 is subtracted by 1 (step S9805).

Thereafter, it is determined whether or not one of the time-saving game number counter 365 and the time-saving small hit number counter 366 is "0" (step S9806). If the value of the time-saving game number counter 365 is "0" or if the value of the time-saving small hit number counter 366 is "0" (step S9806: YES), clear processing at the end of time saving is executed (step S9807) . In the clearing process at the end of the time saving, the first time saving state flag 322, the second time saving state flag 323, the third time saving state flag 324, the time saving game number counter 365 and the time saving small winning number counter 366 are each cleared to "0". . As a result, the current time-saving states ST1 to ST3 end. After that, the outer end flag at the end of the time saving in the main RAM84 is set to "1" (step S9808), and the state designation command indicating that the current first to third time saving states ST1 to ST3 have ended is sent to the sound and light side. It is transmitted to the MPU 93 (step S9809).

Figure 155 is a flow chart showing the setting process for the time saving result of step S9709 in the process during special figure determination (Figure 153).

If the game result of the current game cycle is a time saving result (step S9901: YES) and the high probability flag 321 is not set to "1" (step S9902: NO), the first time saving state flag 322 Or it determines whether "1" is set to the 2nd time saving state flag 323 (step S9903, step S9904). That is, it is determined whether it is either the first time saving state ST1 or the second time saving state ST2. If neither the first time saving state ST1 nor the second time saving state ST2 (step S9903 and step S9904: NO), that is, if the game state is the normal game state or the third time saving state ST3, in steps S9906 to S9910 A process for newly starting the third time saving state ST3 is executed.

While "0" clears both the 1st time saving state flag 322 and the 2nd time saving state flag 323, specifically, "1" is set to the 3rd time saving state flag 324 (step S9906). Thereby, 3rd time saving state ST3 is started. After that, "50", which is the number of continuations of the third time saving state ST3, is set in the time saving game number counter 365 (step S9907), and the time saving small hit number counter 366 is the number of occurrences of the small hit result of the third time saving state ST3. "5" is set (step S9908). After that, set "1" to the outer end flag at the time of time saving occurrence in the main side RAM 84 (step S9909), and transmit a state designation command indicating that the third time saving state ST3 has newly started to the sound and light side MPU 93 (Step S9910).

If it is the first time saving state ST1 or the second time saving state ST2 (step S9903 or step S9904: YES), by referring to the time saving small hit number counter 366, the remaining small hitting result of the current time saving state ST1, ST2 It is determined whether or not the number of occurrences is 5 times or more, which is the number of occurrences of the small hit result in the third time saving state ST3 (step S9905).

When the affirmative determination is made in step S9905, the setting process for this time saving result ends without executing the processes of steps S9906 to S9910. Thereby, if the present condition is 1st time saving state ST1, the 1st time saving state ST1 will be continued, and if the present condition is 2nd time saving state ST2, the 2nd time saving state ST2 will be continued. If a negative determination is made in step S9905, a process for newly starting the third time saving state ST3 shown in the third time saving state ST3 shown in steps S9906 to S9910 is executed.

According to the above configuration, when a time saving result occurs in the middle of the first time saving state ST1 or the second time saving state ST2, the number of occurrences of the remaining small hit results in the time saving state ST1, ST2 is the third time saving state ST3 small hit If the result is more than the number of occurrences, the current time saving states ST1 and ST2 are continued, whereas the number of occurrences of the remaining small hit results in the time saving states ST1 and ST2 is the third time saving state ST3. If it is less than the number of occurrences, the current time saving states ST1 and ST2 are ended on the way and the third time saving state ST3 is newly started. As a result, the time saving states ST1 to ST3 can be continued as long as possible.

In a configuration in which the support mode of the first time saving state ST1 is the first high frequency support mode and the support mode of the third time saving state ST3 is the second high frequency support mode, time saving result occurs in the middle of the first time saving state ST1. In the case, if the number of occurrences of the remaining small hit result of the first time saving state ST1 is equal to or more than the number of occurrences of the small hitting result of the third time saving state ST3, the current first time saving state ST1 is continued, If the number of occurrences of the remaining small winning results in the first time saving state ST1 is less than the number of occurrences of the small winning results in the third time saving state ST3, the current first time saving state ST1 is terminated on the way and the third time saving state ST3 is changed. be started anew. Thereby, rather than continuing the first high-frequency support mode, which is relatively advantageous, the high-frequency support mode including the first high-frequency support mode and the second high-frequency support mode is continued as long as possible. It becomes possible to

2nd time saving state ST2 is the 2nd high frequency support mode whose support mode is the same as 3rd time saving state ST3. In such circumstances, if the number of occurrences of the remaining small hit results of the second time saving state ST2 is greater than or equal to the number of occurrences of the small hitting results of the third time saving state ST3, the second time saving state ST2 is continued. If the number of occurrences of the remaining small winning results in the second time saving state ST2 is less than the number of occurrences of the small winning results in the third time saving state ST3, the second time saving state ST2 is terminated on the way and the third time saving state ST3 is newly established. be started. As a result, it becomes possible to continue the time-saving states ST2 and ST3, which are the second high-frequency support mode, as long as possible.

When the time saving result is obtained, the remaining small winning result after the game round corresponding to the time saving result is completed in the normal game state, the third time saving state ST3, the first time saving state ST1 or the second time saving state ST2 If the number of occurrences is less than 5 times, the combination of time-saving occurrence patterns ("1, 2, 3") is stopped and displayed on any of the effective lines L1 to L5 of the pattern rows Z1 to Z3 and the state suggesting area In 43, red is stopped and displayed. On the other hand, in the case of a high probability state, or in the first time saving state ST1 or the second time saving state ST2, the number of occurrences of the remaining small hit results after the game round corresponding to the time saving result ends is 5 times or more In some cases, even if the time saving result is obtained, combinations of non-reach out symbols are stop-displayed on the effective lines L1 to L5 in the symbol rows Z1 to Z3. The combination of non-reach-out symbols means a combination of symbols other than the combination of symbols corresponding to the jackpot result, the combination of time-saving patterns ("1, 2, 3") and the combination of out-reach-reach symbols. Blue is stopped in the state suggestion area 43 . The combination of non-reach-out symbols is stop-displayed even when the result of the success/failure determination process is an out-of-match result.

The display area of the symbol display device 41 is wider than the display area of the special symbol display portions 37a and 37b, and the symbol display device 41 is arranged substantially in the center of the game area PA, whereas the special symbol display portions 37a and 37b are arranged. is arranged on the corner side of the game area PA, the symbol display device 41 attracts the player's attention more than the special symbol display portions 37a and 37b. In addition, while the symbol display device 41 executes a wide variety of effects such as ready-to-win display, the special symbol display units 37a and 37b perform variable display of patterns in a fixed manner as already described, corresponding to the game results. Since only the stop result is displayed, the symbol display device 41 attracts the player's attention more than the special symbol display portions 37a and 37b also from this point. In such circumstances, if the result is a time saving result that does not trigger the setting of the third time saving state ST3, the non-reach off pattern that can be stopped and displayed in the case of the result of deviating from the effective lines L1 to L5 of the symbol rows Z1 to Z3 By statically displaying the combination, it is possible to make it difficult for the player to recognize that the time saving result has been invalidated despite the selection.

If it is a time saving result that does not trigger the setting of the third time saving state ST3, it is stopped and displayed even if the result of the success/failure determination process is off on each of the valid lines L1 to L5 of the symbol rows Z1 to Z3 as described above. Even if the combination of non-reach-out symbols is stop-displayed, a stop result different from the case where the result of the win-or-fail determination processing is a loss result is stop-displayed in the state suggestion area 43 . In other words, when the time saving result does not trigger the setting of the third time saving state ST3, the blue color is stopped in the state suggestion area 43, whereas when the result is out, the red color appears in the state suggestion area 43. Stop is displayed. As a result, in a situation where the special symbol display portions 37a and 37b are difficult for the administrator of the gaming hall to visually recognize, the combinations of non-reach out symbols are stopped and displayed on the effective lines L1 to L5 of the symbol rows Z1 to Z3 in the symbol display device 41. In this case, by checking the state suggesting area 43, it is possible to grasp which of the time saving result and the off result.

<Another form of the seventeenth embodiment>
(1) Another form of setting processing for the time saving result will be described with reference to the flowchart of FIG. 156 .

If the game result of the current game round is a time saving result (step SA101: YES) and the high probability flag 321 is not set to "1" (step SA102: NO), the first time saving state flag 322 Or it determines whether "1" is set to the 2nd time saving state flag 323 (step SA103, step SA104). That is, it is determined whether it is either the first time saving state ST1 or the second time saving state ST2. If neither the first time saving state ST1 nor the second time saving state ST2 (step SA103 and step SA104: NO), that is, if the game state is the normal game state or the third time saving state ST3, at step SA107 to step SA111 A process for newly starting the third time saving state ST3 is executed.

While "0" clears both the 1st time saving state flag 322 and the 2nd time saving state flag 323, specifically, "1" is set to the 3rd time saving state flag 324 (step SA107). Thereby, 3rd time saving state ST3 is started. After that, "50", which is the number of continuations of the third time-saving state ST3, is set in the time-saving game number counter 365 (step SA108), and the time-saving small hit number counter 366 is the number of occurrences of the small hit result of the third time-saving state ST3. "5" is set (step SA109). After that, set "1" to the outer end flag at the time of time saving occurrence in the main side RAM 84 (step SA110), and transmit a state designation command indicating that the third time saving state ST3 has newly started to the sound and light side MPU 93 (Step SA111).

If it is the first time saving state ST1 or the second time saving state ST2 (step SA103 or step SA104: YES), by referring to the time saving small hit number counter 366, the remaining small hitting result of the current time saving state ST1, ST2 It is determined whether or not the number of occurrences is 5 times or more, which is the number of occurrences of the small hit result in the third time saving state ST3 (step SA105). In addition, by referring to the time saving game number counter 365, the remaining number of continuations of the current time saving states ST1 and ST2 is 30 times or more set as a reference number less than 50 times, which is the number of continuations of the third time saving state ST3. (step SA106).

When the affirmative determination is made in both step SA105 and step SA106, that is, when the number of occurrences of the remaining small hit results in the current time saving states ST1 and ST2 is 5 times or more and the remaining number of continuations is 30 times or more , step SA107 to step SA111 without executing the process of setting for this time saving result ends. Thereby, if the present condition is 1st time saving state ST1, the 1st time saving state ST1 will be continued, and if the present condition is 2nd time saving state ST2, the 2nd time saving state ST2 will be continued.

If a negative determination is made in either step SA105 or step SA106, that is, if the number of occurrences of the remaining small hit results in the current time saving state ST1, ST2 is less than 5 times, or the remaining in the current time saving state ST1, ST2 If the number of times of continuation is less than 30 times, a process for newly starting the third time saving state ST3 shown in steps SA107 to SA111 is executed.

According to the above configuration, if a time saving result occurs in the middle of the first time saving state ST1 or the second time saving state ST2, the number of occurrences of the remaining small hit results in the time saving state ST1, ST2 is the third time saving state ST3 small hit If it is more than the number of occurrences of the result and the remaining number of continuations is more than the reference number of times less than the number of continuations of the third time saving state ST3, the current time saving states ST1 and ST2 are continued, whereas the time saving state ST1 , If the number of occurrences of the remaining small hit result of ST2 is less than the number of occurrences of the small hit result of the third time saving state ST3, or if the remaining number of continuations of the time saving state ST1, ST2 is less than the reference number of times The time saving states ST1 and ST2 are ended in the middle, and the third time saving state ST3 is newly started. As a result, the time saving states ST1 to ST3 can be continued as long as possible.

In a configuration in which the support mode of the first time saving state ST1 is the first high frequency support mode and the support mode of the third time saving state ST3 is the second high frequency support mode, the remaining small winning results of the first time saving state ST1 If the number of occurrences is more than the number of occurrences of the small hit result of the third time saving state ST3 and the remaining number of continuations of the first time saving state ST1 is less than the standard number of times less than the number of continuations of the third time saving state ST3, the current second While the 1 time saving state ST1 is continued, if the number of occurrences of the remaining small winning results in the first time saving state ST1 is less than the number of occurrences of the small winning results in the third time saving state ST3 or the first time saving state ST1 is less than the reference number of times, the current first time saving state ST1 is ended on the way and the third time saving state ST3 is newly started. Thereby, rather than continuing the first high-frequency support mode, which is relatively advantageous, the high-frequency support mode including the first high-frequency support mode and the second high-frequency support mode is continued as long as possible. It becomes possible to

2nd time saving state ST2 is the 2nd high frequency support mode whose support mode is the same as 3rd time saving state ST3. Under such circumstances, the number of occurrences of the remaining small winning results in the second time saving state ST2 is equal to or greater than the number of occurrences of the small winning results in the third time saving state ST3, and the remaining number of continuations is more than the number of continuations of the third time saving state ST3. While the second time saving state ST2 is continued if it is more than a small reference number of times, the number of occurrences of the remaining small hit result of the second time saving state ST2 is less than the number of occurrences of the small hitting result of the third time saving state ST3 or when the remaining number of continuations of the time saving states ST1 and ST2 is less than the reference number of times, the second time saving state ST2 is ended in the middle and the third time saving state ST3 is newly started. As a result, it becomes possible to continue the time-saving states ST2 and ST3, which are the second high-frequency support mode, as long as possible.

(2) When the game round corresponding to the time saving result is executed in the first time saving state ST1 or the second time saving state ST2, the number of occurrences of the remaining small hits in the current time saving state ST1, ST2 is the third time saving state ST3 If it is equal to or more than the number of occurrences of the small winning result, the current time saving states ST1 and ST2 are continued, and the number of occurrences of the remaining small winning results in the current time saving states ST1 and ST2 is the number of occurrences of the small winning result of the third time saving state ST3. Although it was set as the structure newly started if less than 3rd time saving state ST3, it is not limited to this. For example, if the number of continuations of the remaining game rounds in the current time saving states ST1 and ST2 is equal to or greater than the number of continuations of the game rounds in the third time saving state ST3, the current time saving states ST1 and ST2 are continued, and the current time saving states ST1 and ST2 are continued. The third time saving state ST3 may be newly started if the remaining number of times of continuing the game time in ST2 is less than the number of times of continuing the game time of the third time saving state ST3.

Also, for example, if the number of occurrences of the remaining small hit results in the current time saving states ST1 and ST2 is greater than the reference number set as the number of times less than the number of occurrences of the small hitting results in the third time saving state ST3 The current time-saving states ST1 and ST2 may be continued, and if the number of occurrences of the remaining small winning results in the current time-saving states ST1 and ST2 is equal to or less than the reference number of times, the third time-saving state ST3 may be newly started. . In addition, if the number of occurrences of the remaining small hit results in the current time saving states ST1 and ST2 is greater than the reference number of times set as the number of times greater than the number of occurrences of the small hitting results in the third time saving state ST3 The time saving states ST1 and ST2 may be continued, and the third time saving state ST3 may be newly started if the number of occurrences of the remaining small winning results in the current time saving states ST1 and ST2 is equal to or less than the reference number of times.

Further, as described above, in the configuration in which the reference number of times, which is the number of times less than the number of occurrences of the small hit result in the third time saving state ST3, is set, the game round corresponding to the time saving result is executed in the third time saving state ST3. In the case where it is done, if the number of occurrences of the remaining small hit results in the current third time saving state ST3 is greater than the reference number of times, the current third time saving state ST3 is continued, and the current third time saving state ST3 If the number of occurrences of the remaining small hit results in ST3 is equal to or less than the reference number of times, the third time saving state ST3 may be newly started.

(3) A plurality of third time-saving states with different continuation counts as end conditions are set as the third time-saving state ST3, and each of the plurality of third time-saving states executes a game round that results in a corresponding type of time-saving result. It may be configured to occur when In this case, when the game round corresponding to the predetermined time saving result is executed in the first time saving state ST1 or the second time saving state ST2, the number of occurrences of the remaining small hit results in the current time saving state ST1, ST2 is the relevant If the number of occurrences of the small hit result in the third time saving state corresponding to the predetermined time saving result is greater than the current time saving state ST1, ST2 is continued, and the number of occurrences of the remaining small winning results in the current time saving state ST1, ST2 If it is less than the number of occurrences of the small hit result of the third time saving state corresponding to the predetermined time saving result, the third time saving state may be newly started.

(4) When the game round corresponding to the time saving result is executed in the first time saving state ST1 and when the game round corresponding to the time saving result is executed in the second time saving state ST2, the second corresponding to the time saving result The number of occurrences of the remaining small winning results in the current time saving states ST1 and ST2 for newly starting the three time saving state ST3 may be different. For example, when the game round corresponding to the time saving result is executed in the first time saving state ST1, the number of occurrences of the remaining small winning results in the current first time saving state ST1 is the occurrence of the small winning result of the third time saving state ST3. If the number of times is greater than the reference number set as the number of times less than the number of times, the current first time saving state ST1 is continued, and the number of occurrences of the remaining small hit results in the current first time saving state ST12 is the reference number of times or less. If so, while the third time saving state ST3 is newly started, when the game round corresponding to the time saving result is executed in the second time saving state ST2, the remaining small hit results in the current second time saving state ST2 If the number of occurrences is equal to or greater than the number of occurrences of the small winning result in the third time saving state ST3, the current second time saving state ST2 is continued, and the number of occurrences of the remaining small winning results in the current second time saving state ST2 is the third time saving. If it is less than the number of occurrences of the small hit results in the state ST3, the third time saving state ST3 may be newly started. In this case, the direction of 1st time saving state ST1 in which support mode is relatively advantageous becomes easier to continue than 2nd time saving state ST2 in which support mode is relatively disadvantageous.

<Eighteenth Embodiment>
This embodiment differs from the fifteenth embodiment in the relationship between the value of the state determination counter 326 and the game state. The configuration different from that of the fifteenth embodiment will be described below. Note that the description of the same configuration as that of the fifteenth embodiment is basically omitted.

FIG. 157 is an explanatory diagram for explaining the relationship between the value of the state determination counter 326 and the game state.

The state determination counter 326 is provided in the main RAM 84 as in the fifteenth embodiment, and its data capacity is 1 byte (8 bits). However, it is not limited to this, and the data capacity of the state determination counter 326 may be less than 1 byte, for example, 4 bits.

As shown in FIG. 157, when the value of the state determination counter 326 is "0", it corresponds to the normal game state. In addition, when the value of the state determination counter 326 is "1" to "3", it corresponds to the third time saving state ST3, and further "1" corresponds to the first stage of the third time saving state ST3 , "2" corresponds to the second stage of the third time saving state ST3, and "3" corresponds to the third stage of the third time saving state ST3. In addition, if the value of the state determination counter 326 is "4" to "6", it corresponds to the second time saving state ST2, and further "4" corresponds to the first stage of the second time saving state ST2 , "5" corresponds to the second stage of the second time saving state ST2, and "6" corresponds to the third stage of the second time saving state ST2. In addition, when the value of the state determination counter 326 is "7" to "9", it corresponds to the first time saving state ST1, and further "7" corresponds to the first stage of the first time saving state ST1 , "8" corresponds to the second step of the first time saving state ST1, and "9" corresponds to the third step of the first time saving state ST1. Further, when the value of the state determination counter 326 is "10", it corresponds to a high probability state.

When the value of the state determination counter 326 is 7 or more, when executing the normal pattern correctness determination process (step S407) in the normal pattern fluctuation start process (FIG. 16) of the main side MPU 82, the high probability table on the normal pattern side ( Step S406) is read, and when the variable display of the normal map display unit 38a is started (step S415), the short period on the normal map side is selected as the duration of the variable display times (step S414). Further, by executing steps S509 to S511 as the control processing of the general electric open state in the general electric map fixing process (FIG. 17) of the main side MPU 82, the general electric open state becomes the high expectation mode.

When the value of the state determination counter 326 is "1" to "6", when executing the normal pattern correctness determination process (step S407) in the normal pattern fluctuation start process (FIG. 16) of the main side MPU 82, the normal pattern side The low probability table (step S405) is read, and when starting the variable display of the normal pattern display unit 38a (step S415), the short period on the normal pattern side is selected as the duration of the variable display times ( step S414). Further, by executing steps S509 to S511 as the control processing of the general electric open state in the general electric map fixing process (FIG. 17) of the main side MPU 82, the general electric open state becomes the high expectation mode.

When the value of the state determination counter 326 is "0", when executing the general pattern correctness determination process (step S407) in the general pattern fluctuation start process (FIG. 16) of the main side MPU 82, the low probability table on the general pattern side (Step S405) is read, and when the variable display of the normal map display unit 38a is started (step S415), the long period on the normal map side is selected as the duration of the variable display times (step S413). Further, by executing steps S506 to S508 as the control processing of the general electric open state in the general electric map fixing process (FIG. 17) of the main side MPU 82, the general electric open state becomes the low expectation mode.

FIG. 158 is a flow chart showing special electric end processing in this embodiment executed by the main MPU 82 .

If the value of the special figure side timer counter is "0", that is, if the ending period has passed (step SA201: YES), the game result that triggered the opening and closing execution mode this time is a 5R high probability result or 10R If the result is a high probability (step SA202: YES), the state determination counter 326 is set to "10" (step SA203), and the state continuation counter 327 is set to "100", which is the number of continuations of the high probability state. set (step SA204). As a result, the game state after the opening/closing execution mode ends is the high probability mode and the first high-frequency support mode regardless of the game state before the opening/closing execution mode starts.

On the other hand, if the game result that triggered the opening and closing execution mode this time is a 5R low probability result (step SA202: NO), the state determination counter 326 is set to "7" (step SA205), and the state "20" which is the continuation frequency of the 1st stage of 1st time saving state ST1 is set to the continuation counter 327 (step SA206). Thereby, the game state after the end of the opening/closing execution mode becomes the first time saving state ST1 which is the low probability mode and the first high frequency support mode regardless of the game state before the start of the opening/closing execution mode.

When the process of step SA204 or step SA206 is executed, the state designation command transmission process is executed (step SA207). In the transmission process, when the game state shifts to the high probability state, the corresponding state designation command is transmitted to the sound and light side MPU 93, and when the game state shifts to the first time saving state ST1, the state corresponding to it A specified command is transmitted to the sound and light side MPU 93 . After that, the outer end flag at the end of the jackpot in the main side RAM 84 is set to "1" (step SA208), and the special figure special electric counter is cleared to "0" (step SA209).

Figure 159 is a flow chart showing the process for high probability progress executed in step S8311 of the process during special figure determination (Figure 128).

If the value of the state determination counter 326 is "10" (step SA301: YES), that is, if the state is a high probability state, the value of the state continuation counter 327 is decremented by 1 (step SA302). Then, if the value of the state continuation counter 327 after the subtraction of 1 is "0" (step SA303: YES), 100 game times, which is the high probability continuation number of times in the high probability state after the end of the opening and closing execution mode. means digested. In this case, the state determination counter 326 is cleared to "0" (step SA304). As a result, the normal game state is the low-probability mode and the low-frequency support mode. After that, the outer end flag at the high probability end in the main side RAM 84 is set to "1" (step SA305), and a state designation command indicating that the high probability state is ended is sent to the sound and light side MPU 93 (step SA306). .

Figure 160 is a flow chart showing the subtraction process of the ceiling counter 325 executed in step S8310 of the process during special figure determination (Figure 128).

If the value of state determination counter 326 is "10" (step SA401: YES), that is, if the state is a high probability state, the subtraction process of ceiling counter 325 is terminated without executing the processes after step SA402. As in the fifteenth embodiment, the value of the ceiling counter 325 is not subtracted in the game cycle executed in the high-probability state, and the value of the ceiling counter 325 is not subtracted. The second time saving state ST2 also does not occur.

If the value of the state determination counter 326 is not "10" (step SA401: NO), that is, the game state is either the normal game state, the first time saving state ST1, the second time saving state ST2 and the third time saving state ST3 If there is, on condition that the value of the ceiling counter 325 is 1 or more (step SA402: YES), the value of the ceiling counter 325 is subtracted by 1 (step SA403). Then, if the value of the ceiling counter 325 after the subtraction of 1 is "0" (step SA404: YES), the state determination counter 326 is set to "4" (step SA405), and the state continuation counter 327 is set to the "20", which is the number of continuations of the first stage of the two-hour short state ST2, is set (step SA406). Thereby, it becomes 2nd time saving state ST2 which is low probability mode and is 2nd high frequency support mode. After that, set "1" to the outer end flag at the time of time saving occurrence in the main side RAM 84 (step SA407), and transmit a state designation command indicating that the second time saving state ST2 has started to the sound and light side MPU 93 (step SA408).

Figure 161 is a flow chart showing the setting process for the time saving result executed in step S8309 of the process during special figure determination (Figure 128).

If the game result of this game round is a time saving result (step SA501: YES), by determining whether the value of the state determination counter 326 is 4 or more, the game state is a high probability state, the first It is determined whether it is one of the time saving state ST1 and the second time saving state ST2 (step SA502). When the value of the counter 326 for state determination is four or more (step SA502: YES), the setting process for this time saving result is complete|finished, without performing the process after step SA503. In other words, even if the time saving result is selected in the game round success determination process executed in the situation that is either the high probability state, the first time saving state ST1 and the second time saving state ST2, the time saving result is triggered The time saving result is invalidated without setting the third time saving state ST3.

If the value of the state determination counter 326 is 3 or less (step SA502: NO), that is, if the game state is either the normal game state or the third time saving state ST3, the state determination counter 326 is set to "1" While setting (step SA503), the state continuation counter 327 is set to "20", which is the number of continuations of the first stage of the third time saving state ST3 (step SA504). Thereby, the game state after the end of the opening/closing execution mode becomes the third time saving state ST3 which is the low probability mode and the second high frequency support mode regardless of the game state before the start of the opening/closing execution mode. After that, set "1" to the outer end flag at the time of time saving occurrence in the main side RAM 84 (step SA505), and transmit a state designation command indicating that the third time saving state ST3 has newly started to the sound and light side MPU 93 (Step SA506).

In addition, even in this embodiment, as in the fifteenth embodiment, in the case of the time saving result, the normal game state, the third time saving state ST3, or the first time saving state ST1 or the second time saving state ST2 final game In the case of the time, the combination of time saving patterns ("1, 2, 3") is stopped and displayed on any of the effective lines L1 to L5 of the pattern rows Z1 to Z3, and the red color stops in the state suggesting area 43. Is displayed. On the other hand, if it is in a high probability state, or if it is a game round other than the final game round of the first time saving state ST1 or the second time saving state ST2, even if the time saving result is obtained, each effective line in the symbol rows Z1 to Z3 Combinations of non-reach out-of-reach symbols are stop-displayed in L1 to L5. The combination of non-reach-out symbols means a combination of symbols other than the combination of symbols corresponding to the jackpot result, the combination of time-saving patterns ("1, 2, 3") and the combination of out-reach-reach symbols. Blue is stop-displayed in the state suggesting area 43 . The combination of non-reach-out symbols is stopped and displayed even when the result of the success/failure determination process is an out-of-match result.

The display area of the symbol display device 41 is wider than the display area of the special symbol display portions 37a and 37b, and the symbol display device 41 is arranged substantially in the center of the game area PA, whereas the special symbol display portions 37a and 37b are arranged. is arranged on the corner side of the game area PA, the symbol display device 41 attracts the player's attention more than the special symbol display portions 37a and 37b. In addition, while the symbol display device 41 executes a wide variety of effects such as ready-to-win display, the special symbol display units 37a and 37b perform variable display of patterns in a fixed manner as already described, corresponding to the game results. Since only the stop result is displayed, the symbol display device 41 attracts the player's attention more than the special symbol display portions 37a and 37b also from this point. In such circumstances, if the result is a time saving result that does not trigger the setting of the third time saving state ST3, the non-reach off pattern that can be stopped and displayed in the case of the result of deviating from the effective lines L1 to L5 of the symbol rows Z1 to Z3 By statically displaying the combination, it is possible to make it difficult for the player to recognize that the time saving result has been invalidated despite the selection.

If it is a time saving result that does not trigger the setting of the third time saving state ST3, the non-reach out that is stopped and displayed even if the result of the success/failure determination process is a deviation result on each of the effective lines L1 to L5 of the symbol rows Z1 to Z3 Even if the symbol combination is stop-displayed, a stop result different from the case where the result of the suitability determination process is a wrong result is stop-displayed in the state indication area 43 . In other words, when the time saving result does not trigger the setting of the third time saving state ST3, the blue color is stopped in the state suggestion area 43, whereas when the result is off, the red color appears in the state suggestion area 43. Stop is displayed. As a result, in a situation where the special symbol display portions 37a and 37b are difficult for the manager of the gaming hall to visually recognize, the combinations of non-reach out symbols are stopped and displayed on the effective lines L1 to L5 of the symbol rows Z1 to Z3 in the symbol display device 41. In this case, by checking the state suggesting area 43, it is possible to grasp which of the time saving result and the off result.

Figure 162 is a flow chart showing the time-saving progress process executed in step S8308 of the special figure determination process (Figure 128).

First, it is determined whether or not "10" is set in the state determination counter 326 (step SA601). If "10" is set to the state determination counter 326 (step SA601: YES), that is, if the game state is a high probability state, end the time saving process without executing the process after step SA602 do.

If "10" is not set to the state determination counter 326 and the value of the state determination counter 326 is 1 or more (step SA601: NO, step SA602: YES), that is, the game state is the first to If it is one of the third time saving state ST1 to ST3, the time saving subtraction process is executed (step SA603). FIG. 163 is a flow chart showing subtraction processing for time saving.

First, the value of the state continuation counter 327 is subtracted by 1 (step SA701). If the value of the state continuation counter 327 after subtracting 1 is "0" (step SA702: YES), the value of the state determination counter 326 is divided by "3" (step SA703). Time saving subtraction process is executed when the value of the state determination counter 326 is "1" to "9", so when the value of the state determination counter 326 is divided by "3", the time saving state ST1 to ST3 In the first stage, the remainder is "1", in the second stage the remainder is "2", and in the third stage the remainder is "0". In addition, the value of the state determination counter 326 in the first stage of the first time saving state ST1 is "7", the value of the state determination counter 326 in the first stage of the second time saving state ST2 is "4", Since the value of the state determination counter 326 in the first stage of the third time saving state ST3 is "1", in the situation where the remainder after division by "3" is "1", if it is the first time saving state ST1 becomes "2", the quotient becomes "1" in the second time saving state ST2, and the quotient becomes "0" in the third time saving state ST3.

After dividing the value of the state determination counter 326 by "3" in step SA703, by determining whether or not the remainder of the result of the division is "1", the first of the time saving states ST1 to ST3 It is determined whether or not it is a stage (step SA704). If an affirmative determination is made in step SA704, 1 is added to the value of the state determination counter 326 (step SA705). Thereby, if the current situation is the first stage of the first time saving state ST1, the value of the state determination counter 326 becomes "8" corresponding to the second stage of the first time saving state ST1, and the current situation is the second time saving state ST2. If it is the first stage, the value of the state determination counter 326 becomes "5" corresponding to the second stage of the second time saving state ST2, and if the current situation is the first stage of the third time saving state ST3 For state determination The value of the counter 326 becomes "2" corresponding to the second stage of the third time saving state ST3.

After that, if the quotient of the result of dividing the value of the state determination counter 326 by "3" at step SA703 is "2" (step SA706: YES), that is, if the first time saving state ST1, the state continuation counter "79" which is the continuation frequency of the 2nd step of 1st time saving state ST1 is set to 327 (step SA707). Also, if the quotient of the result of dividing the value of the state determination counter 326 by "3" in step SA703 is "1" (step SA708: YES), that is, if the second time saving state ST2, the state continuation counter "129" which is the continuation frequency of the 2nd step of 2nd time saving state ST2 is set to 327 (step SA709). Also, if the quotient of the result of dividing the value of the state determination counter 326 by "3" in step SA703 is "0" (step SA708: NO), that is, if the third time saving state ST3, the state continuation counter "29" which is the continuation frequency of the 2nd step of 3rd time saving state ST3 is set to 327 (step SA710).

If the negative determination in step SA704, by determining whether the remainder of the result of dividing the value of the state determination counter 326 by "3" in step SA703 is "2", time saving state ST1 ~ It is determined whether or not it is the second stage of ST3 (step SA711). If an affirmative determination is made in step SA711, 1 is added to the value of the state determination counter 326 (step SA712). Thus, if the current situation is the second stage of the first time saving state ST1, the value of the state determination counter 326 becomes "9" corresponding to the third stage of the first time saving state ST1, and the current situation is the second time saving state ST2. If it is the second stage, the value of the state determination counter 326 will be "6" corresponding to the third stage of the second time saving state ST2, and if the current situation is the second stage of the third time saving state ST3 For state determination The value of the counter 326 becomes "3" corresponding to the third stage of the third time saving state ST3. After that, the state continuation counter 327 is set to "1" corresponding to the number of continuations of the third stage in the time saving states ST1 to ST3 (step SA713).

If a negative determination is made in step SA702, if the process of step SA707 is executed, if the process of step SA709 is executed, if the process of step SA710 is executed or if the process of step SA713 is executed, step SA714 to step Processing for transmitting the command during time saving in SA716 to the sound and light side MPU 93 is executed. Specifically, the value of the state determination counter 326 is read (step SA714), and the value of the state continuation counter 327 is read (step SA715). Then, a time-saving medium command in which the value of the state determination counter 326 read at step SA714 and the value of the state continuation counter 327 read at step S715 are respectively set is transmitted to the sound and light side MPU 93 (step SA716). Sound and light side MPU93 grasps the progress in time saving state ST1 - ST3 by receiving the command during time saving, does execution control of production in the aspect which corresponds to the grasp result.

On the other hand, if the remainder of the result of dividing the value of the state determination counter 326 by "3" in step SA703 is "0" (step SA711: NO), that is, 1 subtraction in the third stage of the time saving state ST1 to ST3 When the value of the state continuation counter 327 later becomes "0", the value of the state determination counter 326 is cleared to "0" (step SA717). In this case, when the value of the state continuation counter 327 is "0", the time-saving arithmetic processing (FIG. 163) ends and the process proceeds to step SA604 of the time-saving progress processing (FIG. 162). Since the value of the state continuation counter 327 is "0", an affirmative determination is made in step SA604, and processing for ending the time saving states ST1 to ST3 in steps SA605 to SA607 is executed. Specifically, the outer end flag at the end of the time saving in the main side RAM84 is set to "1" (step SA605), and the state designation command indicating that the time saving state ST1 to ST3 has ended is transmitted to the sound and light side MPU 93. (Step SA606).

FIG. 164 is a flow chart showing processing for specifying a variable display period in this embodiment, which is executed by the main MPU 82. FIG. In addition, the specific processing of the variable display period is executed in step S815 in the special figure variation start processing (FIG. 20).

First, the game cycle period address table 361 is read from the main ROM 83 (step S9201). Thereafter, when the value of the state determination counter 326 is "0" (step SA802: YES), that is, when the game state is the normal game state, "0" is set as the offset value in the general-purpose register of the main side MPU 82. (Step SA803). Also, if the value of the state determination counter 326 is "10" (step SA804: YES), that is, if the game state is a high-probability state, "4" is set as the offset value in the general-purpose register of the main side MPU 82. (Step SA805).

If the value of the state determination counter 326 is "1" to "9" (step SA804: NO), that is, if the gaming state is the first to third time saving state ST1 to ST3, the value of the state determination counter 326 is divided by "3" (step SA806). If the remainder of the division result is "0" (step SA807: YES), the remainder is changed to "3" (step SA808). If a negative determination is made in step SA807 or if the processing of step SA808 is executed, the residual value resulting from the processing of steps SA806 to SA808 is set as an offset value in the general-purpose register of the main MPU 82 (step SA809). In this case, the value of the state determination counter 326 is either "1", "4" and "7" if it is the first stage of the first to third time saving states ST1 to ST3, so "3" The remainder of the division result is "1" and the offset value is also "1". In addition, since the value of the state determination counter 326 is either "2", "5" and "8" in the second stage of the first to third time saving states ST1 to ST3, divide by "3" The resulting remainder is "2" and the offset value is also "2". In addition, since the value of the state determination counter 326 is either "3", "6" and "9" in the third stage of the first to third time saving states ST1 to ST3, divide by "3" The resulting remainder is "0", and the remainder is rewritten to "3" by executing the process of step SA808, resulting in an offset value of "3".

When the processing of step SA803, step SA805 or step SA809 is executed, step SA803, step SA805 or step SA805 or step SA805 or step The offset value set at SA809 is added (step SA810). Then, in the game cycle period address table 311, the start address set in the storage area corresponding to the address after the addition is read (step SA811), and the game cycle period tables 312 to 316 corresponding to the read start address are stored. It is read out to the main side RAM 84 (step SA812). In this case, when "0" is set as the offset value at step SA803, the address calculated at step SA810 is "00A0H". It is read out to the main side RAM 84 . Further, when "4" is set as the offset value at step SA805, the address calculated at step SA810 is "00A4H". It is read out to the main side RAM 84 . Also, if "1" is set as the offset value at step SA809, the address calculated at step SA810 is "00A1H", so at step SA812 the game cycle period table for the first stage time saving 313 is read out to the main side RAM 84 . Also, if "2" is set as the offset value at step SA809, the address calculated at step SA810 is "00A2H", so at step SA812 the game cycle period table for the second stage time saving 314 is read into the main side RAM 84 . Also, when "3" is set as the offset value at step SA809, the address calculated at step SA810 is "00A3H", so at step SA812 the game cycle period table for the third stage time saving 315 is read into the main side RAM 84 .

After that, the game cycle period tables 312 to 316 read out at step SA812 are referred to, and the variable display period selection process is executed (step SA813). In this case, in this embodiment, since the numerical information of the variation type counter CS is included in the first reservation information or the second reservation information, the game period tables 312 to 316 are referred to and the numerical information of the variation type counter CS When selecting the corresponding variable display period, the numerical information of the variable type counter CS is the first reservation information or the second reservation information that triggered the execution of the game round this time is the first special figure reservation area 111 or the second special It becomes the numerical information of the fluctuation type counter CS when stored in the figure reservation area 112 . After that, the information of the variable display period selected in step SA813 is set to the special figure side timer counter provided in the main side RAM84 (step SA814). The update of the numerical value information set in the special figure side timer counter is executed in the timer update process of step S210 in the timer interrupt process (FIG. 14).

With the above configuration, not only the type of each stage of the time saving state ST1 to ST3 by the state determination counter 326, but also the normal game state, the high probability state, the first time saving state ST1, the second time saving state ST2 and the third time saving state It is possible to specify which game state of ST3 the player is staying. As a result, in this embodiment, the high probability flag 321, the first time saving state flag 322, the second time saving state flag 323 and the third time saving state flag 324 provided in the main side RAM 84 in the fifteenth embodiment are unnecessary. Therefore, the configuration of the main RAM 84 can be simplified.

In the first to third time saving states ST1 to ST3, an offset value is derived by performing a predetermined arithmetic processing (step SA806 to step SA808) on the value of the state determination counter 326, and the offset value is used. , the start address of the corresponding game cycle period table 312 to 315 is read out from the game cycle period address table 311 . This makes it possible to simplify the configuration for reading out the game cycle period tables 313 to 315 in each stage of the time saving states ST1 to ST3.

<Nineteenth Embodiment>
In this embodiment, the mode of execution of the time saving states ST1 to ST3 is different from that of the fifteenth embodiment. The configuration different from that of the fifteenth embodiment will be described below. Note that the description of the same configuration as that of the fifteenth embodiment is basically omitted.

FIG. 165 is an explanatory diagram for explaining the storage area of the main side RAM 84 used for controlling the game state.

The main RAM 84 is provided with a high probability flag 321 and a ceiling counter 325 as in the fifteenth embodiment. In addition, instead of the first time saving state flag 322, the second time saving state flag 323, the third time saving state flag 324, the state determination counter 326 and the state continuation counter 327, the main side RAM 84 has a time saving target counter 371, the first time saving A state counter 372, a second time saving state counter 373, a third time saving state counter 374 and a time saving continuation counter 375 are provided.

The time saving target counter 371 is a counter for specifying the types of the time saving states ST1 to ST3 that are the execution target in the main side MPU82. When the high probability flag 321 is "1", regardless of the value of the time saving object counter 371, it corresponds to a high probability state. When the value of the high probability flag 321 is "0" and the value of the time saving target counter 371 is "0", it usually corresponds to the game state. When the value of the time saving object counter 371 is "1", it respond|corresponds to 1st time saving state ST1. When the value of the time saving object counter 371 is "2", it corresponds to the second time saving state ST2. When the value of the time saving target counter 371 is "3", it corresponds to the third time saving state ST3.

When "1" is set to the high probability flag 321 or when the value of the time saving target counter 371 is "1", that is, when the high probability state or the first time saving state ST1, the normal figure fluctuation of the main side MPU82 In the case of executing the general pattern correctness determination process (step S407) in the start process (FIG. 16), the high probability table on the general pattern side (step S406) is read, and when the fluctuation display of the general pattern display unit 38a is started In (step S415), the short period on the normal map side is selected as the continuation period of the variable display times (step S414). Further, by executing steps S509 to S511 as the control processing of the general electric open state in the general electric map fixing process (FIG. 17) of the main side MPU 82, the general electric open state becomes the high expectation mode.

When the value of the time saving target counter 371 is "2" or "3", that is, when the second time saving state ST2 or the third time saving state ST3 When the validity determination process (step S407) is executed, the low probability table on the general pattern side (step S405) is read, and when the fluctuation display of the general pattern display unit 38a is started (step S415), the general pattern side A short period is selected as the duration of the variable display times (step S414). Further, by executing steps S509 to S511 as the control processing of the general electric open state in the general electric map fixing process (FIG. 17) of the main side MPU 82, the general electric open state becomes the high expectation mode.

When the value of the high probability flag 321 is "0" and the value of the time saving target counter 371 is "0", that is, when the normal game state When executing the figure correctness determination process (step S407), the low probability table (step S405) on the general pattern side is read, and when starting the variable display of the general pattern display unit 38a (step S415), the general pattern side is selected as the duration of the variable display times (step S413). Further, by executing steps S506 to S508 as control processing of the general electric open state in the general electric map determination process (FIG. 17) of the main side MPU 82, the general electric open state becomes the low expectation mode. As in the first to eighteenth embodiments, in the opening and closing execution mode, regardless of the game state before the opening and closing execution mode is started, in the same manner as in the normal game state, the normal game right or wrong determination process (step S407), execution control of the variable display of the general/universal diagram display section 38a and the general/universal electric open state is performed.

The 1st time saving state counter 372 is a counter for specifying the remaining continuation frequency of 1st time saving state ST1 in main side MPU82. The 2nd time saving state counter 373 is a counter for specifying the remaining continuation frequency of 2nd time saving state ST2 in main side MPU82. The 3rd time saving state counter 374 is a counter for specifying the remaining continuation frequency of 3rd time saving state ST3 in main side MPU82.

In this embodiment, the time saving states ST1 to ST3 are forcibly ended by executing the opening/closing execution mode triggered by the result of the jackpot as in the fifteenth embodiment. Therefore, the start opportunity of the first time saving state ST1 does not occur in the middle of any one of the first to third time saving states ST1 to ST3. In addition, the number of continuations of the first time-saving state ST1, which is started when the opening/closing execution mode triggered by the 5R low probability result ends, is 100 times, and when the opening/closing execution mode is executed, the number of continuations is greater than A ceiling number of times (specifically, 900 times), which is a large number of times, is set. Therefore, the start opportunity of 2nd time saving state ST2 does not generate|occur|produce in the middle of 1st time saving state ST1. In addition, when the second time-saving state ST2 occurs once after the game times of the ceiling number of times have been consumed, the ceiling counter at the time of the occurrence of the opening and closing execution mode triggered by the jackpot result or the start of supply of the operating power after that. As long as the ceiling number of times is not set to 325, the start opportunity of the second time saving state ST2 does not occur. Therefore, the start opportunity of 2nd time saving state ST2 does not generate|occur|produce in the middle of 2nd time saving state ST2.

On the other hand, in any one of the first to third time saving states ST1 to ST3, a game round corresponding to the time saving result is executed in the middle of it, and the start opportunity of the third time saving state ST3 may occur. In addition, in the middle of the third time saving state ST3, the ceiling number of game rounds is completed, and the second time saving state ST2 may be triggered to start. In this case, when the game cycle corresponding to the time saving result is executed in the middle of the first time saving state ST1 or the second time saving state ST2, the execution target is not changed to the third time saving state ST3 and the time saving until then. The states ST1 and ST2 are continued, but the number of continuations of the third time saving state ST3 is set to the third time saving state counter 374 . In addition, when the execution of the ceiling number of game rounds is completed in the middle of the third time saving state ST3, the execution target is changed to the second time saving state ST2, but the value of the third time saving state counter 374 is cleared to "0". not. The information on the number of times of continuation set in the third time saving state counter 374 is executed every time the game round is executed even in a situation where the third time saving state ST3 is not the execution target and the other time saving states ST1 and ST2 are the execution targets. is decremented by 1. When the other time saving states ST1 and ST2 that have been executed so far are completed in the situation where the information on the number of times of continuation of 1 or more is stored in the third time saving state counter 374, the third time saving state counter 374 at that time The 3rd time saving state ST3 which continues over the remaining continuation frequency|count which is memorize|stored is performed. On the other hand, when the value of the third time saving state counter 374 becomes "0" in a situation where the other time saving states ST1 and ST2 are to be executed, the latent third time saving state ST3 is to be executed. end without In addition, when the game round corresponding to the time saving result is executed in the middle of the third time saving state ST3, as in the fifteenth embodiment, the third time saving state counter 374 shows the number of continuations of the third time saving state ST3. reset.

A time saving continuation counter 375 is a counter for specifying the number of games executed in the time saving state ST1 to ST3 after any of the first to third time saving states ST1 to ST3 is newly started. is. Although the details will be described later, in the time saving states ST1 to ST3, the variation display period of the game round is determined in a mode corresponding to the value of the time saving continuation counter 375. Further, as in the first embodiment, the content of the effect for the game round executed by the symbol display device 41, the display light emitting unit 64 and the speaker unit 65 in each game round according to the variable display period of the game round. can be different, it can be said that in the time saving states ST1 to ST3, the execution mode of the effect for the game cycle is determined in a mode corresponding to the value of the time saving continuation counter 375.

FIG. 166 is a flow chart showing special electric end processing in this embodiment executed by the main MPU 82 .

If the value of the special figure side timer counter is "0", that is, if the ending period has passed (step SA901: YES), the game result that triggered the opening and closing execution mode this time is 5R high probability result or 10R If it is a high probability result (step SA902: YES), the high probability flag 321 is set to "1" (step SA903), and the time saving target counter 371 and each time saving state counter 372 to 374 are cleared to "0" (Step SA904). Also, "100", which is the number of continuations of the high probability state, is set in the high probability state counter provided in the main RAM 84 (step SA905). As a result, the game state after the opening/closing execution mode ends is the high probability mode and the first high-frequency support mode regardless of the game state before the opening/closing execution mode starts. The value of the high-probability state counter is decremented by 1 each time a game round is executed in the high-probability state as in the first embodiment, and the value of the high-probability state counter after decrementing by 1 becomes "0". , a process for terminating the high probability state and shifting to the normal game state is executed.

On the other hand, if the game result that triggered the opening and closing execution mode this time is a 5R low probability result (step SA902: NO), the high probability flag 321 is cleared to "0" (step SA906), and the time reduction target counter 371 is set to "1" (step SA907). In addition, the first time saving state counter 372 is set to "100", which is the number of continuations of the first time saving state ST1, and the second time saving state counter 373, the third time saving state counter 374 and the time saving continuation counter 375 are cleared to "0". (step SA908). Thereby, the game state after the end of the opening/closing execution mode becomes the first time saving state ST1 which is the low probability mode and the first high frequency support mode regardless of the game state before the start of the opening/closing execution mode. Moreover, even if 3rd time saving state ST3 is latent before the start of opening/closing execution mode, it will be in the state where 3rd time saving state ST3 is not latent.

If the process of step SA905 or step SA908 has been executed, the state designation command transmission process is executed (step SA909). In the transmission process, when the game state shifts to the high probability state, the corresponding state designation command is transmitted to the sound and light side MPU 93, and when the game state shifts to the first time saving state ST1, the state corresponding to it A specified command is transmitted to the sound and light side MPU 93 . After that, "1" is set to the outer end flag at the end of the jackpot in the main side RAM 84 (step SA910), and the special figure special electric counter is cleared to "0" (step SA911).

Figure 167 is a flow chart showing the subtraction process of the ceiling counter 325 executed in step S8310 of the process during special figure determination (Figure 128).

If the high probability flag 321 is set to "1" (step SB101: YES), that is, if the high probability state is set, the subtraction process of the ceiling counter 325 is terminated without executing the processes after step SB102. As in the fifteenth embodiment, the value of the ceiling counter 325 is not subtracted in the game cycle executed in the high-probability state, and the value of the ceiling counter 325 is not subtracted. There is no ceiling time reduction.

If "1" is not set to the high probability flag 321 (step SB101: NO), that is, the game state is either the normal game state, the first time saving state ST1, the second time saving state ST2 and the third time saving state ST3 If there is, on condition that the value of the ceiling counter 325 is 1 or more (step SB102: YES), the value of the ceiling counter 325 is subtracted by 1 (step SB103). Then, when the value of the ceiling counter 325 after the subtraction of 1 is "0" (step SB104: YES), the time saving target counter 371 is set to "2" (step SB105), and the second time saving state counter 373 "150" which is the number of continuations of the second time saving state ST2 is set, and the time saving continuation counter 375 is cleared to "0" (step SB106). Thereby, it becomes 2nd time saving state ST2 which is low probability mode and is 2nd high frequency support mode. After that, set "1" to the outer end flag at the time of time saving occurrence in the main side RAM 84 (step SB107), and transmit a state designation command indicating that the second time saving state ST2 has started to the sound and light side MPU 93 (step SB108).

Figure 168 is a flow chart showing the setting process for the time saving result executed in step S8309 of the process during special figure determination (Figure 128).

If the game result of the current game cycle is a time saving result (step SB201: YES), it is determined whether or not the high probability flag 321 is set to "1" (step SB202). And when "1" is set to the high probability flag 321 (step SB202: YES), the setting process for this time saving result is complete|finished, without performing the process after step SB203. In other words, even if the time saving result is selected in the winning/failure determination process of the game round executed in a high probability state, the setting of the third time saving state ST3 triggered by the time saving result is not performed. is disabled.

If "1" is not set to the high probability flag 321 (step SB202: NO), by determining whether the value of the time reduction target counter 371 is 1 or more, the current game state is the first to the It is determined whether or not it is one of the 3 o'clock reduction states ST1 to ST3 (step SB203). When the value of the time reduction target counter 371 is "0" (step SB203: NO), that is, when the game state is the normal game state, the time reduction target counter 371 is set to "3" and the time reduction continuation counter 375 is set to "0". "Clear (step SB204), set the outer end flag at the time of time saving in the main RAM84 to "1" (step SB205), and set the third time saving state counter 374 to the third time saving state ST3 "50 ' is set (step SB206). As a result, the game state shifts from the normal game state to the third time saving state ST3. In addition, in step SB205, the outer end flag at the time of time saving is set to "1", but when the outer end flag at time of time saving is set to "1", the above fifteenth implementation As in the form, the output state of the second jackpot signal is set to HI level over the ON continuation period with respect to the outer terminal 333 for the second jackpot signal, and the external terminal for the advantageous state signal is executed. Processing is executed to set the output state of the advantageous state signal to the HI level for the end terminal 334 .

After that, a state designation command indicating that the normal game state has shifted to the third time saving state ST3 is transmitted to the sound and light side MPU 93 (step SB207). When the sound and light side MPU 93 receives the state designation command, the pattern display device 41, the display light emitting unit 64 and the speaker unit 65 perform an effect indicating that the normal game state has shifted to the third time saving state ST3. Execute the process to make

When the value of the time saving target counter 371 is 1 or more (step SB203: YES), by determining whether the value of the time saving target counter 371 is "3", the current game state is the third time saving state ST3 (step SB208). When the value of the time saving object counter 371 is "3" (step SB208: YES), the time saving continuation counter 375 is cleared to "0" (step SB209). Then, "50" which is the continuation frequency of 3rd time saving state ST3 is set to the 3rd time saving state counter 374 (step SB206). As a result, when the game round corresponding to the time saving result is executed in the middle of the third time saving state ST3, the third time saving state ST3 is set in a state where the number of continuations of the third time saving state ST3 is set to 50 times again. It will start anew. In addition, since the time saving continuation counter 375 is cleared to "0", the determination mode of the variable display period of the game round in the third time saving state ST3 also returns to the determination mode when the third time saving state ST3 is newly started. Become. After that, in the middle of the third time saving state ST3, a state specifying command indicating that the third time saving state ST3 has newly started is transmitted to the sound and light side MPU 93 (step SB207). When the sound and light side MPU 93 receives the state designation command, the effect indicating that the third time saving state ST3 has newly started in the middle of the third time saving state ST3 is the pattern display device 41, the display light emitting unit 64 and the speaker unit 65 performs processing to cause it to be performed.

Here, in the fifteenth to eighteenth embodiments, even if the game round corresponding to the time saving result is executed in the middle of the third time saving state ST3 and the third time saving state ST3 is newly started, the main side By setting "1" to the outer end flag at the time of time saving in the RAM 84, the output state of the second jackpot signal becomes HI level over the ON continuation period at the time of the new start of the third time saving state ST3. However, in this embodiment, in the middle of the third time saving state ST3, when the game round corresponding to the time saving result is executed and the third time saving state ST3 is newly started, outside the time saving occurrence in the main side RAM84 Since the process (step SB205) of setting "1" to the end flag is not executed, the output state of the second jackpot signal is maintained at the LOW level even if the third time saving state ST3 is newly started. However, it is not limited to this, and even in this embodiment, as in the fifteenth to eighteenth embodiments, the output state of the second jackpot signal is ON during the new start of the third time saving state ST3. It may be configured to be HI level over the entire period. In addition, even if the third time saving state ST3 is newly started as in the present embodiment, the configuration in which the output state of the second jackpot signal is maintained at the LOW level is applied to the fifteenth to eighteenth embodiments. good too.

If the value of the time reduction target counter 371 is 1 or more in step SB203 and the positive determination is made, and if the negative determination is made that the value of the time reduction target counter 371 is not "3" in step SB208, the first It means that the game round corresponding to the time saving result was executed in the time saving state ST1 or the second time saving state ST2. In this case, although the process of setting "50" which is the number of continuations of the third time saving state ST3 to the third time saving state counter 374 in step SB206 is executed, the processing of setting "3" to the time saving target counter 371 The value of the time saving object counter 371 is maintained without being executed. Therefore, when the game round corresponding to the time saving result is executed in the middle of the first time saving state ST1 or the second time saving state ST2, the current time saving state ST1, ST2 is maintained, but the third time saving state counter 374 The number of times the 3 o'clock short state ST3 continues is set. In this case, under the situation in which the first time saving state ST1 or the second time saving state ST2 is to be executed, the third time saving state ST3 is not to be executed, but is latent.

In this way, even if the third time saving state ST3 is not targeted for execution but is in hiding, in step SB207 the state designation command indicating that the third time saving state ST3 has occurred is sounded. It is transmitted to the optical side MPU 93 . When the sound and light side MPU 93 receives the state designation command, the pattern display device 41, the display light emitting unit 64 and the speaker unit 65 execute an effect indicating that the latency of the third time saving state ST3 has occurred. process for As a result, it is possible for the player to recognize that the third time-saving state ST3 is hidden, although it is not the execution target.

As described above, when the game round corresponding to the time saving result is executed in the high probability state, the movement to the third time saving state ST3 triggered by the time saving result in the same manner as in the fifteenth embodiment, and the third time saving state Neither the resetting of the number of continuations of ST3 nor the latency of the third time saving state ST3 occurs. On the other hand, when the game round corresponding to the time saving result is executed in the normal game state, the transition to the third time saving state ST3 occurs, and the game corresponding to the time saving result in the first time saving state ST1 or the second time saving state ST2 When the time is executed, the latency of the third time saving state ST3 occurs, and when the game time corresponding to the time saving result is executed in the third time saving state ST3, the number of times of continuation of the third time saving state ST3 is reset. occurs. In this case, the stop result that is stopped and displayed on the special figure display units 37a and 37b in the game round in which the time saving result is selected in the success/failure determination process is the setting related to the third time saving state ST3 triggered by the time saving result. On the other hand, the stop result stopped and displayed on the pattern display device 41 changes depending on whether or not the third time saving state ST3 triggered by the time saving result is set. Such contents will be described in detail below.

5R low probability result, 5R high probability result, 10R high probability result, time saving result and off result exists. The stop result that is stopped and displayed as the fixed display of the game round in the special figure display units 37a and 37b is "1" in the case of the 5R low probability result and "2" in the case of the 5R high probability result, It is "3" in the case of a 10R high probability result, "4" in the case of a time saving result, and "-" in the case of an outlier result. These stop results do not change in any game situation. Therefore, by confirming the stop result of the special figure display portions 37a and 37b, the manager of the game hall can uniquely grasp the game result of the game round.

The stop result that is stop-displayed as the confirmation display of the game cycle on the pattern display device 41 does not change in any game situation in the case of a jackpot result or in the case of a losing result, whereas it is a time-saving result. In some cases, it changes depending on the game situation. This content will be described with reference to the flow chart in FIG. FIG. 169 is a flow chart showing the process of determining the variation pattern in this embodiment, which is executed by the sound and light side MPU 93 . Note that the variation pattern determination process is executed when a variation command and a type command are received from the main MPU 82 .

When information indicating that the game round to be started this time corresponds to the jackpot result is set in the type command received this time (step SB301: YES), stop symbol determination processing for the jackpot result is executed. (Step SB302), and red is selected as the stop result of the state suggestion area 43 of the pattern display device 41 (Step SB303). The contents of these processes are the same as steps S1402 and S1403 of the variation pattern determination process (FIG. 28) in the first embodiment.

If information indicating that the game round to be started this time corresponds to the time saving result is set in the type command received this time (step SB304: YES), the current game state is a high probability state If (step SB305: YES), stop symbol determination processing for non-reach out is executed (step SB306). In the stop symbol determination process for non-reach out, as the stop result to be stopped and displayed in the symbol rows Z1 to Z3 of the symbol display device 41, a combination of symbols corresponding to the jackpot result, a combination of time-saving generating symbols ("1, 2, 3 ”), a combination of latent symbols (“7, 8, 9”), which will be described later, and a combination of non-reach out symbols, which is a combination of symbols other than the combination of out reach symbols, will be stopped and displayed. The stop result is determined by lottery. do. Also, blue is selected as the stop result of the state suggestion area 43 of the pattern display device 41 (step SB307).

If information indicating that the game round to be started this time corresponds to the time saving result is set in the type command received this time (step SB304: YES), the current situation is the normal game state or the second If it is 3 time saving state ST3, or if the current situation is the first time saving state ST1 or the second time saving state ST2 but it is the final game round (step SB308: NO), the game round corresponding to this time saving result is triggered Since the third time saving state ST3 is newly started, stop symbol determination processing for suggesting time saving is executed (step SB309). In the stopping pattern determination process for suggesting time saving, a combination of time saving generating patterns (“1, 2, 3”) is selected as the stop result to be stopped and displayed in the pattern rows Z1 to Z3 of the pattern display device 41 . In addition, in the stopping symbol determination process for suggesting time saving, the effective lines L1 to L5 for stop-displaying combinations of time saving generating symbols are determined by lottery. After that, red is selected as the stop result of the state suggestion area 43 of the pattern display device 41 (step SB310).

If information indicating that the game round to be started this time corresponds to the time saving result is set in the type command received this time (step SB304: YES), the current situation is the first time saving state ST1 Or if it is a game round other than the final game round of the second time saving state ST2 (step SB308: YES), stop symbol determination processing for latent suggestion is executed (step SB311). In the stop symbol determination process for suggesting concealment, a combination of concealment occurrence symbols (“7, 8, 9”) is selected as the stop result to be stopped and displayed in the symbol rows Z1 to Z3 of the symbol display device 41. FIG. In addition, in the stopping symbol determination process for suggesting lurking, the effective lines L1 to L5 for stop-displaying the combination of lurking generating symbols are determined by lottery. After that, red is selected as the stop result of the state suggestion area 43 of the pattern display device 41 (step SB312).

When the type command received this time contains information indicating that the game round to be started this time corresponds to the result of losing (step SB304: NO), stop symbol determination processing for losing is executed. (Step SB313). In the stop symbol determination process for losing, when the variable display period information indicating that the game round to be started this time corresponds to the occurrence of the reach display is set in the variable command received this time , as a stop result to be stopped and displayed in the pattern rows Z1 to Z3 of the pattern display device 41, the combination of the winning reach symbols is determined by lottery, and the effective lines L1 to L5 for stopping and displaying the combination of the determined losing reach symbols are selected by lottery. Determined by In addition, in the stop symbol determination process for failure, information of a variable display period indicating that the game round to be started this time does not correspond to the occurrence of the ready-to-win display is set in the variable command received this time. In the case, the combination of symbols corresponding to the jackpot result, the combination of time-saving patterns (“1, 2, 3”), the combination of latent patterns (“7, 8, 9”), and the combination of off-reach patterns A lottery determines the stop result of the stop display of the combination of symbols. After that, red is selected as the stop result of the state suggestion area 43 of the pattern display device 41 (step SB314).

If the processing of step SB303, step SB307, step SB310, step SB312, or step SB314 is executed, pattern determination processing is executed (step SB315). In the pattern determination process, the stop result determined in steps SB301 to SB314 and the variation pattern corresponding to the information of the variation display period included in the variation command received this time are selected, and the variation corresponding to the selected variation pattern is selected. The pattern table is read from the sound and light side ROM 94 to the sound and light side RAM 95 . The sound and light side MPU 93 controls the display light emitting unit 64 and the speaker unit 65 according to the read variation pattern table, thereby causing the display light emitting unit 64 and the speaker unit 65 to perform the effect of the variation pattern corresponding to the current game round. .

Thereafter, a variation pattern command corresponding to the variation pattern determined at step SB315 is transmitted to display side MPU 103 (step SB316). The display side MPU 103 reads the display control table corresponding to the received variation pattern command from the display side ROM 104 to the display side RAM 105 . The display-side MPU 103 controls the symbol display device 41 according to the read display control table, thereby causing the symbol display device 41 to display a variation pattern corresponding to the current game turn. In this case, the stop result to be stop-displayed in the symbol rows Z1 to Z3 of the pattern display device 41 and the stop result to be stop-displayed in the state suggesting area 43 of the pattern display device 41 in the game cycle are determined by the variation pattern determination process (FIG. 169). This is the stop result determined in steps SB301 to SB314.

As described above, if it is the normal game state or the third time saving state ST3, or if the current situation is the first time saving state ST1 or the second time saving state ST2 but it is the final game round If the time saving result is obtained, the pattern A combination of time saving patterns (“1, 2, 3”) is stop-displayed on any of the effective lines L1-L5 of the columns Z1-Z3, and red is stop-displayed in the state suggesting area 43. As a result, as in the fifteenth to eighteenth embodiments, the pattern display device 41 indicates that the transition to the third time saving state ST3 has occurred or that the number of continuations of the third time saving state ST3 has been reset. It is possible for the player to recognize the stop result.

When the time saving result is obtained in the situation where the game time is the game time other than the final game time of the first time saving state ST1 or the second time saving state ST2, the latent generation pattern on the effective line L1 to L5 of any of the symbol rows Z1 to Z3 ("7, 8, 9") are stopped and displayed in red in the state suggestion area 43. Thereby, it becomes possible for the player to recognize that the latency of the third time-saving state ST3 has occurred by the stop result of the symbol display device 41 .

When the time saving result is obtained in the high-probability state, combinations of non-reach-out symbols are stop-displayed on the effective lines L1-L5 in the symbol rows Z1-Z3. The combination of non-reach out symbols is the combination of symbols corresponding to the jackpot result, the combination of time-saving patterns (“1, 2, 3”), the combination of latent patterns (“7, 8, 9”), and the off reach. It is a combination of symbols other than the combination of symbols. Blue is stopped in the state suggestion area 43 . The combination of non-reach-out symbols is stop-displayed even when the result of the success/failure determination process is an out-of-match result.

The display area of the symbol display device 41 is wider than the display area of the special symbol display portions 37a and 37b, and the symbol display device 41 is arranged substantially in the center of the game area PA, whereas the special symbol display portions 37a and 37b are arranged. is arranged on the corner side of the game area PA, the symbol display device 41 attracts the player's attention more than the special symbol display portions 37a and 37b. In addition, while the symbol display device 41 executes a wide variety of effects such as ready-to-win display, the special symbol display units 37a and 37b perform variable display of patterns in a fixed manner as already described, corresponding to the game results. Since only the stop result is displayed, the symbol display device 41 attracts the player's attention more than the special symbol display portions 37a and 37b also from this point. In such circumstances, if the result is a time saving result that does not trigger the setting of the third time saving state ST3, the non-reach off pattern that can be stopped and displayed in the case of the result of deviating from the effective lines L1 to L5 of the symbol rows Z1 to Z3 By statically displaying the combination, it is possible to make it difficult for the player to recognize that the time saving result has been invalidated despite the selection.

If it is a time saving result that does not trigger the setting related to the third time saving state ST3, it is stopped and displayed even if the result of the success/failure determination process is off on each of the valid lines L1 to L5 of the symbol rows Z1 to Z3 as described above. Even if the combination of non-reach-out symbols is stop-displayed, a stop result different from the case where the result of the winning/failure determination processing is a losing result is stop-displayed in the state suggesting area 43 . In other words, when the time saving result does not trigger the setting of the third time saving state ST3, the blue color is stopped in the state suggestion region 43, whereas the red color is displayed in the state suggestion region 43 when the result is out. Stop is displayed. As a result, in a situation where the special symbol display portions 37a and 37b are difficult for the manager of the gaming hall to visually recognize, the combinations of non-reach out symbols are stopped and displayed on the effective lines L1 to L5 of the symbol rows Z1 to Z3 in the symbol display device 41. In this case, by checking the state suggesting area 43, it is possible to grasp which of the time saving result and the off result.

Figure 170 is a flow chart showing the time-saving progress process executed in step S8308 of the special figure determination process (Figure 128).

First, it is determined whether or not the high probability flag 321 is set to "1" (step SB401). When "1" is set to the high probability flag 321 (step SB401: YES), the processing for shortening working hours is terminated without executing the processing after step SB402.

If "1" is not set to the high probability flag 321 and the value of the time saving target counter 371 is 1 or more (step SB401: NO, step SB402: YES), that is, the first to third time saving state ST1 If any of ~ ST3, subtraction processing of the first time saving state counter 372 (step SB403), subtraction processing of the second time saving state counter 373 (step SB404), and subtraction processing of the third time saving state counter 374 (step SB405 ). In the subtraction process of the first time saving state counter 372, 1 is subtracted from the value of the first time saving state counter 372 on condition that the value of the first time saving state counter 372 is 1 or more. In the subtraction process of the second time saving state counter 373, 1 is subtracted from the value of the second time saving state counter 373 on condition that the value of the second time saving state counter 373 is 1 or more. In the subtraction process of the third time saving state counter 374, 1 is subtracted from the value of the third time saving state counter 374 on condition that the value of the third time saving state counter 374 is 1 or more.

Here, since the processing of steps SB403 to SB405 is executed regardless of the type of the current time saving state ST1 to ST3, if it is the first time saving state ST1, when one game round is executed, the first time saving Not only the value of the state counter 372 is subtracted by 1, but if the value of the third time saving state counter 374 is 1 or more, the value of the third time saving state counter 374 is subtracted by 1, and if it is the second time saving state ST2 Not only the value of the second time saving state counter 373 is subtracted by 1 when one game round is executed, but if the value of the third time saving state counter 374 is 1 or more, the third time saving state counter 374 The value is decremented by 1. Therefore, when the third time saving state ST3 is latent in either the first time saving state ST1 and the second time saving state ST2, the time saving state which is the execution target when one game round is executed Not only is the remaining number of continuations of ST1 and ST2 decremented by one, but also the remaining number of continuations of the latent third time saving state ST3 is also decremented by one. In this case, depending on the timing when the third time saving state ST3 latents, when the time saving state ST1, ST2 to be executed ends, the value of the third time saving state counter 374 is 1 or more, and the time saving state ST1, ST2 until then Subsequently, a situation may occur in which the third time saving state ST3 is executed over the remaining number of continuations stored in the third time saving state counter 374 . In addition, depending on the timing when the third time saving state ST3 is latent, the value of the third time saving state counter 374 becomes "0" in the middle of the time saving states ST1 and ST2 to be executed, and the situation ends while the third time saving state ST3 is latent. can occur.

After that, if the value of the time saving target counter 371 is "1" (step SB406: YES), that is, if it is the first time saving state ST1, the value of the first time saving state counter 372 is "0" By judging, it is judged whether digestion of the game time of the number of continuations in the first time saving state ST1 has been completed (step SB407). If the affirmative determination is made in step SB407, it is determined whether the third time saving state ST3 is latent by determining whether the value of the third time saving state counter 374 is 1 or more (step SB408 ).

When the value of the third time saving state counter 374 is 1 or more (step SB408: YES), it means that the third time saving state ST3 was latent in the first time saving state ST1. In this case, "3" is set to the time reduction object counter 371 (step SB409). As a result, the execution target switches from the first time saving state ST1 to the third time saving state ST3, and the third time saving state ST3 is executed over the remaining number of continuations stored in the third time saving state counter 374. It will be. After that, a state designation command indicating that the third time saving state ST3 has started is transmitted to the sound and light side MPU 93 (step SB412). When the sound and light side MPU 93 receives the state designation command, the effect indicating that the first time saving state ST1 has ended and the latent third time saving state ST3 has started is the pattern display device 41, the display light emitting unit 64 and the speaker unit 65 are executed. Also, the time saving continuation counter 375 is cleared to "0" (step SB413). Since the time saving continuation counter 375 is cleared to "0", the determination mode of the variable display period of the game round in the third time saving state ST3 returns to the determination mode when the third time saving state ST3 is newly started.

When the value of the 3rd time saving state counter 374 is "0" (step SB408: NO), "0" clears the time saving object counter 371 (step SB410). As a result, the game state becomes the normal game state. In addition, the outer end flag at the end of the time saving in the main side RAM84 is set to "1" (step SB411), and the state designation command indicating that the first time saving state ST1 has ended and the normal game state has been transferred It transmits to MPU93 (step SB412), and "0" clears the time saving continuation counter 375 (step SB413).

When the value of the time saving target counter 371 is "2" (step SB406: NO, step SB414: YES), that is, when the second time saving state ST2, the value of the second time saving state counter 373 is "0" By determining whether or not, it is determined whether or not digestion of the number of continuous games in the second time saving state ST2 has been completed (step SB415). If the affirmative determination is made in step SB415, it is determined whether or not the third time saving state ST3 is latent by determining whether the value of the third time saving state counter 374 is 1 or more (step SB416 ).

When the value of the third time saving state counter 374 is 1 or more (step SB416: YES), it means that the third time saving state ST3 was latent in the second time saving state ST2. In this case, "3" is set to the time reduction object counter 371 (step SB417). As a result, the execution target switches from the second time saving state ST2 to the third time saving state ST3, and the third time saving state ST3 is executed over the remaining number of continuations stored in the third time saving state counter 374. It will be. After that, a state designation command indicating that the third time saving state ST3 has started is transmitted to the sound and light side MPU 93 (step SB420). When the sound and light side MPU 93 receives the state designation command, the effect indicating that the second time saving state ST2 has ended and the latent third time saving state ST3 has started is the pattern display device 41, the display light emitting unit 64 and the speaker unit 65 are executed. Also, the time saving continuation counter 375 is cleared to "0" (step SB421). Since the time saving continuation counter 375 is cleared to "0", the determination mode of the variable display period of the game round in the third time saving state ST3 returns to the determination mode when the third time saving state ST3 is newly started.

When the value of the 3rd time saving state counter 374 is "0" (step SB416: NO), "0" clears the time saving object counter 371 (step SB418). As a result, the game state becomes the normal game state. In addition, the outer end flag at the end of the time saving in the main side RAM84 is set to "1" (step SB419), and the state designation command indicating that the second time saving state ST2 has ended and the normal game state has been transferred It is transmitted to the MPU 93 (step SB420), and the time saving continuation counter 375 is cleared to "0" (step SB421).

If the value of the time saving target counter 371 is "3" (step SB406 and step SB414: NO), that is, if it is the third time saving state ST3, whether the value of the third time saving state counter 374 is "0" By determining , it is determined whether or not the continuous number of game rounds in the third time saving state ST3 has been consumed (step SB422). When an affirmative determination is made in step SB422, the time reduction object counter 371 is cleared to "0" (step SB423). As a result, the game state becomes the normal game state. In addition, the outer end flag at the end of the time saving in the main side RAM84 is set to "1" (step SB424), and the state designation command indicating that the third time saving state ST3 has ended and the normal game state has been transferred It transmits to MPU93 (step SB425), and "0" clears the time saving continuation counter 375 (step SB426).

Next, with reference to the time chart of FIG. 171, the manner in which the third time saving state ST3 latents will be described by taking the relationship with the second time saving state ST2 as an example. Figure 171 (a) shows the period during which the second time saving state ST2 is to be executed, Figure 171 (b) shows the period during which the third time saving state ST3 is to be executed, Figure 171 (c) The value of the ceiling counter 325 shows the timing of "0", Figure 171 (d) shows the timing when the game round corresponding to the time saving result ends, Figure 171 (e) shows the state of the second time saving state counter 373 171(f) shows the state of the third time saving state counter 374. FIG.

At the timing of t1, as shown in FIG. 171(d) in the normal game state, the game cycle corresponding to the time saving result ends, and as shown in FIG. 171(b), the third time saving state ST3 is started. Moreover, as shown in FIG.171(f), the continuation frequency|count of 3rd time saving state ST3 is set to the 3rd time saving state counter 374. FIG. And the value of the 3rd time saving state counter 374 decreases gradually by the game round being repeatedly performed in the 3rd time saving state ST3.

After that, at the timing of t2, which is the timing in the middle of the third time saving state ST3, as shown in FIG. Then, as shown in FIGS. 171(a) and 171(b), the execution target is switched from the third time saving state ST3 to the second time saving state ST2. Moreover, the continuation frequency|count of 2nd time saving state ST2 is set to the 2nd time saving state counter 373 as shown in FIG.171(e). However, as shown in FIG. 171(f), the third time saving state counter 374 is not cleared to "0". Thereby, 3rd time saving state ST3 will be in the latent state on the way. And, the value of the second time saving state counter 373 is gradually decreased as shown in FIG. As it goes on, the value of the third time saving state counter 374 also gradually decreases as shown in FIG. 171(f).

After that, at the timing of t3, which is the timing in the middle of the second time saving state ST2, the value of the third time saving state counter 374 becomes "0" as shown in FIG. 171(f). As a result, the latent third time-saving state ST3 ends while it is latent.

After that, at the timing of t4, which is the timing in the middle of the second time saving state ST2, the game round corresponding to the time saving result ends as shown in FIG. The number of times the third time saving state ST3 continues is set in the three time saving state counter 374 . However, since it is in the middle of the second time saving state ST2, the execution target is maintained in the second time saving state ST2, and the third time saving state ST3 is latent. And, the value of the second time saving state counter 373 is gradually decreased as shown in FIG. As it goes on, the value of the third time saving state counter 374 also gradually decreases as shown in FIG. 171(f).

After that, at the timing of t5, which is the timing in the middle of the second time saving state ST2 in which the third time saving state ST3 is latent, the game round corresponding to the time saving result ends as shown in FIG. The number of continuations of the third time saving state ST3 is reset to the third time saving state counter 374 as shown in FIG. 171(f). However, since it is in the middle of the second time saving state ST2, the execution target is maintained in the second time saving state ST2, and the latency of the third time saving state ST3 is continued. And, the value of the second time saving state counter 373 is gradually decreased as shown in FIG. As it goes on, the value of the third time saving state counter 374 also gradually decreases as shown in FIG. 171(f).

After that, at the timing of t6, the value of the second time saving state counter 373 becomes "0" as shown in FIG. 171(e). Thereby, the second time saving state ST2 ends as shown in FIG. 171(a). Moreover, at the timing of t6, as shown in FIG. 171(f), the value of the third time saving state counter 374 is 1 or more, and the third time saving state ST3 is in a latent state. Therefore, as shown in FIG. 171(b) at the timing of t6, the third time saving state ST3 is executed. The third time saving state ST3 is executed over the remaining number of continuations stored in the third time saving state counter 374 at this point. Then, by repeatedly executing the game round in the third time saving state ST3, the value of the third time saving state counter 374 gradually decreases, and as shown in FIG. 171 (f) at the timing of t7, the third time saving When the value of the state counter 374 becomes "0", as shown in FIG. 171(b), the third time saving state ST3 ends and the normal game state is entered.

Next, an execution mode of the production in the time saving states ST1 to ST3 will be described. FIG. 172 is a flow chart showing processing for specifying a variable display period in this embodiment, which is executed by the main MPU 82. FIG.

If it is not the time saving state ST1 to ST3 (step SB501: NO), in step SB502, if it is a normal game state, the normal game cycle period table 312 is read from the main side ROM 83 to the main side RAM 84, and even if it is a high probability state For example, the high-probability game cycle period table 316 is read from the main ROM 83 to the main RAM 84 .

If it is one of the first to third time saving states ST1 to ST3 (step SB501: YES), 1 is added to the value of the time saving continuation counter 375 (step SB503). Time saving continuation counter 375, when the first time saving state ST1 is started, when the second time saving state ST2 is started, when the third time saving state ST3 is started, the time saving result in the middle of the third time saving state ST3 When the corresponding game round is executed and the number of continuations of the third time saving state ST3 is reset to the third time saving state counter 374, and in the situation where the third time saving state ST3 is latent, the time saving state ST1 to be executed, "0" is cleared in each case where ST2 is finished and the latent third time saving state ST3 is to be executed.

After that, it is determined whether or not the current game round is the last game round of the current time saving states ST1 to ST3 (step SB504). Specifically, when the value of the time saving target counter 371 is "1" and the first time saving state ST1 is to be executed, it is determined whether the value of the first time saving state counter 372 is "1" . Moreover, when the value of the time saving target counter 371 is "2" and the second time saving state ST2 is to be executed, it is determined whether the value of the second time saving state counter 373 is "1". Further, when the value of the time saving target counter 371 is "3" and the third time saving state ST3 is to be executed, it is determined whether or not the value of the third time saving state counter 374 is "1". When an affirmative determination is made at step SB504, the game cycle period table 315 for the third stage time saving is read from the main ROM 83 to the main RAM 84 (step SB505).

If a negative determination is made in step SB504, and the value of the time saving target counter 371 is "1" and the first time saving state ST1 is to be executed (step SB506: YES), the time saving continuation counter 375 It is grasped whether the value corresponds to which stage in the first time saving state ST1 (step SB507). When the first time saving state ST1 is started, the value of the time saving continuation counter 375 is cleared to "0", and when one game round is started in the first time saving state ST1, the value of the time saving continuation counter 375 1 is added. In this case, if the value of the time saving continuation counter 375 is within the range of "1" to "20", it becomes the first stage of the first time saving state ST1, and the value of the time saving continuation counter 375 is in the range of "21" to "99" If it is within, it will be the 2nd stage of 1st time saving state ST1.

If a negative determination is made in step SB504, and the value of the time saving target counter 371 is "2" and the second time saving state ST2 is to be executed (step SB508: YES), the time saving continuation counter 375 It is grasped whether the value corresponds to which stage in the second time saving state ST2 (step SB509). When the second time saving state ST2 is started, the value of the time saving continuation counter 375 is cleared to "0", and when one game round is started in the second time saving state ST2, the value of the time saving continuation counter 375 1 is added. In this case, if the value of the time saving continuation counter 375 is within the range of "1" to "20", it will be the first stage of the second time saving state ST2, and the value of the time saving continuation counter 375 will be in the range of "21" to "149" If it is within, it will be the second step of the second time saving state ST2.

If a negative determination is made in step SB504, and the value of the time saving target counter 371 is "3" and the third time saving state ST3 is to be executed (step SB508: NO), the time saving continuation counter 375 It is grasped whether the value corresponds to which stage in the third time saving state ST3 (step SB510). When the third time saving state ST3 is started, the game round corresponding to the time saving result is executed in the middle of the third time saving state ST3, and the number of continuations of the third time saving state ST3 is reset to the third time saving state counter 374. , and the value of the time saving continuation counter 375 when the time saving states ST1 and ST2 to be executed in the situation where the third time saving state ST3 is latent and the latent third time saving state ST3 is to be executed is cleared to "0", and the value of the time saving continuation counter 375 is incremented by 1 when one game round is started in the third time saving state ST3. In this case, if the value of the time saving continuation counter 375 is within the range of "1" to "20", it will be the first stage of the third time saving state ST3, and the value of the time saving continuation counter 375 will be in the range of "21" to "49" If it is within, it will be the 2nd step of 3rd time saving state ST3.

When the process of step SB507, step SB509 or step SB510 is executed, the process of reading the game cycle period table corresponding to the comprehended stage is executed (step SB511). Specifically, when it is grasped that it is the first stage in the time saving state ST1 to ST3 to be executed, the game cycle period table 313 for the first stage time saving is read from the main side ROM 83 to the main side RAM 84, and the execution target When grasping that it is the second stage in the time saving state ST1 to ST3, the game cycle period table 314 for the second stage time saving is read from the main side ROM 83 to the main side RAM 84.

When the process of step SB502, step SB505 or step SB511 is executed, the game cycle period tables 312 to 316 read out by these processes are referred to and the variable display period selection process is executed (step SB512). In this case, in this embodiment, since the numerical information of the variation type counter CS is included in the first reservation information or the second reservation information, the game period tables 312 to 316 are referred to and the numerical information of the variation type counter CS When selecting the corresponding variable display period, the numerical information of the variable type counter CS is the first reservation information or the second reservation information that triggered the execution of the game round this time is the first special figure reservation area 111 or the second special It becomes the numerical information of the fluctuation type counter CS when stored in the figure reservation area 112 . Then, the information of the variable display period selected in step SB512 is set to the special figure side timer counter provided in the main side RAM84 (step SB513). The update of the numerical value information set in the special figure side timer counter is executed in the timer update process of step S210 in the timer interrupt process (FIG. 14).

The contents of the normal game period table 312, the first stage time saving game period table 313, the second stage time saving game period table 314, and the high probability game period table 316 are the above fifteenth It is the same as the embodiment.

In the situation where the variable display period selection process is executed in step SB512 with reference to the game cycle period table 315 for the third stage time saving, when a big hit result occurs in this game cycle, or the outreach display is displayed When it occurs, a longer variable display period is more likely to be selected than when the other game period tables 312 to 314, 316 corresponding to reach are referred to. Specifically, a period of 30 seconds or longer is selected as the variable display period of game rounds. In the situation where the selection process of the variable display period is executed in step SB512 with reference to the game cycle period table 315 for the third stage time saving, the jackpot result does not occur in this game cycle, and the out reach display is also displayed. If it does not occur, regardless of the type of hold information that triggered the start of the game round and the number of hold information held and stored in the special figure hold area 84a, the second that triggered the execution of the current game round. Regardless of the numerical information of the variation type counter CS included in the 1 suspension information or the 2nd suspension information, the variable display period at the end of the time saving is selected. The variable display period at the end of the time saving is a variable display period longer than the longest period that can be selected when the non-reach table in the other game period tables 312 to 314, 316 is referred to. It is typically 30 seconds. That is, in the final game round of the time saving state ST1 to ST3 to be executed, regardless of whether or not the result of the success/failure determination process and the occurrence of the out-reach reach display occur, the non-reach correspondence in the other game round period tables 312 to 314, 316 A period of 30 seconds or more, which is a variable display period longer than the longest period that can be selected when the table is referred to, is selected as the variable display period of game rounds. As a result, in the final game round of the time saving states ST1 to ST3 to be executed, the pattern display device 41, the display light emitting unit 64, and the effect that allow the player to recognize that the time saving states ST1 to ST3 are finished. Sufficient time is ensured for execution in the speaker unit 65 .

In addition, in the time saving state ST1 to ST3, the variation command transmitted from the main side MPU 82 to the sound and light side MPU 93 includes not only information on the variation display period of the game round selected in step SB512, but also the current time saving state Information indicating the type of ST1 ~ ST3, information indicating the type of stages in the time saving state ST1 ~ ST3, and information of the value stored in the third time saving state counter 374 are set. As a result, the sound and light side MPU 93 receives not only the information on the variation display period of the game round by the variation command received from the main side MPU 82, but also the type of the time saving state ST1 to ST3 that is the object of execution, and the time saving state ST1 to While it is possible to grasp the type of stage of ST3, whether or not the third time saving state ST3 is latent, and if the third time saving state ST3 is latent It is possible to grasp the information of the remaining number of times of continuation of the third time saving state ST3.

FIG. 173 is a flow chart showing the pattern determination process executed at step SB315 in the variation pattern determination process (FIG. 169) of the sound and light side MPU 93. FIG.

If information indicating that the time saving state ST1 ~ ST3 is not set in the command for variation received this time (step SB601, step SB603 and step SB605: NO), other determination processing is executed (step SB610). In the other determination processing, the execution contents of the effect are determined in a mode corresponding to the contents of the variation command and the type command received this time.

If information indicating that the variation command received this time corresponds to the first stage of the time saving state ST1 to ST3 is set (step SB601: YES), execute the determination process for the first stage (step SB602). In the determination process for the first stage, the execution content of the effect is determined in a mode corresponding to the first stage. Specifically, an effect execution lottery process is executed with the type of effect and the selection probability of the effect corresponding to the first stage. In this case, the execution content of the effect is determined in a mode corresponding to the information on the variable display period of the game cycle included in the command for variation and the information on the game result included in the type command.

In the determination process for the first stage, the variation pattern table corresponding to the execution content of the effect determined as described above is read from the sound and light side ROM 94 to the sound and light side RAM 95 . The sound and light side MPU 93 controls the display light emitting unit 64 and the speaker unit 65 according to the read variation pattern table, thereby causing the display light emitting unit 64 and the speaker unit 65 to perform the effect of the variation pattern corresponding to the current game round. . In addition, at step SB316 in the fluctuation pattern determination process (FIG. 169), a fluctuation pattern command corresponding to the fluctuation pattern table is transmitted to the display side MPU 103. FIG. The display side MPU 103 reads the display control table corresponding to the received variation pattern command from the display side ROM 104 to the display side RAM 105 . The display-side MPU 103 controls the symbol display device 41 according to the read display control table, thereby causing the symbol display device 41 to display a variation pattern corresponding to the current game turn. In this case, the stop result to be stop-displayed in the symbol rows Z1 to Z3 of the pattern display device 41 and the stop result to be stop-displayed in the state suggesting area 43 of the pattern display device 41 in the game round are determined by the variation pattern determination process (FIG. 169). This is the stop result determined in steps SB301 to SB314.

If information indicating that the variation command received this time corresponds to the second stage of the time saving state ST1 to ST3 is set (step SB603: YES), execute the determination process for the second stage (step SB604). In the determination process for the second stage, the execution mode of the effect is determined in a mode corresponding to the second stage. Specifically, an effect execution lottery process is executed with the type of effect and the selection probability of the effect corresponding to the second stage. In this case, the execution content of the effect is determined in a mode corresponding to the information on the variable display period of the game cycle included in the command for variation and the information on the game result included in the type command. In the determination process for the second stage, it is possible to select the type of effects that are not selected in the determination process for the first stage, and the selection probabilities of the types of effects that can be selected in the determination process for the first stage are different. are doing.

In the determination process for the second stage, the variation pattern table corresponding to the execution content of the effect determined as described above is read from the sound and light side ROM 94 to the sound and light side RAM 95 . The sound and light side MPU 93 controls the display light emitting unit 64 and the speaker unit 65 according to the read variation pattern table, thereby causing the display light emitting unit 64 and the speaker unit 65 to perform the effect of the variation pattern corresponding to the current game round. . In addition, at step SB316 in the fluctuation pattern determination process (FIG. 169), a fluctuation pattern command corresponding to the fluctuation pattern table is transmitted to the display side MPU 103. FIG. The display side MPU 103 reads the display control table corresponding to the received variation pattern command from the display side ROM 104 to the display side RAM 105 . The display-side MPU 103 controls the symbol display device 41 according to the read display control table, thereby causing the symbol display device 41 to display a variation pattern corresponding to the current game turn. In this case, the stop result to be stop-displayed in the symbol rows Z1 to Z3 of the pattern display device 41 and the stop result to be stop-displayed in the state suggesting area 43 of the pattern display device 41 in the game round are determined by the variation pattern determination process (FIG. 169). This is the stop result determined in steps SB301 to SB314.

If the information indicating that the variation command received this time corresponds to the third stage of the time saving state ST1 to ST3 is set (step SB605: YES), this time by referring to the type command received this time It is determined whether or not the game round corresponds to the big hit result or the time saving result (step SB606). When the game round this time corresponds to the big hit result or the time saving result (step SB606: YES), determination processing for the final game round during non-latency is executed (step SB608). Also, even if the current game round does not correspond to the jackpot result and the time saving result (step SB606: NO), even if the third time saving state ST3 is not latent (step SB607: NO), the non-hidden The decision processing for the final game round of time is executed (step SB608). On the other hand, if the current game round does not correspond to the jackpot result and the time saving result (step SB606: NO), and if the third time saving state ST3 is latent (step SB607: YES), the latent time (step SB609).

In the determination process for the final game round during non-latency, if the current game round corresponds to the jackpot result, information on the variation display period of the game round included in the variation command and the type of jackpot result , and in a mode corresponding to the third stage, the execution contents of the presentation are determined. The execution contents of the performance determined in this case include the contents that allow the player to recognize that the result of the big win will occur, but that the current game round is the final game round of the time-saving states ST1 to ST3. Content that allows the player to recognize is not included, and even if the third time saving state ST3 is in hiding, content that allows the player to recognize that the third time saving state ST3 is in hiding is included. can't When the opening and closing execution mode triggered by the jackpot result occurs, the time saving state ST1 to ST3 is forcibly terminated even in the middle of the time saving state ST1 to ST3, and the latent third time saving state ST3 is also forced. Therefore, it is not necessary to execute an effect that allows the player to recognize that the current game round is the final game round of the time saving states ST1 to ST3, and further, the third time saving state ST3 is latent. It is not necessary to execute an effect that allows the player to recognize that the player is in the game.

In the determination process for the final game round when not in hiding, if the current game round corresponds to the time saving result, it corresponds to the information on the variable display period of the game round included in the variation command and the time saving result Execution content of the effect is determined in a mode corresponding to the third step. The contents of execution of the performance determined in this case allow the player to recognize that it is the final game round of the current time-saving states ST1 to ST3, and to allow the player to recognize that the time-saving result will occur. Although the content is included, the content that allows the player to recognize that the third time saving state ST3 is in the latent state is not included even if the third time saving state ST3 is in the latent state. When the time saving result is obtained in the final game round of the time saving state ST1 to ST3, the number of continuations of the third time saving state ST3 is displayed in the third time saving state counter 374 regardless of whether or not the third time saving state ST3 is in the latent state. Since the third time saving state ST3 that continues over the number of continuations of the third time saving state ST3 is started by being set, an effect that allows the player to recognize that the third time saving state ST3 is latent. does not need to be executed.

In the determination process for the final game round during non-latency, if the current game round does not correspond to either the jackpot result or the time saving result, the variable display period of the game round included in the command for variation The execution contents of the presentation are determined in a mode corresponding to the information and in a mode corresponding to the third step. The execution contents of the performance determined in this case include the contents that allow the player to recognize that the current time saving state ST1 to ST3 is the final game round, and the time saving state ST1 to ST3 ends and the normal game is played. Contains content that allows the player to recognize the transition to a state. In addition, in the game cycle in which the out-reach display occurs, after the combination of symbols corresponding to the out-reach display is stop-displayed in the symbol rows Z1 to Z3, the game is notified that it is the final game round of the current time-saving states ST1 to ST3. An effect for allowing the player to recognize and an effect for allowing the player to recognize that the time-saving states ST1 to ST3 are terminated and a shift to the normal game state is executed.

In the determination process for the final game round during non-latency, the variation pattern table corresponding to the execution content of the effect determined as described above is read from the sound and light side ROM 94 to the sound and light side RAM 95 . The sound and light side MPU 93 controls the display light emitting unit 64 and the speaker unit 65 according to the read variation pattern table, thereby causing the display light emitting unit 64 and the speaker unit 65 to perform the effect of the variation pattern corresponding to the current game round. . In addition, at step SB316 in the fluctuation pattern determination process (FIG. 169), a fluctuation pattern command corresponding to the fluctuation pattern table is transmitted to the display side MPU 103. FIG. The display side MPU 103 reads the display control table corresponding to the received variation pattern command from the display side ROM 104 to the display side RAM 105 . The display-side MPU 103 controls the symbol display device 41 according to the read display control table, thereby causing the symbol display device 41 to display a variation pattern corresponding to the current game turn. In this case, the stop result to be stop-displayed in the symbol rows Z1 to Z3 of the pattern display device 41 and the stop result to be stop-displayed in the state suggesting area 43 of the pattern display device 41 in the game round are determined by the variation pattern determination process (FIG. 169). This is the stop result determined in steps SB301 to SB314.

The determination processing for the final game round in the latent state is executed on the condition that the current game round does not correspond to both the big winning result and the time saving result and that the third time saving state ST3 is latent. In the determination processing for the final game round during the latent state, the execution contents of the presentation are determined in a mode corresponding to the information of the variable display period of the game round included in the command for variation and in a mode corresponding to the third stage. . The execution contents of the performance determined in this case include the contents that allow the player to recognize that it is the final game cycle of the current time saving states ST1 to ST3, and the latent third time saving state ST3 is started. This includes content that allows the player to recognize what is being done. In addition, in the production of the content that allows the player to recognize that the third time saving state ST3 is started, the information of the remaining number of continuations of the third time saving state ST3, that is, the third time saving state counter 374 Information indicating the value stored at the time is reported. This enables the player to recognize the remaining number of continuations of the third time saving state ST3. In addition, in the game cycle in which the out-reach display occurs, after the combination of symbols corresponding to the out-reach display is stop-displayed in the symbol rows Z1 to Z3, the game is notified that it is the final game round of the current time-saving states ST1 to ST3. An effect for making the player recognizable and an effect for making the player recognizable that the latent third time-saving state ST3 is started is executed.

In the determination process for the final game round during latency, the variation pattern table corresponding to the execution content of the effect determined as described above is read from the sound and light side ROM 94 to the sound and light side RAM 95 . The sound and light side MPU 93 controls the display light emitting unit 64 and the speaker unit 65 according to the read variation pattern table, thereby causing the display light emitting unit 64 and the speaker unit 65 to perform the effect of the variation pattern corresponding to the current game round. . In addition, at step SB316 in the fluctuation pattern determination process (FIG. 169), a fluctuation pattern command corresponding to the fluctuation pattern table is transmitted to the display side MPU 103. FIG. The display side MPU 103 reads the display control table corresponding to the received variation pattern command from the display side ROM 104 to the display side RAM 105 . The display-side MPU 103 controls the symbol display device 41 according to the read display control table, thereby causing the symbol display device 41 to display a variation pattern corresponding to the current game turn. In this case, the stop result to be stop-displayed in the symbol rows Z1 to Z3 of the pattern display device 41 and the stop result to be stop-displayed in the state suggesting area 43 of the pattern display device 41 in the game round are determined by the variation pattern determination process (FIG. 169). This is the stop result determined in steps SB301 to SB314.

Next, with reference to the time chart of FIG. 174, the execution mode of the effects in the time saving states ST1 to ST3 will be described. Figure 174 (a) shows the period during which the first time saving state ST1 is to be executed, and Figure 174 (b) is the period during which the third time saving state ST3 is to be executed or the third time saving state ST3 is latent FIG. 174(c) shows the period which is the first stage of the time saving states ST1 and ST3, FIG. 174(d) shows the period which is the second stage of the time saving states ST1 and ST3, and FIG. (e) shows the period during which the production for the game cycle, which is non-latent, is executed as the third stage production of the time saving states ST1 and ST3, and FIG. 174 (f) shows the third stage of the time saving states ST1 and ST3 Shows the period during which the effect for the game round that corresponds to latency is executed as the effect of.

First, the case where the latency of the third time saving state ST3 does not occur in the first time saving state ST1 will be described.

At the timing of t1, the first time saving state ST1 is started as shown in FIG. 174(a) by ending the opening/closing execution mode triggered by the 5R low probability result. In this case, as shown in FIG. 174(c), since it becomes the 1st stage of 1st time saving state ST1, production|presentation is performed in the aspect corresponding to a 1st stage in each game time. After that, at the timing of t2, by completing the digestion of the game times of the number of continuations corresponding to the first stage in the first time saving state ST1, the first time saving state as shown in FIGS. 174 (c) and 174 (d) After the first stage of ST1 is completed, the second stage is entered. In this case, an effect is executed in a mode corresponding to the second stage in each game round.

After that, at the timing of t3, the second stage of the first time saving state ST1 is completed as shown in FIG. It ends and becomes the 3rd step. The third step is the final game round of the first time saving state ST1. In this case, the third time-saving state ST3 is not latent, and furthermore, neither the big win result nor the time-saving result occurs in the final game round. Therefore, in the final game round from the timing of t3 to the timing of t4, as shown in FIG. In the final game round, the variable display period of the game round is 30 seconds or more regardless of the result of the success/failure determination process, so the content that allows the player to recognize that it is the final game round in the first time saving state ST1. It is possible to sufficiently secure a period for executing the production.

Next, the case where the game cycle corresponding to the time saving result does not occur on the way in the third time saving state ST3 will be described.

At the timing of t5, the third time saving state ST3 is started as shown in FIG. 174(b) by completing the game round corresponding to the time saving result. In this case, as shown in FIG. 174(c), since it becomes the 1st step of 3rd time saving state ST3, production|presentation is performed in the aspect corresponding to a 1st step in each game time. After that, at the timing of t6, by completing the digestion of the number of continuous games corresponding to the first stage in the third time saving state ST3, the third time saving state as shown in FIGS. 174 (c) and 174 (d) After the first stage of ST3 is completed, the second stage is started. In this case, an effect is executed in a mode corresponding to the second stage in each game round.

After that, at the timing of t7, the second stage of the third time saving state ST3 is completed as shown in FIG. It ends and becomes the 3rd step. The third step is the final game round of the third time saving state ST3. In this case, the jackpot result and the time saving result do not occur in the final game round. In the final game round from the timing of t7 to the timing of t8, as shown in FIG. 174(e), the effect for the game round is executed in the execution mode of the non-latency corresponding effect. In the final game round, the variable display period of the game round is 30 seconds or more regardless of the result of the success/failure determination process, so the content that allows the player to recognize that it is the final game round in the third time saving state ST3. It is possible to sufficiently secure a period for executing the production.

Next, the case where latency of 3rd time saving state ST3 occurs in 1st time saving state ST1 is demonstrated.

At the timing of t9, the 1st time saving state ST1 is started as shown in FIG. 174(a) by ending the opening/closing execution mode triggered by the 5R low probability result. In this case, as shown in FIG. 174(c), since it becomes the 1st stage of 1st time saving state ST1, production|presentation is performed in the aspect corresponding to a 1st stage in each game time. After that, at the timing of t10, by completing the digestion of the game times of the number of continuations corresponding to the first stage in the first time saving state ST1, the first time saving state as shown in FIGS. 174 (c) and 174 (d) After the first stage of ST1 is completed, the second stage is started. In this case, an effect is executed in a mode corresponding to the second stage in each game round.

After that, the game round corresponding to the time saving result ends at the timing of t11, and as shown in FIGS. Become. In this case, in each game round, the effect corresponding to the second stage is executed, and both the first time saving state counter 372 and the third time saving state counter 374 are decremented.

After that, at the timing of t12, the second stage of the first time saving state ST1 is completed as shown in FIG. It ends and becomes the 3rd step. The third step is the final game round of the first time saving state ST1. In this case, the third time-saving state ST3 is latent, and furthermore, neither the big hit result nor the time-saving result occurs in the final game round. Therefore, in the final game round from the timing of t12 to the timing of t13, as shown in FIG. In the final game round, the variable display period of the game round is 30 seconds or more regardless of the result of the success/failure determination process, so the content that allows the player to recognize that it is the final game round in the first time saving state ST1. It is possible to secure a sufficient period for executing the performance and the performance of the content that enables the player to recognize the start of the hidden third time saving state ST3. In addition, in the production of the content that allows the player to recognize that the third time saving state ST3 is started, the information of the remaining number of continuations of the third time saving state ST3, that is, the third time saving state counter 374 Information indicating the value stored at the time is reported.

At the timing of t13, the first time saving state ST1 ends as shown in FIG. 174(a), and the third time saving state ST3 is executed as shown in FIG. 174(b). In this case, in the time saving progress process (FIG. 170), when the process for targeting the execution of the latent third time saving state ST3 is executed, the time saving continuation counter 375 is cleared to "0" (step SB413, Step SB421) is executed, and in the variable display period identification process (FIG. 172), depending on the value of the time saving continuation counter 375, which one of the first stage and the second stage of the time saving state ST1 to ST3 corresponds? is specified, except when the remaining number of continuations of the 3rd time reduction state ST3 that has been lurking is 1, regardless of the remaining number of continuations of the 3rd time reduction state ST3 that has been lurking. When the third time saving state ST3 is started, the first stage is entered. Therefore, at the timing of t13, as shown in FIG. 174(c), it becomes the first step of the third time saving state ST3, and in each game round, the effect is executed in a mode corresponding to the first step.

The remaining continuation number of times of the 3rd time saving state ST3 which became the execution object at the timing of t13 is 17 times which is below the continuation number of times of the 1st stage. Therefore, before the value of the time saving continuation counter 375 cleared to "0" at the timing of t13 becomes the value corresponding to the second step, the final game round of the third time saving state ST3 is started at the timing of t14. In the final game round from the timing of t13 to the timing of t14, as shown in FIG. 174(e), the effect for the game round is executed in the execution mode of the non-latency corresponding effect. In the final game round, the variable display period of the game round is 30 seconds or more regardless of the result of the success/failure determination process, so the content that allows the player to recognize that it is the final game round in the third time saving state ST3. It is possible to sufficiently secure a period for executing the production.

According to the embodiment detailed above, the following excellent effects are obtained.

When the game cycle corresponding to the time saving result is executed in the first time saving state ST1 or the second time saving state ST2, the third time saving state ST3 is hidden. Then, when the current time saving states ST1 and ST2 are terminated in the situation where the third time saving state ST3 is latent, the latent third time saving state ST3 is to be executed. As a result, it is possible to diversify the manner in which the time saving states ST1 to ST3 are executed, and to allow the time saving states ST1 to ST3 to continue for a long time.

When the game round is executed in the time saving states ST1 and ST2 and the third time saving state ST3 is latent, the value of the third time saving state counter 374 is decremented by 1, thereby hiding. The remaining number of continuations of the third time saving state ST3 decreases. Then, when the value of the third time saving state counter 374 after subtracting 1 in the situation where the third time saving state ST3 is latent becomes "0", the latent third time saving state ST3 is an object to be executed exit without being set to As a result, when the third time saving state ST3 is hidden, it is possible to gradually approach the side where the end opportunity of the third time saving state ST3 occurs every time the game round is executed, and the time saving state ST3 is latent. It is possible to generate a situation in which the third time saving state ST3 is terminated without being set as an object to be executed.

When the time saving states ST1 and ST2 to be executed in the situation where the third time saving state ST3 is latent, the value of the third time saving state counter 374 at that time is the third time saving state ST3 to be executed after that is the remaining number of continuations of As a result, when the latent third time saving state ST3 becomes the execution target, the middle according to the number of game times required from the time the third time saving state ST3 becomes the execution target after the latent It is possible to start the third time saving state ST3 from the number of times of continuation.

When the game round corresponding to the time saving result is executed in the situation where the first time saving state ST1 or the second time saving state ST2 is to be executed and the third time saving state ST3 is latent, the third time saving state counter 374 By resetting the number of continuations of the three hour reduction state ST3, the remaining number of continuations of the third time reduction state ST3 that is in hiding is initialized to the number of continuations of the third time reduction state ST3. Thereby, it is possible to prevent the time saving result generated in the situation where the third time saving state ST3 is latent from being wasted.

When the game round corresponding to the time saving result is executed in the situation of the third time saving state ST3, by resetting the number of continuations of the third time saving state ST3 to the third time saving state counter 374, the execution target The remaining number of continuations of the three hour reduction state ST3 is initialized to the number of continuations of the third time reduction state ST3. Thereby, it is possible to prevent the time saving result generated in the situation where the third time saving state ST3 is to be executed from being wasted.

In the third time saving state ST3, the second time saving state ST2 is latent when the ceiling number of games is completed, but the third time saving state ST3 is hidden on the way and the second time saving state ST2 is started. be. Thereby, it becomes possible to give priority to 2nd time saving state ST2 over 3rd time saving state ST3.

When the game cycle corresponding to the time saving result is executed in the time saving states ST1 and ST2 in the situation where the third time saving state ST3 is latent, the third time saving state ST3 is not hidden multiple times, but the third time saving state. By resetting the number of continuations of the third time saving state ST3 in the counter 374, the remaining number of continuations of the third time saving state ST3 during latency is initialized to the number of continuations of the third time saving state ST3. As a result, it is possible to make the content of the time saving state ST3 in hiding easy for the player to understand.

When the third time saving state ST3 latents by executing the game round corresponding to the time saving result in the first time saving state ST1 or the second time saving state ST2, the symbol row Z1 of the symbol display device 41 in the game round ~ As a result of stopping Z3, a combination of latent symbols ("7, 8, 9") is displayed. This makes it possible for the player to recognize that the third time-saving state ST3 has lurked by using the stop result of the game cycle effect.

When the game round corresponding to the time saving result is executed in the time saving state ST1, ST2 in the situation where the third time saving state ST3 is latent, the stop result of the symbol rows Z1 to Z3 of the symbol display device 41 in the game round A combination of latent patterns (“7, 8, 9”) is displayed as . As a result, the number of continuations of the third time saving state ST3 is reset to the third time saving state counter 374, so that the remaining number of times of continuation of the third time saving state ST3 during latency is initialized to the number of times of continuation of the third time saving state ST3. It is possible to make the player recognize that it has been done by using the result of stopping the performance for the game cycle.

When the time saving states ST1 and ST2 to be executed are finished and the latent third time saving state ST3 is to be executed, the value of the time saving continuation counter 375 is cleared to "0". In the variable display period specifying process (FIG. 172) in the main MPU 82, the game cycle period tables 313 to 315 corresponding to the value of the time saving continuation counter 375 are read out from the main ROM 83, and the variable display period of the game cycle is selected. When the value of the time saving continuation counter 375 is "0", the game time corresponding to the time saving result is executed, and the game time period table for the first stage time saving is executed in the same way as when the third time saving state ST3 is started. 313 is referenced. As a result, the third time saving state ST3 during latency is executed, and the remaining number of times of continuation is less than the number of times of continuation of the third time saving state ST3 When the third time saving state ST3 is started Also, when the third time saving state ST3 is started, the determination mode of the performance contents of the game round performance can be the same determination mode as when the third time saving state ST3 is started without hiding. becomes.

In the last game round of the time saving states ST1 and ST2 in the situation where the third time saving state ST3 is latent, on the condition that both the jackpot result and the time saving result do not occur, the determination process for the final game round during latency is performed. executed. In the determination processing for the final game round during the latent state, the execution contents of the presentation are determined in a mode corresponding to the information of the variable display period of the game round included in the command for variation and in a mode corresponding to the third stage. . The execution contents of the performance determined in this case include the contents that allow the player to recognize that it is the final game cycle of the current time saving states ST1 to ST3, and the latent third time saving state ST3 is started. This includes content that allows the player to recognize what is being done. In addition, in the production of the content that allows the player to recognize that the third time saving state ST3 is started, the information of the remaining number of continuations of the third time saving state ST3, that is, the third time saving state counter 374 Information indicating the value stored at the time is reported. This enables the player to recognize the remaining number of continuations of the third time saving state ST3.

In the last game round of the time saving states ST1 and ST2, regardless of whether or not the third time saving state ST3 is latent, the game round variation display period is longer than the other game rounds in the time saving states ST1 and ST2. A long period is likely to be selected. Thus, in the last game cycle of the time saving states ST1 and ST2 in the situation where the third time saving state ST3 is latent, an effect that allows the player to recognize that the latent third time saving state ST3 is started. It is possible to secure a sufficient period to carry out In addition, since there is no need to change the determination mode depending on whether or not the third time saving state ST3 is latent when determining the variable display period in the last game round of the time saving states ST1 and ST2, variations in the game round It is possible to achieve the above-described excellent effects while reducing the processing load for determining the display period.

Even if it is the last game round of the time saving states ST1 and ST2 in the situation where the third time saving state ST3 is latent, if the last game round corresponds to the jackpot result or the time saving result, it is latent. An effect that enables the player to recognize that the third time saving state ST3 is started is not executed. As a result, it is possible to direct the player's attention to the game-turn effect corresponding to the big win result or the time saving result.

<Another Form of the Nineteenth Embodiment>
(1) In the middle of the third time saving state ST3, when the ceiling number of game rounds is completed, the third time saving state ST3 is terminated rather than latent, and the second time saving state ST2 is newly started. may be configured. The second time saving state ST2 has a continuation count of 150 times, and the third time saving state ST3 has a continuation count of 50 times. In the middle of the second time saving state ST2, the remaining number of continuations of the third time saving state ST3 in hiding becomes 0 times. Therefore, when the second time saving state ST2 is newly started, even if the third time saving state ST3 is ended, there is no effect on the transition mode of the game state.

(2) The number of times the third time saving state ST3 continues may be greater than the number of times the second time saving state ST2 continues. In this case, as in the 19th embodiment, when the number of game rounds of the ceiling number is completed in the middle of the third time saving state ST3, the third time saving state ST3 becomes latent and the second time saving state ST2. By doing so, when the second time saving state ST2 ends, a situation can occur in which the remaining number of continuations of the third time saving state ST3 is one or more. Therefore, when the second time saving state ST2 ends, it is possible to allow the latent third time saving state ST3 to be executed again.

(3) When the game round corresponding to the time saving result is executed in the middle of the third time saving state ST3, the remaining number of continuations of the third time saving state ST3 is initialized to the number of continuations of the third time saving state ST3. However, it is not limited to this, and when the game round corresponding to the time saving result is executed in the middle of the third time saving state ST3, the occurrence of the time saving result is invalidated. good.

(4) Even if the game cycle corresponding to the time saving result is executed in the middle of the third time saving state ST3, the third time saving state ST3 may be latent. In this case, when the third time saving state ST3 ends, it is possible to cause a situation in which the latent third time saving state ST3 is started subsequently.

(5) Whether or not the third time saving state ST3 is latent when the last game round of the time saving states ST1 and ST2 is completed in the variable display period specifying process (FIG. 172) in the main side MPU 82 It is also possible to adopt a configuration in which the selection mode of the variable display period of the last game round is varied depending on whether the last game round is selected. For example, when the last game round of the time saving states ST1 and ST2 is completed, if the third time saving state ST3 is in the latent state, the third time saving state ST3 is not in the latent state. A configuration may be adopted in which the variable display period of the last game round is longer or tends to be longer than the case. In this case, it is possible to secure a long period for executing the effect corresponding to the latent state of the third time saving state ST3 in the last game round. Further, when the last game round of the time saving states ST1 and ST2 is completed, if the third time saving state ST3 is in the latent state, the third time saving state ST3 is not in the latent state. A configuration may be adopted in which the variable display period of the last game round is shorter or tends to be shorter than the case. In this case, it is possible to end the last game round early and start the latent third time saving state ST3 early.

(6) In the last game round of the time saving states ST1 and ST2 in the situation where the third time saving state ST3 is latent, the third time saving state ST3 started following the time saving states ST1 and ST2 is in the middle of the first stage If it becomes the last game round, a notification that makes it recognizable to the player is executed, and the third time saving state ST3 that is started following the time saving states ST1 and ST2 is the last in the middle of the second stage. If it becomes a game time, it may be configured such that a notification is made so that the player can recognize it. Thus, even if the execution mode of the presentation of the third time saving state ST3 is different from the execution mode when the game round corresponding to the time saving result is executed in the normal game state and shifts to the third time saving state ST3, the player feels uncomfortable. It becomes possible not to give.

(7) Even if the third time-saving state ST3 that was in hiding becomes the execution target of the game state, the game-time period table 315 for the third stage time-saving is read from the main ROM 83 in the last game time. However, it is not limited to this, and when the third time saving state ST3 that has been in hiding becomes the execution target of the game state, it is the last Even if it is a game round, the game round period table 313, 314 corresponding to the stage corresponding to the number of game rounds executed in the third time saving state ST3 is read from the main side ROM 83, and the game round variable display period may be selected.

<Twentieth Embodiment>
In this embodiment, the mode of execution of the time saving states ST1 to ST3 is different from that of the fifteenth embodiment. The configuration different from that of the fifteenth embodiment will be described below. Note that the description of the same configuration as that of the fifteenth embodiment is basically omitted.

FIG. 175 is an explanatory diagram for explaining the storage area of the main side RAM 84 used for controlling the game state.

The main side RAM 84 is provided with a high probability flag 321, a ceiling counter 325 and a state continuation counter 327 as in the fifteenth embodiment. In addition, instead of the first time saving state flag 322, the second time saving state flag 323, the third time saving state flag 324 and the state determination counter 326 in the main side RAM84, the time saving target counter 381, the second time saving standby counter 382, the second A three-hour short waiting counter 383 and a second short-hour priority flag 384 are provided.

The time saving target counter 381 is a counter for specifying the types of the time saving states ST1 to ST3 that are the execution target in the main side MPU82. When the high probability flag 321 is "1", regardless of the value of the time saving object counter 381, it corresponds to a high probability state. When the value of the high probability flag 321 is "0" and the value of the time saving target counter 381 is "0", it usually corresponds to the game state. When the value of the time saving object counter 381 is "1", it respond|corresponds to 1st time saving state ST1. When the value of the time saving object counter 381 is "2", it corresponds to the second time saving state ST2. When the value of the time saving object counter 381 is "3", it corresponds to the third time saving state ST3.

When "1" is set to the high probability flag 321 or when the value of the time saving target counter 381 is "1", that is, when the high probability state or the first time saving state ST1, the normal figure fluctuation of the main side MPU82 In the case of executing the general pattern correctness determination process (step S407) in the start process (FIG. 16), the high probability table on the general pattern side (step S406) is read, and when the fluctuation display of the general pattern display unit 38a is started In (step S415), the short period on the normal map side is selected as the continuation period of the variable display times (step S414). Further, by executing steps S509 to S511 as the control processing of the general electric open state in the general electric map fixing process (FIG. 17) of the main side MPU 82, the general electric open state becomes the high expectation mode.

When the value of the time saving target counter 381 is "2" or "3", that is, when the second time saving state ST2 or the third time saving state ST3 When the validity determination process (step S407) is executed, the low probability table on the general pattern side (step S405) is read, and when the fluctuation display of the general pattern display unit 38a is started (step S415), the general pattern side A short period is selected as the duration of the variable display times (step S414). Further, by executing steps S509 to S511 as the control processing of the general electric open state in the general electric map fixing process (FIG. 17) of the main side MPU 82, the general electric open state becomes the high expectation mode.

When the value of the high probability flag 321 is "0" and the value of the time saving target counter 381 is "0", that is, when the normal game state When executing the figure correctness determination process (step S407), the low probability table (step S405) on the general pattern side is read, and when starting the variable display of the general pattern display unit 38a (step S415), the general pattern side is selected as the duration of the variable display times (step S413). Further, by executing steps S506 to S508 as the control processing of the general electric open state in the general electric map fixing process (FIG. 17) of the main side MPU 82, the general electric open state becomes the low expectation mode. As in the first to nineteenth embodiments, in the opening and closing execution mode, regardless of the game state before the opening and closing execution mode is started, in the same manner as in the normal game state, the normal game right or wrong determination process (step S407), execution control of the variable display of the general/universal diagram display section 38a and the general/universal electric open state is performed.

The second time saving standby counter 382 waits for the second time saving state ST2 to be executed by completing the digestion of the game times of the ceiling number (specifically 900 times) in the third time saving state ST3. When the second time saving state ST2 is hidden, it is a counter in which the information of the number of continuations of the second time saving state ST2 is set. The third time saving standby counter 383 waits for the third time saving state ST3 to be executed by executing the game round corresponding to the time saving result in the first to third time saving states ST1 to ST3, and the third When the time saving state ST3 is hidden, it is a counter in which the information of the number of times of continuation of the third time saving state ST3 is set.

Incidentally, in the present embodiment, similar to the fifteenth embodiment, the time-saving states ST1 to ST3 are forcibly ended by executing the opening/closing execution mode triggered by the result of the jackpot. Therefore, the start opportunity of the first time saving state ST1 does not occur in the middle of any one of the first to third time saving states ST1 to ST3. In addition, the number of continuations of the first time-saving state ST1, which is started when the opening/closing execution mode triggered by the 5R low probability result ends, is 100 times, and when the opening/closing execution mode is executed, the number of continuations is greater than A ceiling number of times (specifically, 900 times), which is a large number of times, is set. Therefore, the start opportunity of 2nd time saving state ST2 does not generate|occur|produce in the middle of 1st time saving state ST1. In addition, when the second time-saving state ST2 occurs once after the game times of the ceiling number of times have been consumed, the ceiling counter at the time of the occurrence of the opening and closing execution mode triggered by the jackpot result or the start of supply of the operating power after that. As long as the ceiling number of times is not set to 325, the start opportunity of the second time saving state ST2 does not occur. Therefore, the start opportunity of 2nd time saving state ST2 does not generate|occur|produce in the middle of 2nd time saving state ST2.

The information on the number of continuations set in the second short time standby counter 382 and the information on the number of continuations set in the third short time standby counter 383 are subtracted by 1 each time the game round is executed in the current short time state ST1 to ST3. be. Then, in a situation where the information of the number of continuations of 1 or more is stored in the second time saving waiting counter 382, when the other time saving state ST3 that has been executed until then ends, the second time saving waiting counter 382 at that time 2nd time saving state ST2 is performed over the remaining number of times of continuation memorize|stored in. In addition, in a situation where the information of the number of continuations of 1 or more is stored in the third time-saving standby counter 383, when the other time-saving states ST1 to ST3 that have been executed until then are completed, the third time-saving standby at that time The third time saving state ST3 is executed over the remaining number of continuations stored in the counter 383 .

The second time saving priority flag 384 is executed in a situation where both the second time saving standby counter 382 and the third time saving standby counter 383 are 1 or more and both the second time saving state ST2 and the third time saving state ST3 are latent. When the third time saving state ST3 that has been is completed, the main side MPU 82 specifies which of the latent second time saving state ST2 and the third time saving state ST3 is to be executed first. flag. When "1" is set to the second time saving priority flag 384, the second time saving state ST2 is executed first, and when "1" is not set to the second time saving priority flag 384, the third Time saving state ST3 becomes an object of execution first.

FIG. 176 is a flow chart showing special electric end processing in this embodiment executed by the main MPU 82 .

If the value of the special figure side timer counter is "0", that is, if the ending period has passed (step SB701: YES), the game result that triggered the opening and closing execution mode this time is a 5R high probability result or 10R When it is a high probability result (step SB702: YES), the high probability flag 321 is set to "1" (step SB703), and the short time waiting counters 382 and 383 are cleared to "0" (step SB704). Also, the state continuation counter 327 is set to "100", which is the number of continuations of the high probability state (step SB705). As a result, the game state after the opening/closing execution mode ends is the high probability mode and the first high-frequency support mode regardless of the game state before the opening/closing execution mode starts.

On the other hand, if the game result that triggered the opening and closing execution mode this time is the 5R low probability result (step SB702: NO), the high probability flag 321 is cleared to "0" (step SB706), and the time reduction target counter 381 is set to "1" (step SB707). Moreover, while setting "100" which is the continuation frequency of 1st time saving state ST1 to the state continuation counter 327, each time saving waiting counter 382,383 is cleared by "0" (step SB708). Thereby, the game state after the end of the opening/closing execution mode becomes the first time saving state ST1 which is the low probability mode and the first high frequency support mode regardless of the game state before the start of the opening/closing execution mode. In addition, even if at least one of the second time saving state ST2 and the third time saving state ST3 is latent before the opening and closing execution mode is started by each time saving standby counter 382, 383 being cleared to "0", When the first time-saving state ST1 is started after the opening/closing execution mode ends, the latent time-saving states ST2 and ST3 are terminated without becoming targets for execution.

If the process of step SB705 or step SB708 has been executed, the state designation command transmission process is executed (step SB709). In the transmission process, when the game state shifts to the high probability state, the corresponding state designation command is transmitted to the sound and light side MPU 93, and when the game state shifts to the first time saving state ST1, the state corresponding to it A specified command is transmitted to the sound and light side MPU 93 . After that, "1" is set to the outer end flag at the end of the jackpot in the main side RAM 84 (step SB710), and the special special electric counter is cleared to "0" (step SB711).

Figure 177 is a flow chart showing the subtraction process of the ceiling counter 325 executed in step S8310 of the process during special figure determination (Figure 128).

If the high probability flag 321 is set to "1" (step SB801: YES), that is, if it is in a high probability state, the subtraction process of the ceiling counter 325 ends without executing the processes after step SB802. As in the fifteenth embodiment, the value of the ceiling counter 325 is not subtracted in the game cycle executed in the high-probability state, and the value of the ceiling counter 325 is not subtracted. The second time saving state ST2 also does not occur.

If "1" is not set to the high probability flag 321 (step SB801: NO), that is, the game state is either the normal game state, the first time saving state ST1, the second time saving state ST2 and the third time saving state ST3 If there is, on condition that the value of the ceiling counter 325 is 1 or more (step SB802: YES), the value of the ceiling counter 325 is subtracted by 1 (step SB803). And when the value of the ceiling counter 325 after the 1 subtraction is "0" (step SB804: YES), it is determined whether the value of the time reduction object counter 381 is 1 or more (step SB805). A situation in which the ceiling number of games is completed occurs in the normal game state or the third time saving state ST3. Therefore, in step SB805, it is determined whether or not the current gaming state is the third time saving state ST3.

If a negative determination is made in step SB805, "2" is set to the time saving target counter 371 (step SB806), and "150" is set to the state continuation counter 327, which is the number of continuations of the second time saving state ST2 (step SB807). Thereby, it is in the second time saving state ST2 which is the low probability mode and the second high frequency support mode. After that, set "1" to the outer end flag at the time of time saving occurrence in the main side RAM 84 (step SB808), and transmit a state designation command indicating that the second time saving state ST2 has started to the sound and light side MPU 93 (step SB809).

When the affirmative determination is made in step SB805, that is, when the current gaming state is the third time saving state ST3, the second time saving standby counter 382 is set to "150", which is the number of continuations of the second time saving state ST2 (step SB811). As a result, the second time saving state ST2 is latent in the situation where the third time saving state ST3 is to be executed.

After that, by determining whether the value of the third time saving standby counter 383 is 1 or more, the next third time saving state ST3 is already latent in the situation where the third time saving state ST3 is the target of execution. It is determined whether or not there is (step SB812). If a negative determination is made in step SB812, it means that the next third time saving state ST3 is not latent in the situation where the third time saving state ST3 is to be executed, so the second time saving priority flag 384 is set to "1" (step SB813). On the other hand, if the affirmative determination is made in step SB812, it means that the next third time saving state ST3 is already latent in the situation where the third time saving state ST3 is the execution target, so step SB813 do not process. In this case, the value of the second time saving priority flag 384 is maintained at "0".

When the affirmative determination is made in step SB812 or when the process of step SB813 is executed, a state designation command indicating that the latency of the second time saving state ST2 has occurred is transmitted to the sound and light side MPU 93 (step SB809). When the sound and light side MPU 93 receives the state designation command, the pattern display device 41, the display light emitting unit 64 and the speaker unit 65 execute an effect indicating that the latency of the second time saving state ST2 has occurred. process for As a result, it is possible for the player to recognize that the second time saving state ST2 is hidden, although it is not an object to be executed.

Figure 178 is a flow chart showing the setting process for the time saving result executed in step S8309 of the process during special figure determination (Figure 128).

If the game result of the current game round is a time saving result (step SB901: YES), it is determined whether or not the high probability flag 321 is set to "1" (step SB902). And when "1" is set to the high probability flag 321 (step SB902: YES), the setting process for this time saving result is complete|finished, without performing the process after step SB903. In other words, even if the time saving result is selected in the winning/failure determination process of the game round executed in a high probability state, the setting of the third time saving state ST3 triggered by the time saving result is not performed. is disabled.

If "1" is not set to the high probability flag 321 (step SB902: NO), by determining whether the value of the time reduction target counter 381 is 1 or more, the current game state is the first to the It is determined whether or not it is one of the three hour-shortening states ST1 to ST3 (step SB903). If the value of the time reduction target counter 381 is "0" (step SB903: NO), that is, if the game state is the normal game state, set "3" to the time reduction target counter 381 (step SB904), the state continuation counter "50" which is the number of continuations of the third time saving state ST3 is set to 327 (step SB905), and "1" is set to the outer end flag at the time of time saving occurrence in the main side RAM84 (step SB906). As a result, the game state shifts from the normal game state to the third time saving state ST3.

After that, a state designation command indicating that the normal game state has shifted to the third time saving state ST3 is transmitted to the sound and light side MPU 93 (step SB907). When the sound and light side MPU 93 receives the state designation command, the pattern display device 41, the display light emitting unit 64 and the speaker unit 65 perform an effect indicating that the normal game state has shifted to the third time saving state ST3. Execute the process to make

When the value of the time saving target counter 381 is 1 or more (step SB903: YES), the third time saving standby counter 384 is set to "50" which is the number of continuations of the third time saving state ST3 (step SB908). As a result, if the current situation is not in the latent state of the third time saving state ST3, the third time saving state ST3 is latent in the situation in which any of the first to third time saving states ST1 to ST3 is to be executed. state, and when the current situation is in hiding in the third time saving state ST3, the number of continuations of the third time saving state ST3 in hiding is reset.

After that, in the situation where one of the first to third time saving states ST1 to ST3 is to be executed, the third time saving state ST3 has become latent or the continuation of the latent third time saving state ST3 A state designation command indicating that the number of times has been reset is transmitted to the sound and light side MPU 93 (step SB907). When the sound and light side MPU 93 receives the state designation command, the third time saving state ST3 is latent in the situation where one of the first to third time saving states ST1 to ST3 is the target of execution. A process for causing the pattern display device 41, the display light emitting unit 64 and the speaker unit 65 to execute an effect indicating that the number of continuations of the third time saving state ST3 during hiding has been reset. to run.

In the situation where one of the first to third time saving states ST1 to ST3 is to be executed, the game round corresponding to the time saving result is executed and the third time saving state ST3 is latent or latent If the number of continuations of the third time saving state ST3 in the inside is reset, the process (step SB906) of setting the outer end flag at the time of time saving in the main RAM 84 to "1" is not executed. The output state of the two jackpot signals is maintained at the LOW level. However, it is not limited to this, and in this situation, the output state of the second jackpot signal may be set to HI level over the ON continuation period.

Incidentally, even in this embodiment, as in the nineteenth embodiment, when the third time-saving state ST3 is to be executed with the game round corresponding to the time-saving result as a trigger, in the game round the symbol row Z1 ~ A combination of time saving patterns (“1, 2, 3”) is stop-displayed on any of the valid lines L1 to L5 of Z3, and red is stop-displayed in the state suggesting area 43 . In addition, when the third time saving state ST3 becomes latent with the game round corresponding to the time saving result as a trigger, or when the number of continuations of the third time saving state ST3 during latent is reset, the symbol row Z1 ~ in the game round A combination of latent symbols (“7, 8, 9”) is stopped and displayed on any of the effective lines L1 to L5 of Z3, and red is stopped and displayed in the state indication area 43 . In addition, when the time saving result is invalidated in a high probability state, in the game round corresponding to the time saving result, the combination of non-reach out symbols is stopped and displayed on each of the effective lines L1 to L5 in the symbol rows Z1 to Z3. be. The combination of non-reach out symbols is the combination of symbols corresponding to the jackpot result, the combination of time-saving patterns (“1, 2, 3”), the combination of latent patterns (“7, 8, 9”), and the off reach. It is a combination of symbols other than the combination of symbols. Blue is stop-displayed in the state suggesting area 43 . The combination of non-reach-out symbols is stopped and displayed even when the result of the success/failure determination process is an out-of-match result.

Figure 179 is a flow chart showing the time-saving progress process executed in step S8308 of the special figure determination process (Figure 128).

First, it is determined whether or not the high probability flag 321 is set to "1" (step SC101). When "1" is set to the high probability flag 321 (step SC101: YES), the process for shortening working hours is terminated without executing the processes after step SC102.

If the high probability flag 321 is not set to "1" and the value of the time saving target counter 381 is 1 or more (step SC101: NO, step SC102: YES), that is, the first to third time saving state ST1 If any of ~ ST3, the subtraction process of the state continuation counter 327 (step SC103), the subtraction process of the second time saving standby counter 382 (step SC104), and the subtraction process of the third time saving waiting counter 383 (step SC105) Execute. In the subtraction process of the state continuation counter 327, the value of the state continuation counter 327 is decremented by one.

In the subtraction process of the second time saving waiting counter 382, the value of the second time saving waiting counter 382 is subtracted by 1 on condition that the value of the second time saving waiting counter 382 is 1 or more. Moreover, when the value of the 2nd time saving standby|waiting counter 382 after 1 subtraction becomes "0", the 2nd time saving priority flag 384 is cleared to "0". However, in this embodiment, the second time saving state ST2 can be latent only in the third time saving state ST3, and the number of times the second time saving state ST2 continues is 150 times, and the number of times the third time saving state ST3 continues is 50 times. Therefore, if both the second time saving state ST2 and the third time saving state ST3 are latent, the third time saving state ST3 that is the execution target ends and the latent third time saving state ST3 is executed first Even if it becomes object, when the said 3rd time saving state ST3 is complete|finished, the value of the 2nd time saving waiting counter 382 is 50 or more. Therefore, in the subtraction process of the second time saving waiting counter 382, the value of the second time saving waiting counter 382 after subtracting 1 does not become "0", and when the second time saving state ST2 is latent, the second surely after that The 2 o'clock short state ST2 is to be executed.

In the subtraction process of the 3rd time saving waiting counter 383, 1 is subtracted from the value of the 3rd time saving waiting counter 383 on the condition that the value of the 3rd time saving waiting counter 383 is 1 or more. Also, when the value of the third time saving standby counter 383 after subtracting 1 is "0" and the value of the second time saving waiting counter 382 is 1 or more, the second time saving priority flag 384 "1" to set.

Here, since the processing of step SC104 and step SC105 is executed in the time saving state ST1 to ST3, when the second time saving state ST2 is latent, one time in the third time saving state ST3 which is the target of execution Not only the value of the state continuation counter 327 is decremented by 1, but also the value of the second short time waiting counter 382 is decremented by 1 when the game round is executed. Further, when the third time saving state ST3 is latent, the value of the state continuation counter 327 is decremented by 1 when one game round is executed in the time saving state ST1 to ST3 which is the object of execution. Instead, the value of the third time saving standby counter 383 is subtracted by 1. In addition, when both the second time saving state ST2 and the third time saving state ST3 are latent, the state continuation counter 327 when one game round is executed in the third time saving state ST3 which is the execution target Not only is the value of 1 subtracted, the value of the second short time waiting counter 382 is subtracted by 1, and the value of the third short time waiting counter 383 is subtracted by 1. Therefore, when at least one of the second time saving state ST2 and the third time saving state ST3 is latent, the rest of the time saving state ST1 to ST3 which are the execution target when one game round is executed not only the number of continuations of is subtracted by 1, but also the remaining number of continuations of the latent time saving states ST2 and ST3 is also subtracted by 1.

The second time saving state ST2 has a continuation count of 150 times, whereas the third time saving state ST3 has a continuation count of 50 times. is executed in a situation where the value of the second time saving waiting counter 382 is 1 or more even if the latent third time saving state ST3 becomes an object to be executed first when the third time saving state ST3 to be executed ends A situation occurs in which the target third time saving state ST3 ends and the latent second time saving state ST2 is to be executed. This second time saving state ST2 is executed over the remaining number of continuations stored in the second time saving standby counter 382 .

The third time saving state ST3 has a continuation count of 50 times, while the first time saving state ST1 has a continuation count of 100 times and the second time saving state ST2 has a continuation count of 150 times, so the third time saving state ST3 Depending on the timing of latent, when the time saving state ST1 to ST3 to be executed ends, the value of the third time saving standby counter 383 is 1 or more, and the time saving state ST1 to ST3 up to that time The third time saving state ST3 continues. With the situation that can be executed over the remaining number of continuations stored in the third time-saving standby counter 383, the value of the third time-saving standby counter 383 in the middle of the time-saving state ST1 to ST3 to be executed is "0" Then, a situation occurs in which the latent third time saving state ST3 ends without becoming an execution target.

Thereafter, by determining whether the value of the state continuation counter 327 is "0", it is determined whether or not the time saving states ST1 to ST3 to be executed have ended (step SC106). When the value of the state continuation counter 327 is "0" (step SC106: YES), it is determined whether the value of the 3rd time saving standby counter 383 is 1 or more (step SC107). When the value of the third time saving standby counter 383 is 1 or more (step SC107: YES), it means that the third time saving state ST3 is in hiding. In this case, by determining whether "1" is set to the second time saving priority flag 384, whether the second time saving state ST2 is in the latent state before the third time saving state ST3 in the latent state It is determined whether or not (step SC108).

If "1" is not set to the second time saving priority flag 384 (step SC108: NO), the second time saving state ST2 is not latent, or even if the second time saving state ST2 is latent Latency in the time saving state ST2 means that it occurred at a later timing than latency in the third time saving state ST3. In this case, "3" is set to the time saving target counter 381 (step SC109), and the value of the third time saving standby counter 383 is set to the state continuation counter 327 (step SC110). Thereby, the 3rd time saving state ST3 in latent becomes an object of execution, and the 3rd time saving state ST3 concerned is performed over the remaining continuation frequency memorized by the 3rd time saving waiting counter 383. Moreover, the clear process at the time of 3rd time reduction shift is performed (step SC111). In the clearing process, the value of the third time saving standby counter 383 is cleared to "0". Moreover, when the value of the 2nd time saving waiting|standby counter 382 is 1 or more, "1" is set to the 2nd time saving priority flag 384. FIG.

After that, it transmits to the sound and light side MPU 93 a state designation command indicating that the third time-saving state ST3 that was in hiding has started (step SC118). When the sound and light side MPU 93 receives the state designation command, the effect indicating that the time saving state ST1 to ST3 which was the object of execution is ended and the latent third time saving state ST3 is started is displayed on the pattern display device. 41, the display light emitting unit 64 and the speaker unit 65 execute processing.

When the value of the 3rd time reduction standby counter 383 is "0" (step SC107: NO), it is determined whether the value of the 2nd time reduction standby counter 382 is 1 or more (step SC112). When the value of the second time saving standby counter 382 is 1 or more (step SC112: YES), it means that the second time saving state ST2 is in hiding. Moreover, when a positive determination is made in step SC108, it means that the second time saving state ST2 and the third time saving state ST3 are latent and the second time saving state ST2 is to be executed first.

In these cases, "2" is set to the time saving object counter 381 (step SC113), and the value of the second time saving standby counter 382 is set to the state continuation counter 327 (step SC114). Thereby, 2nd time saving state ST2 in latency becomes execution object, and the said 2nd time saving state ST2 is performed over the remaining continuation frequency memorize|stored in the 2nd time saving waiting counter 384. FIG. Moreover, the clear process at the time of 2nd time reduction shift is performed (step SC115). In the clearing process, the value of the second time saving standby counter 382 is cleared to "0". Also, the second time saving priority flag 384 is cleared to "0".

After that, it transmits to the sound and light side MPU 93 a state designation command indicating that the second time saving state ST2 which was in hiding has started (step SC118). When the sound and light side MPU 93 receives the state designation command, the effect indicating that the third time saving state ST3 which was the object of execution is ended and the latent second time saving state ST2 is started is displayed on the pattern display device. 41, the display light emitting unit 64 and the speaker unit 65 execute processing.

When the value of the third time saving standby counter 383 is "0" and the value of the second time saving waiting counter 382 is "0" (step SC107 and step SC112: NO), the time saving target counter 381 is cleared to "0" (Step SC116). As a result, the game state becomes the normal game state. In addition, the outer end flag at the end of the time saving in the main side RAM84 is set to "1" (step SC117), and the state designation command indicating that the time saving state ST1 to ST3 has ended and the normal game state has been transferred is sent to the sound and light side. It is transmitted to the MPU 93 (step SC118).

Due to the above configuration, when the ceiling number of games is completed in the third time saving state ST3, the second time saving state ST2 is hidden. In addition, when the game cycle corresponding to the time saving result is executed in any one of the first to third time saving states ST1 to ST3, the third time saving state ST3 is latent. Then, when the time saving states ST1 to ST3, which are targets for execution, end, the latent time saving states ST2 and ST3 are newly targeted for execution. As a result, when a new opportunity to give the time saving states ST1 to ST3 occurs in the middle of the time saving states ST1 to ST3, it is possible to prevent the giving opportunity from being invalidated, and the time saving states ST1 to ST3 are given. It is possible to create more opportunities.

When the game round is completed in the situation in which the time saving states ST2 and ST3 are latent, not only is the number of remaining continuation times of the time saving states ST1 to ST3 to be executed subtracted by 1, but also the latent state. The remaining number of continuations of the time saving states ST2 and ST3 is also decremented by one. As a result, even with the configuration in which the number of opportunities to give the time saving states ST1 to ST3 is increased as described above, it is possible to prevent the period of the time saving states ST1 to ST3 from continuing for an excessively long time. Become.

Both the second time saving state ST2 and the third time saving state ST3 can be latent in the third time saving state ST3. Thereby, it becomes possible to diversify the latent mode of the time saving states ST2 and ST3. In addition, when both the second time saving state ST2 and the third time saving state ST3 are latent, the time saving state ST2, ST3 on the side of the latent first becomes the start target, so the latent time saving state ST2, ST3 is clear to the player.

<Another form of the twentieth embodiment>
(1) When the game round corresponding to the time saving result is executed in the situation where the third time saving state ST3 is latent, the remaining number of continuations of the third time saving state ST3 during hiding is the continuation of the third time saving state ST3 It is not limited to the configuration initialized to the number of times, and when the game round corresponding to the time saving result is executed in the situation where the third time saving state ST3 is latent, the occurrence of the time saving result is invalidated. It may be configured to be

(2) In the situation where the third time saving state ST3 is latent, when the ceiling number of game rounds is completed, both the second time saving state ST2 and the third time saving state ST3 are latent, and then Even if the game round corresponding to the time saving result is executed and the remaining number of continuations of the third time saving state ST3 during latency is initialized to the number of continuations of the third time saving state ST3, the time saving states ST1 and ST3 to be executed Although it was set as the structure which becomes an object of execution earlier from the 3rd time saving state ST3 in latent when completed, it is not limited to this. For example, in a situation where both the second time saving state ST2 and the third time saving state ST3 are latent, the game round corresponding to the time saving result is executed, and the remaining number of times of continuation of the third time saving state ST3 during hiding is the third time saving. When the state ST3 is initialized to the number of continuations, even if the third time saving state ST3 in hiding is in a state of being latent earlier than the second time saving state ST2 in hiding, execution When target time saving states ST1 and ST3 are finished, the second time saving state ST2 in the latent state may be executed first.

<Twenty-first embodiment>
In this embodiment, the type of the third time saving state is different from that of the nineteenth embodiment, and the execution mode of the time saving state is different from that of the nineteenth embodiment. The configuration different from that of the nineteenth embodiment will be described below. The description of the same configuration as that of the nineteenth embodiment is basically omitted.

FIG. 180 is an explanatory diagram for explaining the content of the time saving state set in this embodiment.

Even in this embodiment, as in the nineteenth embodiment, there are a normal game state, a high probability state, a first time saving state ST1, and a second time saving state ST2. Moreover, as the 3rd time saving state, there are a 3A time saving state ST3A, a 3B time saving state ST3B, and a 3C time saving state ST3C. The contents of the normal game state, the high probability state, the first time saving state ST1 and the second time saving state ST2 are the same as those in the nineteenth embodiment. In the following description, for convenience, the 3A time saving state ST3A, the 3B time saving state ST3B and the 3C time saving state ST3C are collectively referred to as the 3rd time saving state ST3A to ST3B.

In the 3A time saving state ST3A, the 3B time saving state ST3B and the 3C time saving state ST3C, the support mode is the second high frequency support mode, like the 3rd time saving state ST3 in the 19th embodiment. In the second high-frequency support mode, similar to the fifteenth embodiment, the determination mode of the general pattern propriety determination process is the low probability mode of the general pattern side, the fluctuation period of the general pattern is short, and the general pattern open state The execution mode of is a high expectation mode in which long opening occurs three times.

The end conditions of the 3A time saving state ST3A, the 3B time saving state ST3B and the 3C time saving state ST3C are different from each other. Specifically, the 3A time saving state ST3A ends when 50 game times are digested and becomes a normal game state, and the 3B time saving state ST3B ends when 100 game times are digested. The normal game state is entered, and the 3C time saving state ST3C ends when 130 game rounds are completed, and the normal game state is entered. As described above, the support modes of the 3A time saving state ST3A, the 3B time saving state ST3B and the 3C time saving state ST3C are common in the second high frequency support mode, so the number of continuations is the highest in the 3rd time saving state The 3C time saving state ST3C is the most advantageous, the 3B time saving state ST3B with the next highest number of continuations is next advantageous, and the 3A time saving state ST3A with the lowest number of continuations has the lowest advantage. Incidentally, the 3A ~ 3C time saving state ST3A ~ ST3C is similar to the first time saving state ST1 and the second time saving state ST2, when the opening and closing execution mode triggered by the jackpot result is forcibly terminated.

The 3A time saving state ST3A is the time saving result in the success or failure determination process (step S805) and the first time saving result is selected in the time saving distribution determination process (step S811) executed after that, It is set at the end of the game round in which the success/failure determination process and the allocation determination process for time saving are executed. The 3B time saving state ST3B is a time saving result in the success or failure determination process (step S805) When the second time saving result is selected in the time saving distribution determination process (step S811) executed after that, It is set at the end of the game round in which the success/failure determination process and the allocation determination process for time saving are executed. The 3C time saving state ST3C is a time saving result in the success or failure determination process (step S805) When the third time saving result is selected in the time saving distribution determination process (step S811) that is executed after that, It is set at the end of the game round in which the success/failure determination process and the allocation determination process for time saving are executed.

In addition, it is not limited to this, and instead of the time saving result as a game result that can be selected in the success/failure determination process (step S805), the first time saving result, the second time saving result and the third time saving result are set. , Any one of the first to third time saving results may be selected in the success/failure determination process. In this case, there is no need to execute the distribution determination process for time saving. In addition, although the value of the type random number counter C2 is used in the time-saving distribution determination process, the value of the lottery counter is not limited to this, and is used only in the time-saving distribution determination process. may be used.

Figure 180 (b) is an explanatory diagram for explaining the time saving distribution table 391 for the first special figure referred to in the time saving distribution determination process (step S811), and Figure 180 (c) is a time saving It is an explanatory view for explaining the time reduction distribution table 392 for the second special figure referred to in the distribution determination process (step S811) for.

In both the time saving distribution table 391 for the first special figure and the time saving distribution table 392 for the second special figure, as the type of time saving result to be distributed, the first time saving result, the second time saving result and the second 3 o'clock short result is set. Therefore, the game round triggered by the first hold information acquired based on the entry of the game ball to the first operation port 33 and the second hold acquired based on the entry of the game ball to the second operation port 34 Each of the first time-saving result, the second time-saving result, and the third time-saving result can occur in any of the game rounds triggered by the information.

In the time saving distribution table 391 for the first special figure, as shown in FIG. 180 (b), the type random number counter C2 of "0 to 9" corresponds to the first time saving result, and the type of "10 to 19" The random number counter C2 corresponds to the second time saving result, and the type random number counter C2 of "20 to 29" corresponds to the third time saving result. That is, when the time saving distribution table 391 for the 1st special figure is referred, the selection probability of the 1st time saving result, the 2nd time saving result, and the 3rd time saving result is the same.

As shown in FIG. 180 (c) in the time saving distribution table 392 for the second special figure, the type random number counter C2 of "0 to 7" corresponds to the first time saving result, and the type of "8 to 15" The random number counter C2 corresponds to the second time saving result, and the type random number counter C2 of "16 to 29" corresponds to the third time saving result. That is, when the time saving distribution table 392 for the second special figure is referred to, the selection probability of the third time saving result is the highest, and the selection probability of each of the first time saving result and the second time saving result is the third time saving result are the same at a probability lower than the selection probability of As already explained, the 3C time saving state ST3C that occurs with the 3rd time saving result as a trigger is the 3A time saving state ST3A that occurs with the 1st time saving result and the 3B time saving state ST3B that occurs with the 2nd time saving result. is also advantageous. Therefore, when the time saving distribution table 392 for the second special figure is referred to, than when the time saving distribution table 391 for the first special figure is referred to, the 3A to 3C time saving state ST3A to ST3C is advantageous.

In addition, it is not limited to the above configuration, and the game times triggered by the first reservation information and the game times triggered by the second reservation information are both time-saving distribution tables 391 for the first special figure may be referred to, and the time reduction distribution table 392 for the second special figure is referred to in any of the game times triggered by the first reservation information and the game times triggered by the second reservation information It is good also as a structure. In addition, the selection probability of the third time saving result is not limited to the configuration in which the selection probability of the third time saving result is set to the highest in the time saving distribution table 392 for the second special figure, and the selection probability of the second time saving result is set to the highest. It may be a configuration that the selection probability of the first time saving result is set to be the highest, and the selection probability of the first to third time saving results is the same or substantially the same.

FIG. 181 is an explanatory diagram for explaining the storage area of the main side RAM 84 used for controlling the game state.

The main RAM 84 is provided with a high probability flag 321, a ceiling counter 325, a time reduction target counter 371 and a time reduction continuation counter 375 as in the nineteenth embodiment. Moreover, instead of the 1st time saving state counter 372, the 2nd time saving state counter 373, and the 3rd time saving state counter 374, the main side RAM84 is provided with the time saving state counter 386 and the 3rd time saving standby counter 387.

The time saving target counter 371 is a counter for specifying the types of the time saving states ST1 to ST3 that are the targets of execution in the main side MPU 82 in the same manner as in the nineteenth embodiment. When the high probability flag 321 is "1", regardless of the value of the time saving object counter 371, it corresponds to a high probability state. When the value of the high probability flag 321 is "0" and the value of the time saving target counter 371 is "0", it usually corresponds to the game state. When the value of the time saving object counter 371 is "1", it respond|corresponds to 1st time saving state ST1. When the value of the time saving object counter 371 is "2", it corresponds to the second time saving state ST2. When the value of the time saving target counter 371 is "3", it corresponds to the third time saving state ST3A to ST3C.

When "1" is set to the high probability flag 321 or when the value of the time saving target counter 371 is "1", that is, when the high probability state or the first time saving state ST1, the normal figure fluctuation of the main side MPU82 In the case of executing the general pattern correctness determination process (step S407) in the start process (FIG. 16), the high probability table of the general pattern side (step S406) is read, and when the fluctuation display of the general pattern display unit 38a is started In (step S415), the short period on the normal map side is selected as the continuation period of the variable display times (step S414). Further, by executing steps S509 to S511 as the control processing of the general electric open state in the general electric map fixing process (FIG. 17) of the main side MPU 82, the general electric open state becomes the high expectation mode.

When the value of the time saving target counter 371 is "2" or "3", that is, when the second time saving state ST2, the 3A time saving state ST3A, the 3B time saving state ST3B or the 3C time saving state ST3C, the main side MPU82 When the general pattern correctness determination process (step S407) is executed in the general pattern fluctuation start process (FIG. 16), the low probability table on the general pattern side (step S405) is read, and the fluctuation display of the general pattern display unit 38a is displayed. When starting (step S415), the short period on the normal side is selected as the continuation period of the variable display times (step S414). Further, by executing steps S509 to S511 as the control processing of the general electric open state in the general electric map fixing process (FIG. 17) of the main side MPU 82, the general electric open state becomes the high expectation mode.

When the value of the high probability flag 321 is "0" and the value of the time saving target counter 371 is "0", that is, when the normal game state When executing the figure correctness determination process (step S407), the low probability table (step S405) on the general pattern side is read, and when starting the variable display of the general pattern display unit 38a (step S415), the general pattern side is selected as the duration of the variable display times (step S413). Further, by executing steps S506 to S508 as the control processing of the general electric open state in the general electric map fixing process (FIG. 17) of the main side MPU 82, the general electric open state becomes the low expectation mode. As in the first to twentieth embodiments, in the opening and closing execution mode, regardless of the game state before the opening and closing execution mode is started, in the same manner as in the normal game state, the normal game right or wrong determination process (step S407), execution control of the variable display of the general/universal diagram display section 38a and the general/universal supply open state is performed.

The time saving continuation counter 375 counts the number of games executed in the time saving state ST1 to ST3C after any of the first to third time saving states ST1 to ST3C is newly started in the same manner as in the nineteenth embodiment. This is a counter for identification by the main MPU 82 . In the time-saving states ST1 to ST3C, the variable display period of game times is determined in a mode corresponding to the value of the time-saving continuation counter 375. FIG. Further, as in the first embodiment, the content of the effect for the game round executed by the symbol display device 41, the display light emitting unit 64 and the speaker unit 65 in each game round according to the variable display period of the game round. can be different, it can be said that in the time saving states ST1 to ST3C, the execution mode of the effect for the game cycle is determined in a mode corresponding to the value of the time saving continuation counter 375.

The time saving state counter 386 is a counter for specifying the remaining number of times of continuation of the time saving state ST1 to ST3C which is the object of execution in the main side MPU82. The third time saving standby counter 387 waits for the third time saving state ST3A to ST3C to be executed by executing the game round corresponding to the time saving result in the first to third time saving states ST1 to ST3C. When the third time saving states ST3A to ST3C are hidden, it is a counter in which information on the number of continuations of the third time saving states ST3A to ST3C is set. Information on the number of continuations set in the third time saving standby counter 387 is subtracted by 1 each time a game round is executed in the current time saving states ST1 to ST3C. Then, in a situation where the information of the number of continuations of 1 or more is stored in the third time-saving standby counter 387, when the other time-saving states ST1 to ST3C that have been executed so far are completed, the third time-saving standby at that time The third time reduction states ST3A to ST3C are executed over the remaining number of continuations stored in the counter 387. FIG.

FIG. 182 is a flow chart showing special electric end processing in this embodiment executed by the main MPU 82 .

If the value of the special figure side timer counter is "0", that is, if the ending period has passed (step SC201: YES), the game result that triggered the opening and closing execution mode this time is a 5R high probability result or 10R If it is a high probability result (step SC202: YES), the high probability flag 321 is set to "1" (step SC203), and the time saving target counter 371, the time saving state counter 386 and the third time saving standby counter 387 are set to " 0” is cleared (step SC204). Also, "100", which is the number of times the high probability state continues, is set in the high probability state counter provided in the main RAM 84 (step SC205). As a result, the game state after the opening/closing execution mode ends is the high probability mode and the first high-frequency support mode regardless of the game state before the opening/closing execution mode starts. The value of the high-probability state counter is decremented by 1 each time a game round is executed in the high-probability state as in the first embodiment, and the value of the high-probability state counter after decrementing by 1 becomes "0". , a process for terminating the high probability state and shifting to the normal game state is executed.

On the other hand, when the game result that triggered the opening and closing execution mode this time is the 5R low probability result (step SC202: NO), the high probability flag 321 is cleared to "0" (step SC206), and the time reduction target counter 371 is set to "1" (step SC207). In addition, the time saving state counter 386 is set to "100", which is the number of continuations of the first time saving state ST1, the third time saving standby counter 387 is cleared to "0", and the time saving continuation counter 375 is cleared to "0" (step SC208). Thereby, the game state after the end of the opening/closing execution mode becomes the first time saving state ST1 which is the low probability mode and the first high frequency support mode regardless of the game state before the start of the opening/closing execution mode. In addition, even if the third time saving state ST3A to ST3B is latent before the start of the opening/closing execution mode, the third time saving state ST3A to ST3B is not latent.

If the process of step SC205 or step SC208 has been executed, the state designation command transmission process is executed (step SC209). In the transmission process, when the game state shifts to the high probability state, the corresponding state designation command is transmitted to the sound and light side MPU 93, and when the game state shifts to the first time saving state ST1, the state corresponding to it A specified command is transmitted to the sound and light side MPU 93 . After that, "1" is set to the outer end flag at the end of the jackpot in the main side RAM 84 (step SC210), and the special figure special electric counter is cleared to "0" (step SC211).

Figure 183 is a flow chart showing the subtraction process of the ceiling counter 325 executed in step S8310 of the process during special figure determination (Figure 128).

If the high probability flag 321 is set to "1" (step SC301: YES), that is, if the high probability state is set, the subtraction process of the ceiling counter 325 is terminated without executing the processes after step SC302. As in the 19th embodiment, the value of the ceiling counter 325 is not subtracted in the game round executed in the high probability state, and the value of the ceiling counter 325 is not subtracted. There is no ceiling time reduction.

If "1" is not set to the high probability flag 321 (step SC301: NO), that is, the game state is the normal game state, the first time saving state ST1, the second time saving state ST2 and the third time saving state ST3A to ST3C If it is, on condition that the value of the ceiling counter 325 is 1 or more (step SC302: YES), the value of the ceiling counter 325 is subtracted by 1 (step SC303). Then, when the value of the ceiling counter 325 after the subtraction of 1 is "0" (step SC304: YES), "2" is set to the time reduction target counter 371 (step SC305), and the time reduction state counter 386 is set to the second time reduction While setting "150" which is the number of times of continuation of state ST2, the time saving continuation counter 375 is cleared to "0" (step SC306). Thereby, it is in the second time saving state ST2 which is the low probability mode and the second high frequency support mode. After that, set "1" to the outer end flag at the time of time saving occurrence in the main side RAM 84 (step SC307), and transmit a state designation command indicating that the second time saving state ST2 has started to the sound and light side MPU 93 (step SC308).

Here, the processing of step SC305 to step SC308 for starting the second time saving state ST2 is executed even when the game times of the ceiling times are completed in the third time saving state ST3A to ST3C. In this case, the third time-saving states ST3A to ST3C are terminated in the middle rather than latent. Thereby, it becomes possible to give priority to the execution of the second time saving state ST2 over the third time saving state ST3A to ST3C.

On the other hand, when the second time saving state ST2 is started, the third time saving standby counter 387 is not cleared to "0". Therefore, in the situation that the third time saving state ST3A ~ ST3C is latent and in the situation where the third time saving state ST3A ~ ST3C is to be executed, if the digestion of the game times of the ceiling number of times is completed, the third time saving state The second time saving state ST2 is started while maintaining the situation where ST3A to ST3C are latent. However, since the number of times of continuation is greater in the second time saving state ST2 than in any of the third time saving states ST3A to ST3C, the latent third time saving states ST3A to ST3C end without becoming an execution target. In addition, it is not limited to this, and when the second time saving state ST2 is started, the third time saving standby counter 387 is cleared to "0", so that the third time saving state ST3A to ST3C during the latent The configuration may be terminated.

Figure 184 is a flow chart showing the setting process for the time saving result executed in step S8309 of the process during special figure determination (Figure 128).

If the game result of the current game round is one of the first to third time saving results (step SC401: YES), it is determined whether or not the high probability flag 321 is set to "1" (step SC402) . And when "1" is set to the high probability flag 321 (step SC402: YES), the setting process for this time saving result is complete|finished, without performing the process after step SC403. In other words, even if the time saving result is selected in the winning/failure determination process of the game round executed in a high probability state, the setting of the third time saving state ST3A to ST3C triggered by the time saving result is not performed. Time-saving results are nullified.

If "1" is not set to the high probability flag 321 (step SC402: NO), by determining whether the value of the time reduction target counter 371 is 1 or more, the current game state is the first to the It is determined whether or not it is one of the 3 o'clock short states ST1 to ST3C (step SC403). When the value of the time reduction target counter 371 is "0" (step SC403: NO), that is, when the game state is the normal game state, the time reduction target counter 371 is set to "3" and the time reduction continuation counter 375 is set to "0". "Clear (step SC404), set "1" to the outer end flag at the time of time saving occurrence in the main RAM84 (step SC405), and execute the setting process to the time saving state counter 386 (step SC406). In setting processing to the time saving state counter 386, if the game result of the current game round is the first time saving result, "50" is set to the time saving state counter 386, and the game result of the current game round is the second time saving result. If so, the time saving state counter 386 is set to "100", and if the game result of the current game cycle is the third time saving result, the time saving state counter 386 is set to "130". As a result, the game state shifts from the normal game state to the third time-saving states ST3A to ST3C. Also, in step SC405, the outer end flag at the time of time saving is set to "1", but if the outer end flag at time of time saving is set to "1", the above fifteenth implementation As in the form, the output state of the second jackpot signal is set to HI level over the ON continuation period with respect to the outer terminal 333 for the second jackpot signal, and the external terminal for the advantageous state signal is executed. Processing is executed to set the output state of the advantageous state signal to the HI level for the end terminal 334 .

Thereafter, a state designation command indicating that the normal game state has shifted to the third time saving state ST3A to ST3C is transmitted to the sound and light side MPU 93 (step SC407). When the sound and light side MPU 93 receives the state designation command, the pattern display device 41, the display light emitting unit 64 and the speaker unit 65 perform an effect indicating that the normal game state has shifted to the third time saving state ST3A to ST3C. Execute processing to ensure that

If the value of the time saving target counter 371 is 1 or more (step SC403: YES), by determining whether the value of the 3rd time saving standby counter 387 is 1 or more, the 3rd time saving state ST3A ~ ST3C already It is determined whether or not it is in hiding (step SC408). If the value of the third time saving standby counter 387 is 1 or more (step SC408: YES), it means that the third time saving state ST3A to ST3C is already latent. In this case, the setting process for this time saving result is terminated as it is. As a result, when the game round corresponding to any of the first to third time saving results is executed in the time saving states ST1 to ST3C, the time saving results are invalidated if the third time saving states ST3A to ST3C are already in hiding. be done.

When the value of the 3rd time saving waiting counter 387 is "0" (step SC408: NO), the setting process to the 3rd time saving waiting counter 387 is performed (step SC409). In the setting process for the third time saving waiting counter 387, if the game result of this game round is the first time saving result, the third time saving waiting counter 387 is set to "50", and the game result of this game round is set to "50". If the result is 2 hours saving, the third time saving waiting counter 387 is set to "100", and if the game result of this game cycle is the third working hours result, the third time saving waiting counter 387 is set to "130". Thereby, if the game round corresponding to one of the first to third time saving results is executed in the middle of the time saving state ST1 to ST3C, the condition is that the third time saving state ST3A to ST3C is not already latent. As, the third time-saving state ST3A ~ ST3C will be latent. In addition, the number of continuations of the third time saving state ST3A to ST3C that lurk in this case is the number of continuations that corresponds to the type of time saving result that has triggered the hiding.

After that, in step SC407, a state designation command indicating that the latency of the third time saving state ST3A to ST3C has occurred is transmitted to the sound and light side MPU93. When the sound and light side MPU 93 receives the state designation command, the effect indicating that the latency of the third time saving state ST3A to ST3C has occurred and the effect indicating the type of the third time saving state ST3A to ST3C that is the target of hiding is a pattern. Processing is executed to be executed by the display device 41, the display light emitting unit 64, and the speaker unit 65. FIG. This makes it possible for the player to recognize that the third time-saving states ST3A to ST3C are not to be executed but are latent.

As described above, when the game times corresponding to the first to third time saving results are executed in the high probability state, the time saving results are triggered by the time saving results in the same manner as in the nineteenth embodiment. To the third time saving state ST3A to ST3C. , and the latency of the third time saving states ST3A to ST3C do not occur, and the time saving result is invalidated. In addition, even when the game cycle corresponding to the first to third time saving results is executed in the time saving states ST1 to ST3C in which the third time saving states ST3A to ST3C are already latent, the time saving results are invalidated. be.

On the other hand, when the game round corresponding to the time saving result is executed in the normal game state, the transition to the third time saving state ST3A to ST3C occurs, and the third time saving state ST3A to ST3C is the time saving state ST1 to ST3C. When the game cycle corresponding to the first to third time saving results is executed in a situation where no latency is present, the latency of the third time saving states ST3A to ST3C occurs. In this case, the stop result that is stopped and displayed in the special figure display unit 37a, 37b in the game round in which the time saving result is selected in the success or failure determination process is the setting related to the third time saving state ST3A to ST3C triggered by the time saving result Although it does not change depending on whether or not is performed, the stop result that is stopped and displayed on the pattern display device 41 is set for the third time saving state ST3A to ST3C triggered by the time saving result depending on whether or not Change. This content will be described in detail below.

5R low probability result, 5R high probability result, 10R high probability result, first time saving result , a second time-saving result, a third time-saving result, and a missing result. The stop result that is stopped and displayed as the fixed display of the game round in the special figure display units 37a and 37b is "1" in the case of the 5R low probability result and "2" in the case of the 5R high probability result, In the case of the 10R high probability result, it is "3", in the case of the first time saving result, it is "4", in the case of the second time saving result, it is "5", and in the case of the third time saving result '6' and '-' in case of an outlier result. These stop results do not change in any game situation. Therefore, by confirming the stop result of the special figure display portions 37a and 37b, the manager of the game hall can uniquely grasp the game result of the game round.

The stop result that is stop-displayed as the confirmation display of the game round on the symbol display device 41 does not change in any game situation when it is a jackpot result or when it is a losing result. In the case of the third time saving result, it changes depending on the game situation. This content will be described with reference to the flow chart of FIG. FIG. 185 is a flow chart showing the process of determining the variation pattern in this embodiment, which is executed by the sound and light side MPU 93 . Note that the variation pattern determination process is executed when a variation command and a type command are received from the main MPU 82 .

When the type command received this time contains information indicating that the game round to be started this time corresponds to the jackpot result (step SC501: YES), the stop symbol determination process for the jackpot result is executed. (Step SC502), and red is selected as the stop result of the state suggestion area 43 of the pattern display device 41 (Step SC503). The contents of these processes are the same as steps S1402 and S1403 of the variation pattern determination process (FIG. 28) in the first embodiment.

If information indicating that the game round to be started this time corresponds to the first to third time saving results is set in the type command received this time (step SC504: YES), the current game state is If it is in a high probability state (step SC505: YES), stop symbol determination processing for non-reach out is executed (step SC506). In the stop symbol determination process for non-reach out, as the stop result to be stopped and displayed in the symbol rows Z1 to Z3 of the symbol display device 41, a combination of symbols corresponding to the jackpot result, a combination of time-saving generating symbols ("1, 2, 3 ”, “2, 3, 4”, “3, 4, 5”), a combination of latent patterns (“5, 6, 7”, “6, 7, 8”, “7, 8, 9”), And the combination of symbols other than the combination of the out reach-out symbols, that is, the non-out-of-reach-out symbols combination is stop-displayed to be determined by lottery. Also, blue is selected as the stop result of the state suggestion area 43 of the pattern display device 41 (step SC507).

If information indicating that the game round to be started this time corresponds to the first to third time saving results is set in the type command received this time (step SC504: YES), the current status When the game state is the normal game state (step SC508: NO), stop symbol determination processing for suggesting time saving is executed (step SC509). In the stop pattern determination process for suggesting time saving, the combination of time saving patterns ("1 2 3", "2 3 4", “3, 4, 5”). In this case, if this time is the first time saving result, select the first time saving pattern combination ("1, 2, 3"), and if this time is the second time saving result, select the second time saving pattern combination (" 2, 3, 4"), and if this time is the third time saving result, the third time saving pattern combination ("3, 4, 5") is selected. In addition, in the stopping symbol determination process for suggesting time saving, the effective lines L1 to L5 for stop-displaying the combination of the first to third time saving generating symbols selected as described above are determined by lottery. After that, red is selected as the stop result of the state suggestion area 43 of the pattern display device 41 (step SC510).

If information indicating that the game round to be started this time corresponds to the first to third time saving results is set in the type command received this time (step SC504: YES), the current status If the game state is the time saving state ST1 ~ ST3C (step SC508: YES), the game round this time is the final game round of the time saving state ST1 ~ ST3C to be executed, the third time saving state ST3A ~ ST3C It is determined whether or not the current game round is started when the remaining number of times of continuation of the third time saving state ST3A to ST3C in hiding or the situation where hiding has not occurred is 1 (step SC511 ). In addition, the sound and light side MPU 93 is the current game state by the state designation command received from the main side MPU 82 normal game state, high probability state, first time saving state ST1, second time saving state ST2 and third time saving state ST3A ~ ST3C It is possible to identify whether it is any, and whether the third time saving states ST3A to ST3C are latent in the time saving states ST1 to ST3C, and further received a state designation command corresponding to the start of the time saving states ST1 to ST3C It is possible to specify whether or not it is the final game round of the time saving states ST1 to ST3C by the number of times the variation command is received later, and the state designation command corresponding to the start of the latency of the third time saving states ST3A to ST3C is received. It is possible to specify whether or not the remaining number of continuations of the latent third time saving state ST3A to ST3C is one time depending on the number of receptions of the variation command later.

When the affirmative determination is made in step SC511, although the game round of this time has started in the time saving state ST1 to ST3C, when the game round of this time ends, the 1st to 3rd time saving result of this time is used as a trigger for the 3rd time saving. This means that states ST3A to ST3C are newly started. In this case, the previously described stopping symbol determination process for suggesting time saving is executed (step SC509), and red is selected as the stop result of the state suggesting area 43 of the symbol display device 41 (step SC510).

If a negative determination is made in step SC511, it is determined whether or not the latency of the third time saving state ST3A to ST3C occurs with the first to third time saving results of this time (step SC512). The case where the latency of the third time saving state ST3A to ST3C occurs is the case where it is the final game round of the time saving state ST1 to ST3C, and the third time saving state ST3A in the latent state when the time saving state ST1 to ST3C ends. It corresponds to the case where ~ ST3C is to be executed, and the case where it is not the final game round of the time saving state ST1 ~ ST3C and the case where the third time saving state ST3A ~ ST3C is not latent, and the time saving state ST1 ~ This corresponds to the case where it is not the final game round of ST3C and the remaining number of continuations of the latent third time saving state ST3A to ST3C becomes 0 when the current game round ends.

When an affirmative determination is made at step SC512, stop symbol determination processing for suggesting latent symbols is executed (step SC513). In the stopping symbol determination process for suggesting lurking, combinations of lurking symbols ("5, 6, 7", "6, 7, 8", "7, 8, 9"). In this case, if this time is the first time saving result, select the first latency occurrence pattern combination ("5, 6, 7"), and if this time is the second time saving result, select the second latency occurrence pattern combination (" 6, 7, 8"), and if this time is the third time saving result, the combination of the third latency occurrence pattern ("7, 8, 9") is selected. Further, in the stopping symbol determination process for suggesting lurking, the effective lines L1 to L5 for stop-displaying the combination of the first to third lurking generating symbols selected as described above are determined by lottery. After that, red is selected as the stop result of the state suggestion area 43 of the pattern display device 41 (step SC514).

Abe, who made a negative judgment in step SC512, will be invalidated from the first to third time saving results of this time. Therefore, stop symbol determination processing for non-reach out is executed (step SC506). As already described in the stop symbol determination process for non-reach out, as a stop result to be stopped and displayed in the symbol rows Z1 to Z3 of the symbol display device 41, a combination of symbols corresponding to the jackpot result, a combination of time saving patterns ("1・ 2, 3”, “2, 3, 4”, “3, 4, 5”), combinations of latent patterns (“5, 6, 7”, “6, 7, 8”, “7, 8, 9”), and a combination of non-reach out-of-reach symbols, which is a combination of symbols other than the out-of-reach out of reach symbols combination, is stopped and displayed. Also, blue is selected as the stop result of the state suggestion area 43 of the pattern display device 41 (step SC507).

In addition, you may change the stop result of the state suggestion area|region 43 determined in step SC507 by the kind of this time saving result. For example, if this time is the first time saving result, green is selected as the stop result of the state suggestion area 43, if this time is the second time saving result, yellow is selected as the stop result of the state suggestion area 43, and this time is the third If it is a time-saving result, purple is selected as a stop result of the state suggestion area|region 43. FIG. Thereby, even if the time saving result is invalidated, the type of the invalidated time saving result can be notified by the stop result of the state suggesting area 43 .

When the type command received this time contains information indicating that the game round to be started this time corresponds to the result of losing (step SC504: NO), stop symbol determination processing for losing is executed. (Step SC515). In the stop symbol determination process for losing, when the variable display period information indicating that the game round to be started this time corresponds to the occurrence of the reach display is set in the variable command received this time , as a stop result to be stopped and displayed in the pattern rows Z1 to Z3 of the pattern display device 41, the combination of the winning reach symbols is determined by lottery, and the effective lines L1 to L5 for stopping and displaying the combination of the determined losing reach symbols are selected by lottery. Determined by In addition, in the stop symbol determination process for failure, information of a variable display period indicating that the game round to be started this time does not correspond to the occurrence of the ready-to-win display is set in the variable command received this time. In the case, a combination of patterns corresponding to the jackpot result, a combination of time-saving patterns (“1/2/3”, “2/3/4”, “3/4/5”), a combination of latent patterns ( A lottery determines the stop result in which symbol combinations other than "5, 6, 7", "6, 7, 8", and "7, 8, 9") and the out-of-reach symbol combination are stop-displayed. Also, red is selected as the stop result of the state suggestion area 43 of the pattern display device 41 (step SC516).

If the processing of step SC503, step SC507, step SC510, step SC514 or step SC516 has been executed, pattern determination processing is executed (step SC517). In the pattern determination process, a variation pattern corresponding to the stop result determined in steps SC501 to SC516 and the variation display period information included in the variation command received this time is selected, and the variation corresponding to the selected variation pattern is selected. The pattern table is read from the sound and light side ROM 94 to the sound and light side RAM 95 . The sound and light side MPU 93 controls the display light emitting unit 64 and the speaker unit 65 according to the read variation pattern table, thereby causing the display light emitting unit 64 and the speaker unit 65 to perform the effect of the variation pattern corresponding to the current game round. .

Thereafter, a variation pattern command corresponding to the variation pattern determined in step SC517 is transmitted to display side MPU 103 (step SC518). The display side MPU 103 reads the display control table corresponding to the received variation pattern command from the display side ROM 104 to the display side RAM 105 . The display-side MPU 103 controls the symbol display device 41 according to the read display control table, thereby causing the symbol display device 41 to display a variation pattern corresponding to the current game turn. In this case, the stop result to be stop-displayed in the symbol rows Z1 to Z3 of the pattern display device 41 and the stop result to be stop-displayed in the state suggesting area 43 of the pattern display device 41 in the game round are determined by the variation pattern determination process (FIG. 185). This is the stop result determined in steps SC501 to SC516 in .

As described above, the situation in which it is in the normal game state, or the situation in which the current game round is the final game round of the time saving states ST1 to ST3C to be executed and the latency of the third time saving states ST3A to ST3C has not occurred or When the remaining number of continuation times of the third time saving state ST3A to ST3C during hiding is 1 time and the first to third time saving results are obtained in the situation where the game round of this time is started, the symbol row Z1 to A combination of time-saving patterns (“1/2/3”, “2/3/4”, “3/4/5”) is stopped on one of the effective lines L1 to L5 of Z3 and the state suggestion area In 43, red is stopped and displayed. As a result, it is possible for the player to recognize that the transition to the third time-saving states ST3A to ST3C has occurred by the stop result of the symbol display device 41. FIG.

In the case of the first to third time saving results in the situation of time saving state ST1 to ST3C, and when the latency of the third time saving state ST3A to ST3C occurs triggered by the first to third time saving results, the pattern A combination of latent patterns (“5/6/7”, “6/7/8”, and “7/8/9”) is stopped and displayed on one of the effective lines L1 to L5 of rows Z1 to Z3. Red is stop-displayed in the state suggestion area 43 . As a result, it is possible for the player to recognize that the latency of the third time-saving states ST3A to ST3C has occurred by the stop result of the symbol display device 41.

If a time saving result is obtained in a high probability state, or if the first to third time saving results are obtained in a time saving state ST1 to ST3C situation, the third time saving result triggered by the first to third time saving results When the latent statuses ST3A to ST3C do not occur, combinations of non-reach-out symbols are stop-displayed on the effective lines L1 to L5 in the symbol rows Z1 to Z3. The combination of non-reach out-of-range symbols is stopped and displayed even when the result of the success/failure determination processing is the out-of-range result. In addition, blue is stopped in the state suggesting area 43 .

The display area of the symbol display device 41 is wider than the display area of the special symbol display portions 37a and 37b, and the symbol display device 41 is arranged substantially in the center of the game area PA, whereas the special symbol display portions 37a and 37b are arranged. is arranged on the corner side of the game area PA, the symbol display device 41 attracts the player's attention more than the special symbol display portions 37a and 37b. In addition, while the symbol display device 41 executes a wide variety of effects such as ready-to-win display, the special symbol display units 37a and 37b perform variable display of patterns in a fixed manner as already described, corresponding to the game results. Since only the stop result is displayed, the symbol display device 41 attracts the player's attention more than the special symbol display portions 37a and 37b also from this point. In such circumstances, if the result is a time saving result that does not trigger the setting of the third time saving state ST3A to ST3C, it is off to each effective line L1 to L5 of the symbol rows Z1 to Z3. By stop-displaying the symbol combination, it is possible to make it difficult for the player to recognize that the time saving result has been invalidated despite the selection.

If it is a time saving result that does not trigger the setting related to the third time saving state ST3A to ST3C, as described above, the result of the success/failure determination process is off for each valid line L1 to L5 of the symbol rows Z1 to Z3. Stop even if it is a result. Even if the displayed combination of non-reach out-of-reach symbols is stop-displayed, a stop result different from the case where the result of the win-or-fail determination processing is a loss result is stop-displayed in the state suggesting area 43 . In other words, when the time saving result does not trigger the setting of the third time saving state ST3A to ST3C, the blue color is stopped in the state suggestion area 43, whereas when the result is out, the state suggestion area 43 Red is displayed stopped. As a result, in a situation where the special symbol display portions 37a and 37b are difficult for the manager of the gaming hall to visually recognize, the combinations of non-reach out symbols are stopped and displayed on the effective lines L1 to L5 of the symbol rows Z1 to Z3 in the symbol display device 41. In this case, by checking the state suggesting area 43, it is possible to grasp which of the time saving result and the off result.

Figure 186 is a flow chart showing the time-saving progress process executed in step S8308 of the special figure determination process (Figure 128).

First, it is determined whether or not the high probability flag 321 is set to "1" (step SC601). When "1" is set to the high probability flag 321 (step SC601: YES), the processing for shortening working hours is terminated without executing the processing after step SC602.

If "1" is not set to the high probability flag 321 and the value of the time saving target counter 371 is 1 or more (step SC601: NO, step SC602: YES), that is, the first to third time saving state ST1 If it is one of ~ ST3C, the subtraction process of the time saving state counter 386 (step SC603) and the subtraction process of the third time saving standby counter 387 (step SC604) are executed. In the subtraction process of the time saving state counter 386, the value of the time saving state counter 386 is subtracted by 1. In the subtraction process of the 3rd time saving waiting counter 387, 1 is subtracted from the value of the 3rd time saving waiting counter 387 on the condition that the value of the 3rd time saving waiting counter 387 is 1 or more.

Here, since the processing of step SC604 is executed in the time saving state ST1 ~ ST3C, when the third time saving state ST3A ~ ST3C is latent, one game is played in the time saving state ST1 ~ ST3C which is the target of execution When the times are executed, not only the value of the time saving state counter 386 is decremented by 1, but also the value of the third time saving standby counter 387 is decremented by 1. Therefore, when the third time-saving states ST3A to ST3C are latent, the number of remaining continuations of the time-saving states ST1 to ST3C to be executed when one game cycle is executed is subtracted by 1. Not only, the remaining number of continuations of the latent third time saving state ST3A to ST3C is also subtracted by one.

The first time saving state ST1 has a continuation count of 100 times, the second time saving state ST2 has a continuation count of 150 times, the 3A time saving state ST3A has a continuation count of 50 times, and the 3B time saving state ST3B has a continuation count. is 100 times, and the number of continuations of the 3C time saving state ST3C is 130 times, so depending on the timing when the 3rd time saving state ST3A to ST3C latent, when the time saving state ST1 to ST3C to be executed ends, the 3rd The value of the time saving standby counter 387 is 1 or more, and the third time saving state ST3A to ST3C is stored in the third time saving waiting counter 387 following the time saving state ST1 to ST3C so far. A situation can occur, and the value of the third time saving standby counter 387 becomes "0" in the middle of the time saving state ST1 to ST3C to be executed, and the latent third time saving state ST3A to ST3C ends without becoming an object to be executed. Situations can arise.

Thereafter, by determining whether the value of the time saving state counter 386 is "0", it is determined whether or not the time saving states ST1 to ST3C to be executed have ended (step SC605). When the value of the time saving state counter 386 is "0" (step SC605: YES), it is determined whether the value of the 3rd time saving standby counter 387 is 1 or more (step SC606). If the value of the third time saving standby counter 387 is 1 or more (step SC606: YES), it means that the third time saving state ST3A to ST3C is in hiding. In this case, the value of the third time-saving standby counter 387 is set to the time-saving state counter 386 (step SC607), the value of the third time-saving standby counter 387 is cleared to "0" (step SC608), and the time-saving target counter 371 is set to "3 ” is set (step SC609). As a result, the latent third time saving state ST3A to ST3C is executed, and the third time saving state ST3A to ST3C is stored in the third time saving standby counter 387. Executed over the remaining number of continuations.

After that, it transmits to the sound and light side MPU 93 a state designation command indicating that the third time-saving state ST3A to ST3C, which was in hiding, has started (step SC612). When the sound and light side MPU 93 receives the state designation command, the time saving state ST1 to ST3C that was the object of execution is completed, and the latent third time saving state ST3A to ST3C is started. Processing is executed so as to be executed by the display device 41, the display light emitting unit 64, and the speaker unit 65. FIG. Also, the time saving continuation counter 375 is cleared to "0" (step SC613). Since the time saving continuation counter 375 is cleared to "0", the determination mode of the variable display period of the game times in the third time saving state ST3A to ST3C returns to the determination mode when the third time saving state ST3A to ST3C is newly started. It will be.

When the value of the 3rd time saving standby counter 387 is "0" (step SC606: NO), "0" clears the time saving object counter 371 (step SC610). As a result, the game state becomes the normal game state. In addition, the outer end flag at the end of the time saving in the main side RAM84 is set to "1" (step SC611), and the state designation command indicating that the time saving state ST1 to ST3C has ended and the normal game state has been transferred to the sound and light side It transmits to MPU93 (step SC612), and "0" clears the time saving continuation counter 375 (step SC613).

Next, with reference to the time chart of FIG. 187, the manner in which the third time saving state ST3A to ST3C latent will be described by taking the relationship with the first time saving state ST1 as an example. Figure 187 (a) shows the period during which the first time saving state ST1 is to be executed, Figure 187 (b) shows the period during which the 3A time saving state ST3A is to be executed, Figure 187 (c) Shows the period during which the 3B time saving state ST3B is to be executed, FIG. 187 (d) shows the period during which the 3C time saving state ST3C is to be executed, and FIG. 187 (e) corresponds to the first time saving result 187(f) shows the timing at which the game round corresponding to the second time saving result ends, and FIG. 187(g) shows the timing at which the game round corresponding to the third time saving result ends Timing is shown, and FIG. 187(h) shows a period during which the value of the third time saving standby counter 387 is 1 or more.

At the timing of t1, the opening and closing execution mode corresponding to the 5R low probability result ends, so that the first time saving state ST1 is started as shown in FIG. 187(a). After that, at the timing of t2, which is the timing in the middle of the first time saving state ST1, the game round corresponding to the first time saving result ends as shown in FIG. 187(e). In this case, since the third time saving state ST3A to ST3C is not latent, the number of continuations of the 3A time saving state ST3A is set to the third time saving standby counter 387 as shown in FIG. 187 (h), and FIG. 187 (b) As shown in 3A time saving state ST3A is in a latent state.

After that, at the timing of t3, which is a situation in which the 3A time saving state ST3A is latent in the middle of the 1st time saving state ST1, the game round corresponding to the 3rd time saving result ends as shown in FIG. 187 (g) do. In this case, since the 3A time saving state ST3A has already been latent, the 3C time saving state ST3C triggered by the 3rd time saving result does not occur and the 3rd time saving result is invalidated.

After that, at the timing of t4, which is the timing in the middle of the first time saving state ST1, the value of the third time saving waiting counter 387 becomes "0" as shown in FIG. 187(h). Therefore, as shown in FIG. 187(b), the latent 3A time saving state ST3A ends without becoming an execution target. As a result, the third time-saving states ST3A to ST3C are not latent.

After that, at the timing of t5, which is the timing in the middle of the first time saving state ST1, the game round corresponding to the second time saving result ends as shown in FIG. 187(f). In this case, since the third time saving state ST3A to ST3C is not latent, the number of continuations of the 3B time saving state ST3B is set to the third time saving standby counter 387 as shown in FIG. 187 (h), and FIG. 187 (c) As shown in , the 3B time saving state ST3B is in a latent state.

After that, at the timing of t6, the first time saving state ST1 ends as shown in FIG. 187(a). In this case, since the 3B time saving state ST3B is latent as shown in FIG. 187(c), the 3B time saving state ST3B is started at the timing of t6. However, the remaining number of continuations of the 3B time saving state ST3B is not 100 times, but the number of times corresponding to the value stored in the third time saving standby counter 387 at the timing of t6.

After that, at the timing of t7, which is the timing in the middle of the 3B time saving state ST3B, the game round corresponding to the third time saving result ends as shown in FIG. 187(g). In this case, since the third time saving state ST3A ~ ST3C is not latent, the number of times of continuation of the 3C time saving state ST3C is set to the third time saving standby counter 387 as shown in Figure 187 (h), Figure 187 (d) As shown in 3C time saving state ST3C is in a latent state.

After that, at the timing of t8, which is a situation in which the 3C time saving state ST3C is latent in the middle of the 3B time saving state ST3B, the game round corresponding to the second time saving result ends as shown in FIG. do. In this case, since the 3C time saving state ST3C is already latent, the second time saving result is invalidated without the latency of the 3B time saving state ST3B triggered by the second time saving result.

After that, at the timing of t9, the 3B time saving state ST3B ends as shown in FIG. 187(c). In this case, since the 3C time saving state ST3C is latent as shown in FIG. 187(d), the 3C time saving state ST3C is started at the timing of t9. However, the remaining number of continuations of the 3C time saving state ST3C is not 130 times, but the number of times corresponding to the value stored in the third time saving standby counter 387 at the timing of t9.

After that, at the timing of t10, as shown in FIG. 187(d), the third C time saving state ST3C ends. In this case, since the third time saving state ST3A to ST3C is not latent, the game state becomes the normal game state.

According to the embodiment detailed above, the following excellent effects can be obtained.

A 3A time saving state ST3A, a 3B time saving state ST3B and a 3C time saving state ST3C are set as the 3rd time saving state triggered by execution of a game round corresponding to the time saving result. Thereby, it becomes possible to diversify the kind of 3rd time saving state. Further, these third time-saving states ST3A to ST3C all have the same support mode and different end conditions. Thus, while diversifying the types of the third time saving states ST3A to ST3C, it is possible to prevent the contents of the third time saving states ST3A to ST3C from becoming difficult for the player to understand.

Not only when the game cycle corresponding to the first to third time saving results is executed in the first time saving state ST1 or the second time saving state ST2, but also in the third time saving states ST3A to ST3C, it corresponds to the first to third time saving results. The third time saving state ST3A to ST3C is hidden even when the game round is executed. As a result, it is possible to increase the chances that the third time saving states ST3A to ST3C are latent in the time saving states ST1 to ST3C.

Even in a configuration in which a plurality of types of the third time saving states ST3A to ST3C are set, the number of the latent possible third time saving states ST3A to ST3C is only one. As a result, it is possible to prevent the third time saving states ST3A to ST3C from being excessively latent.

Even if the game round corresponding to the first to third time saving results is executed in a situation where the third time saving states ST3A to ST3C are already latent, the third time saving state ST3A for the first to third time saving results ~ST3C latency settings are not made, and the first to third time saving results are invalidated. As a result, the content of the latent third time saving states ST3A to ST3C becomes easy for the player to understand, and the processing configuration regarding the latent third time saving states ST3A to ST3C can be simplified.

When the third time saving state ST3A to ST3C is latent by executing the game round corresponding to the first to third time saving results in the time saving state ST1 to ST3C, the symbol row Z1 of the symbol display device 41 in the game round As a result of stopping Z3, a combination of lurking symbols ("5, 6, 7", "6, 7, 8", and "7, 8, 9") is displayed. This makes it possible for the player to recognize that the third time-saving state ST3A to ST3C has been latent by using the stop result of the effect for the game cycle.

The content of the combination of latent patterns differs depending on the types of the first to third time saving results. As a result, it is possible for the player to recognize the types of the third time-saving states ST3A to ST3C that are latent targets by using the stop result of the game cycle effect.

The occurrence of the first to third time saving results is invalidated by executing the game round corresponding to the first to third time saving results in the time saving states ST1 to ST3C in the situation where the third time saving states ST3A to ST3C are latent. If it is converted, as a result of stopping the symbol rows Z1 to Z3 of the symbol display device 41 in the game round, a combination of symbols corresponding to the jackpot result, a combination of time-saving generation symbols (“1 2 3”, “ 2, 3, 4”, “3, 4, 5”), a combination of latent symbols (“5, 6, 7”, “6, 7, 8”, “7, 8, 9”), and an off reach A stop result is displayed in which a combination of non-reach out-of-reach symbols, which is a combination of symbols other than the combination of symbols, is stop-displayed. The stop result is a loss result, and is a stop result that is displayed even in game rounds in which the loss ready-to-win display does not occur. As a result, it is possible to prevent the player from recognizing that the generation of the first to third time saving results has been invalidated from the stop results of the symbol rows Z1 to Z3 of the symbol display device 41.例文帳に追加

On the other hand, in the state suggestion area 43 of the pattern display device 41, the stop result corresponding to the invalidation of the occurrence of the first to third time saving results is displayed, and the special figure display units 37a and 37b also display the first ~ The stop result corresponding to the third time saving result is displayed. As a result, the administrator of the game hall can grasp that the situation in which the occurrence of the first to third time saving results is invalidated has occurred by visually observing the state suggestion area 43 or the special figure display portions 37a and 37b. becomes possible.

<Another Form of the 21st Embodiment>
(1) The number of times the 3A time saving state ST3A continues is less than the number of times the first time saving state ST1 continues, the number of times the 3B time saving state ST3B continues is the same as the number of times the first time saving state ST1 continues, and the 3C time saving state The number of continuations of ST3C is greater than the number of continuations of the first time reduction state ST1 and less than the number of continuations of the second time reduction state ST2, but the number of continuations of these third time reduction states ST3A to ST3C is arbitrary. For example, the 3A time saving state ST3A, the 3B time saving state ST3B, and the 3C time saving state ST3C may be configured to be less than the number of times the first time saving state ST1 continues, and the number of times the first time saving state ST1 continues. It is good also as a structure less than the continuation frequency|count of 2nd time saving state ST2 more than more, and it is good also as a structure more than the continuation frequency|count of 2nd time saving state ST2. Further, part of the third time saving states ST3A to ST3C may be configured such that the number of times of continuation is equal to or greater than the number of times of continuation of the second time saving state ST2.

(2) When the game round corresponding to the first to third time saving results is executed in the third time saving state ST3A to ST3C, the corresponding third time saving state ST3A to ST3C is latent. When the game cycle corresponding to the first to third time saving results is executed in the time saving states ST3A to ST3C, the third time saving states ST3A to ST3C corresponding to the time saving results may be newly started. When the game rounds corresponding to the first to third time saving results are executed in the three time saving states ST3A to ST3C, the occurrence of the time saving result may be invalidated.

<Twenty-Second Embodiment>
In this embodiment, the processing contents when the game round corresponding to the first to third time saving results ends in the situation where the third time saving states ST3A to ST3C are latent are different from the above-mentioned 21st embodiment. The configuration different from that of the twenty-first embodiment will be described below. Note that the description of the same configuration as that of the twenty-first embodiment is basically omitted.

Figure 188 is a flow chart showing the setting process for the time saving result executed in step S8309 of the process during special figure determination (Figure 128).

If the game result of the current game round is one of the first to third time saving results (step SC701: YES), it is determined whether or not the high probability flag 321 is set to "1" (step SC702) . And when "1" is set to the high probability flag 321 (step SC702: YES), the setting process for this time saving result is complete|finished, without performing the process after step SC703. In other words, even if the time saving result is selected in the winning/failure determination process of the game round executed in a high probability state, the setting of the third time saving state ST3A to ST3C triggered by the time saving result is not performed. Time-saving results are nullified.

If "1" is not set to the high probability flag 321 (step SC702: NO), by determining whether the value of the time reduction target counter 371 is 1 or more, the current game state is the first to the It is determined whether or not it is one of the 3 o'clock short states ST1 to ST3C (step SC703). When the value of the time reduction target counter 371 is "0" (step SC703: NO), that is, when the game state is the normal game state, the time reduction target counter 371 is set to "3" and the time reduction continuation counter 375 is set to "0". "Clear (step SC704), set the outer end flag at the time of time saving occurrence in the main RAM84 to "1" (step SC705), and execute the setting process to the time saving state counter 386 (step SC706). In setting processing to the time saving state counter 386, if the game result of the current game round is the first time saving result, "50" is set to the time saving state counter 386, and the game result of the current game round is the second time saving result. If so, the time saving state counter 386 is set to "100", and if the game result of the current game cycle is the third time saving result, the time saving state counter 386 is set to "130". As a result, the game state shifts from the normal game state to the third time-saving states ST3A to ST3C. Also, in step SC705, the outer end flag at the time of time saving is set to "1", but when the outer end flag at time of time saving is set to "1", the above fifteenth implementation As in the form, the output state of the second jackpot signal is set to HI level over the ON continuation period with respect to the outer terminal 333 for the second jackpot signal, and the external terminal for the advantageous state signal is executed. Processing is executed to set the output state of the advantageous state signal to the HI level for the end terminal 334 .

Thereafter, a state designation command indicating that the normal game state has shifted to the third time saving state ST3A to ST3C is transmitted to the sound and light side MPU 93 (step SC707). When the sound and light side MPU 93 receives the state designation command, the pattern display device 41, the display light emitting unit 64 and the speaker unit 65 perform an effect indicating that the normal game state has shifted to the third time saving state ST3A to ST3C. Execute processing to ensure that

If the value of the time saving target counter 371 is 1 or more (step SC703: YES), regardless of whether the value of the 3rd time saving standby counter 387 is 1 or more, the setting process to the 3rd time saving standby counter 387 Execute (step SC708). In the setting process for the third time saving waiting counter 387, if the game result of this game round is the first time saving result, the third time saving waiting counter 387 is set to "50", and the game result of this game round is set to "50". If the result is 2 hours saving, the third time saving waiting counter 387 is set to "100", and if the game result of this game cycle is the third working hours result, the third time saving waiting counter 387 is set to "130". Thereby, when the game round corresponding to one of the first to third time saving results is executed in the middle of the time saving state ST1 to ST3C, whether or not the third time saving state ST3A to ST3C is already latent Regardless, the third time saving state ST3A to ST3C will be latent. In addition, the number of continuations of the third time saving state ST3A to ST3C that lurk in this case is the number of continuations that corresponds to the type of time saving result that has triggered the hiding.

After that, in step SC707, a state designation command indicating that the latency of the third time saving state ST3A to ST3C has occurred is transmitted to the sound and light side MPU93. When the sound and light side MPU 93 receives the state designation command, the effect indicating that the latency of the third time saving state ST3A to ST3C has occurred and the effect indicating the type of the third time saving state ST3A to ST3C that is the target of hiding is a pattern. Processing is executed to be executed by the display device 41, the display light emitting unit 64, and the speaker unit 65. FIG. As a result, the player can recognize that the third time-saving states ST3A to ST3C are hidden, although they are not targets for execution.

FIG. 189 is a flow chart showing the process of determining the variation pattern in this embodiment, which is executed by the sound and light side MPU 93 . Note that the variation pattern determination process is executed when a variation command and a type command are received from the main MPU 82 .

Steps SC801 to SC810 execute the same processes as steps SC501 to SC510 of the variation pattern determination process (FIG. 185) in the twenty-first embodiment, and steps SC814 to SC817 change in the twenty-first embodiment. The same processing as steps SC515 to SC518 of the pattern determination processing (FIG. 185) is executed.

In the case where information indicating that the game round to be started this time corresponds to the first to third time saving results is set in the type command received this time (step SC804: YES), the current state If the game state is the time saving state ST1 ~ ST3C (step SC808: YES), the game round this time is the final game round of the time saving state ST1 ~ ST3C to be executed, the third time saving state ST3A ~ ST3C It is determined whether or not the current game round is started when the remaining number of continuations of the third time-saving state ST3A to ST3C in hiding or the situation where hiding has not occurred is 1 (step SC811 ). In addition, the sound and light side MPU 93 is the current game state by the state designation command received from the main side MPU 82 normal game state, high probability state, first time saving state ST1, second time saving state ST2 and third time saving state ST3A ~ ST3C It is possible to identify whether it is any, and whether the third time saving states ST3A to ST3C are latent in the time saving states ST1 to ST3C, and further received a state designation command corresponding to the start of the time saving states ST1 to ST3C It is possible to specify whether or not it is the final game round of the time saving states ST1 to ST3C by the number of times the variation command is received later, and the state designation command corresponding to the start of the latency of the third time saving states ST3A to ST3C is received. It is possible to specify whether or not the remaining number of continuations of the latent third time saving state ST3A to ST3C is one time depending on the number of receptions of the variation command later.

When the affirmative determination is made in step SC811, although the game round of this time has started in the time saving state ST1 to ST3C, when the game round of this time ends, the 1st to 3rd time saving result of this time is used as a trigger for the 3rd time saving. This means that states ST3A to ST3C are newly started. In this case, stop design determination processing for suggesting time saving is executed (step SC809). In the stop pattern determination process for suggesting time saving, as in the 21st embodiment, a combination of time saving patterns ("1, 2, 3") is displayed as a stop result to be stopped and displayed in the pattern rows Z1 to Z3 of the pattern display device 41. , "2-3-4", "3-4-5"). In this case, if this time is the first time saving result, select the first time saving pattern combination ("1, 2, 3"), and if this time is the second time saving result, select the second time saving pattern combination (" 2, 3, 4"), and if this time is the third time saving result, the third time saving pattern combination ("3, 4, 5") is selected. In addition, in the stopping symbol determination process for suggesting time saving, the effective lines L1 to L5 for stop-displaying the combination of the first to third time saving generating symbols selected as described above are determined by lottery. Also, red is selected as the stop result of the state suggestion area 43 of the pattern display device 41 (step SC810).

If a negative determination is made in step SC811, stop symbol determination processing for hinting at hiding is executed (step SC812). In the stopping symbol determination process for suggesting lurking, combinations of lurking symbols ("5, 6, 7", "6, 7, 8", "7, 8, 9"). In this case, if this time is the first time saving result, select the first latency occurrence pattern combination ("5, 6, 7"), and if this time is the second time saving result, select the second latency occurrence pattern combination (" 6, 7, 8"), and if this time is the third time saving result, the third latency occurrence pattern combination ("7, 8, 9") is selected. In the stopping symbol determination process for suggesting lurking, the effective lines L1 to L5 for stop-displaying the combination of the first to third lurking generating symbols selected as described above are determined by lottery. After that, red is selected as the stop result of the state suggestion area 43 of the pattern display device 41 (step SC813).

As described above, when the game round corresponding to the first to third time saving results is executed during the latency of the third time saving state ST3A to ST3C, the value of the third time saving waiting counter 387 is the time saving result that occurred this time. It is overwritten with the number of continuations of the corresponding third time saving states ST3A to ST3C. As a result, when the first to third time saving results occur during the latency of the third time saving states ST3A to ST3C, it is possible to prevent the first to third time saving results from being invalidated. .

During the latency of the third time saving state ST3A to ST3C, the first to third time saving results occur, and the value of the third time saving waiting counter 387 corresponds to the time saving result that occurred this time. When overwritten, as a result of stopping the game round on the symbol display device 41, the combination of the latency occurrence symbol is stopped and displayed. This makes it possible for the player to recognize that the number of continuations of the third time-saving states ST3A to ST3C during hiding has been overwritten.

<Another Form of the 22nd Embodiment>
(1) The number of times the 3A time saving state ST3A continues is less than the number of times the first time saving state ST1 continues, the number of times the 3B time saving state ST3B continues is the same as the number of times the first time saving state ST1 continues, and the 3C time saving state The number of continuations of ST3C is greater than the number of continuations of the first time reduction state ST1 and less than the number of continuations of the second time reduction state ST2, but the number of continuations of these third time reduction states ST3A to ST3C is arbitrary. For example, the 3A time saving state ST3A, the 3B time saving state ST3B, and the 3C time saving state ST3C may be configured to be less than the number of times the first time saving state ST1 continues, and the number of times the first time saving state ST1 continues. It is good also as a structure less than the continuation frequency|count of 2nd time saving state ST2 more than more, and it is good also as a structure more than the continuation frequency|count of 2nd time saving state ST2. Further, part of the third time saving states ST3A to ST3C may be configured such that the number of times of continuation is equal to or greater than the number of times of continuation of the second time saving state ST2.

(2) When the game round corresponding to the first to third time saving results is executed in the third time saving state ST3A to ST3C, the corresponding third time saving state ST3A to ST3C is latent. When the game cycle corresponding to the first to third time saving results is executed in the time saving states ST3A to ST3C, the third time saving states ST3A to ST3C corresponding to the time saving results may be newly started. When the game rounds corresponding to the first to third time saving results are executed in the three time saving states ST3A to ST3C, the occurrence of the time saving result may be invalidated.

<Twenty-third embodiment>
In this embodiment, the manner of latency of the third time-saving states ST3A to ST3C is different from that of the twenty-first embodiment. The configuration different from that of the twenty-first embodiment will be described below. Note that the description of the same configuration as that of the twenty-first embodiment is basically omitted.

FIG. 190 is an explanatory diagram for explaining the storage area of the main side RAM 84 used for controlling the game state.

The main side RAM84 is provided with a high probability flag 321, a ceiling counter 325, a time reduction target counter 371, a time reduction continuation counter 375, a time reduction state counter 386 and a third time reduction standby counter 387 as in the 21st embodiment. In addition, a standby object counter 395 is provided in the main RAM 84 .

Waiting object counter 395, when the third time saving state ST3A ~ ST3C is latent in the time saving state ST1 ~ ST3C, the type of the latent third time saving state ST3A ~ ST3C for specifying at the main side MPU 82 is a counter. When the value of the waiting target counter 395 is "1", the 3A time saving state ST3A is latent. When the value of the waiting object counter 395 is "2", the 3B time saving state ST3B is latent. When the value of the waiting target counter 395 is "3", the 3C time saving state ST3C is latent.

When a new latency of the third time saving state ST3A to ST3C occurs and the value is set to the standby target counter 395, the number of continuations corresponding to the type of the third time saving state ST3A to ST3C that is newly targeted for latency is the third It is set in the 3 o'clock short standby counter 387 . The information on the number of continuations set in the third time saving standby counter 387 is decremented by 1 each time a game cycle is executed in the current time saving states ST1 to ST3C in the same manner as in the 21st embodiment. Then, in a situation where the information of the number of continuations of 1 or more is stored in the third time-saving standby counter 387, when the other time-saving states ST1 to ST3C that have been executed so far are completed, the third time-saving standby at that time The third time reduction states ST3A to ST3C are executed over the remaining number of continuations stored in the counter 387. FIG.

Figure 191 is a flow chart showing the setting process for the time saving result executed in step S8309 of the process during special figure determination (Figure 128).

If the game result of the current game round is one of the first to third time saving results (step SC901: YES), it is determined whether or not the high probability flag 321 is set to "1" (step SC902) . And when "1" is set to the high probability flag 321 (step SC902: YES), the setting process for this time saving result is complete|finished, without performing the process after step SC903. In other words, even if the time saving result is selected in the winning/failure determination process of the game round executed in a high probability state, the setting of the third time saving state ST3A to ST3C triggered by the time saving result is not performed. Time-saving results are nullified.

If "1" is not set to the high probability flag 321 (step SC902: NO), by determining whether the value of the time reduction target counter 371 is 1 or more, the current game state is the first to the It is determined whether or not it is one of the 3 o'clock short states ST1 to ST3C (step SC903). When the value of the time reduction target counter 371 is "0" (step SC903: NO), that is, when the game state is the normal game state, the time reduction target counter 371 is set to "3" and the time reduction continuation counter 375 is set to "0". "Clear (step SC904), set "1" to the outer end flag at the time of time saving occurrence in the main RAM84 (step SC905), and execute the setting process to the time saving state counter 386 (step SC906). In the process of setting the time saving state counter 386, if the game result of the current game round is the first time saving result, the time saving state counter 386 is set to "50", and the game result of the current game round is the second time saving result. If so, the time saving state counter 386 is set to "100", and if the game result of the current game cycle is the third time saving result, the time saving state counter 386 is set to "130". As a result, the game state shifts from the normal game state to the third time-saving states ST3A to ST3C. Also, in step SC905, the outer end flag at the time of time saving is set to "1", but when the outer end flag at time of time saving is set to "1", the above fifteenth implementation As in the form, the output state of the second jackpot signal is set to HI level over the ON continuation period with respect to the outer end terminal 333 for the second jackpot signal. Processing is executed to set the output state of the advantageous state signal to the HI level for the end terminal 334 .

Thereafter, a state designation command indicating that the normal game state has shifted to the third time saving state ST3A to ST3C is transmitted to the sound and light side MPU 93 (step SC907). When the sound and light side MPU 93 receives the state designation command, the pattern display device 41, the display light emitting unit 64 and the speaker unit 65 perform an effect indicating that the normal game state has shifted to the third time saving state ST3A to ST3C. Execute processing to ensure that

When the value of the time saving object counter 371 is 1 or more (step SC903: YES), the setting process for waiting is performed (step SC908). FIG. 192 is a flowchart showing standby setting processing.

When the game result of the current game round is the first time saving result (step SD101: YES), it is determined whether or not the value of the waiting object counter 395 is 2 or more (step SD102). That is, it is determined whether or not the 3B time saving state ST3B or the 3C time saving state ST3C is in the latent state. If the third time saving state ST3A ~ ST3C is not latent or if the 3A time saving state ST3A is latent (step SD102: NO), set "50" to the third time saving standby counter 387 (step SD103), "1" is set in the waiting object counter 395 (step SD104). As a result, when the 3rd time saving state ST3A to ST3C is not in a state of being latent, the 3A time saving state ST3A is in a latent state, and the 3A time saving state ST3A is in a latent state. The number of times of continuation of the 3A time saving state ST3A is reset to the 3rd waiting object counter 387.

If the game result of the current game round is the second time saving result (step SD105: YES), it is determined whether or not the value of the waiting target counter 395 is "3" (step SD106). That is, it is determined whether or not the 3C time saving state ST3C is in the latent state. If the third time saving state ST3A ~ ST3C is not latent, or if the 3A time saving state ST3A or the 3B time saving state ST3B is latent (step SD106: NO), the third time saving standby counter 387 "100" (step SD107), and "2" is set in the waiting object counter 395 (step SD108). As a result, when the 3rd time saving state ST3A to ST3C is not latent, or when the 3A time saving state ST3A is latent, the 3B time saving state ST3B is latent. , When the 3B time saving state ST3B is latent, the number of continuations of the 3B time saving state ST3B is reset to the third standby target counter 387.

If the game result of the current game round is the third time saving result (step SD105: NO), set "130" to the third time saving waiting counter 387 (step SD109), and set "3" to the waiting target counter 395 (step SD110). As a result, if the 3rd time saving state ST3A to ST3C is not latent, or if the 3A time saving state ST3A or the 3B time saving state ST3B is latent, the 3C time saving state ST3C is latent. If it is in a state where the 3C time saving state ST3C is latent, the number of continuations of the 3C time saving state ST3C is reset to the third standby target counter 387.

That is, in the present embodiment, priority is set for the third time-saving states ST3A to ST3C in the case of becoming a latent target. Specifically, the priority of the 3C time saving state ST3C, which has the highest number of continuations in the 3rd time saving state ST3A to ST3C, is the highest, and the 3rd time saving state ST3A to ST3C has the next highest number of continuations. The priority of the time saving state ST3B is the next highest, and the priority of the 3A time saving state ST3A, which has the lowest number of continuations among the 3rd time saving states ST3A to ST3C, is the lowest. Therefore, when the game round corresponding to the 3rd time saving result is executed in the situation where the 3A time saving state ST3A or the 3B time saving state ST3B is latent, the latent target is changed to the 3C time saving state ST3C, and the 3A When the game cycle corresponding to the second time saving result is executed in the situation where the time saving state ST3A is latent, the latent target is changed to the 3B time saving state ST3B. However, since the support mode for both the 3A time saving state ST3A, the 3B time saving state ST3B and the 3C time saving state ST3C is the second high frequency support mode, the type of the latent target 3rd time saving state ST3A to ST3C is changed. Even if the support mode of the third time-saving state ST3A to ST3C to be hidden is not changed, only the number of times of continuation is changed. In addition, even if the game round corresponding to the first time saving result or the second time saving result is executed in the situation where the 3C time saving state ST3C is latent, the first and second time saving results are invalidated, and the 3B time saving result is invalidated. Even if the game cycle corresponding to the first time saving result is executed in the situation where the state ST3B is latent, the first time saving result is invalidated.

After executing the setting process for standby (step SC908) in the setting process for the time saving result (FIG. 191), it is determined whether the setting of the information of the third time saving waiting counter 387 is performed in the setting process for waiting ( Step SC909). In the standby setting process (FIG. 192), when the process of step SD103, step SD107 or step SD109 is executed, the corresponding information setting is performed in the register of the main side MPU 82. It is determined in step SC909 whether or not there is.

If the setting of information to the third time saving waiting counter 387 is not performed (step SC909: NO), that is, if the current time saving result is invalidated, the setting process for this time saving result is terminated as it is. On the other hand, when the setting of the information of the 3rd time saving waiting counter 387 is performed (step SC909: YES), transmission processing of a state designation command is performed (step SC907). In the transmission process, if the latency of the third time saving state ST3A to ST3C occurs in a situation where the third time saving state ST3A to ST3C is not latent, it indicates that the latency of the third time saving state ST3A to ST3C has occurred. A state specifying command is transmitted to the sound and light side MPU 93 . When the sound and light side MPU 93 receives the state designation command, an effect indicating that the latency of the third time saving state ST3A to ST3C has occurred and an effect indicating the type of the third time saving state ST3A to ST3C that is the target of the latency is a pattern. Processing is executed to be executed by the display device 41, the display light emitting unit 64, and the speaker unit 65. FIG. As a result, the player can recognize that the third time-saving states ST3A to ST3C are hidden, although they are not targets for execution. Also, in the transmission process, if the type of the third time saving state ST3A to ST3C that is the target of hiding is changed or if the number of times of continuation of the third time saving state ST3A to ST3C that is the target of hiding is reset , Transmits to the sound and light side MPU 93 a state designation command indicating that the resetting of the latency of the third time saving state ST3A to ST3C has occurred. When the sound and light side MPU93 receives the state designation command, the third time saving state ST3A ~ ST3C of the third time saving state ST3A ~ ST3C which is the target of the resetting of the latency and the effect indicating that the resetting of the latency of the third time saving state ST3A ~ ST3C has occurred A process for causing the pattern display device 41, the display light emitting unit 64 and the speaker unit 65 to perform the effect indicating the type is executed. As a result, it is possible for the player to recognize that resetting of the latency of the third time-saving states ST3A to ST3C has occurred.

FIG. 193 is a flow chart showing the process of determining the variation pattern in this embodiment executed by the sound and light side MPU 93 . Note that the variation pattern determination process is executed when a variation command and a type command are received from the main MPU 82 .

In step SD201 to step SD210, the same processing as step SC501 to step SC510 of the variation pattern determination process (FIG. 185) in the twenty-first embodiment is executed, and in step SD216 to step SD219, the variation in the twenty-first embodiment. The same processing as steps SC515 to SC518 of the pattern determination processing (FIG. 185) is executed.

If information indicating that the game round to be started this time corresponds to the first to third time saving results is set in the type command received this time (step SD204: YES), the current state If the game state is the time saving state ST1 ~ ST3C (step SD208: YES), the game round this time is the final game round of the time saving state ST1 ~ ST3C to be executed, the third time saving state ST3A ~ ST3C It is determined whether or not the current game round is started when the number of times of remaining continuation of the third time saving state ST3A to ST3C during hiding is 1 (step SD211 ). In addition, the sound and light side MPU 93 is the current game state by the state designation command received from the main side MPU 82 normal game state, high probability state, first time saving state ST1, second time saving state ST2 and third time saving state ST3A ~ ST3C It is possible to identify whether it is any, and whether the third time saving states ST3A to ST3C are latent in the time saving states ST1 to ST3C, and further received a state designation command corresponding to the start of the time saving states ST1 to ST3C It is possible to specify whether or not it is the final game round of the time saving states ST1 to ST3C by the number of times the variation command is received later, and the state designation command corresponding to the start of the latency of the third time saving states ST3A to ST3C is received. It is possible to specify whether or not the remaining number of continuations of the latent third time saving state ST3A to ST3C is one time depending on the number of receptions of the variation command later.

When the affirmative determination is made in step SD211, although the game round of this time has started in the time saving states ST1 to ST3C, when the game round of this time ends, the 1st to 3rd time saving result of this time is used as a trigger for the 3rd time saving. This means that states ST3A to ST3C are newly started. In this case, stop symbol determination processing for suggesting time saving is executed (step SD209). In the stop pattern determination process for suggesting time saving, as in the 21st embodiment, a combination of time saving patterns ("1, 2, 3") is displayed as a stop result to be stopped and displayed in the pattern rows Z1 to Z3 of the pattern display device 41. , "2-3-4", "3-4-5"). In this case, if this time is the first time saving result, select the first time saving pattern combination ("1, 2, 3"), and if this time is the second time saving result, select the second time saving pattern combination (" 2, 3, 4"), and if this time is the third time saving result, the third time saving pattern combination ("3, 4, 5") is selected. In addition, in the stopping symbol determination process for suggesting time saving, the effective lines L1 to L5 for stop-displaying the combination of the first to third time saving generating symbols selected as described above are determined by lottery. Also, red is selected as the stop result of the state suggestion area 43 of the pattern display device 41 (step SD210).

If a negative determination is made in step SD211, a determination process for hiding is executed to determine whether or not setting regarding hiding occurs in the main MPU 82 (step SD212). In the determination process for latency, it is determined whether or not the latency of the third time-saving states ST3A to ST3C occurs. Specifically, when the third time saving state ST3A to ST3C in the latent state when the time saving state ST1 to ST3C ends in the case of the final game round of the time saving state ST1 to ST3C, the time saving state If it is not the final game round of ST1 to ST3C and the third time saving state ST3A to ST3C is not latent, or if it is not the final game round of the time saving state ST1 to ST3C, the third time saving state in the latent It is determined whether or not the number of remaining continuations of ST3A to ST3C is 0 when the current game round ends. Also, it is determined whether or not the third time-saving state ST3A to ST3C to be hidden is changed. Specifically, when the 3rd time saving result occurs in the situation where the 3A time saving state ST3A or the 3B time saving state STB is latent, or the 2nd time saving result is in the situation where the 3A time saving state ST3A is latent It is determined whether or not it has occurred. Moreover, it is determined whether resetting of the information of the continuation frequency|count to the 3rd time saving standby|waiting counter 387 is performed in main side MPU82. Specifically, when the first time saving result occurs in the situation where the 3A time saving state ST3A is latent, when the second time saving result occurs in the situation where the 3B time saving state ST3B is latent, or 3C It is determined whether or not the third time saving result occurs in the situation where the time saving state ST3C is latent.

When it is determined in the determination process for hiding that the setting related to hiding occurs in the main MPU 82 (step SD213: YES), the stop symbol determination process for suggesting hiding is executed (step SD214). In the stopping symbol determination process for suggesting lurking, combinations of lurking symbols ("5, 6, 7", "6, 7, 8", "7, 8, 9"). In this case, if this time is the first time saving result, select the first latency occurrence pattern combination ("5, 6, 7"), and if this time is the second time saving result, select the second latency occurrence pattern combination (" 6, 7, 8"), and if this time is the third time saving result, the third latency occurrence pattern combination ("7, 8, 9") is selected. In the stopping symbol determination process for suggesting lurking, the effective lines L1 to L5 for stop-displaying the combination of the first to third lurking generating symbols selected as described above are determined by lottery. After that, red is selected as the stop result of the state suggestion area 43 of the pattern display device 41 (step SD215).

When it is determined in the determination process for hiding that the setting regarding hiding does not occur in the main side MPU 82 (step SD213: NO), the time saving result of this time is invalidated. Therefore, stop symbol determination processing for non-reach out is executed (step SD206). In the stop pattern determination process for non-reach out, as in the 21st embodiment, as a stop result to be stopped and displayed in the pattern rows Z1 to Z3 of the pattern display device 41, a combination of patterns corresponding to the jackpot result, a time saving pattern Combination of (“1 2 3”, “2 3 4”, “3 4 5”), combination of latent patterns (“5 6 7”, “6 7 8”, "7, 8, 9"), and a combination of non-reach out-of-reach symbols, which is a combination of symbols other than the combination of out-of-reach out of reach symbols, is stopped and displayed. Also, blue is selected as the stop result of the state suggestion area 43 of the pattern display device 41 (step SD207).

In addition, you may change the stop result of the state suggestion area|region 43 determined in step SD207 by the kind of this time saving result. For example, if this time is the first time saving result, green is selected as the stop result of the state suggestion area 43, if this time is the second time saving result, yellow is selected as the stop result of the state suggestion area 43, and this time is the third If it is a time-saving result, purple is selected as a stop result of the state suggestion area|region 43. FIG. Thereby, even if the time saving result is invalidated, the type of the invalidated time saving result can be notified by the stop result of the state suggesting area 43 .

Figure 194 is a flow chart showing the time-saving progress process executed in step S8308 of the special figure determination process (Figure 128).

First, it is determined whether or not the high probability flag 321 is set to "1" (step SD301). When "1" is set to the high probability flag 321 (step SD301: YES), the processing for shortening working hours is terminated without executing the processing after step SD302.

If the high probability flag 321 is not set to "1" and the value of the time saving target counter 371 is 1 or more (step SD301: NO, step SD302: YES), that is, the first to third time saving state ST1 If any of ~ ST3C, subtraction processing of the time saving state counter 386 (step SD303) and subtraction processing of the third time saving standby counter 387 (step SD304) are executed. In the subtraction process of the time saving state counter 386, the value of the time saving state counter 386 is subtracted by 1. In the subtraction process of the 3rd time saving waiting counter 387, 1 is subtracted from the value of the 3rd time saving waiting counter 387 on the condition that the value of the 3rd time saving waiting counter 387 is 1 or more.

Here, since the processing of step SD304 is executed in the time saving state ST1 to ST3C, when the third time saving state ST3A to ST3C is latent, one game is played in the time saving state ST1 to ST3C which is the target of execution. When the times are executed, not only the value of the time saving state counter 386 is decremented by 1, but also the value of the third time saving standby counter 387 is decremented by 1. Therefore, when the third time-saving states ST3A to ST3C are latent, the number of remaining continuations of the time-saving states ST1 to ST3C to be executed when one game cycle is executed is subtracted by 1. Not only, the remaining number of continuations of the latent third time saving state ST3A to ST3C is also subtracted by one.

The first time saving state ST1 has a continuation count of 100 times, the second time saving state ST2 has a continuation count of 150 times, the 3A time saving state ST3A has a continuation count of 50 times, and the 3B time saving state ST3B has a continuation count. is 100 times, and the number of continuations of the 3C time saving state ST3C is 130 times, so depending on the timing when the 3rd time saving state ST3A to ST3C latent, when the time saving state ST1 to ST3C to be executed ends, the 3rd The value of the time saving standby counter 387 is 1 or more and the third time saving state ST3A to ST3C is stored in the third time saving waiting counter 387 following the time saving state ST1 to ST3C so far. A situation can occur, and the value of the third time saving standby counter 387 becomes "0" in the middle of the time saving state ST1 to ST3C to be executed, and the latent third time saving state ST3A to ST3C ends without becoming an object to be executed. Situations can arise.

After that, on condition that the value of the third time saving waiting counter 387 is "0" (step SD305: YES), the waiting object counter 395 of the main side RAM395 is cleared to "0" (step SD306). As a result, when the remaining number of continuations of the third time saving states ST3A to ST3C during latency is "0", the third time saving states ST3A to ST3C are not latent.

Thereafter, by determining whether the value of the time saving state counter 386 is "0", it is determined whether or not the time saving states ST1 to ST3C to be executed have ended (step SD307). When the value of the time saving state counter 386 is "0" (step SD307: YES), it is determined whether the value of the 3rd time saving standby counter 387 is 1 or more (step SD308). If the value of the third time saving standby counter 387 is 1 or more (step SD308: YES), it means that the third time saving state ST3A to ST3C is in hiding. In this case, the value of the third time-saving standby counter 387 is set to the time-saving state counter 386 (step SD309), the value of the third time-saving standby counter 387 is cleared to "0" (step SD310), and the time-saving target counter 371 is set to "3 ' is set (step SD311). As a result, the latent third time saving state ST3A to ST3C is executed, and the third time saving state ST3A to ST3C is stored in the third time saving standby counter 387. Executed over the remaining number of continuations.

After that, it transmits to the sound and light side MPU 93 a state designation command indicating that the third time-saving state ST3A to ST3C, which was in hiding, has started (step SD314). When the sound and light side MPU 93 receives the state designation command, the time saving state ST1 to ST3C that was the object of execution is completed, and the latent third time saving state ST3A to ST3C is started. Processing is executed so as to be executed by the display device 41, the display light emitting unit 64, and the speaker unit 65. FIG. Also, the time saving continuation counter 375 is cleared to "0" (step SD315). Since the time saving continuation counter 375 is cleared to "0", the determination mode of the variable display period of the game times in the third time saving state ST3A to ST3C returns to the determination mode when the third time saving state ST3A to ST3C is newly started. It will be.

When the value of the 3rd time saving standby counter 387 is "0" (step SD308: NO), "0" clears the time saving object counter 371 (step SD312). As a result, the game state becomes the normal game state. In addition, the outer end flag at the end of the time saving in the main side RAM84 is set to "1" (step SD313), and the state designation command indicating that the time saving state ST1 to ST3C has ended and has shifted to the normal game state is sent to the sound and light side It is transmitted to the MPU 93 (step SD314), and the time saving continuation counter 375 is cleared to "0" (step SD315).

As described above, the third time saving state ST3A to ST3C has a priority as a latent target, and the game round corresponding to the first to third time saving results is executed during the latency of the third time saving state ST3A to ST3C. In this case, if the third time saving state ST3A to ST3C in latent has a higher priority than the third time saving state ST3A to ST3C corresponding to the time saving result that occurred this time, the time saving result that occurred this time is invalid. If the third time saving state ST3A to ST3C corresponding to the time saving result that occurred this time has a higher priority than the latent third time saving state ST3A to ST3C, then the time saving result that occurred this time The latent target is switched to the 3 o'clock short state ST3A to ST3C. As a result, it is possible to make the third time-saving states ST3A to ST3C, which have a high priority, to be latent targets.

During the latency of the third time saving state ST3A to ST3C, a time saving result corresponding to the third time saving state ST3A to ST3C having a higher priority than the third time saving state ST3A to ST3C occurs and the latent target third time saving state ST3A to When ST3C is switched, as a result of stopping the game cycle on the symbol display device 41, the combination of the latency occurrence symbol is stopped and displayed. This makes it possible for the player to recognize that the third time-saving states ST3A to ST3C to be hidden have been switched.

When the time saving result corresponding to the third time saving state ST3A to ST3C occurs during the latency of the third time saving state ST3A to ST3C and the number of continuations is reset to the third time saving standby counter 387, the pattern display device 41 As a result of stopping the game round in , the combination of the latent symbols is stopped and displayed. This makes it possible for the player to recognize that the number of continuations of the third time-saving states ST3A to ST3C during latency has been reset.

When a time saving result corresponding to a third time saving state ST3A to ST3C with a lower priority than the third time saving state ST3A to ST3C occurs during the latency of the third time saving state ST3A to ST3C and the time saving result is invalidated , the symbol rows Z1 to Z3 stop and display combinations of non-reach out symbols on the effective lines L1 to L5. The combination of non-reach out-of-range symbols is stopped and displayed even when the result of the success/failure determination processing is the out-of-range result. As a result, it is possible to make it difficult for the player to recognize that the time saving result has been invalidated even though the result has been selected.

If it is a time saving result that does not trigger the setting related to the third time saving state ST3A to ST3C, as described above, the result of the success/failure determination process is off for each valid line L1 to L5 of the symbol rows Z1 to Z3. Stop even if it is a result. Even if the displayed combination of non-reach out-of-reach symbols is stop-displayed, a stop result different from the case where the result of the win-or-fail determination processing is a loss result is stop-displayed in the state suggesting area 43 . In other words, when the time saving result does not trigger the setting of the third time saving state ST3A to ST3C, the blue color is stopped in the state suggestion area 43, whereas when the result is out, the state suggestion area 43 Red is displayed stopped. As a result, in a situation where the special symbol display portions 37a and 37b are difficult for the manager of the gaming hall to visually recognize, the combinations of non-reach out symbols are stopped and displayed on the effective lines L1 to L5 of the symbol rows Z1 to Z3 in the symbol display device 41. In this case, by checking the state suggesting area 43, it is possible to grasp which of the time saving result and the off result.

<Another Form of the 23rd Embodiment>
(1) The number of times the 3A time saving state ST3A continues is less than the number of times the first time saving state ST1 continues, the number of times the 3B time saving state ST3B continues is the same as the number of times the first time saving state ST1 continues, and the 3C time saving state The number of continuations of ST3C is greater than the number of continuations of the first time reduction state ST1 and less than the number of continuations of the second time reduction state ST2, but the number of continuations of these third time reduction states ST3A to ST3C is arbitrary. For example, the 3A time saving state ST3A, the 3B time saving state ST3B, and the 3C time saving state ST3C may be configured to be less than the number of times the first time saving state ST1 continues, and the number of times the first time saving state ST1 continues. It is good also as a structure less than the continuation frequency|count of 2nd time saving state ST2 more than more, and it is good also as a structure more than the continuation frequency|count of 2nd time saving state ST2. Further, part of the third time saving states ST3A to ST3C may be configured such that the number of times of continuation is equal to or greater than the number of times of continuation of the second time saving state ST2.

(2) When the game round corresponding to the first to third time saving results is executed in the third time saving state ST3A to ST3C, the corresponding third time saving state ST3A to ST3C is latent. When the game cycle corresponding to the first to third time saving results is executed in the time saving states ST3A to ST3C, the third time saving states ST3A to ST3C corresponding to the time saving results may be newly started. When the game rounds corresponding to the first to third time saving results are executed in the three time saving states ST3A to ST3C, the occurrence of the time saving result may be invalidated.

(3) The priority to be hidden in the 3rd time saving states ST3A to ST3C is the highest for the 3C time saving state ST3C, the next highest for the 3B time saving state ST3B, and the lowest for the 3A time saving state ST3A. It is not limited to this, the 3A time saving state ST3A is the highest, the 3B time saving state ST3B is the next highest, and the 3C time saving state ST3C may be the lowest configuration, the 3B time saving state ST3B is the highest, The 3C time saving state ST3C may be the next highest and the 3A time saving state ST3A may be the lowest.

<24th Embodiment>
In this embodiment, the processing configuration of the standby setting process executed in step SC908 in the time saving result setting process (FIG. 191) is different from that of the twenty-third embodiment. The configuration different from that of the twenty-third embodiment will be described below. Note that the description of the same configuration as that of the twenty-third embodiment is basically omitted.

FIG. 195 is a flow chart showing standby setting processing in this embodiment executed by the main MPU 82 . It should be noted that the standby counter 395 is not provided in the main RAM 84 in this embodiment.

If the game result of this game round is the first time saving result (step SD401: YES), the value of the third time saving waiting counter 387 is the value of the number of times the 3A time saving state ST3A continues corresponding to the first time saving result or more It is determined whether or not there is (step SD402). If the third time saving state ST3A to ST3C is not in hiding or if the remaining number of times of continuation of the third time saving state ST3A to ST3C in hiding is less than the number of times of continuation of the 3A time saving state ST3A (step SD402: NO), the "50" corresponding to the number of continuations of the 3A time saving state ST3A is set to the 3 time saving standby counter 387 (step SD403). As a result, the third time-saving states ST3A to ST3C of which the number of times of continuation is 50 are latent.

On the other hand, if an affirmative determination is made in step SD402, this standby setting process is terminated without executing the process of step SD403. Therefore, when the first time saving result occurs in a situation where the remaining number of times of continuation of the 3rd time saving state ST3A to ST3C during latency is greater than or equal to the number of continuations of the 3A time saving state ST3A, the settings related to the 3rd time saving state ST3A to ST3C The first time saving result of this time is invalidated without being performed.

If the game result of the current game round is the second time saving result (step SD404: YES), the value of the third time saving waiting counter 387 is the value of the number of times of continuation of the 3B time saving state ST3B corresponding to the second time saving result or more It is determined whether or not there is (step SD405). If the third time saving state ST3A to ST3C is not in hiding or if the remaining number of times of continuation of the third time saving state ST3A to ST3C in hiding is less than the number of times of continuation of the 3B time saving state ST3B (step SD405: NO), the "100" corresponding to the number of continuations of the 3B time saving state ST3B is set to the 3 time saving standby counter 387 (step SD406). As a result, the third time-saving states ST3A to ST3C of which the number of continuations is 100 are latent.

On the other hand, if an affirmative determination is made in step SD405, this standby setting process is terminated without executing the process of step SD406. Therefore, when the second time saving result occurs in a situation where the remaining number of times of continuation of the 3rd time saving state ST3A to ST3C during latency is equal to or more than the number of times of continuation of the 3B time saving state ST3B, the settings related to the 3rd time saving state ST3A to ST3C The second time saving result of this time is invalidated without being performed.

If the game result of the current game round is the third time saving result (step SD404: NO), set "130" corresponding to the number of continuations of the 3B time saving state ST3B to the third time saving waiting counter 387 (step SD407) . As a result, the third time-saving states ST3A to ST3C of which the number of times of continuation is 130 are latent.

With the above configuration, when the game round corresponding to any of the first to third time saving results is executed during the latency of the third time saving state ST3A to ST3C, the rest of the third time saving state ST3A to ST3C during latency If the number of continuations is less than the number of continuations of the third time saving state ST3A to ST3C corresponding to the time saving result that occurred this time, the third time saving state corresponding to the time saving result that occurred this time The number of continuations of ST3A to ST3C is the third It is set in the time saving standby counter 387 . As a result, when the first to third time saving results occur during the latency of the third time saving states ST3A to ST3C, the remaining number of continuations of the third time saving states ST3A to ST3C during latency is increased as much as possible. becomes possible.

It should be noted that in the determination process of the variation pattern (FIG. 193) in the same manner as in the 23rd embodiment, when the game times corresponding to the first to third time saving results occur during the latency of the third time saving state ST3A to ST3C In, when the third time saving state ST3A to ST3C is to be executed with the first to third time saving results as a trigger, the stop symbol determination process for time saving suggestion (step SD209) is executed and the state of the symbol display device 41 Red is selected as the stop result of the suggestion area 43 (step SD210), and when the number of continuations to the third time saving waiting counter 387 is set with the first to third time saving results as a trigger, stop for latent suggestion Symbol determination processing (step SD214) is executed and red is selected as the stop result of the state suggestion area 43 of the symbol display device 41 (step SD210), and when the first to third time saving results are invalidated Non A stop symbol determination process for out of reach (step SD206) is executed, and blue is selected as the stop result of the state suggestion area 43 of the symbol display device 41 (step SD207).

<Twenty-Fifth Embodiment>
In this embodiment, the type of the third time saving state is different from that in the twenty-third embodiment. The configuration different from that of the twenty-third embodiment will be described below. Note that the description of the same configuration as that of the twenty-third embodiment is basically omitted.

FIG. 196(a) is an explanatory diagram for explaining the content of the support mode in this embodiment.

As the determination mode in the case where the general pattern propriety determination process for determining by lottery whether or not to open the general pattern is performed, as in the 23rd embodiment, the high probability mode on the general pattern side and the general pattern There is a low-probability mode on the side of the figure. In the low-probability mode of the general map side, the probability of being elected to open the electric role in one general pattern correctness determination process is 1/2, whereas in the high-probability mode of the general map side, the general pattern correctness judgment is performed once. In the process, the probability of winning the electric role open is 4/5.

When the normal pattern suitability determination process is executed, the variable display of the pattern is started in the normal pattern display section 38a. In this case, there are a long period, a middle period, and a short period as the fluctuation period of the normal diagram, which is the duration of the fluctuation display times in which the fluctuation display of the pattern is executed in the normal diagram display section 38a, so that the period is different. ing. The long term is 10 seconds, the medium term is 5 seconds and the short term is 1 second. Since the shorter the period, the shorter the shortest period between one electric power open state and the next electric power open state, in a situation where game balls are continued to be shot in a similar manner to the game area. When compared, the frequency with which the universal electrical accessory 34a of the second operating port 34 is in the open state per unit time is relatively high.

In addition, it is not limited to the configuration in which the fluctuation period of the normal chart is fixed, and instead of setting each of the long-term, medium-term, and short-term settings, multiple types of periods can be set. It is also possible to set a situation in which the average period is the longest, the situation in which the average period is the next longest, and the situation in which the average period is the shortest when the period is selected by lottery from among them. . This also applies to other embodiments.

When the variable display time of the normal pattern display unit 38a ends, the normal map display unit 38a displays the stop result corresponding to the determination result of the normal pattern correctness determination process that triggered the execution of the variable display time. . In this case, if the determination result of the general/universal pattern correctness determination process is a result of deviation, the stop result corresponding to the result is displayed on the general/universal pattern display unit 38a, and the transition to the general/universal power open state does not occur. When the reservation information on the side of the general pattern is stored in the general pattern reservation area 84c, the reservation information on the side of the general pattern is newly subjected to the general pattern propriety determination process, and is newly displayed in the general pattern display unit 38a. A variable display time is started. On the other hand, if the determination result of the general pattern correctness determination process is a result corresponding to the electric role open winning, the stop result corresponding to the winning result is displayed on the general pattern display unit 38a, and the transition to the general electric open state is performed. Occur.

As execution modes of the general electric open state, there are a high expectation mode, a medium expectation mode and a low expectation mode so that the degree of expectation of a game ball entering the general electric accessory 34a is different. In the low-expectation mode, the short opening of the universal electrical accessory 34a occurs once. The duration of the short opening is 0.7 seconds. As in the first embodiment, the shooting cycle of the game ball is 0.6 seconds. Even if the ball is basically generated without being generated, the number of hit balls is about one. The general electric open state also ends when the number of game balls entering the second operating port 34 reaches 10, which is the upper limit number of the general electric side, but when short open occurs once As described above, even if a game ball enters the second operating port 34, it is about one, so the upper limit number of game balls on the power supply side will not enter the second operating port 34.

In the middle expectation mode, the long opening of the universal electrical accessory 34a occurs twice. The duration of the long open is 2 seconds. Since the game ball shooting cycle is 0.6 seconds, about three game balls can enter the second operation opening 34 when the general electric accessory 34a is opened once for a long time. Then, in the normal/commercial power open state of the middle expectation mode, long opening occurs twice with an interval period (specifically, 1 second) on the common/commercial power side in which the second operating port 34 is in the closed state. Therefore, when the general electric open state of the middle expectation mode occurs, about 6 game balls can enter the second operation opening 34 . As described above, the general electric open state ends even when the number of game balls entering the second operation port 34 reaches 10, which is the upper limit number on the general electric side, but the long open occurs twice. In this case, even if game balls enter the second operating port 34 as described above, it is about 6, so the upper limit number of game balls on the power supply side will enter the second operating port 34. no.

In the high expectation mode, the long opening of the general electric accessory 34a occurs three times. The duration of the long open is 2 seconds. Since the game ball shooting cycle is 0.6 seconds, about three game balls can enter the second operation opening 34 when the general electric accessory 34a is opened once for a long time. Then, in the general electricity open state of the high expectation mode, the long opening occurs three times with an interval period (specifically, 1 second) on the general electricity side in which the second operating port 34 is in the closed state. Therefore, about nine game balls can be entered into the second operation opening 34 when the general electric open state of the high expectation mode occurs. In addition, as described above, the general electric open state ends when the number of game balls entering the second operation port 34 reaches 10, which is the upper limit number of the general electric side. When the open state occurs, the event that the general electric open state ends can occur when the upper limit number of game balls on the general electric side enter the second operation opening 34 .

As described above, in the configuration in which the determination mode of the normal map propriety determination process, the normal map fluctuation period in the normal map display unit 38a, and the execution mode of the normal open state are set, the low frequency support mode as the support mode, the first A high-frequency support mode, a second high-frequency support mode, a third high-frequency support mode, a fourth high-frequency support mode, and a fifth high-frequency support mode are set. In the low-frequency support mode, the judgment mode of the general pattern correctness determination process is the low probability mode on the general pattern side, the fluctuation period of the general pattern is long, and the execution mode of the general pattern open state is low expectation that short opening occurs once degree mode. In the first high-frequency support mode, the judgment mode of the general pattern correctness judgment process is the high probability mode on the general pattern side, the fluctuation period of the general pattern is short, and the execution mode of the general pattern open state is long open 3 times High expectations mode. In the second high-frequency support mode, the judgment mode of the general pattern correctness determination process is the low probability mode on the general pattern side, the fluctuation period of the general pattern is short, and the execution mode of the general pattern open state is long open 3 times High expectations mode. In the 3rd high-frequency support mode, the judgment mode of the general pattern correctness determination process is the low probability mode on the general pattern side, the fluctuation period of the general pattern is the middle period, and the execution mode of the general pattern open state is long open twice. Moderate expectations mode. In the 4th high-frequency support mode, the judgment mode of the general pattern correctness determination process is the low probability mode on the general pattern side, the fluctuation period of the general pattern is short, and the execution mode of the general pattern open state has two long openings. Moderate expectations mode. In the 5th high-frequency support mode, the judgment mode of the general pattern correctness determination process is the low probability mode on the general pattern side, the fluctuation period of the general pattern is the middle period, and the execution mode of the general pattern open state is long open 3 times High expectations mode.

Expectation of the rate at which the general electrical accessory 34a of the second operation port 34 is in the open state per unit time when the game ball is continued to be shot in the same manner so as to generate a prize to the through gate 35. The degree is the highest in the first high-frequency support mode, the second highest in the second high-frequency support mode, the next highest in the fifth high-frequency support mode, the next highest in the fourth high-frequency support mode, and the third high-frequency. The support mode is the next highest and the infrequent support mode is the lowest. In addition, in the low frequency support mode, since the execution mode of the normal electric open state becomes the low expectation mode, in the case of the low frequency support mode, although the game ball hardly enters the second operation port 34 On the other hand, in the first to fifth high-frequency support modes, the execution mode of the electric power open state is the medium expectation mode or the high expectation mode, so in the case of the first to fifth high-frequency support modes, the second It can be expected that the number of game balls entering the operation port 34 is the upper limit number or more of the second reservation information in the second special figure reservation area 112 .

FIG. 196(b) is an explanatory diagram for explaining the contents of the time saving state set in this embodiment.

In this embodiment, the game state includes a normal game state, a high probability state, a first time saving state ST1, and a second time saving state ST2 as in the twenty-third embodiment. In addition to these, there are a 3A time saving state ST41, a 3B time saving state ST42, and a 3C time saving state ST43.

The 3A time saving state ST41, the 3B time saving state ST42 and the 3C time saving state ST43 are different in support mode type. Specifically, the 3A time saving state ST41 becomes the third high frequency support mode, the 3B time saving state ST42 becomes the fourth high frequency support mode, and the 3C time saving state ST43 becomes the fifth high frequency support mode. In addition, the 3A time saving state ST41, the 3B time saving state ST42 and the 3C time saving state ST43 have mutually different termination conditions. Specifically, the 3A time-saving state ST41 ends when 50 times of game rounds are completed and becomes a normal game state, and the 3B time-saving state ST42 ends when 100 times of game rounds are digested. A normal game state is entered, and the 3C time saving state ST43 ends when 130 game rounds are completed, resulting in a normal game state.

As described above, when the game ball is continuously shot in the same manner so as to generate a winning prize to the through gate 35, the general electric accessory 34a of the second operation opening 34 is in an open state per unit time. The degree of expectation of the ratio is: fifth high-frequency support mode>fourth high-frequency support mode>third high-frequency support mode. Therefore, among the third time saving states ST41 to 43, the 3C time saving state ST43 is the most advantageous, the 3B time saving state ST42 is the next most advantageous, and the 3A time saving state ST41 is the least advantageous. In addition, the third time saving state ST41 to ST43 is forcibly ended when the opening/closing execution mode triggered by the jackpot result is executed in the same manner as the first time saving state ST1 and the second time saving state ST2.

The 3A time saving state ST41 is the time saving result in the success or failure determination process (step S805) When the first time saving result is selected in the time saving distribution determination process (step S811) executed after that, It is set at the end of the game round in which the success/failure determination process and the allocation determination process for time saving are executed. The 3B time saving state ST42 is the time saving result in the success or failure determination process (step S805) When the second time saving result is selected in the time saving distribution determination process (step S811) that is executed after that, It is set at the end of the game round in which the success/failure determination process and the allocation determination process for time saving are executed. The 3C time saving state ST43 is the time saving result in the success/failure determination process (step S805) When the third time saving result is selected in the time saving distribution determination process (step S811) executed after that, It is set at the end of the game round in which the success/failure determination process and the allocation determination process for time saving are executed.

When the time saving target counter 371 is "1", it corresponds to the first time saving state ST1 as in the 23rd embodiment, and when the time saving target counter 371 is "2", the 23rd embodiment Similarly, it corresponds to the second time saving state ST2. In addition, when the time saving target counter 371 is "3", it corresponds to the 3A time saving state ST41, and when the time saving target counter 371 is "4", it corresponds to the 3B time saving state ST42, and the time saving target When the counter 371 is "5", it corresponds to the 3rd C time saving state ST43.

When the value of the time saving target counter 371 is "3", that is, when it is the 3A time saving state ST41, the normal pattern correctness determination processing (step S407) is executed in the normal pattern fluctuation start processing (FIG. 16) of the main side MPU 82 In this case, the low probability table (step S405) for the general pattern side is read, and when the fluctuation display of the general pattern display unit 38a is started (step S415), the middle period for the general pattern side is the duration of the fluctuation display times is selected as In addition, in the normal map fixing process (FIG. 17) of the main side MPU 82, as a control process for the normal power open state, instead of step S509, a process of setting the normal open counter to "2" is executed, and steps S510 and S511 are executed. is executed, the normal/disconnected state becomes the middle expectation mode.

When the value of the time saving target counter 371 is "4", that is, when it is the 3B time saving state ST42, the normal pattern correctness determination processing (step S407) is executed in the normal pattern fluctuation start processing (FIG. 16) of the main side MPU 82 When the normal pattern side low probability table (step S405) is read, and when the normal pattern display unit 38a starts the variable display (step S415), the normal pattern side short period is the duration of the variable display times is selected as In addition, in the normal map fixing process (FIG. 17) of the main side MPU 82, as a control process for the normal power open state, instead of step S509, a process of setting the normal open counter to "2" is executed, and steps S510 and S511 are executed. is executed, the normal/disconnected state becomes the middle expectation mode.

When the value of the time reduction target counter 371 is "5", that is, when it is the 3C time reduction state ST43, the normal pattern right or wrong determination processing (step S407) is executed in the normal pattern fluctuation start processing (FIG. 16) of the main side MPU 82 In this case, the low probability table (step S405) for the general pattern side is read, and when the fluctuation display of the general pattern display unit 38a is started (step S415), the middle period for the general pattern side is the duration of the fluctuation display times is selected as Further, by executing steps S509 to S511 as the control processing of the general electric open state in the general electric map fixing process (FIG. 17) of the main side MPU 82, the general electric open state becomes the high expectation mode.

Figure 197 is a flow chart showing the setting process for the time saving result executed in step S8309 of the process during special figure determination (Figure 128).

If the game result of the current game round is one of the first to third time saving results (step SD501: YES), it is determined whether or not "1" is set to the high probability flag 321 (step SD502) . And when "1" is set to the high probability flag 321 (step SD502: YES), the setting process for this time saving result is complete|finished, without performing the process after step SD503. In other words, even if the time saving result is selected in the winning/failure determination process of the game round executed in a high probability state, the setting of the third time saving state ST41 to ST43 triggered by the time saving result is not performed. Time-saving results are nullified.

If "1" is not set to the high probability flag 321 (step SD502: NO), by determining whether the value of the time reduction target counter 371 is 1 or more, the current game state is the first to the It is determined whether or not it is in one of the 3 o'clock reduction states ST1 to ST43 (step SD503). If the value of the time saving target counter 371 is "0" (step SD503: NO), that is, if the game state is the normal game state, if the game result of this game round is the first time saving result (step SD504: YES), "3" is set to the time saving object counter 371, "0" is cleared to the time saving continuation counter 375 (step SD505), and "50" is set to the time saving state counter 386 (step SD506). As a result, the game state shifts from the normal game state to the 3A time saving state ST41. Also, if the game result of this game round is the second time saving result (step SD507: YES), "4" is set to the time saving target counter 371 and the time saving continuation counter 375 is cleared to "0" (step SD508). , "100" is set in the time saving state counter 386 (step SD509). As a result, the game state shifts from the normal game state to the 3B time saving state ST42. Also, if the game result of the current game round is the third time saving result (step SD507: NO), the time saving object counter 371 is set to "5" and the time saving continuation counter 375 is cleared to "0" (step SD510). , "130" is set in the time saving state counter 386 (step SD512). As a result, the game state shifts from the normal game state to the 3C time saving state ST43.

When the process of step SD506, step SD509 or step SD511 is performed, "1" is set to the outer end flag at the time of time saving occurrence in main side RAM84 (step SD512). When "1" is set to the outer end flag at the time of time saving occurrence, the output state of the second jackpot signal is turned ON to the outer end terminal 333 for the second jackpot signal as in the fifteenth embodiment. A process for making the signal HI level is executed for a continuous period, and a process for making the output state of the advantageous state signal HI level to the outer terminal 334 for the advantageous state signal is executed.

After that, a state designation command indicating that the normal game state has shifted to the third time saving state ST41 to ST43 is transmitted to the sound and light side MPU 93 (step SD513). When the sound and light side MPU 93 receives the state designation command, the pattern display device 41 shows an effect indicating that the normal game state has shifted to the third time saving state ST41 to ST43 and the type of the third time saving state ST41 to ST43. , the display light emitting unit 64 and the speaker unit 65 execute processing.

When the value of the time saving object counter 371 is 1 or more (step SD503: YES), the setting process for waiting is performed (step SD514). The content of the standby setting process is the same as that of the twenty-third embodiment. Even in this embodiment, priority is set in the third time-saving states ST41 to ST43 in the case of becoming a latent target. Specifically, the priority of the 3C time saving state ST43, which is the most advantageous support mode in the 3rd time saving state ST41 to ST43 and has the highest number of continuations, is the highest, and in the 3rd time saving state ST41 to ST43 The priority of the 3B time saving state ST42, which is the next most advantageous support mode and has the next highest number of continuations, is the next highest. The priority of less 3A time saving state ST41 is the lowest. Therefore, when the game round corresponding to the 3rd time saving result is executed in the situation where the 3A time saving state ST41 or the 3B time saving state ST42 is latent, the latent target is changed to the 3C time saving state ST43, and the 3A When the game cycle corresponding to the second time saving result is executed in the situation where the time saving state ST41 is latent, the latent target is changed to the 3B time saving state ST42. In addition, even if the game round corresponding to the first time saving result or the second time saving result is executed in the situation where the 3C time saving state ST43 is latent, the first and second time saving results are invalidated, and the 3B time saving result is invalidated. Even if the game cycle corresponding to the first time saving result is executed in the situation where the state ST42 is latent, the first time saving result is invalidated.

After executing the setting process for waiting (step SD514) in the setting process for the time saving result (FIG. 197), it is determined whether the setting of the information of the third time saving waiting counter 387 is performed in the setting process for waiting ( step SD515). When the setting of the information to the third time saving waiting counter 387 is not performed (step SD515: NO), that is, when the current time saving result is invalidated, the setting process for this time saving result is terminated as it is.

On the other hand, when the setting of the information of the 3rd time saving waiting counter 387 is performed (step SD515: YES), transmission processing of a state designation command is performed (step SD513). In the transmission process, if the latency of the third time saving state ST41 to ST43 occurs in a situation where the third time saving state ST41 to ST43 is not latent, it indicates that the latency of the third time saving state ST41 to ST43 has occurred. A state designation command is transmitted to the sound and light side MPU 93 . When the sound and light side MPU 93 receives the state designation command, the effect indicating that the latency of the third time saving state ST41 to ST43 has occurred and the effect indicating the type of the third time saving state ST41 to ST43 that is the target of hiding is a pattern. Processing is executed so as to be executed by the display device 41, the display light emitting unit 64, and the speaker unit 65. FIG. As a result, the player can recognize that the third time-saving states ST41 to ST43 are hidden, although they are not targets for execution. Also, in the transmission process, if the type of the third time saving state ST41 to ST43 that is the target of hiding is changed or if the number of times of continuation of the third time saving state ST41 to ST43 that is the target of hiding is reset , Transmits to the sound and light side MPU 93 a state designation command indicating that resetting of the latency of the third time saving state ST41 to ST43 has occurred. When the sound and light side MPU93 receives the state designation command, the third time saving state ST41 to ST43 which is the target of resetting the latency and the effect indicating that the resetting of the latency of the third time saving state ST41 to ST43 has occurred A process for causing the pattern display device 41, the display light emitting unit 64 and the speaker unit 65 to perform the effect indicating the type is executed. As a result, it is possible for the player to recognize that resetting of the latency of the third time-saving states ST41 to ST43 has occurred.

Also in this embodiment, the sound and light side MPU 93 executes the fluctuation pattern determination process in the same manner as in the twenty-third embodiment. That is, although the game round corresponding to the first to third time saving results is started in the time saving states ST1 to ST43, when the current game round ends, the first to third time saving results of this time are used as a trigger for the third time saving. When the states ST41 to ST43 are newly started, stop symbol determination processing for suggesting time saving is executed (step SD209). In the stop pattern determination process for suggesting time saving, as in the twenty-third embodiment, a combination of time saving patterns ("1, 2, 3") is displayed as a stop result to be stopped and displayed in the pattern rows Z1 to Z3 of the pattern display device 41. , "2-3-4", "3-4-5"). In this case, if this time is the first time saving result, select the first time saving pattern combination ("1, 2, 3"), and if this time is the second time saving result, select the second time saving pattern combination (" 2, 3, 4"), and if this time is the third time saving result, the third time saving pattern combination ("3, 4, 5") is selected. In addition, in the stopping symbol determination process for suggesting time saving, the effective lines L1 to L5 for stop-displaying the combination of the first to third time saving generating symbols selected as described above are determined by lottery. Also, red is selected as the stop result of the state suggestion area 43 of the pattern display device 41 (step SD210).

In the time saving states ST1 to ST43, the game round corresponding to the first to third time saving results is started, and when the setting related to hiding occurs in the main side MPU 82, stop symbol determination processing for suggesting hiding is executed (step SD214). In the stopping symbol determination process for suggesting lurking, combinations of lurking symbols ("5, 6, 7", "6, 7, 8", "7, 8, 9"). In this case, if this time is the first time saving result, select the first latency occurrence pattern combination ("5, 6, 7"), and if this time is the second time saving result, select the second latency occurrence pattern combination (" 6, 7, 8"), and if this time is the third time saving result, the combination of the third latency occurrence pattern ("7, 8, 9") is selected. Further, in the stopping symbol determination process for suggesting lurking, the effective lines L1 to L5 for stop-displaying the combination of the first to third lurking generating symbols selected as described above are determined by lottery. Also, red is selected as the stop result of the state suggestion area 43 of the pattern display device 41 (step SD215).

When the game cycle corresponding to the first to third time saving results is started in the time saving states ST1 to ST43 and the current time saving result is invalidated, stop symbol determination processing for non-reach out is executed (step SD206). In the stop pattern determination process for non-reach out, as in the 21st embodiment, as a stop result to be stopped and displayed in the pattern rows Z1 to Z3 of the pattern display device 41, a combination of patterns corresponding to the jackpot result, a time saving pattern Combination of (“1 2 3”, “2 3 4”, “3 4 5”), combination of latent patterns (“5 6 7”, “6 7 8”, "7, 8, 9"), and a combination of non-reach out-of-reach symbols, which is a combination of symbols other than the combination of out-of-reach out of reach symbols, is stopped and displayed. Also, blue is selected as the stop result of the state suggestion area 43 of the pattern display device 41 (step SD207).

Figure 198 is a flow chart showing the time saving progress process executed in step S8308 of the special figure determination process (Figure 128).

First, it is determined whether or not the high probability flag 321 is set to "1" (step SD601). When "1" is set to the high probability flag 321 (step SD601: YES), the processing for shortening working hours is terminated without executing the processing after step SD602.

If "1" is not set to the high probability flag 321 and the value of the time saving target counter 371 is 1 or more (step SD601: NO, step SD602: YES), that is, the first to third time saving state ST1 If it is any of ~ ST43, the subtraction process of the time saving state counter 386 (step SD603) and the subtraction process of the third time saving standby counter 387 (step SD604) are executed. In the subtraction process of the time saving state counter 386, the value of the time saving state counter 386 is subtracted by 1. In the subtraction process of the 3rd time saving waiting counter 387, 1 is subtracted from the value of the 3rd time saving waiting counter 387 on the condition that the value of the 3rd time saving waiting counter 387 is 1 or more.

Here, since the processing of step SD604 is executed in the time saving state ST1 to ST43, when the third time saving state ST41 to ST43 is latent, one game is played in the time saving state ST1 to ST43 which is the target of execution. When the times are executed, not only the value of the time saving state counter 386 is decremented by 1, but also the value of the third time saving standby counter 387 is decremented by 1. Therefore, when the third time saving states ST41 to ST43 are latent, the number of remaining continuation times of the time saving states ST1 to ST43 to be executed when one game cycle is executed is subtracted by 1. Not only that, the remaining number of continuations of the latent third time saving state ST41 to ST43 is also subtracted by one.

The first time saving state ST1 has a continuation count of 100 times, the second time saving state ST2 has a continuation count of 150 times, the 3A time saving state ST41 has a continuation count of 50 times, and the 3B time saving state ST42 has a continuation count. is 100 times, and the 3C time saving state ST43 has a continuation number of times of 130 times, so depending on the timing when the 3rd time saving state ST41 to ST43 latent, when the time saving state ST1 to ST43 to be executed ends, the 3rd The value of the time saving standby counter 387 is 1 or more and the third time saving state ST41 to ST43 following the time saving state ST1 to ST43 so far is stored in the third time saving standby counter 387. It is executed over the remaining number of continuations A situation can occur, and the value of the third time saving standby counter 387 becomes "0" in the middle of the time saving state ST1 to ST43 to be executed, and the latent third time saving state ST41 to ST43 ends without becoming an object to be executed. Situations can arise.

After that, on the condition that the value of the third time saving waiting counter 387 is "0" (step SD605: YES), the waiting object counter 395 of the main side RAM395 is cleared to "0" (step SD606). As a result, when the remaining number of continuations of the third time saving states ST41 to ST43 during latency becomes "0", the third time saving states ST41 to ST43 are not latent.

Thereafter, by determining whether the value of the time saving state counter 386 is "0", it is determined whether or not the time saving states ST1 to ST43 to be executed have ended (step SD607). When the value of the time saving state counter 386 is "0" (step SD607: YES), it is determined whether the value of the 3rd time saving standby counter 387 is 1 or more (step SD608). If the value of the third time saving standby counter 387 is 1 or more (step SD608: YES), it means that the third time saving state ST41 to ST43 is in hiding. In this case, the value of the third time-saving standby counter 387 is set to the time-saving state counter 386 (step SD609), the value of the third time-saving standby counter 387 is cleared to "0" (step SD610), and the value of the standby target counter 395 The value obtained by adding "2" is set in the time reduction target counter 371 (step SD611). As a result, the third time-saving state ST41 to ST43 during latency is executed, and the third time-saving state ST41 to ST43 is executed over the remaining number of continuations stored in the third time-saving standby counter 387. After that, the standby object counter 395 is cleared to "0" (step SD612).

In addition, when the 3A time saving state ST41 is latent, the value of the waiting target counter 395 is "1", and when the 3B time saving state ST42 is latent, the value of the waiting target counter 395 is "2 ", and the value of the waiting object counter 395 is "3" when the 3C time saving state ST43 is latent. Therefore, in step SD611 by setting the result of adding "2" to the value of the standby target counter 395 to the time saving target counter 371, when the 3A time saving state ST41 which was in the latent state became the execution target , the value of the time saving target counter 371 becomes "3", and when the 3B time saving state ST42 that was in hiding becomes the execution target, the value of the time saving target counter 371 becomes "4", and it was in hiding When the 3C time saving state ST43 is to be executed, the value of the time saving target counter 371 becomes "5".

After that, it transmits to the sound and light side MPU 93 a state designation command indicating that the third time-saving state ST41 to ST43, which was in hiding, has started (step SD615). When the sound and light side MPU 93 receives the state designation command, the time saving state ST1 to ST43 that was the object of execution is completed, and the latent third time saving state ST41 to ST43 is started. Processing is executed so as to be executed by the display device 41, the display light emitting unit 64, and the speaker unit 65. FIG. Also, the time saving continuation counter 375 is cleared to "0" (step SD616). Since the time saving continuation counter 375 is cleared to "0", the determination mode of the variable display period of the game times in the third time saving state ST41 to ST43 returns to the determination mode when the third time saving state ST41 to ST43 is newly started. It will be.

When the value of the 3rd time saving standby counter 387 is "0" (step SD608: NO), "0" clears the time saving object counter 371 (step SD613). As a result, the game state becomes the normal game state. In addition, the outer end flag at the end of the time saving in the main side RAM84 is set to "1" (step SD614), and the state designation command indicating that the time saving state ST1 to ST43 has ended and has shifted to the normal game state is issued to the sound and light side It transmits to MPU93 (step SD615), and "0" clears the time saving continuation counter 375 (step SD616).

As described above, the plurality of types of third time-saving states ST41 to ST43 differ not only in the number of times of continuation, which is the end condition, but also in the support mode. This makes it possible to diversify the third time saving states ST41 to ST43.

In the third time saving state ST41 to ST43, the priority as a hiding object is set, and when the game round corresponding to the first to third time saving results is executed during the hiding of the third time saving state ST41 to ST43 If the third time saving state ST41 to ST43 in the latent state has a higher priority than the third time saving state ST41 to ST43 corresponding to the time saving result that occurred this time, the time saving result that occurred this time is invalidated, If the third time saving state ST41 to ST43 corresponding to the time saving result that occurred this time has a higher priority than the latent third time saving state ST41 to ST43, the third time saving state corresponding to the time saving result that occurred this time The hiding target is switched from ST41 to ST43. As a result, it becomes possible to make the third time-saving states ST41 to ST43 with high priority become latent targets.

The priority of the 3C time saving state ST43, which has the highest advantage of the support mode in the 3rd time saving state ST41 to ST43, is set to the highest, and the priority of the 3B time saving state ST42, which has the next highest advantage of the support mode. The priority of the 3A time saving state ST41, which is set to the next highest and has the lowest advantage of the support mode, is set to the lowest. As a result, it is possible to increase the chances that the third time-saving states ST41 to ST43, which are relatively advantageous, are targets for execution.

During the latency of the third time saving state ST41 to ST43, a time saving result corresponding to the third time saving state ST41 to ST43 having a higher priority than the third time saving state ST41 to ST43 occurs and the latent target third time saving state ST41 to When ST43 is switched, as a result of stopping the game round on the symbol display device 41, the combination of the latency occurrence symbol is stopped and displayed. This makes it possible for the player to recognize that the third time-saving states ST41 to ST43 to be hidden have been switched.

When the time saving result corresponding to the third time saving state ST41 to ST43 occurs during the latency of the third time saving state ST41 to ST43 and the number of continuations is reset to the third time saving standby counter 387, the pattern display device 41 As a result of stopping the game round in , the combination of the latent symbols is stopped and displayed. This makes it possible for the player to recognize that the number of continuations of the third time-saving states ST41 to ST43 during hiding has been reset.

When a time saving result corresponding to the third time saving state ST41 to ST43 having a lower priority than the third time saving state ST41 to ST43 occurs during the latency of the third time saving state ST41 to ST43 and the time saving result is invalidated , the symbol rows Z1 to Z3 stop and display combinations of non-reach out symbols on the effective lines L1 to L5. The combination of non-reach out-of-range symbols is stopped and displayed even when the result of the success/failure determination processing is the out-of-range result. As a result, it is possible to make it difficult for the player to recognize that the time saving result has been invalidated even though the result has been selected.

If it is a time saving result that does not trigger the setting related to the third time saving state ST41 to ST43, as described above, the result of the success/failure determination process is off for each valid line L1 to L5 of the symbol rows Z1 to Z3. Stop even if it is a result. Even if the displayed combination of non-reach-out symbols is stop-displayed, in the state suggestion area 43, a stop result different from the case where the result of the win-or-fail determination process is a loss result is stop-displayed. In other words, when the time saving result does not trigger the setting of the third time saving state ST41 to ST43, the blue color is stopped in the state suggestion area 43, while the result is out of the state suggestion area 43. Red is displayed stopped. As a result, in a situation where the special symbol display portions 37a and 37b are difficult for the administrator of the gaming hall to visually recognize, the combinations of non-reach out symbols are stopped and displayed on the effective lines L1 to L5 of the symbol rows Z1 to Z3 in the symbol display device 41. In this case, by checking the state suggesting area 43, it is possible to grasp which of the time saving result and the off result.

<Another form of the twenty-fifth embodiment>
(1) The 3A time-saving state ST41, the 3B time-saving state ST42, and the 3C time-saving state ST43 have different types of support modes and different numbers of continuations that are termination conditions, but they are not limited to this. Instead, the 3A time saving state ST41, the 3B time saving state ST42 and the 3C time saving state ST43 may be configured to have the same number of continuations as end conditions although the types of support modes are different.

(2) Among the 3A time saving state ST41, the 3B time saving state ST42, and the 3C time saving state ST43, the 3C time saving state ST43, in which the support mode is most advantageous, has the highest number of continuations, but it is limited to this. Instead, the 3C time saving state ST43 in which the support mode is most advantageous may be configured to have the lowest number of continuations, and the 3A time saving state ST41 in which the support mode is most advantageous may be configured to have the highest number of continuations. .

(3) The 3A time saving state ST41, the 3B time saving state ST42 and the 3C time saving state ST43 end conditions are all configured to execute the number of game rounds that trigger the end, but the 3A time saving state ST41, the 3B time saving state ST42 and the 3C time saving state ST43 end condition is that the small hit result of the number of times that is the end trigger occurs, and the number of times that is the end trigger is the 3A time saving state ST41, the 3B time saving state It is good also as a structure which is different in each of ST42 and 3rd C time saving state ST43.

<26th Embodiment>
In this embodiment, the manner of latency of the third time-saving states ST3A to ST3C is different from that of the twenty-first embodiment. The configuration different from that of the twenty-first embodiment will be described below. Note that the description of the same configuration as that of the twenty-first embodiment is basically omitted.

FIG. 199 is an explanatory diagram for explaining the storage area of the main side RAM 84 used for controlling the game state.

The main RAM 84 is provided with a high probability flag 321, a ceiling counter 325, a time saving object counter 371, a time saving continuation counter 375 and a time saving state counter 386 as in the 21st embodiment. Moreover, instead of the 3rd time saving standby counter 387, the main side RAM84 is provided with a 3A time saving waiting counter 401, a 3B time saving waiting counter 402 and a 3C time saving waiting counter 403.

3A time saving standby counter 401, the 3A time saving state ST3A latent in the time saving state ST1 ~ ST3C and the remaining number of continuations of the 3A time saving state ST3A during its latent for specifying at the main side MPU82 is a counter. 3B time saving standby counter 402, the 3B time saving state ST3B latent in the time saving state ST1 ~ ST3C and the remaining number of continuations of the 3B time saving state ST3B during the latent for specifying at the main side MPU82 is a counter. 3C time saving standby counter 403, the 3C time saving state ST3C latent in the time saving state ST1 ~ ST3C and the remaining number of continuations of the 3C time saving state ST3C during its latent for specifying at the main side MPU82 is a counter.

Information on the number of continuations set in the 3A short time standby counter 401, information on the number of continuations set in the 3B short time standby counter 402, and information on the number of continuations set in the 3C short time standby counter 403 are the current short time One is subtracted each time a game is played in states ST1 to ST3C. When the other time-saving states ST1-ST3C that have been executed so far are completed in a situation where information on the number of continuations of 1 or more is stored in any one of the time-saving standby counters 401-403, the one or more The third time saving states ST3A to ST3C in which the information on the number of continuations is stored are executed, and the third time saving states ST3A to ST3C that are the execution targets are stored in the corresponding time saving standby counters 401 to 403. Executes for the remaining number of continuations. In addition, when the information of the number of times of continuation of 1 or more is stored in the plurality of time saving standby counters 401 to 403, when the other time saving states ST1 to ST3C that have been executed so far are completed, the number of continuations of 1 or more Among the third time saving states ST3A to ST3C corresponding to the time saving standby counters 401 to 403 in which the information is stored, the third time saving states ST3A to ST3C on the side with higher priority become the execution targets, and become the execution targets. The third time saving state ST3A-ST3C is executed over the remaining number of continuations stored in the corresponding time saving standby counters 401-403.

Figure 200 is a flow chart showing the setting process for the time saving result executed in step S8309 of the process during special figure determination (Figure 128).

If the game result of the current game round is one of the first to third time saving results (step SD701: YES), it is determined whether or not "1" is set to the high probability flag 321 (step SD702) . And when "1" is set to the high probability flag 321 (step SD702: YES), the setting process for this time saving result is complete|finished, without performing the process after step SD703. In other words, even if the time saving result is selected in the winning/failure determination process of the game round executed in a high probability state, the setting of the third time saving state ST3A to ST3C triggered by the time saving result is not performed. Time-saving results are nullified.

If "1" is not set to the high probability flag 321 (step SD702: NO), by determining whether the value of the time reduction target counter 371 is 1 or more, the current game state is the first to the It is determined whether or not it is one of the 3 o'clock short states ST1 to ST3C (step SD703). When the value of the time reduction target counter 371 is "0" (step SD703: NO), that is, when the game state is the normal game state, the time reduction target counter 371 is set to "3" and the time reduction continuation counter 375 is set to "0" "Clear (step SD704), and set "1" to the outer end flag at the time of time reduction occurrence in the main side RAM84 (step SD705). When "1" is set to the outer end flag at the time of time saving occurrence, the output state of the second jackpot signal is turned ON to the outer end terminal 333 for the second jackpot signal as in the fifteenth embodiment. A process for making the signal HI level is executed for a continuous period, and a process for making the output state of the advantageous state signal HI level to the outer terminal 334 for the advantageous state signal is executed.

After that, if the game result of this game round is the first time saving result (step SD706: YES), "50" is set to the time saving state counter 386 (step SD707). Moreover, if the game result of this game round is a 2nd time saving result (step SD708: YES), "100" will be set to the time saving state counter 386 (step SD709). Moreover, if the game result of this game round is the 3rd time saving result (step SD708: NO), "130" will be set to the time saving state counter 386 (step SD710). As a result, the game state shifts from the normal game state to the third time-saving states ST3A to ST3C.

When the processing of step SD707, step SD709 or step SD710 is executed, a state designation command indicating that the normal game state has shifted to the third time saving state ST3A to ST3C is transmitted to the sound and light side MPU 93 (step SD711). When the sound and light side MPU 93 receives the state designation command, the pattern display device 41, the display light emitting unit 64 and the speaker unit 65 perform an effect indicating that the normal game state has shifted to the third time saving state ST3A to ST3C. Execute processing to ensure that

If the value of the time saving target counter 371 is 1 or more (step SD703: YES), if the game result of this game round is the first time saving result (step SD712: YES), the 3A time saving standby counter 401 "50 ' is set (step SD713). As a result, in the situation where the 3A time saving state ST3A is not latent, the 3A time saving state ST3A is latent with the first time saving result as a trigger, and in the situation where the 3A time saving state ST3A is latent Triggered by the 1 time saving result, the number of continuations of the 3A time saving state ST3A is reset to the 3A time saving standby counter 401 . Also, if the game result of the current game round is the second time saving result (step SD714: YES), "100" is set to the 3B time saving waiting counter 402 (step SD715). As a result, in the situation where the 3B time saving state ST3B is not latent, the 3B time saving state ST3B is latent with the second time saving result as a trigger, and in the situation where the 3B time saving state ST3B is latent The number of continuations of the 3B time saving state ST3B is reset to the 3B time saving standby counter 402 with the 2 time saving result as a trigger. Moreover, if the game result of this game time is the 3rd time saving result (step SD714: NO), "130" is set to the 3C time saving waiting counter 403 (step SD716). As a result, in the situation where the 3C time saving state ST3C is not latent, the 3C time saving state ST3C is latent with the 3rd time saving result as a trigger, and in the situation where the 3C time saving state ST3C is latent The number of continuations of the 3C time saving state ST3C is reset to the 3C time saving standby counter 403 with the 3C time saving result as a trigger.

When step SD713, step SD715 or step SD716 processing is executed, a state designation command indicating that the latency of the third time saving state ST3A to ST3C has occurred is transmitted to the sound and light side MPU 93 (step SD711). When the sound and light side MPU 93 receives the state designation command, an effect indicating that the latency of the third time saving state ST3A to ST3C has occurred and an effect indicating the type of the third time saving state ST3A to ST3C that is the target of the latency is a pattern. Processing is executed to be executed by the display device 41, the display light emitting unit 64, and the speaker unit 65. FIG. As a result, the player can recognize that the third time-saving states ST3A to ST3C are hidden, although they are not targets for execution.

It should be noted that, when the game round corresponding to the first to third time saving results in the high probability state is executed, the third time saving state ST3A to ST3C triggered by the time saving result in the same manner as in the twenty-first embodiment. The time saving result is nullified without any transition and latency of the third time saving state ST3A-ST3C occurring.

In this embodiment, the processing contents of the variation pattern determination processing in the sound and light side MPU 93 are the same as the variation pattern determination processing (FIG. 189) in the twenty-second embodiment. That is, although the game round corresponding to the first to third time saving results is started in the time saving state ST1 to ST3A, when the current game round ends, the first to third time saving results of this time are used as a trigger for the third time saving. When the states ST3A to ST3C are newly started, stop symbol determination processing for suggesting time saving is executed (step SC809). In the stop pattern determination process for suggesting time saving, the combination of time saving patterns ("1 2 3", "2 3 4", “3, 4, 5”). In this case, if this time is the first time saving result, select the first time saving pattern combination ("1, 2, 3"), and if this time is the second time saving result, select the second time saving pattern combination (" 2, 3, 4"), and if this time is the third time saving result, the third time saving pattern combination ("3, 4, 5") is selected. In addition, in the stopping symbol determination process for suggesting time saving, the effective lines L1 to L5 for stop-displaying the combination of the first to third time saving generating symbols selected as described above are determined by lottery. Also, red is selected as the stop result of the state suggestion area 43 of the pattern display device 41 (step SC810).

In the time-saving states ST1-ST3A, the game round corresponding to the first to third time-saving results is started, and when the setting related to hiding occurs in the main side MPU 82, the stop symbol determination process for suggesting hiding is executed (step SC812). In the stopping symbol determination process for suggesting lurking, combinations of lurking symbols ("5, 6, 7", "6, 7, 8", "7, 8, 9"). In this case, if this time is the first time saving result, select the first latency occurrence pattern combination ("5, 6, 7"), and if this time is the second time saving result, select the second latency occurrence pattern combination (" 6, 7, 8"), and if this time is the third time saving result, the combination of the third latency occurrence pattern ("7, 8, 9") is selected. Further, in the stopping symbol determination process for suggesting lurking, the effective lines L1 to L5 for stop-displaying the combination of the first to third lurking generating symbols selected as described above are determined by lottery. After that, red is selected as the stop result of the state suggestion area 43 of the pattern display device 41 (step SC813).

When the game cycle corresponding to the first to third time saving results is started in the time saving states ST1 to ST3A and the current time saving result is invalidated due to the high probability state of the game state, it is for non-reach out. (step SC806). In the stop symbol determination process for non-reach out, as the stop result to be stopped and displayed in the symbol rows Z1 to Z3 of the symbol display device 41, a combination of symbols corresponding to the jackpot result, a combination of time-saving generating symbols ("1, 2, 3 ”, “2, 3, 4”, “3, 4, 5”), a combination of latent patterns (“5, 6, 7”, “6, 7, 8”, “7, 8, 9”), And the combination of symbols other than the combination of the out reach-out symbols, that is, the non-out-of-reach-out symbols combination is stop-displayed to be determined by lottery. Further, blue is selected as the stop result of the state suggestion area 43 of the pattern display device 41 (step SC807).

Figure 201 is a flow chart showing the time-saving progress process executed in step S8308 of the special figure determination process (Figure 128).

First, it is determined whether or not the high probability flag 321 is set to "1" (step SD801). When "1" is set to the high probability flag 321 (step SD801: YES), the process for shortening working hours is terminated without executing the processes after step SD802.

If the high probability flag 321 is not set to "1" and the value of the time saving target counter 371 is 1 or more (step SD801: NO, step SD802: YES), that is, the first to third time saving state ST1 If any of ~ ST3C, the subtraction process of the time saving state counter 386 (step SD803), the subtraction process of the 3A time saving standby counter 401 (step SD804), the subtraction process of the 3B time saving waiting counter 402 (step SD805) and the The subtraction process (step SD806) of the 3C time saving standby counter 403 is executed. In the subtraction process of the time saving state counter 386, the value of the time saving state counter 386 is subtracted by 1. In the subtraction process of the 3A short time standby counter 401, 1 is subtracted from the value of the 3A short time standby counter 401 on condition that the value of the 3A short time standby counter 401 is 1 or more. In the subtraction process of the 3B time saving standby counter 402, 1 is subtracted from the value of the 3B time saving standby counter 402 on condition that the value of the 3B time saving standby counter 402 is 1 or more. In the subtraction process of the 3C time saving standby counter 403, 1 is subtracted from the value of the 3C time saving standby counter 403 on condition that the value of the 3C time saving standby counter 403 is 1 or more.

Here, since the processing of steps SD804 to SD806 is executed in the time saving state ST1 to ST3C, when the third time saving state ST3A to ST3C is latent, 1 in the time saving state ST1 to ST3C which is the object of execution Not only the value of the time saving state counter 386 is decremented by 1 when one game round is executed, but also the value of the time saving standby counters 401 to 403 corresponding to the third time saving state ST3A to ST3C during latency is subtracted by 1. be. Therefore, when the third time-saving states ST3A to ST3C are latent, the number of remaining continuations of the time-saving states ST1 to ST3C to be executed when one game cycle is executed is subtracted by 1. Not only, the remaining number of continuations of the latent third time saving state ST3A to ST3C is also subtracted by one.

The first time saving state ST1 has a continuation count of 100 times, the second time saving state ST2 has a continuation count of 150 times, the 3A time saving state ST3A has a continuation count of 50 times, and the 3B time saving state ST3B has a continuation count. is 100 times, and the number of times of continuation of the 3C time saving state ST3C is 130 times, so depending on the timing when the 3rd time saving state ST3A to ST3C is latent, when the time saving state ST1 to ST3C to be executed ends, the time saving wait The value of the counters 401 to 403 is 1 or more and the third time saving state ST3A to ST3C continues to the time saving state ST1 to ST3C until then Over the remaining number of continuations stored in the corresponding time saving standby counters 401 to 403 The situation to be executed can occur, and the value of the time saving standby counters 401 to 403 becomes "0" in the middle of the time saving state ST1 to ST3C to be executed, and the latent third time saving state ST3A to ST3C is not executed. Terminated situations may arise.

Thereafter, by determining whether the value of the time saving state counter 386 is "0", it is determined whether or not the time saving states ST1 to ST3C to be executed have ended (step SD807). When the value of the time saving state counter 386 is "0" (step SD807: YES), it is determined whether the value of any one of the time saving standby counters 401 to 403 is 1 or more (step SD808). If the value of any of the time saving standby counters 401 to 403 is 1 or more (step SD808: YES), it means that the third time saving state ST3A to ST3C is latent. In this case, the third time saving setting process is executed (step SD809). FIG. 202 is a flowchart showing the third time saving setting process.

First, it is determined whether or not the value of the 3C time saving standby counter 403 is 1 or more (step SD901). And, when the value of the 3C time saving standby counter 403 is 1 or more (step SD901: YES), the value of the 3C time saving standby counter 403 is set to the time saving state counter 375 (step SD902), and the 3C time saving standby counter 403 is cleared to "0" (step SD903). As a result, the 3C time-saving state ST3C that was in hiding becomes an execution target, and the 3C time-saving state ST3C is executed over the remaining number of continuations stored in the 3C time-saving standby counter 403. In this case, since the 3A time saving standby counter 401 and the 3B time saving standby counter 402 are not cleared to "0", at least one of the 3A time saving waiting counter 401 and the 3B time saving waiting counter 402 is 1 or more. state is maintained.

When the value of the 3C time saving waiting counter 403 is "0" (step SD901: NO), it is determined whether the value of the 3B time saving waiting counter 402 is 1 or more (step SD904). And, when the value of the 3B time saving standby counter 402 is 1 or more (step SD904: YES), the value of the 3B time saving standby counter 402 is set to the time saving state counter 375 (step SD905), and the 3B time saving standby counter 402 is cleared to "0" (step SD906). As a result, the 3B time saving state ST3B that was in hiding becomes an execution target, and the 3B time saving state ST3B is executed over the remaining number of continuations stored in the 3B time saving standby counter 402. In this case, since the 3A time saving waiting counter 401 is not cleared to "0", the state is maintained when the value of the 3A time saving waiting counter 401 is 1 or more.

If the value of the 3B time saving standby counter 402 is "0" (step SD904: NO), it means that only the 3A time saving waiting counter 401 among the time saving standby counters 401 to 403 is 1 or more. In this case, the value of the 3A time saving standby counter 401 is set to the time saving state counter 375 (step SD907), and the 3A time saving standby counter 401 is cleared to "0" (step SD908). As a result, the 3A time saving state ST3A that was in hiding becomes an execution target, and the 3A time saving state ST3A is executed over the remaining number of continuations stored in the 3A time saving standby counter 401.

When the process of step SD903, step SD906 or step SD908 is performed, "3" is set to the time reduction object counter 371 (step SD909). As a result, the execution mode of the support mode becomes a mode corresponding to the third time saving states ST3A to ST3C.

That is, in the present embodiment, each of the third time saving states ST3A to ST3C can be the latent target at the same time, but in the situation where a plurality of the third time saving states ST3A to ST3C are latent, the time saving states ST1 to ST3C to be executed have ended. In this case, the third time saving state ST3A to ST3C that switches from hiding to the execution target is determined according to the priority at the time of hiding. Specifically, the priority of the 3C time saving state ST3C, which has the highest number of continuations in the 3rd time saving state ST3A to ST3C, is the highest, and the 3rd time saving state ST3A to ST3C has the next highest number of continuations. The priority of the time saving state ST3B is the next highest, and the priority of the 3A time saving state ST3A, which has the lowest number of continuations among the 3rd time saving states ST3A to ST3C, is the lowest. Therefore, even if the 3A time saving state ST3A or the 3B time saving state ST3B latent earlier than the 3C time saving state ST3C when the 3C time saving state ST3C is latent, the 3C time saving state ST3C ST3C is to be executed first. Also, if the 3C time saving state ST3C is not latent and the 3B time saving state ST3B is latent, even if the 3A time saving state ST3A latent earlier than the 3B time saving state ST3B exists. , the 3B time saving state ST3B is to be executed first. In addition, the latent 3A time saving state ST3A is to be executed on condition that the 3B time saving state ST3B and the 3C time saving state ST3C are not latent.

After executing the third time saving setting process (step SD809) in the time saving progress process (FIG. 201), the sound light side issues a state designation command indicating that the third time saving state ST3A to ST3C that was in hiding has started. It is transmitted to the MPU 93 (step SD812). When the sound and light side MPU 93 receives the state designation command, the time saving state ST1 to ST3C that was the object of execution is completed, and the latent third time saving state ST3A to ST3C is started. Processing is executed so as to be executed by the display device 41, the display light emitting unit 64, and the speaker unit 65. FIG. Also, the time saving continuation counter 375 is cleared to "0" (step SD813). Since the time saving continuation counter 375 is cleared to "0", the determination mode of the variable display period of the game times in the third time saving state ST3A to ST3C returns to the determination mode when the third time saving state ST3A to ST3C is newly started. It will be.

When the values of the time saving standby counters 401 to 403 are all "0" (step SD808: NO), the time saving target counter 371 is cleared to "0" (step SD810). As a result, the game state becomes the normal game state. In addition, the outer end flag at the end of the time saving in the main side RAM84 is set to "1" (step SD811), and the state designation command indicating that the time saving state ST1 to ST3C has ended and has shifted to the normal game state is sent to the sound and light side It transmits to MPU93 (step SD812), and "0" clears the time saving continuation counter 375 (step SD813).

Next, with reference to the time chart of FIG. 203, the manner in which the third time saving state ST3A to ST3C latent will be described by taking the relationship with the first time saving state ST1 as an example. Figure 203 (a) shows the period during which the first time saving state ST1 is to be executed, Figure 203 (b) shows the period during which the 3A time saving state ST3A is to be executed, Figure 203 (c) Shows the period during which the 3B time saving state ST3B is to be executed, FIG. 203 (d) shows the period during which the 3C time saving state ST3C is to be executed, and FIG. 203 (e) corresponds to the first time saving result 203(f) shows the timing at which the game round corresponding to the second time saving result ends, and FIG. 203(g) shows the timing at which the game round corresponding to the third time saving result ends Shows the timing, Figure 203 (h) shows a period in which the value of the 3A short time standby counter 401 is 1 or more, Figure 203 (i) shows a period in which the value of the 3B short time standby counter 402 is 1 or more, Figure 203 (j) shows a period in which the value of the 3C short time standby counter 403 is 1 or more.

First, the first exemplary pattern will be described.

At the timing of t1, the 1st time saving state ST1 is started as shown in FIG. 203 (a) by the opening-and-closing execution mode corresponding to a 5R low probability result being complete|finished. After that, at the timing of t2, which is the timing in the middle of the first time saving state ST1, the game round corresponding to the third time saving result ends as shown in FIG. 203(g). In this case, as shown in Figure 203 (j), the number of times of continuation of the 3C time saving state ST3C is set to the 3C time saving standby counter 403, and the 3C time saving state ST3C is in a latent state.

After that, at the timing of t3, which is a situation in which the 3C time saving state ST3C is latent in the middle of the 1st time saving state ST1, the game round corresponding to the first time saving result ends as shown in FIG. 203 (e) do. In this case, as shown in FIG. 203(h), the number of times of continuation of the 3A time saving state ST3A is set to the 3A time saving standby counter 401, and the 3A time saving state ST3A is latent. That is, in this situation, the 3A time saving state ST3A and the 3C time saving state ST3C are latent.

After that, at the timing of t4, which is a situation in which both the 3A time saving state ST3A and the 3C time saving state ST3C are latent in the middle of the first time saving state ST1, the second time saving as shown in FIG. The game round corresponding to the result ends. In this case, as shown in Figure 203 (i), the number of times of continuation of the 3B time saving state ST3B is set to the 3B time saving standby counter 402, and the 3B time saving state ST3B is in a latent state. That is, in this situation, the 3A time saving state ST3A, the 3B time saving state ST3B, and the 3C time saving state ST3C are latent.

After that, at the timing of t5, the first time saving state ST1 ends as shown in FIG. 203(a). In this case, the 3A time saving state ST3A, the 3B time saving state ST3B and the 3C time saving state ST3C as shown in FIGS. Since the degree is the highest in the 3C time saving state ST3C, the 3C time saving state ST3C is started as shown in FIG. 203(d) at the timing of t5. However, the remaining number of continuations of the 3C time saving state ST3C is not 130 times, but the number corresponding to the value stored in the 3C time saving standby counter 403 at the timing of t5. Moreover, even if the 3C time saving state ST3C is started, the state in which the 3A time saving state ST3A and the 3B time saving state ST3B are latent as shown in FIGS. 203(h) and 203(i) is maintained.

After that, at the timing of t6, which is the timing in the middle of the 3C time saving state ST3C, the value of the 3A time saving standby counter 401 becomes "0" as shown in FIG. 203(h). Therefore, the latent 3A time saving state ST3A ends without becoming an execution target. As a result, only the 3B time saving state ST3B is latent.

Then, at the timing of t7, as shown in FIG.203(d), 3rd C time saving state ST3C is complete|finished. In this case, since the 3B time saving state ST3B is latent as shown in FIG. 203(i), the 3B time saving state ST3B is started as shown in FIG. . However, the remaining number of continuations of the 3B time saving state ST3B is not 100 times, but the number corresponding to the value stored in the 3B time saving standby counter 402 at the timing of t7. Then, as shown in FIG.203(c) at the timing of t8, 3B time saving state ST3B is complete|finished.

Next, a second example pattern will be described.

At the timing of t9, the opening and closing execution mode corresponding to the 5R low probability result ends, so that the first time saving state ST1 is started as shown in FIG. 203(a). After that, at the timing of t10, which is the timing in the middle of the first time saving state ST1, the game cycle corresponding to the first time saving result ends as shown in FIG. 203(e). In this case, as shown in FIG. 203(h), the number of times of continuation of the 3A time saving state ST3A is set to the 3A time saving standby counter 401, and the 3A time saving state ST3A is latent.

After that, at the timing of t11, which is a situation in which the 3A time saving state ST3A is latent in the middle of the first time saving state ST1, the game round corresponding to the first time saving result ends as shown in FIG. 203 (e) do. In this case, although the 3A time saving state ST3A is already latent, the number of continuations of the 3A time saving state ST3A (specifically 50 times) is reset to the 3A time saving standby counter 401.

After that, at the timing of t12, which is a situation in which the 3A time saving state ST3A is latent in the middle of the first time saving state ST1, the game round corresponding to the second time saving result ends as shown in FIG. do. In this case, as shown in Figure 203 (i), the number of times of continuation of the 3B time saving state ST3B is set to the 3B time saving standby counter 402, and the 3B time saving state ST3B is in a latent state. That is, in this situation, the 3A time saving state ST3A and the 3B time saving state ST3B are latent.

After that, at the timing of t13, which is a situation in which the 3A time saving state ST3A and the 3B time saving state ST3B are latent in the middle of the first time saving state ST1, the first time saving result as shown in FIG. The corresponding game round ends. In this case, although the 3A time saving state ST3A is already latent, the number of continuations of the 3A time saving state ST3A (specifically 50 times) is reset to the 3A time saving standby counter 401.

After that, at the timing of t14, the first time saving state ST1 ends as shown in FIG. 203(a). In this case, as shown in FIG. 203 (h) and FIG. 203 (i), the 3A time saving state ST3A and the 3B time saving state ST3B are latent, but the priority at the time of latency activation is the 3B time saving state Since ST3B is higher than the 3A time saving state ST3A, the 3B time saving state ST3B is started as shown in FIG. 203(c) at the timing of t14. However, the remaining number of continuations of the 3B time saving state ST3B is not 100 times, but the number corresponding to the value stored in the 3B time saving standby counter 402 at the timing of t14. Moreover, even if the 3B time saving state ST3B is started, the state in which the 3A time saving state ST3A has been latent as shown in FIG. 203(h) is maintained.

After that, at each of the timing of t15 and the timing of t16, which is the situation in which the 3A time saving state ST3A is latent in the middle of the 3B time saving state ST3B, the first time saving result as shown in FIG. 203 (e) The corresponding game round ends. In this case, the 3A time saving state ST3A is already latent, but the 3A time saving standby counter 401 at each of the timings of t15 and t16 continues the 3A time saving state ST3A (specifically 50 times) are reset.

Then, at the timing of t17, as shown in FIG.203(c), 3B time saving state ST3B is complete|finished. In this case, as shown in FIG. 203 (h), since the 3A time saving state ST3A is in a latent state, the 3A time saving state ST3A is started as shown in FIG. 203 (b) at the timing of t17. . However, the remaining number of continuations of the 3A time saving state ST3A is not 50 times, but the number corresponding to the value stored in the 3A time saving standby counter 401 at the timing of t17. After that, at the timing of t18, the 3A time saving state ST3A ends as shown in FIG. 203(b).

According to the embodiment detailed above, the following excellent effects are obtained.

In the main side RAM84, the 3A time saving standby counter 401 is provided in correspondence with the 3A time saving state ST3A, and the 3B time saving standby counter 402 is provided in correspondence with the 3B time saving state ST3B, and the 3C A 3C time saving standby counter 403 is provided corresponding to the time saving state ST3C. Then, when the game round corresponding to the first time saving result is executed in the time saving state ST1 to ST3C, the number of continuations of the 3A time saving state ST3A is set to the 3A time saving standby counter 401 3A time saving state ST3A becomes latent, and when the game round corresponding to the second time saving result is executed in the time saving state ST1 to ST3C, the 3B time saving wait counter 402 is set to the 3B time saving state ST3B. The time saving state ST3B becomes latent, and when the game round corresponding to the third time saving result is executed in the time saving state ST1 to ST3C, the number of continuations of the 3C time saving state ST3C is set to the 3C time saving standby counter 403. In the 3rd C time saving state ST3C becomes latent. As a result, a plurality of third time saving states ST3A to ST3C can be latent at the same time, so it is possible to ensure a long period of time saving states ST1 to ST3C.

If a plurality of third time saving states ST3A to ST3C are latent when the time saving states ST1 to ST3C to be executed are completed, the third time saving state to be executed according to the priority of execution regardless of the order in which the latency occurred ST3A to ST3C are selected. This makes it possible to increase the chances that the third time-saving states ST3A to ST3C, which have a predetermined high priority, are targets for execution.

The number of times the 3C time saving state ST3C continues is 130 times, the number of times the 3B time saving state ST3B continues is 100 times, and the number of times the 3A time saving state ST3A continues is 50 times. The priority in this case is set to the highest in the 3C time saving state ST3C, the next highest in the 3B time saving state ST3B, and the lowest in the 3A time saving state ST3A. As a result, the third time-saving states ST3A to ST3C having a large initial number of continuations can be preferentially executed.

The same type of third time saving states ST3A to ST3C are not latent at the same time, and the number of times that can be latent in each type of third time saving states ST3A to ST3C is only one. As a result, it is possible to prevent the third time saving states ST3A to ST3C from being excessively latent.

When a time saving result of a type corresponding to the latent third time saving state ST3A to ST3C occurs in a situation where the predetermined third time saving state ST3A to ST3C is already latent, the latent third The remaining number of continuations of the time saving states ST3A to ST3C is initialized to the number of continuations of the third time saving states ST3A to ST3C. As a result, it is possible to increase the number of continuations of the latent third time saving states ST3A to ST3C as much as possible, and the first to third time saving results generated in the third time saving states ST3A to ST3C are invalid. It is possible to prevent it from being changed.

<Another Form of the 26th Embodiment>
(1) The second time saving state ST2 may also be configured to be latent. In this case, a second time saving standby counter is provided in the main side RAM 84, and when the number of games of the ceiling number is completed in the third time saving state ST3A to ST3C, the second time saving standby counter continues the second time saving state ST2. It is good also as a structure which 2nd time saving state ST2 latents by being set. In this case, when the third time saving state ST3A to ST3C and the second time saving state ST2 are latent, the second time saving state ST2 may be configured to be executed preferentially regardless of the order of occurrence, and the order of occurrence Regardless, the third time saving state ST3A to ST3C may be configured to be preferentially executed, or may be configured to be executed according to the order of occurrence.

(2) All of the 3A time saving state ST3A, the 3B time saving state ST3B and the 3C time saving state ST3C are not limited to latent configurations, and the 3A time saving state ST3A, the 3B time saving state ST3B and the 3C Although part of the time saving state ST3C can be latent, the rest of the 3A time saving state ST3A, the 3B time saving state ST3B and the 3C time saving state ST3C may not be latent. In this case, when the game round corresponding to the first to third time saving results is executed in the time saving state ST1 to ST3C, depending on the type of the time saving result, the third time saving state ST3A to ST3C latents, and the type of the time saving result Depending on the situation, its occurrence will be nullified.

(3) The number of times the 3A time saving state ST3A continues is less than the number of times the first time saving state ST1 continues, the number of times the 3B time saving state ST3B continues is the same as the number of times the first time saving state ST1 continues, and the 3C time saving state The number of continuations of ST3C is greater than the number of continuations of the first time reduction state ST1 and less than the number of continuations of the second time reduction state ST2, but the number of continuations of these third time reduction states ST3A to ST3C is arbitrary. For example, the number of continuations of all the 3A time saving state ST3A, the 3B time saving state ST3B and the 3C time saving state ST3C may be less than the number of times the first time saving state ST1 continues, and the number of times the first time saving state ST1 continues. It is good also as a structure less than the continuation frequency|count of 2nd time saving state ST2 more than more, and it is good also as a structure more than the continuation frequency|count of 2nd time saving state ST2. Further, part of the third time saving states ST3A to ST3C may be configured such that the number of times of continuation is equal to or greater than the number of times of continuation of the second time saving state ST2.

(4) When the game round corresponding to the first to third time saving results is executed in the third time saving states ST3A to ST3C, the corresponding third time saving states ST3A to ST3C are latent. When the game cycle corresponding to the first to third time saving results is executed in the time saving states ST3A to ST3C, the third time saving states ST3A to ST3C corresponding to the time saving results may be newly started. When the game rounds corresponding to the first to third time saving results are executed in the three time saving states ST3A to ST3C, the occurrence of the time saving result may be invalidated.

(5) The main side RAM84 may have a configuration in which two or more of the 3A short waiting counter 401, the 3B short waiting counter 402 and the 3C short waiting counter 403 are provided. In this case, the third time saving state ST3A ~ ST3C corresponding to the three or more third time saving standby counters 401 ~ 403 provided two or more can be in a situation of multiple latent at the same time. Moreover, it is good also as a structure by which all of the 3A short time standby counter 401, the 3B short time standby counter 402, and the 3C short time standby counter 403 are provided in main side RAM84 two or more. In this case, the same type of third time-saving state ST3A ~ ST3C can be in a situation in which a plurality of latent at the same time.

<27th Embodiment>
In this embodiment, the type of the third time saving state is different from that in the twenty-sixth embodiment. The configuration different from that of the twenty-sixth embodiment will be described below. The description of the same configuration as that of the twenty-sixth embodiment is basically omitted.

In this embodiment, the types of support modes are the same as in the twenty-fifth embodiment, low-frequency support mode, first high-frequency support mode, second high-frequency support mode, third high-frequency support mode, and fourth high-frequency support mode. There are six types of mode and the fifth high-frequency support mode (see FIG. 196(a)). The contents of these support modes are the same as those of the twenty-fifth embodiment. In addition, as in the twenty-fifth embodiment, the types of the time saving state are five types: the first time saving state ST1, the second time saving state ST2, the 3A time saving state ST41, the 3B time saving state ST42, and the 3C time saving state ST43. (See FIG. 196(b)). The contents of these time saving states ST1 to ST43 are the same as those of the twenty-fifth embodiment.

When the time saving target counter 371 is "1", it corresponds to the first time saving state ST1 as in the 26th embodiment, and when the time saving target counter 371 is "2", the 26th embodiment Similarly, it corresponds to the second time saving state ST2. In addition, when the time saving target counter 371 is "3", it corresponds to the 3A time saving state ST41, and when the time saving target counter 371 is "4", it corresponds to the 3B time saving state ST42, and the time saving target When the counter 371 is "5", it corresponds to the 3rd C time saving state ST43.

When the value of the time saving target counter 371 is "3", that is, when it is the 3A time saving state ST41, the normal pattern correctness determination processing (step S407) is executed in the normal pattern fluctuation start processing (FIG. 16) of the main side MPU 82 When the low probability table on the normal diagram side (step S405) is read, and when the fluctuation display of the normal diagram display unit 38a is started (step S415), the middle period on the normal diagram side is the duration of the fluctuation display times is selected as In addition, in the normal map fixing process (FIG. 17) of the main side MPU 82, as a control process for the normal power open state, instead of step S509, a process of setting the normal open counter to "2" is executed, and steps S510 and S511 are executed. is executed, the normal/disconnected state becomes the middle expectation mode.

When the value of the time saving target counter 371 is "4", that is, when it is the 3B time saving state ST42, the normal pattern correctness determination processing (step S407) is executed in the normal pattern fluctuation start processing (FIG. 16) of the main side MPU 82 When the normal pattern side low probability table (step S405) is read, and when the normal pattern display unit 38a starts the variable display (step S415), the normal pattern side short period is the duration of the variable display times is selected as In addition, in the normal map fixing process (FIG. 17) of the main side MPU 82, as a control process for the normal power open state, instead of step S509, a process of setting the normal open counter to "2" is executed, and steps S510 and S511 are executed. is executed, the normal/disconnected state becomes the middle expectation mode.

When the value of the time saving target counter 371 is "5", that is, when it is the 3C time saving state ST43, the normal pattern correctness determination processing (step S407) is executed in the normal pattern fluctuation start processing (FIG. 16) of the main side MPU 82 When the low probability table on the normal diagram side (step S405) is read, and when the fluctuation display of the normal diagram display unit 38a is started (step S415), the middle period on the normal diagram side is the duration of the fluctuation display times is selected as Further, by executing steps S509 to S511 as the control processing of the general electric open state in the general electric map fixing process (FIG. 17) of the main side MPU 82, the general electric open state becomes the high expectation mode.

Figure 204 is the flowchart which shows the setting processing for the time saving result which is executed in step S8309 of processing during special figure decision (Figure 128).

If the game result of the current game round is one of the first to third time saving results (step SE101: YES), it is determined whether or not the high probability flag 321 is set to "1" (step SE102). . And when "1" is set to the high probability flag 321 (step SE102: YES), the setting process for this time saving result is complete|finished, without performing the process after step SE103. In other words, even if the time saving result is selected in the winning/failure determination process of the game round executed in a high probability state, the setting of the third time saving state ST41 to ST43 triggered by the time saving result is not performed. Time-saving results are nullified.

If "1" is not set to the high probability flag 321 (step SE102: NO), by determining whether the value of the time reduction target counter 371 is 1 or more, the current game state is the first to the It is determined whether or not it is in any one of the 3 o'clock reduction states ST1 to ST43 (step SE103). When the value of the time saving target counter 371 is "0" (step SE103: NO), that is, when the game state is the normal game state, "1" is set to the outer end flag at the time of time saving occurrence in the main side RAM 84 ( step SE104). When "1" is set to the outer end flag at the time of time saving occurrence, the output state of the second jackpot signal is turned ON to the outer end terminal 333 for the second jackpot signal as in the fifteenth embodiment. A process for making the signal HI level is executed for a continuous period, and a process for making the output state of the advantageous state signal HI level to the outer terminal 334 for the advantageous state signal is executed.

After that, if the game result of the current game round is the first time saving result (step SE105: YES), the time saving object counter 371 is set to "3" and the time saving continuation counter 375 is cleared to "0" (step SE106). , "50" is set in the time saving state counter 386 (step SE107). As a result, the game state shifts from the normal game state to the 3A time saving state ST41. Also, if the game result of the current game round is the second time saving result (step SE108: YES), the time saving target counter 371 is set to "4" and the time saving continuation counter 375 is cleared to "0" (step SE109). , "100" is set in the time saving state counter 386 (step SE110). As a result, the game state shifts from the normal game state to the 3B time saving state ST42. Also, if the game result of the current game round is the third time saving result (step SE108: NO), the time saving target counter 371 is set to "5" and the time saving continuation counter 375 is cleared to "0" (step SE111). , "130" is set in the time saving state counter 386 (step SE112). As a result, the game state shifts from the normal game state to the 3C time saving state ST43.

When the processing of step SE107, step SE110 or step SE112 is executed, a state designation command indicating that the normal game state has shifted to the third time saving state ST41 to ST43 is transmitted to the sound and light side MPU 93 (step SE113). When the sound and light side MPU 93 receives the state designation command, the pattern display device 41 shows an effect indicating that the normal game state has shifted to the third time saving state ST41 to ST43 and the type of the third time saving state ST41 to ST43. , the display light emitting unit 64 and the speaker unit 65 execute processing.

If the value of the time saving target counter 371 is 1 or more (step SE103: YES), if the game result of this game round is the first time saving result (step SE114: YES), the 3A time saving standby counter 401 "50 ' is set (step SE115). As a result, in the situation where the 3A time saving state ST41 is not latent, the 3A time saving state ST41 is latent with the first time saving result as a trigger, and in the situation where the 3A time saving state ST41 is latent Triggered by the 1 hour saving result, the number of continuations of the 3A time saving state ST41 is reset to the 3A time saving standby counter 401. Moreover, if the game result of this game round is the 2nd time saving result (step SE116: YES), "100" is set to the 3B time saving waiting counter 402 (step SE117). As a result, in the situation where the 3B time saving state ST42 is not latent, the 3B time saving state ST42 is latent with the second time saving result as a trigger, and in the situation where the 3B time saving state ST42 is latent The number of times the 3B time saving state ST42 continues is reset to the 3B time saving standby counter 402 with the 2 time saving result as a trigger. Moreover, if the game result of this game round is the 3rd time saving result (step SE116: NO), "130" is set to the 3C time saving waiting counter 403 (step SE118). As a result, in the situation where the 3C time saving state ST43 is not latent, the 3C time saving state ST43 is latent with the 3rd time saving result as a trigger, and in the situation where the 3C time short state ST43 is latent The number of continuations of the 3C time saving state ST43 is reset to the 3C time saving standby counter 403 with the 3C time saving result as a trigger.

When the processing of step SE115, step SE117 or step SE118 is executed, a state designation command indicating that the latency of the third time saving state ST41 to ST43 has occurred is transmitted to the sound and light side MPU 93 (step SE113). When the sound and light side MPU 93 receives the state designation command, the effect indicating that the latency of the third time saving state ST41 to ST43 has occurred and the effect indicating the type of the third time saving state ST41 to ST43 that is the target of hiding is a pattern. Processing is executed so as to be executed by the display device 41, the display light emitting unit 64, and the speaker unit 65. FIG. As a result, the player can recognize that the third time-saving states ST41 to ST43 are hidden, although they are not targets for execution.

It should be noted that when the game round corresponding to the first to third time saving results is executed in the high probability state, the time saving result is triggered by the time saving result in the same manner as in the twenty-sixth embodiment. The time saving result is invalidated without any occurrence of transition and latency of the third time saving state ST41 to ST43.

In this embodiment, the processing contents of the variation pattern determination processing in the sound and light side MPU 93 are the same as the variation pattern determination processing (FIG. 189) in the twenty-second embodiment. That is, although the game round corresponding to the first to third time saving results is started in the time saving states ST1 to ST43, when the current game round ends, the first to third time saving results of this time are used as a trigger for the third time saving. When the states ST41 to ST43 are newly started, stop symbol determination processing for suggesting time saving is executed (step SC809). In the stop pattern determination process for suggesting time saving, as in the 21st embodiment, a combination of time saving patterns ("1, 2, 3") is displayed as a stop result to be stopped and displayed in the pattern rows Z1 to Z3 of the pattern display device 41. , "2-3-4", "3-4-5"). In this case, if this time is the first time saving result, select the first time saving pattern combination ("1, 2, 3"), and if this time is the second time saving result, select the second time saving pattern combination (" 2, 3, 4"), and if this time is the third time saving result, the third time saving pattern combination ("3, 4, 5") is selected. In addition, in the stopping symbol determination process for suggesting time saving, the effective lines L1 to L5 for stop-displaying the combination of the first to third time saving generating symbols selected as described above are determined by lottery. Also, red is selected as the stop result of the state suggestion area 43 of the pattern display device 41 (step SC810).

In the time-saving states ST1-ST43, the game round corresponding to the first to third time-saving results is started, and when setting regarding hiding occurs in the main side MPU 82, the stop symbol determination process for suggesting hiding is executed (step SC812). In the stopping symbol determination process for suggesting lurking, combinations of lurking symbols ("5, 6, 7", "6, 7, 8", "7, 8, 9"). In this case, if this time is the first time saving result, select the first latency occurrence pattern combination ("5, 6, 7"), and if this time is the second time saving result, select the second latency occurrence pattern combination (" 6, 7, 8"), and if this time is the third time saving result, the third latency occurrence pattern combination ("7, 8, 9") is selected. In the stopping symbol determination process for suggesting lurking, the effective lines L1 to L5 for stop-displaying the combination of the first to third lurking generating symbols selected as described above are determined by lottery. After that, red is selected as the stop result of the state suggestion area 43 of the pattern display device 41 (step SC813).

In the time saving states ST1 to ST43, game rounds corresponding to the first to third time saving results are started, and when the current time saving result is invalidated due to the high probability state of the game state, it is for non-reach out. (step SC806). In the stop symbol determination process for non-reach out, as the stop result to be stopped and displayed in the symbol rows Z1 to Z3 of the symbol display device 41, a combination of symbols corresponding to the jackpot result, a combination of time-saving generating symbols ("1, 2, 3 ”, “2, 3, 4”, “3, 4, 5”), a combination of latent patterns (“5, 6, 7”, “6, 7, 8”, “7, 8, 9”), And the stop result that the combination of non-reach-out symbols, which is a combination of symbols other than the combination of the out-reach-out symbols, is stop-displayed is determined by lottery. Further, blue is selected as the stop result of the state suggestion area 43 of the pattern display device 41 (step SC807).

Drawing 205 is a flow chart which shows the 3rd time saving setting processing in this embodiment performed at Step SD809 of processing for time saving progress (Drawing 201).

First, it is determined whether or not the value of the 3C time saving standby counter 403 is 1 or more (step SE201). And, if the value of the 3C time saving standby counter 403 is 1 or more (step SE201: YES), set "5" to the time saving target counter 371 (step SE202), and set the value of the 3C time saving standby counter 403 to the time saving state The counter 375 is set (step SE203), and the 3C time saving standby counter 403 is cleared to "0" (step SE204). As a result, the 3C time-saving state ST43 that was in hiding becomes an execution target, and the 3C time-saving state ST43 is executed over the remaining number of continuations stored in the 3C time-saving standby counter 403.

When the value of the 3C time saving standby counter 403 is "0" (step SE201: NO), it is determined whether the value of the 3B time saving standby counter 402 is 1 or more (step SE205). Then, if the value of the 3B time saving standby counter 402 is 1 or more (step SE205: YES), set "4" to the time saving target counter 371 (step SE206), and set the value of the 3B time saving standby counter 402 to the time saving state The counter 375 is set (step SE207), and the 3B time saving standby counter 402 is cleared to "0" (step SE208). As a result, the 3B time saving state ST42 that was in hiding becomes an execution target, and the 3B time saving state ST42 is executed over the remaining number of continuations stored in the 3B time saving standby counter 402.

If the value of the 3B time saving standby counter 402 is "0" (step SE205: NO), it means that only the 3A time saving standby counter 401 among the time saving standby counters 401 to 403 is 1 or more. In this case, "3" is set to the time saving target counter 371 (step SE209), the value of the 3A time saving standby counter 401 is set to the time saving state counter 375 (step SE210), and the 3A time saving standby counter 401 is set to "0" Clear (step SE211). As a result, the 3A time saving state ST41 that was in hiding becomes an execution target, and the 3A time saving state ST41 is executed over the remaining number of continuations stored in the 3A time saving standby counter 401.

That is, in the present embodiment, each of the third time saving states ST41 to ST43 can be latent at the same time, but in the situation where a plurality of the third time saving states ST41 to ST43 are latent, the time saving states ST1 to ST43 to be executed have ended. In this case, the third time saving state ST41 to ST43 that switches from hiding to the execution object is determined according to the priority at the time of hiding. Specifically, the priority of the 3C time saving state ST43, which has the highest advantage of the support mode in the 3rd time saving state ST41 to ST43, is the highest, and the advantage of the support mode in the 3rd time saving state ST41 to ST43 is the next highest priority of the 3B time saving state ST42, and the priority of the 3A time saving state ST41 with the lowest advantage of the support mode among the 3rd time saving states ST41 to ST43 is the lowest. Therefore, even if the 3A time saving state ST41 or the 3B time saving state ST42 latent earlier than the 3C time saving state ST43 when the 3C time saving state ST43 is latent, the 3C time saving state ST43 ST43 is executed first. Further, when the 3B time saving state ST42 is latent without the 3C time saving state ST43, even if the 3A time saving state ST41 latent earlier than the 3B time saving state ST42 exists. , the 3B time saving state ST42 is to be executed first. In addition, the latent 3A time saving state ST41 is to be executed on condition that the 3B time saving state ST42 and the 3C time saving state ST43 are not latent.

The plurality of types of third time-saving states ST41 to ST43 differ not only in the number of times of continuation, which is an end condition, but also in the support mode. This makes it possible to diversify the third time saving states ST41 to ST43.

<Another form of the twenty-seventh embodiment>
(1) The 3A time-saving state ST41, the 3B time-saving state ST42, and the 3C time-saving state ST43 have different types of support modes and different numbers of continuations that are termination conditions, but they are not limited to this. Instead, the 3A time saving state ST41, the 3B time saving state ST42 and the 3C time saving state ST43 may be configured to have the same number of continuations as end conditions although the types of support modes are different.

(2) Among the 3A time saving state ST41, the 3B time saving state ST42, and the 3C time saving state ST43, the 3C time saving state ST43, in which the support mode is most advantageous, has the highest number of continuations, but it is limited to this. Instead, the 3C time saving state ST43 in which the support mode is most advantageous may be configured to have the lowest number of continuations, and the 3A time saving state ST41 in which the support mode is most advantageous may be configured to have the highest number of continuations. .

(3) The 3A time saving state ST41, the 3B time saving state ST42 and the 3C time saving state ST43 end conditions are all configured to execute the number of game rounds that trigger the end, but the 3A time saving state ST41, the 3B time saving state ST42 and the 3C time saving state ST43 end condition is that the small hit result of the number of times that is the end trigger occurs, and the number of times that is the end trigger is the 3A time saving state ST41, the 3B time saving state It is good also as a structure which is different in each of ST42 and 3rd C time saving state ST43.

<28th Embodiment>
In this embodiment, when the time saving state ST1 to ST3C to be executed ends in a situation where a plurality of third time saving states ST3A to ST3C are latent, the reference at the time of latency activation is different from the 26th embodiment. there is The configuration different from that of the twenty-sixth embodiment will be described below. The description of the same configuration as that of the twenty-sixth embodiment is basically omitted.

FIG. 206(a) is an explanatory diagram for explaining the storage area of the main side RAM 84 used for controlling the game state.

High probability flag 321, ceiling counter 325, time reduction target counter 371, time reduction continuation counter 375, time reduction state counter 386, 3A time reduction standby counter 401, 3B time reduction standby counter 402 and a 3C time saving standby counter 403 are provided. Further, the main RAM 84 is provided with an occurrence order storage area 405 .

FIG. 206(b) is an explanatory diagram for explaining the chronological order storage area 405. As shown in FIG.

Occurrence order storage area 405 is a storage area for specifying the order in which a plurality of third time saving states ST3A to ST3B are hidden in the time saving states ST1 to ST3A and the order in which they occur as hiding targets in the main side MPU 82. be. In the order of occurrence storage area 405, serial numbers "1" to "3" indicating the order of occurrence are set. A storage area is provided for storing information on the time saving states ST3A to ST3C. When a game round corresponding to any of the first to third time saving results is executed in the time saving states ST1 to ST3C in a situation where none of the third time saving states ST3A to ST3C is latent, it corresponds to the time saving result. Information indicating the types of the third time saving states ST3A to ST3C is stored in the storage area corresponding to the order of "1". In addition, in the situation, when the game round of the time saving result corresponding to the third time saving state ST3A to ST3C of a type different from the third time saving state ST3A to ST3C which is the hiding target is executed, it corresponds to the time saving result. Information indicating the types of the third time saving states ST3A to ST3C is stored in the storage area corresponding to the order of "2". In addition, in the situation, when the game round of the time saving result corresponding to the third time saving state ST3A to ST3C of a type different from the third time saving state ST3A to ST3C which is the hiding target is executed, it corresponds to the time saving result. Information indicating the types of the third time saving states ST3A to ST3C is stored in a storage area corresponding to the order of "3".

If the remaining number of continuations of the third time saving state ST3A to ST3C becomes 0 before the time saving state ST1 to ST3C to be executed ends, the process of shifting the information in the occurrence order storage area 405 Execute. Specifically, when the third time-saving state ST3A to ST3C in which the number of remaining continuations has become 0 during latency is stored in the storage area corresponding to the order of "1" in the occurrence order storage area 405 , the information stored in the storage area corresponding to the order of "2" is shifted to the storage area corresponding to the order of "1", and the information stored in the storage area corresponding to the order of "3" is shifted to After shifting to the storage area corresponding to the order of "2", the storage area corresponding to the order of "3" is cleared to "0". When the third time saving state ST3A to ST3C in which the remaining number of continuations has become 0 during latency is stored in the storage area corresponding to the order of "2" in the occurrence order storage area 405, "1" While maintaining the information stored in the storage area corresponding to the order as it is, the information stored in the storage area corresponding to the order of "3" is shifted to the storage area corresponding to the order of "2". 3” clears the storage area corresponding to the order of “0”.

When the time saving states ST1 to ST3C to be executed in the situation where the third time saving states ST3A to ST3C are latent, are stored in the storage area corresponding to the order of "1" in the occurrence order storage area 405 3rd time saving state ST3A - ST3C which corresponds to the information which is present becomes execution object. It also executes processing to shift the information in the order of occurrence storage area 405 . Specifically, the information stored in the storage area corresponding to the order of "2" is shifted to the storage area corresponding to the order of "1", and the information is stored in the storage area corresponding to the order of "3". After shifting the stored information to the storage area corresponding to the order of "2", the storage area corresponding to the order of "3" is cleared to "0".

Figure 207 is the flowchart which shows the setting processing for the time saving result which is executed in step S8309 of processing during special figure decision (Figure 128).

If the game result of the current game round is one of the first to third time saving results (step SE301: YES), it is determined whether or not the high probability flag 321 is set to "1" (step SE302). . And when "1" is set to the high probability flag 321 (step SE302: YES), the setting process for this time saving result is complete|finished, without performing the process after step SE303. In other words, even if the time saving result is selected in the winning/failure determination process of the game round executed in a high probability state, the setting of the third time saving state ST3A to ST3C triggered by the time saving result is not performed. Time-saving results are nullified.

If "1" is not set to the high probability flag 321 (step SE302: NO), by determining whether the value of the time reduction target counter 371 is 1 or more, the current game state is the first to the It is determined whether or not it is in one of the 3 o'clock reduction states ST1 to ST3C (step SE303). When the value of the time reduction target counter 371 is "0" (step SE303: NO), that is, when the game state is the normal game state, the time reduction target counter 371 is set to "3" and the time reduction continuation counter 375 is set to "0". ' (step SE304), and set "1" to the outer end flag at the time of time saving occurrence in the main side RAM 84 (step SE305). When "1" is set to the outer end flag at the time of time saving occurrence, the output state of the second jackpot signal is turned ON to the outer end terminal 333 for the second jackpot signal as in the fifteenth embodiment. A process for making the signal HI level is executed for a continuous period, and a process for making the output state of the advantageous state signal HI level to the outer terminal 334 for the advantageous state signal is executed.

Thereafter, if the game result of the current game cycle is the first time saving result (step SE306: YES), "50" is set to the time saving state counter 386 (step SE307). Also, if the game result of the current game round is the second time saving result (step SE308: YES), "100" is set to the time saving state counter 386 (step SE309). Moreover, if the game result of this game round is the 3rd time saving result (step SE308: NO), "130" will be set to the time saving state counter 386 (step SE310). As a result, the game state shifts from the normal game state to the third time-saving states ST3A to ST3C.

When the processing of step SE307, step SE309 or step SE310 is executed, a state designation command indicating that the normal game state has shifted to the third time saving state ST3A to ST3C is transmitted to the sound and light side MPU 93 (step SE311). When the sound and light side MPU 93 receives the state designation command, the pattern display device 41, the display light emitting unit 64 and the speaker unit 65 perform an effect indicating that the normal game state has shifted to the third time saving state ST3A to ST3C. Execute processing to ensure that

If the value of the time saving target counter 371 is 1 or more (step SE303: YES), if the game result of this game round is the first time saving result (step SE312: YES), the value of the 3A time saving standby counter 401 By determining whether or not it is 1 or more, it is determined whether or not the 3A time saving state ST3A is in hiding (step SE313). When the 3A time saving state ST3A is already latent (step SE313: YES), the setting process for this time saving result is ended as it is. That is, even if the game cycle corresponding to the first time saving result is executed while the 3A time saving state ST3A is latent, the first time saving result is invalidated.

When the 3A time saving state ST3A is not in hiding (step SE313: NO), "50" is set to the 3A time saving standby counter 401 (step SE314). As a result, the 3A time saving state ST3A is in a latent state.

After that, setting processing to the occurrence order storage area 405 is executed (step SE315). In the setting process, in the storage area in which the information indicating the type of the third time saving state ST3A to ST3C is not stored in the occurrence order storage area 405, the order information is stored in the storage area corresponding to the front order, the 3A time saving state Stores information indicating the type of ST3A. In this case, if the information indicating the type of the third time saving state ST3A to ST3C is not stored in all the storage areas, the information indicating the type of the 3A time saving state ST3A in the storage area corresponding to the order of "1" When the information indicating the type of the third time saving state ST3A to ST3C is stored only in the storage area corresponding to the order of "1", the 3A time saving state is stored in the storage area corresponding to the order of "2". Information indicating the type of ST3A is stored, and information indicating the type of the third time saving state ST3A to ST3C is stored in the storage areas corresponding to the order of "1" and the order of "2". 3" stores information indicating the type of the 3A time saving state ST3A in the storage area corresponding to the order.

After that, a state specifying command indicating that the latency of the 3A time saving state ST3A has occurred is transmitted to the sound and light side MPU 93 (step SE316). When the sound and light side MPU 93 receives the state designation command, the pattern display device 41, the display light emitting unit 64 and the speaker unit 65 execute an effect indicating that the latency of the 3A time saving state ST3A has occurred. process for As a result, it is possible for the player to recognize that the 3A time saving state ST3A is not an execution target but is in hiding.

If the value of the time saving target counter 371 is 1 or more (step SE303: YES), and if the game result of the current game round is the second time saving result (step SE317: YES), the 3B time saving standby counter 402 is 1 or more, it is determined whether or not the 3B time saving state ST3B is in hiding (step SE318). When the 3B time saving state ST3B is already latent (step SE318: YES), the setting process for this time saving result is ended as it is. That is, even if the game cycle corresponding to the second time saving result is executed while the 3B time saving state ST3B is latent, the second time saving result is invalidated.

When the 3B time saving state ST3B is not latent (step SE318: NO), "100" is set to the 3B time saving standby counter 402 (step SE319). As a result, the 3B time saving state ST3B is in a latent state.

After that, setting processing to the occurrence order storage area 405 is executed (step SE320). In the setting process, in the storage area in which the information indicating the type of the third time saving state ST3A to ST3C is not stored in the occurrence order storage area 405, the order information is stored in the storage area corresponding to the front order, the 3B time saving state Stores information indicating the type of ST3B. In this case, if the information indicating the type of the third time saving state ST3A to ST3C is not stored in all the storage areas, the information indicating the type of the 3B time saving state ST3B in the storage area corresponding to the order of "1" When the information indicating the type of the third time saving state ST3A to ST3C is stored only in the storage area corresponding to the order of "1", the 3B time saving state is stored in the storage area corresponding to the order of "2". Information indicating the type of ST3B is stored, and information indicating the type of the third time saving state ST3A to ST3C is stored in the storage areas corresponding to the order of "1" and the order of "2". Information indicating the type of the 3B time saving state ST3B is stored in the storage area corresponding to the order of 3".

After that, a state designation command indicating that the latency of the 3B time saving state ST3B has occurred is transmitted to the sound and light side MPU 93 (step SE321). When the sound and light side MPU 93 receives the state designation command, the pattern display device 41, the display light emitting unit 64 and the speaker unit 65 execute an effect indicating that the latency of the 3B time saving state ST3B has occurred. process for As a result, it is possible for the player to recognize that the 3B time saving state ST3B is not an execution target but is in hiding.

If the value of the time reduction target counter 371 is 1 or more (step SE303: YES), and if the game result of the current game round is the third time reduction result (step SE317: NO), the 3C time reduction standby counter 403 is 1 or more, it is determined whether or not the 3C time saving state ST3C is in the latent state (step SE322). When the 3C time saving state ST3C is already latent (step SE322: YES), the setting process for this time saving result is ended as it is. That is, even if the game cycle corresponding to the third time saving result is executed while the 3C time saving state ST3C is latent, the third time saving result is invalidated.

When the 3C time saving state ST3C is not latent (step SE322: NO), "130" is set to the 3C time saving standby counter 403 (step SE323). As a result, the third C time saving state ST3C is in a latent state.

After that, setting processing to the order of occurrence storage area 405 is executed (step SE324). In the setting process, in the storage area in which the information indicating the type of the third time saving state ST3A to ST3C is not stored in the occurrence order storage area 405, the order information is stored in the storage area corresponding to the front order, the 3C time saving state Stores information indicating the type of ST3C. In this case, if the information indicating the type of the 3rd time saving state ST3A ~ ST3C is not stored in all the storage areas information indicating the type of the 3C time saving state ST3C in the storage area corresponding to the order of "1" When the information indicating the type of the third time saving state ST3A to ST3C is stored only in the storage area corresponding to the order of "1", the 3C time saving state is stored in the storage area corresponding to the order of "2". Information indicating the type of ST3C is stored, and information indicating the type of the third time saving state ST3A to ST3C is stored in the storage areas corresponding to the order of "1" and the order of "2". Information indicating the type of the 3C time saving state ST3C is stored in the storage area corresponding to the order of 3'.

After that, a state designation command indicating that the latency of the 3C time saving state ST3C has occurred is transmitted to the sound and light side MPU 93 (step SE325). When the sound and light side MPU 93 receives the state designation command, the design display device 41, the display light emitting unit 64 and the speaker unit 65 execute an effect indicating that the latency of the 3C time saving state ST3C has occurred. process for As a result, it is possible for the player to recognize that the 3C time saving state ST3C is not an object to be executed but is latent.

In this embodiment, the processing contents of the variation pattern determination processing in the sound and light side MPU 93 are the same as the variation pattern determination processing (FIG. 185) in the twenty-first embodiment. That is, although the game round corresponding to the first to third time saving results is started in the time saving state ST1 to ST3A, when the current game round ends, the first to third time saving results of this time are used as a trigger for the third time saving. When the states ST3A to ST3C are newly started, stop symbol determination processing for suggesting time saving is executed (step SC509). In the stop pattern determination process for suggesting time saving, the combination of time saving patterns ("1 2 3", "2 3 4", “3, 4, 5”). In this case, if this time is the first time saving result, select the first time saving pattern combination ("1, 2, 3"), and if this time is the second time saving result, select the second time saving pattern combination (" 2, 3, 4"), and if this time is the third time saving result, the third time saving pattern combination ("3, 4, 5") is selected. In addition, in the stopping symbol determination process for suggesting time saving, the effective lines L1 to L5 for stop-displaying the combination of the first to third time saving generating symbols selected as described above are determined by lottery. Also, red is selected as the stop result of the state suggestion area 43 of the pattern display device 41 (step SC510).

In the time-saving states ST1-ST3A, the game round corresponding to the first to third time-saving results is started, and when the setting related to hiding occurs in the main side MPU 82, the stop symbol determination process for suggesting hiding is executed (step SC513). In the stopping symbol determination process for suggesting lurking, combinations of lurking symbols ("5, 6, 7", "6, 7, 8", "7, 8, 9"). In this case, if this time is the first time saving result, select the first latency occurrence pattern combination ("5, 6, 7"), and if this time is the second time saving result, select the second latency occurrence pattern combination (" 6, 7, 8"), and if this time is the third time saving result, the combination of the third latency occurrence pattern ("7, 8, 9") is selected. Further, in the stopping symbol determination process for suggesting lurking, the effective lines L1 to L5 for stop-displaying the combination of the first to third lurking generating symbols selected as described above are determined by lottery. After that, red is selected as the stop result of the state suggestion area 43 of the pattern display device 41 (step SC514).

If the 1st to 3rd time saving results are obtained in a high probability state, or if the 1st to 3rd time saving results are obtained in the time saving state ST1 to ST3C, the 1st to 3rd time saving results are triggered. When the latency of the third time saving state ST3A to ST3C does not occur, stop symbol determination processing for non-reach out is executed (step SC506). In the stop symbol determination process for non-reach out, as the stop result to be stopped and displayed in the symbol rows Z1 to Z3 of the symbol display device 41, a combination of symbols corresponding to the jackpot result, a combination of time-saving generating symbols ("1, 2, 3 ”, “2, 3, 4”, “3, 4, 5”), a combination of latent patterns (“5, 6, 7”, “6, 7, 8”, “7, 8, 9”), And the combination of symbols other than the combination of the out reach-out symbols, that is, the non-out-of-reach-out symbols combination is stop-displayed to be determined by lottery. Also, blue is selected as the stop result of the state suggestion area 43 of the pattern display device 41 (step SC507).

Figure 208 is a flow chart showing the time-saving progress process executed in step S8308 of the special figure determination process (Figure 128).

First, it is determined whether or not the high probability flag 321 is set to "1" (step SE401). When "1" is set to the high probability flag 321 (step SE401: YES), the process for shortening working hours is terminated without executing the processes after step SE402.

If the high probability flag 321 is not set to "1" and the value of the time saving target counter 371 is 1 or more (step SE401: NO, step SE402: YES), that is, the first to third time saving state ST1 If any of ~ ST3C, the subtraction process of the time saving state counter 386 (step SE403), the subtraction process of the 3A time saving standby counter 401 (step SE404), the subtraction process of the 3B time saving waiting counter 402 (step SE405) and the The subtraction process (step SE406) of the 3C time saving standby counter 403 is executed. In the subtraction process of the time saving state counter 386, the value of the time saving state counter 386 is subtracted by 1. In the subtraction process of the 3A short time standby counter 401, 1 is subtracted from the value of the 3A short time standby counter 401 on condition that the value of the 3A short time standby counter 401 is 1 or more. In the subtraction process of the 3B time saving standby counter 402, 1 is subtracted from the value of the 3B time saving standby counter 402 on condition that the value of the 3B time saving standby counter 402 is 1 or more. In the subtraction process of the 3C time saving standby counter 403, 1 is subtracted from the value of the 3C time saving standby counter 403 on condition that the value of the 3C time saving standby counter 403 is 1 or more.

Here, since the processing of steps SE404 to SE406 is executed in the time saving states ST1 to ST3C, when the third time saving states ST3A to ST3C are latent, 1 in the time saving states ST1 to ST3C to be executed Not only the value of the time saving state counter 386 is decremented by 1 when one game round is executed, but also the value of the time saving standby counters 401 to 403 corresponding to the third time saving state ST3A to ST3C during latency is subtracted by 1. be. Therefore, when the third time-saving states ST3A to ST3C are latent, the number of remaining continuations of the time-saving states ST1 to ST3C to be executed when one game cycle is executed is subtracted by 1. Not only, the remaining number of continuations of the latent third time saving state ST3A to ST3C is also subtracted by one.

The first time saving state ST1 has a continuation count of 100 times, the second time saving state ST2 has a continuation count of 150 times, the 3A time saving state ST3A has a continuation count of 50 times, and the 3B time saving state ST3B has a continuation count. is 100 times, and the number of times of continuation of the 3C time saving state ST3C is 130 times, so depending on the timing when the 3rd time saving state ST3A to ST3C is latent, when the time saving state ST1 to ST3C to be executed ends, the time saving wait The value of the counters 401 to 403 is 1 or more and the third time saving state ST3A to ST3C continues to the time saving state ST1 to ST3C until then Over the remaining number of continuations stored in the corresponding time saving standby counters 401 to 403 The situation to be executed can occur, and the value of the time saving standby counters 401 to 403 becomes "0" in the middle of the time saving state ST1 to ST3C to be executed, and the latent third time saving state ST3A to ST3C is not executed. Terminated situations may arise.

After that, it is determined whether or not a trigger for updating the occurrence order storage area 405 has occurred (step SE407). Specifically, the value of any of the 3A to 3C short time standby counters 401 to 403 whose value was 1 or more has become "0" by executing the processing of steps SE404 to step SE406 or not judge. If there are time-saving standby counters 401 to 403 that have become "0" by subtracting 1 (step SE407: YES), the occurrence order storage area 405 is updated assuming that an opportunity to update the occurrence order storage area 405 has occurred. Processing is executed (step SE408). In the update process, the storage area where information indicating the type of the third time saving state ST3A to ST3B corresponding to the time saving standby counters 401 to 403 that have become "0" by subtracting 1 in the occurrence order storage area 405 is stored. Clear "0". If the storage area cleared by "0" is the storage area corresponding to the order of "1", the information stored in the storage area corresponding to the order of "2" is changed to the order of "1". While shifting to the corresponding storage area, after shifting the information stored in the storage area corresponding to the order of "3" to the storage area corresponding to the order of "2", the storage corresponding to the order of "3" Clear the area to "0". If the storage area cleared to "0" corresponds to the order of "2", the information stored in the storage area corresponding to the order of "3" corresponds to the order of "2". After shifting to the corresponding storage area, the storage area corresponding to the order of "3" is cleared to "0".

When a negative determination is made in step SE407 or when the processing of step SE408 is executed, by determining whether the value of the time saving state counter 386 is "0", the time saving state ST1 to ST3C to be executed ends It is determined whether or not it has been done (step SE409). When the value of the time saving state counter 386 is "0" (step SE409: YES), information indicating the type of the third time saving state ST3A to ST3C is stored in the storage area corresponding to the order of "1" in the order of occurrence storage area 405. It is determined whether or not it is stored (step SE410).

If an affirmative determination is made in step SE410, it means that the third time-saving state ST3A to ST3C during latency exists. In this case, setting processing to the time saving state counter 386 is first executed (step SE411). In the process of setting the time saving state counter 386, the type information of the third time saving state ST3A to ST3C stored in the storage area corresponding to the order of "1" in the occurrence order storage area 405 is specified. Then, after setting the values of the time saving standby counters 401 to 403 corresponding to the third time saving state ST3A to ST3C of the type to the time saving state counter 386, the time saving standby counters 401 to 403 are cleared to "0". Specifically, when the information of the type of the 3A time saving state ST3A is stored in the storage area of the order of "1", after setting the value of the 3A time saving standby counter 401 to the time saving state counter 386 3A When the time saving standby counter 401 is cleared to "0" and the information of the type of the 3B time saving state ST3B is stored in the storage area in the order of "1", the value of the 3B time saving standby counter 402 is set to the time saving state counter 386 After setting the 3B time saving standby counter 402 is cleared to "0", and when the information of the type of the 3C time saving state ST3C is stored in the storage area in the order of "1", the 3C time saving standby counter 403 After setting the value to the time saving state counter 386, the 3C time saving standby counter 403 is cleared to "0".

Then, the setting process of the time reduction object counter 371 is performed (step SE412). In the process of setting the time saving target counter 371, the time saving target counter 371 is set to "3" corresponding to the third time saving states ST3A to ST3C. As a result, the third time saving states ST3A to ST3C are to be executed. In addition, the third time saving state ST3A to ST3C, which is the execution target, is executed over the number of continuations corresponding to the value set in the time saving state counter 386 in step SE411.

Thereafter, update processing of the chronological order storage area 405 is executed (step SE413). In the updating process, the information stored in the storage area corresponding to the order of "2" is shifted to the storage area corresponding to the order of "1", and the information stored in the storage area corresponding to the order of "3" is shifted. After shifting the stored information to the storage area corresponding to the order of "2", the storage area corresponding to the order of "3" is cleared to "0".

After that, it transmits to the sound and light side MPU 93 a state designation command indicating that the third time-saving state ST3A to ST3C, which was in hiding, has started (step SE416). When the sound and light side MPU 93 receives the state designation command, the time saving state ST1 to ST3C that was the object of execution is completed, and the latent third time saving state ST3A to ST3C is started. Processing is executed to be executed by the display device 41, the display light emitting unit 64, and the speaker unit 65. FIG. Also, the time saving continuation counter 375 is cleared to "0" (step SE417). Since the time saving continuation counter 375 is cleared to "0", the determination mode of the variable display period of the game times in the third time saving state ST3A to ST3C returns to the determination mode when the third time saving state ST3A to ST3C is newly started. It will be.

When a negative determination is made in step SE410, the time reduction target counter 371 is cleared to "0" (step SE414). As a result, the game state becomes the normal game state. In addition, the outer end flag at the end of the time saving in the main side RAM84 is set to "1" (step SE415), and the state designation command indicating that the time saving state ST1 to ST3C has ended and the normal game state has been transferred is sent to the sound and light side. It is transmitted to the MPU 93 (step SE416), and the time saving continuation counter 375 is cleared to "0" (step SE417).

Next, with reference to the time chart of FIG. 209, the manner in which the third time saving state ST3A to ST3C latent will be described by taking the relationship with the first time saving state ST1 as an example. Figure 209 (a) shows the period during which the first time saving state ST1 is to be executed, Figure 209 (b) shows the period during which the 3A time saving state ST3A is to be executed, Figure 209 (c) Shows the period during which the 3B time saving state ST3B is to be executed, FIG. 209 (d) shows the period during which the 3C time saving state ST3C is to be executed, and FIG. 209 (e) corresponds to the first time saving result 209(f) shows the timing at which the game round corresponding to the second time saving result ends, and FIG. 209(g) shows the timing at which the game round corresponding to the third time saving result ends Shows the timing, Figure 209 (h) shows a period in which the value of the 3A short time standby counter 401 is 1 or more, Figure 209 (i) shows a period in which the value of the 3B short time standby counter 402 is 1 or more, Figure 209 (j) shows a period in which the value of the 3C time saving standby counter 403 is 1 or more.

At the timing of t1, the 1st time saving state ST1 is started as shown in FIG. 209 (a) by the opening-and-closing execution mode corresponding to a 5R low probability result being complete|finished. After that, at the timing of t2, which is the timing in the middle of the first time saving state ST1, the game round corresponding to the first time saving result ends as shown in FIG. 209(e). In this case, as shown in FIG. 209(h), the number of times of continuation of the 3A time saving state ST3A is set to the 3A time saving standby counter 401, and the 3A time saving state ST3A is latent.

After that, at the timing of t3, which is the situation in which the 3A time saving state ST3A is latent in the middle of the first time saving state ST1, the game round corresponding to the second time saving result ends as shown in FIG. do. In this case, as shown in FIG. 209(i), the number of continuations of the 3B time saving state ST3B is set to the 3B time saving standby counter 402, and the 3B time saving state ST3B is in a latent state. That is, in this situation, the 3A time saving state ST3A and the 3B time saving state ST3B are latent.

After that, at the timing of t4, which is a situation in which both the 3A time saving state ST3A and the 3B time saving state ST3B are latent in the middle of the first time saving state ST1, as shown in FIG. The game round corresponding to the result ends. In this case, as shown in FIG. 209 (j), the number of times of continuation of the 3C time saving state ST3C is set to the 3C time saving standby counter 403, and the 3C time saving state ST3C is latent. That is, in this situation, the 3A time saving state ST3A, the 3B time saving state ST3B, and the 3C time saving state ST3C are latent.

After that, at the timing of t5, the first time saving state ST1 ends as shown in FIG. 209(a). In this case, the 3A time saving state ST3A, the 3B time saving state ST3B and the 3C time saving state ST3C are latent as shown in FIGS. 209(h) to 209(j), but the order of occurrence is first. 3A time saving state ST3A is started as shown in FIG. 209(b) at the timing of t5, since the 3rd time saving state ST3A to ST3C is executed first. However, the remaining number of continuations of the 3A time saving state ST3A is not 50 times, but the number corresponding to the value stored in the 3A time saving standby counter 401 at the timing of t5. Moreover, even if the 3A time saving state ST3A is started, the state in which the 3B time saving state ST3B and the 3C time saving state ST3C are latent as shown in FIGS. 209(i) and 209(j) is maintained.

Then, at the timing of t6, as shown in FIG.209(b), 3A time saving state ST3A is complete|finished. In this case, although the 3B time saving state ST3B and the 3C time saving state ST3C are in a latent state as shown in FIGS. 209 (i) and 209 (j), the occurrence order is the first 3rd time saving state Since ST3A to ST3C are to be executed first, the 3B time saving state ST3B is started at the timing of t6 as shown in FIG. 209(c). However, the remaining number of continuations of the 3B time saving state ST3B is not 100 times, but the number corresponding to the value stored in the 3B time saving standby counter 402 at the timing of t6. Moreover, even if the 3B time saving state ST3B is started, the state in which the 3C time saving state ST3C is latent is maintained as shown in FIG. 209(j).

After that, at the timing of t7, which is the timing in which the 3C time saving state ST3C is latent in the middle of the 3B time saving state ST3B, the game corresponding to the first time saving result as shown in FIG. 209 (e) round ends. In this case, as shown in FIG. 209(h), the number of continuations of the 3A time saving state ST3A is set to the 3A time saving standby counter 401, and the 3A time saving state ST3A is latent.

After that, at the timing of t8, which is the timing in which both the 3A time saving state ST3A and the 3C time saving state ST3C are latent in the middle of the 3B time saving state ST3B, as shown in FIG. The game round corresponding to the first time saving result ends. In this case, as shown in FIG. 209(h), since the 3A time saving state ST3A is already latent, the first time saving result is invalidated.

Then, at the timing of t9, as shown in FIG.209(c), 3B time saving state ST3B is complete|finished. In this case, as shown in FIGS. 209 (h) and 209 (j), the 3A time saving state ST3A and the 3C time saving state ST3C are in a latent state, but the occurrence order is the first 3rd time saving state Since ST3A to ST3C are to be executed first, the 3C time saving state ST3C is started at the timing of t9 as shown in FIG. 209(d). However, the remaining number of continuations of the 3C time saving state ST3C is not 130 times, but the number corresponding to the value stored in the 3C time saving standby counter 403 at the timing of t9. Moreover, even if the 3C time saving state ST3C is started, the state in which the 3A time saving state ST3A has been latent is maintained as shown in FIG. 209(h).

After that, at the timing of t10, which is the timing in which the 3A time saving state ST3A is latent in the middle of the 3C time saving state ST3C, the game corresponding to the first time saving result as shown in FIG. 209 (e) round ends. In this case, as shown in FIG. 209(h), since the 3A time saving state ST3A is already latent, the first time saving result is invalidated.

After that, at the timing of t11, which is the timing in the middle of the 3C time saving state ST3C, the value of the 3A time saving standby counter 401 becomes "0" as shown in FIG. 209(h). Therefore, the latent 3A time saving state ST3A ends without becoming an execution target. After that, at the timing of t12, the third C time saving state ST3C ends as shown in FIG. 209(d).

According to the embodiment detailed above, the following excellent effects can be obtained.

If a plurality of third time-saving states ST3A-ST3C are latent when the time-saving states ST1-ST3C to be executed are completed, the third time-saving states ST3A-ST3C in which the latency occurs early are set to be executed first. be done. As a result, it becomes possible to target the third time-saving states ST3A to ST3C during latency according to the order in which latency occurred.

The same type of third time saving states ST3A to ST3C are not latent at the same time, and the number of times that can be latent in each type of third time saving states ST3A to ST3C is only one. As a result, it is possible to prevent the third time saving states ST3A to ST3C from being excessively latent.

When a time saving result of a type corresponding to the latent third time saving state ST3A to ST3C occurs in a situation where the predetermined third time saving state ST3A to ST3C is already latent, the time saving result is invalidated. be. As a result, in the configuration in which the third time-saving states ST3A to ST3C during latency are to be executed according to the order in which latency occurs, it is possible to prevent the handling of the latency occurrence order from becoming complicated. .

<Another Form of the 28th Embodiment>
(1) FIG. 210 is a flowchart showing another form of setting processing for time saving results in the twenty-eighth embodiment. At steps SE501 to SE511, the same processes as steps SE301 to SE311 in the time saving result setting process (FIG. 207) in the twenty-eighth embodiment are executed.

If the value of the time saving target counter 371 is 1 or more (step SE503: YES), if the game result of this game round is the first time saving result (step SE512: YES), the value of the 3A time saving standby counter 401 Regardless of whether it is 1 or more, set "50" to the 3A time saving standby counter 401 (step SE513), execute the setting process to the generation order storage area 405 (step SE514), 3A time saving state A state designating command indicating that the latency of ST3A has occurred is transmitted to the sound and light side MPU 93 (step SE515). That is, when the game round corresponding to the first time saving result is executed while the 3A time saving state ST3A is latent, the 3A time saving state ST3A continuation number is reset to the 3A time saving standby counter 401. In addition, in the setting process to the occurrence order storage area 405 in step SE514, if the first time saving result occurs when the 3A time saving state ST3A is not in hiding, setting for time saving result in the twenty-eighth embodiment The same processing as step SE315 of the processing (FIG. 207) is executed.

On the other hand, if the first time saving result occurs while the 3A time saving state ST3A is latent, first, the storage area in which the type information of the 3A time saving state ST3A is stored in the occurrence order storage area 405 is set to "0 "clear. If the storage area cleared to "0" is the storage area corresponding to the order of "1", the information stored in the storage area corresponding to the order of "2" is cleared to the order of "1". and shift the information stored in the storage area corresponding to the order of "3" to the storage area corresponding to the order of "2", and then the information stored in the storage area corresponding to the order of "3" Clear the storage area to "0". If the storage area cleared to "0" corresponds to the order of "2", the information stored in the storage area corresponding to the order of "3" corresponds to the order of "2". After shifting to the storage area corresponding to the order of "3", the storage area corresponding to the order of "3" is cleared to "0". Then, the information on the type of the 3A time saving state ST3A is stored in the storage area corresponding to the frontmost order among the storage areas in which the types of the 3rd time saving state ST3A to ST3C are not stored. As a result, when the first time saving result occurs when the 3A time saving state ST3A is latent, the order of occurrence of the 3A time saving state ST3A is already latent when the first time saving result newly occurs. The order of occurrence is set after the other third time saving states ST3B and ST3C.

If the value of the time saving target counter 371 is 1 or more (step SE503: YES), and if the game result of the current game round is the second time saving result (step SE516: YES), the 3B time saving standby counter 402 Regardless of whether the value of is 1 or more, set "100" to the 3B time saving standby counter 402 (step SE517), execute the setting process to the occurrence order storage area 405 (step SE518), A state designation command indicating that the latency of the 3B time saving state ST3B has occurred is transmitted to the sound and light side MPU 93 (step SE519). That is, when the game round corresponding to the second time saving result is executed while the 3B time saving state ST3B is latent, the number of times the 3B time saving state ST3B continues is reset to the 3B time saving standby counter 402. In addition, in the setting process to the occurrence order storage area 405 in step SE518, if the second time saving result occurs when the 3B time saving state ST3B is not latent, the setting for the time saving result in the twenty-eighth embodiment The same processing as step SE320 of the processing (FIG. 207) is executed.

On the other hand, if the second time saving result occurs while the 3B time saving state ST3B is latent, first, in the occurrence order storage area 405, the storage area storing the type information of the 3B time saving state ST3B is set to "0 "clear. If the storage area cleared by "0" is the storage area corresponding to the order of "1", the information stored in the storage area corresponding to the order of "2" is cleared to the order of "1". and shift the information stored in the storage area corresponding to the order of "3" to the storage area corresponding to the order of "2", then shift the information to the storage area corresponding to the order of "3" Clear the storage area to "0". If the storage area cleared to "0" corresponds to the order of "2", the information stored in the storage area corresponding to the order of "3" corresponds to the order of "2". After shifting to the corresponding storage area, the storage area corresponding to the order of "3" is cleared to "0". Then, the information of the type of the 3B time saving state ST3B is stored in the storage area corresponding to the frontmost order among the storage areas in which the types of the 3rd time saving state ST3A to ST3C are not stored. As a result, when the second time saving result occurs when the 3B time saving state ST3B is latent, the order of occurrence of the 3B time saving state ST3B is already latent when the second time saving result newly occurs. The order of occurrence is set after the other third time saving states ST3A and ST3C.

If the value of the time saving target counter 371 is 1 or more (step SE503: YES), and if the game result of the current game round is the third time saving result (step SE516: NO), the 3C time saving standby counter 403 Regardless of whether the value of is 1 or more, set "130" to the 3C time saving standby counter 403 (step SE520), execute the setting process to the occurrence order storage area 405 (step SE521), A state designation command indicating that the latency of the 3C time saving state ST3C has occurred is transmitted to the sound and light side MPU 93 (step SE522). In other words, when the game round corresponding to the third time saving result is executed while the 3C time saving state ST3C is latent, the number of times the 3C time saving state ST3C continues is reset to the 3C time saving standby counter 403. In addition, in the setting process to the occurrence order storage area 405 in step SE521, if the third time saving result occurs when the 3C time saving state ST3C is not latent, setting for time saving result in the twenty-eighth embodiment The same processing as step SE324 of the processing (FIG. 207) is executed.

On the other hand, if the third time saving result occurs while the 3C time saving state ST3C is latent, first, in the occurrence order storage area 405, the storage area storing the type information of the 3C time saving state ST3C is set to "0 "clear. If the storage area cleared by "0" is the storage area corresponding to the order of "1", the information stored in the storage area corresponding to the order of "2" is cleared to the order of "1". and shift the information stored in the storage area corresponding to the order of "3" to the storage area corresponding to the order of "2", then shift the information to the storage area corresponding to the order of "3" Clear the storage area to "0". If the storage area cleared to "0" corresponds to the order of "2", the information stored in the storage area corresponding to the order of "3" corresponds to the order of "2". After shifting to the corresponding storage area, the storage area corresponding to the order of "3" is cleared to "0". Then, the information of the type of the 3C time saving state ST3C is stored in the storage area corresponding to the frontmost order among the storage areas in which the type of the 3rd time saving state ST3A to ST3C is not stored. As a result, if the 3rd time saving result occurs when the 3C time saving state ST3C is latent, the order of occurrence of the 3C time saving state ST3C is already latent when the 3rd time saving result newly occurs The order of occurrence is set after the other third time saving states ST3A and ST3B.

In the above-mentioned another mode, when the third time saving states ST3A to ST3C are latent during the execution of the time saving states ST1 to ST3C, the game times of the time saving results corresponding to the third time saving states ST3A to ST3C during the latent are executed. In that case, the number of continuations of the third time saving state ST3A to ST3C during the latency is reset to the corresponding time saving standby counters 401 to 403. As a result, when a time saving result corresponding to the latent third time saving state ST3A to ST3C occurs, it is possible to prevent the time saving result from being invalidated.

When the time saving result corresponding to the third time saving state ST3A to ST3C during latency occurs and the information on the number of continuations is reset to the time saving standby counters 401 to 403 corresponding to the third time saving state ST3A to ST3C during the latency , the third time saving state ST3A to ST3C that is the target of the reset is treated as a later generation order than the other third time saving states ST3A to ST3C that are latent at that time. As a result, the time saving result corresponding to the third time saving state ST3A to ST3C that was previously the target of latent occurs repeatedly, so that the third time saving state ST3A to ST3C that is the target of latent later is an opportunity to be executed. can be prevented from disappearing.

(2) FIG. 211 is a flowchart showing another form of setting processing for time saving results in the twenty-eighth embodiment. At steps SE601 to SE611, the same processes as steps SE301 to SE311 in the time saving result setting process (FIG. 207) in the twenty-eighth embodiment are executed.

If the value of the time saving target counter 371 is 1 or more (step SE603: YES), if the game result of this game round is the first time saving result (step SE612: YES), the value of the 3A time saving standby counter 401 By determining whether or not it is 1 or more, it is determined whether or not the 3A time saving state ST3A is already in hiding (step SE613). If the 3A time saving state ST3A is not latent (step SE613: NO), the setting process to the occurrence order storage area 405 is executed (step SE614), and "50" is set to the 3A time saving standby counter 401 (step SE615), and transmits a state designation command indicating that the latency of the 3A time saving state ST3A has occurred to the sound and light side MPU 93 (step SE616). In step SE614, the setting process to the occurrence order storage area 405, the same process as step SE315 of the time saving result setting process (FIG. 207) in the twenty-eighth embodiment is executed.

On the other hand, if the 3A time saving state ST3A is already latent (step SE613: YES), without executing the setting process to the occurrence order storage area 405 in step SE614, "50" to the 3A time saving standby counter 401 Set (step SE615), and transmit a state designation command indicating that the latency of the 3A time saving state ST3A has occurred to the sound and light side MPU 93 (step SE616). In other words, when the first time saving result occurs when the 3A time saving state ST3A is latent, while the number of times of continuation of the 3A time saving state ST3A is reset to the 3A time saving standby counter 401, the 3A time saving state ST3A does not change the order of occurrence while hiding.

If the value of the time saving target counter 371 is 1 or more (step SE603: YES), and if the game result of the current game round is the second time saving result (step SE617: YES), the 3B time saving standby counter 402 is 1 or more, it is determined whether or not the 3B time saving state ST3B is already in hiding (step SE618). If the 3B time saving state ST3B is not latent (step SE618: NO), the setting process to the occurrence order storage area 405 is executed (step SE619), and "100" is set to the 3B time saving standby counter 402 (step SE620), transmit a state designation command indicating that the latency of the 3B time saving state ST3B has occurred to the sound and light side MPU 93 (step SE621). In step SE619, the setting process to the occurrence order storage area 405 is the same process as step SE320 of the time saving result setting process (FIG. 207) in the twenty-eighth embodiment.

On the other hand, if the 3B time saving state ST3B is already latent (step SE618: YES), without executing the setting process to the occurrence order storage area 405 in step SE619, set "100" to the 3B time saving standby counter 402 Set (step SE620), and transmit a state designation command indicating that the latency of the 3B time saving state ST3B has occurred to the sound and light side MPU 93 (step SE621). That is, when the second time saving result occurs when the 3B time saving state ST3B is in the latent state, while the number of times of continuation of the 3B time saving state ST3B is reset to the 3B time saving standby counter 402, the 3B time saving state ST3B does not change the order of occurrence while hiding.

If the value of the time saving target counter 371 is 1 or more (step SE603: YES), and if the game result of the current game round is the third time saving result (step SE617: NO), the 3C time saving standby counter 403 By determining whether the value of is 1 or more, it is determined whether or not the 3C time saving state ST3C is already latent (step SE622). If the 3C time saving state ST3C is not latent (step SE622: NO), the setting process to the occurrence order storage area 405 is executed (step SE623), and "130" is set to the 3C time saving standby counter 403 (step SE624), and transmits a state designation command indicating that the latency of the 3C time saving state ST3C has occurred to the sound and light side MPU 93 (step SE625). In step SE623, the setting process to the occurrence order storage area 405, the same process as step SE324 of the time saving result setting process (FIG. 207) in the twenty-eighth embodiment is executed.

On the other hand, if the 3C time saving state ST3C is already latent (step SE622: YES), without executing the setting process to the occurrence order storage area 405 in step SE623, "130" to the 3C time saving standby counter 403 Set (step SE624), and transmit a state designation command indicating that the latency of the 3C time saving state ST3C has occurred to the sound and light side MPU 93 (step SE625). That is, when the 3rd time saving result occurs when the 3C time saving state ST3C is latent, while the number of times of continuation of the 3C time saving state ST3C is reset to the 3C time saving standby counter 403, the 3C time saving state ST3C does not change the order of occurrence while in hiding.

In the above-mentioned another mode, when the third time saving states ST3A to ST3C are latent during the execution of the time saving states ST1 to ST3C, the game times of the time saving results corresponding to the third time saving states ST3A to ST3C during the latent are executed. In that case, the number of continuations of the third time saving state ST3A to ST3C during the latency is reset to the corresponding time saving standby counters 401 to 403. As a result, when a time saving result corresponding to the latent third time saving state ST3A to ST3C occurs, it is possible to prevent the time saving result from being invalidated.

As a time saving result corresponding to the third time saving state ST3A to ST3C in the latent occurs and the information of the number of times of continuation is reset to the time saving standby counters 401 to 403 corresponding to the third time saving state ST3A to ST3C in the latent However, the order of occurrence of the third time saving states ST3A to ST3C that are the target of the resetting with respect to the other third time saving states ST3A to ST3C that are latent at that time is not changed. As a result, while trying not to change the order at the time of activating the latency of the third time saving state ST3A to ST3C which is the target of hiding, when the time saving result corresponding to the third time saving state ST3A to ST3C during hiding occurs It is possible to prevent the time saving result from being invalidated.

(3) In this embodiment, the types of support modes are the same as in the twenty-fifth embodiment, low-frequency support mode, first high-frequency support mode, second high-frequency support mode, third high-frequency support mode, and fourth support mode. There are six types, a high-frequency support mode and a fifth high-frequency support mode (see FIG. 196(a)). The contents of these support modes are the same as those of the twenty-fifth embodiment. In addition, as in the twenty-fifth embodiment, the types of the time saving state are five types: the first time saving state ST1, the second time saving state ST2, the 3A time saving state ST41, the 3B time saving state ST42, and the 3C time saving state ST43. (See FIG. 196(b)). The contents of these time saving states ST1 to ST43 are the same as those of the twenty-fifth embodiment.

When the time saving target counter 371 is "1", it corresponds to the first time saving state ST1 as in the twenty-fifth embodiment, and when the time saving target counter 371 is "2", the twenty-fifth embodiment Similarly, it corresponds to the second time saving state ST2. In addition, when the time saving target counter 371 is "3", it corresponds to the 3A time saving state ST41, and when the time saving target counter 371 is "4", it corresponds to the 3B time saving state ST42, and the time saving target When the counter 371 is "5", it corresponds to the 3rd C time saving state ST43.

FIG. 212 is a flow chart showing another form of setting processing for time saving results in the twenty-eighth embodiment. At steps SE714 to SE727, the same processes as steps SE312 to SE325 in the time saving result setting process (FIG. 207) in the twenty-eighth embodiment are executed.

If the game result of the current game round is one of the first to third time saving results (step SE701: YES), it is determined whether or not the high probability flag 321 is set to "1" (step SE702) . And when "1" is set to the high probability flag 321 (step SE702: YES), the setting process for this time saving result is complete|finished, without performing the process after step SE703. In other words, even if the time saving result is selected in the winning/failure determination process of the game round executed in a high probability state, the setting of the third time saving state ST41 to ST43 triggered by the time saving result is not performed. Time-saving results are nullified.

If "1" is not set to the high probability flag 321 (step SE702: NO), by determining whether the value of the time reduction target counter 371 is 1 or more, the current game state is the first to the It is determined whether or not it is in one of the 3 o'clock reduction states ST1 to ST43 (step SE703). When the value of the time saving target counter 371 is "0" (step SE703: NO), that is, when the game state is the normal game state, "1" is set to the outer end flag at the time of time saving occurrence in the main side RAM 84 ( step SE704). When "1" is set to the outer end flag at the time of time saving occurrence, the output state of the second jackpot signal is turned ON to the outer end terminal 333 for the second jackpot signal as in the fifteenth embodiment. A process for making the signal HI level is executed for a continuous period, and a process for making the output state of the advantageous state signal HI level to the outer terminal 334 for the advantageous state signal is executed.

After that, if the game result of the current game round is the first time saving result (step SE705: YES), the time saving target counter 371 is set to "3" and the time saving continuation counter 375 is cleared to "0" (step SE706). , "50" is set in the time saving state counter 386 (step SE707). As a result, the game state shifts from the normal game state to the 3A time saving state ST41. Also, if the game result of the current game round is the second time saving result (step SE708: YES), the time saving target counter 371 is set to "4" and the time saving continuation counter 375 is cleared to "0" (step SE709). , "100" is set in the time saving state counter 386 (step SE710). As a result, the game state shifts from the normal game state to the 3B time saving state ST42. Also, if the game result of the current game round is the third time saving result (step SE708: NO), the time saving object counter 371 is set to "5" and the time saving continuation counter 375 is cleared to "0" (step SE711). , "130" is set in the time saving state counter 386 (step SE712). As a result, the game state shifts from the normal game state to the 3C time saving state ST43.

When the processing of step SE707, step SE710 or step SE712 is executed, a state designation command indicating that the normal game state has shifted to the third time saving state ST41 to ST43 is transmitted to the sound and light side MPU 93 (step SE713). When the sound and light side MPU 93 receives the state designation command, the pattern display device 41 produces an effect indicating that the normal game state has shifted to the third time saving state ST41 to ST43, and an effect indicating the type of the third time saving state ST41 to ST43. , the display light emitting unit 64 and the speaker unit 65 execute processing.

In addition, in the setting process of the time saving target counter 371 in step SE412 in the time saving progressing process (FIG. 208), when the 3A time saving state ST3A becomes an execution target from the latent, the time saving target counter 371 is set to "3". , When the 3B time saving state ST3B becomes an execution target from latent, "4" is set to the time saving target counter 371, and when the 3C time saving state ST3C becomes an execution target from latent, the time saving target counter 371 is set to "5".

According to the above configuration, the plurality of types of third time-saving states ST41 to ST43 differ not only in the number of times of continuation, which is the termination condition, but also in the support mode. This makes it possible to diversify the third time saving states ST41 to ST43.

(4) All of the 3A time saving state ST3A, the 3B time saving state ST3B and the 3C time saving state ST3C are not limited to latent configurations, and the 3A time saving state ST3A, the 3B time saving state ST3B and the 3C Although part of the time saving state ST3C can be latent, the rest of the 3A time saving state ST3A, the 3B time saving state ST3B and the 3C time saving state ST3C may not be latent. In this case, when the game round corresponding to the first to third time saving results is executed in the time saving state ST1 to ST3C, depending on the type of the time saving result, the third time saving state ST3A to ST3C latents, and the type of the time saving result Depending on the situation, its occurrence will be nullified.

(5) The number of times the 3A time saving state ST3A continues is less than the number of times the first time saving state ST1 continues, the number of times the 3B time saving state ST3B continues is the same as the number of times the first time saving state ST1 continues, and the 3C time saving state The number of continuations of ST3C is greater than the number of continuations of the first time reduction state ST1 and less than the number of continuations of the second time reduction state ST2, but the number of continuations of these third time reduction states ST3A to ST3C is arbitrary. For example, the 3A time saving state ST3A, the 3B time saving state ST3B, and the 3C time saving state ST3C may be configured to be less than the number of times the first time saving state ST1 continues, and the number of times the first time saving state ST1 continues. It is good also as a structure less than the continuation frequency|count of 2nd time saving state ST2 more than more, and it is good also as a structure more than the continuation frequency|count of 2nd time saving state ST2. Further, part of the third time saving states ST3A to ST3C may be configured such that the number of times of continuation is equal to or greater than the number of times of continuation of the second time saving state ST2.

(6) When the game round corresponding to the first to third time saving results is executed in the third time saving state ST3A to ST3C, the corresponding third time saving state ST3A to ST3C is latent. When the game cycle corresponding to the first to third time saving results is executed in the time saving states ST3A to ST3C, the third time saving states ST3A to ST3C corresponding to the time saving results may be newly started. When the game rounds corresponding to the first to third time saving results are executed in the three time saving states ST3A to ST3C, the occurrence of the time saving result may be invalidated.

<29th Embodiment>
In this embodiment, the manner of latency of the third time-saving states ST3A to ST3C is different from that of the twenty-first embodiment. The configuration different from that of the twenty-first embodiment will be described below. Note that the description of the same configuration as that of the twenty-first embodiment is basically omitted.

FIG. 213 is an explanatory diagram for explaining the storage area of the main side RAM 84 used for controlling the game state.

The main RAM 84 is provided with a high probability flag 321, a ceiling counter 325, a time saving object counter 371, a time saving continuation counter 375 and a time saving state counter 386 as in the 21st embodiment. Moreover, instead of the 3rd time saving standby counter 387, the 1st standby counter 406, the 2nd standby counter 407, and the 3rd standby counter 408 are provided in main side RAM84.

The first waiting counter 406, the second waiting counter 407 and the third waiting counter 408 are each latent in the third time saving state ST3A to ST3C and the rest of the third time saving state ST3A to ST3C during the latent A counter for specifying the number of continuations in the main MPU 82 . In the situation where any of the time saving states ST1 to ST3A is the execution target and the third time saving states ST3A to ST3C are not latent, the game times corresponding to any of the first to third time saving results When executed, the number of continuations of the third time-saving state ST3A to ST3C corresponding to the time-saving result that has been executed is set in the first standby counter 406. Also, in a situation where the value of the first waiting counter 406 is 1 or more, when the game round corresponding to any of the first to third time saving results is executed, the time saving result corresponding to the executed time saving result The number of times the three o'clock short states ST3A to ST3C are continued is set in the second standby counter 407. FIG. Also, in a situation where the value of the first waiting counter 406 is 1 or more and the value of the second waiting counter 407 is 1 or more, when the game round corresponding to any of the first to third time saving results is executed In, the number of continuations of the third time saving state ST3A to ST3C corresponding to the time saving result that has been executed is set to the third standby counter 408. Also, in a situation where all the values of the first to third waiting counters 406 to 408 are 1 or more, when the game round corresponding to one of the first to third time saving results is executed, that time saving result is disabled.

The setting of the number of continuations to the first to third waiting counters 406 to 408 is performed according to the order of occurrence of the time saving result regardless of the type of the third time saving state ST3A to ST3C as described above. Therefore, the number of continuations of the same type of the third time saving state ST3A to ST3C can occur in a plurality of waiting counters 406 to 408, and different types of the third time saving state ST3A to all the waiting counters 406 to 408 It is possible that the ST3C continuation count is set.

The information on the number of continuations set in the first standby counter 406, the information on the number of continuations set in the second standby counter 407, and the information on the number of continuations set in the third standby counter 408 are the current time-saving states ST1 to 1 is subtracted each time a game round is executed in ST3C. Then, when the remaining number of continuations of the first standby counter 406 or the second standby counter 407 becomes 0 times before the time saving state ST1 to ST3C that is the object of execution ends, the standby counters 406 to 408 Perform operations that shift information. Specifically, when the value of the first standby counter 406 becomes "0", the value of the second standby counter 407 is shifted to the first standby counter 406, and the value of the third standby counter 408 is shifted to the After shifting to the second waiting counter 407, the third waiting counter 408 is cleared to "0". Further, when the value of the second standby counter 407 becomes "0", after shifting the value of the third standby counter 408 to the second standby counter 407, the third standby counter 408 is cleared to "0".

When the other time-saving states ST1 to ST3C that have been executed so far in the situation where the information of the number of continuations of 1 or more is stored in the first waiting counter 406 is completed, the value of the first waiting counter 406 is the time-saving state A counter 386 is set. As a result, the third time saving state ST3A to ST3C in which the information on the number of times of continuation is stored in the first standby counter 406 is executed, and the third time saving state ST3A to ST3C that is the execution target is the corresponding number. Executes for the remaining number of continuations stored in the 1 wait counter 406 . Also, after setting the value to the time saving state counter 386, the process of shifting the information of the standby counters 406-408 is executed. Specifically, after shifting the value of the second standby counter 407 to the first standby counter 406 and shifting the value of the third standby counter 408 to the second standby counter 407, the third standby counter 408 is set to "0". clear.

Figure 214 is the flowchart which shows the setting processing for the time saving result which is executed in step S8309 of processing during special figure decision (Figure 128).

If the game result of the current game round is one of the first to third time saving results (step SE801: YES), it is determined whether or not the high probability flag 321 is set to "1" (step SE802) . And when "1" is set to the high probability flag 321 (step SE802: YES), the setting process for this time saving result is complete|finished, without performing the process after step SE803. In other words, even if the time saving result is selected in the game time determination process executed in a high probability state, the setting of the third time saving state ST3A to ST3C triggered by the time saving result is not performed. Time-saving results are nullified.

If "1" is not set to the high probability flag 321 (step SE802: NO), by determining whether the value of the time reduction target counter 371 is 1 or more, the current game state is the first to the It is determined whether or not it is one of the 3 o'clock reduction states ST1 to ST3C (step SE803). When the value of the time reduction target counter 371 is "0" (step SE803: NO), that is, when the game state is the normal game state, the time reduction target counter 371 is set to "3" and the time reduction continuation counter 375 is set to "0". "Clear (step SE804), and set "1" to the outer end flag at the time of time reduction occurrence in the main side RAM84 (step SE805). When "1" is set to the outer end flag at the time of time saving occurrence, the output state of the second jackpot signal is turned ON to the outer end terminal 333 for the second jackpot signal as in the fifteenth embodiment. A process for making the signal HI level is executed for a continuous period, and a process for making the output state of the advantageous state signal HI level to the outer terminal 334 for the advantageous state signal is executed.

Thereafter, if the game result of the current game round is the first time saving result (step SE806: YES), "50" is set to the time saving state counter 386 (step SE807). Also, if the game result of the current game round is the second time saving result (step SE808: YES), "100" is set to the time saving state counter 386 (step SE809). Moreover, if the game result of this game round is the 3rd time saving result (step SE808: NO), "130" will be set to the time saving state counter 386 (step SE810). As a result, the game state shifts from the normal game state to the third time-saving states ST3A to ST3C.

When the processing of step SE807, step SE809 or step SE810 is executed, a state designation command indicating that the normal game state has shifted to the third time saving state ST3A to ST3C is transmitted to the sound and light side MPU 93 (step SE811). When the sound and light side MPU 93 receives the state designation command, the pattern display device 41, the display light emitting unit 64 and the speaker unit 65 perform an effect indicating that the normal game state has shifted to the third time saving state ST3A to ST3C. Execute processing to ensure that

If the value of the time saving target counter 371 is 1 or more (step SE803: YES), if the value of the first standby counter 406 is "0" (step SE812: NO), the third time saving corresponding to the current time saving result The number of times the states ST3A to ST3C are continued is set in the first standby counter 406 (step SE813). Specifically, if it is the first time saving result, "50" corresponding to the 3A time saving state ST3A is set to the first standby counter 406, and if it is the second time saving result, "100" corresponding to the 3B time saving state ST3B ” is set in the first standby counter 406, and “130” corresponding to the 3C time-saving state ST3C is set in the first standby counter 406 if it is the third time-saving result.

After that, a state designation command indicating that the latency of the third time saving state ST3A to ST3C has occurred is transmitted to the sound and light side MPU 93 (step SE814). When the sound and light side MPU 93 receives the state designation command, an effect indicating that the latency of the third time saving state ST3A to ST3C has occurred and an effect indicating the type of the third time saving state ST3A to ST3C that is the target of the latency is a pattern. Processing is executed so as to be executed by the display device 41, the display light emitting unit 64, and the speaker unit 65. FIG. As a result, the player can recognize that the third time-saving states ST3A to ST3C are hidden, although they are not targets for execution.

If the value of the first waiting counter 406 is 1 or more (step SE812: YES), if the value of the second waiting counter 407 is "0" (step SE815: NO), the third The number of continuations of the time saving states ST3A to ST3C is set in the second standby counter 407 (step SE816). Specifically, if it is the first time saving result, "50" corresponding to the 3A time saving state ST3A is set to the second waiting counter 407, and if it is the second time saving result, "100" corresponding to the 3B time saving state ST3B ” is set in the second standby counter 407, and “130” corresponding to the 3C time-saving state ST3C is set in the second standby counter 407 if the result is the third time-saving result.

After that, a state designation command indicating that the latency of the third time saving state ST3A to ST3C has occurred is transmitted to the sound and light side MPU 93 (step SE817). When the sound and light side MPU 93 receives the state designation command, the effect indicating that the latency of the third time saving state ST3A to ST3C has occurred and the effect indicating the type of the third time saving state ST3A to ST3C that is the target of hiding is a pattern. Processing is executed to be executed by the display device 41, the display light emitting unit 64, and the speaker unit 65. FIG. As a result, the player can recognize that the third time-saving states ST3A to ST3C are hidden, although they are not targets for execution.

If the value of the second waiting counter 407 is 1 or more (step SE815: YES), if the value of the third waiting counter 408 is "0" (step SE818: NO), the third The number of continuations of the time saving states ST3A to ST3C is set in the third standby counter 408 (step SE819). Specifically, if it is the first time saving result, "50" corresponding to the 3A time saving state ST3A is set to the third waiting counter 408, and if it is the second time saving result, "100" corresponding to the 3B time saving state ST3B is set to the third waiting counter 408, and if the result is the third time saving result, "130" corresponding to the third C time saving state ST3C is set to the third waiting counter 408.

After that, a state designation command indicating that the latency of the third time saving state ST3A to ST3C has occurred is transmitted to the sound and light side MPU 93 (step SE820). When the sound and light side MPU 93 receives the state designation command, an effect indicating that the latency of the third time saving state ST3A to ST3C has occurred and an effect indicating the type of the third time saving state ST3A to ST3C that is the target of the latency is a pattern. Processing is executed to be executed by the display device 41, the display light emitting unit 64, and the speaker unit 65. FIG. As a result, the player can recognize that the third time-saving states ST3A to ST3C are hidden, although they are not targets for execution.

On the other hand, when all the values of the first to third waiting counters 406 to 408 are 1 or more (step SE818: YES), the setting process for this time saving result is terminated as it is. In this case, the time saving result of this time is invalidated without the setting related to latency being performed with the time saving result of this time as a trigger.

In this embodiment, the processing contents of the variation pattern determination processing in the sound and light side MPU 93 are the same as the variation pattern determination processing (FIG. 189) in the twenty-second embodiment. That is, although the game round corresponding to the first to third time saving results is started in the time saving state ST1 to ST3A, when the current game round ends, the first to third time saving results of this time are used as a trigger for the third time saving. When the states ST3A to ST3C are newly started, stop symbol determination processing for suggesting time saving is executed (step SC809). In the stop pattern determination process for suggesting time saving, the combination of time saving patterns ("1 2 3", "2 3 4", “3, 4, 5”). In this case, if this time is the first time saving result, select the first time saving pattern combination ("1, 2, 3"), and if this time is the second time saving result, select the second time saving pattern combination (" 2, 3, 4"), and if this time is the third time saving result, the third time saving pattern combination ("3, 4, 5") is selected. In addition, in the stopping symbol determination process for suggesting time saving, the effective lines L1 to L5 for stop-displaying the combination of the first to third time saving generating symbols selected as described above are determined by lottery. Also, red is selected as the stop result of the state suggestion area 43 of the pattern display device 41 (step SC810).

In the time-saving states ST1-ST3A, the game round corresponding to the first to third time-saving results is started, and when the setting related to hiding occurs in the main side MPU 82, the stop symbol determination process for suggesting hiding is executed (step SC812). In the stopping symbol determination process for suggesting lurking, combinations of lurking symbols ("5, 6, 7", "6, 7, 8", "7, 8, 9"). In this case, if this time is the first time saving result, select the first latency occurrence pattern combination ("5, 6, 7"), and if this time is the second time saving result, select the second latency occurrence pattern combination (" 6, 7, 8"), and if this time is the third time saving result, the third latency occurrence pattern combination ("7, 8, 9") is selected. In the stopping symbol determination process for suggesting lurking, the effective lines L1 to L5 for stop-displaying the combination of the first to third lurking generating symbols selected as described above are determined by lottery. After that, red is selected as the stop result of the state suggestion area 43 of the pattern display device 41 (step SC813).

When the game round corresponding to the first to third time saving results is started in the time saving states ST1 to ST3A and the current time saving result is invalidated due to the high probability state of the game state, or the current game round ends. When the time saving result of this time is invalidated because all the values of the first to third waiting counters 406 to 408 are 1 or more at time, stop symbol determination processing for non-reach out is executed (step SC806). In the stop symbol determination process for non-reach out, as the stop result to be stopped and displayed in the symbol rows Z1 to Z3 of the symbol display device 41, a combination of symbols corresponding to the jackpot result, a combination of time-saving generating symbols ("1, 2, 3 ”, “2, 3, 4”, “3, 4, 5”), a combination of latent patterns (“5, 6, 7”, “6, 7, 8”, “7, 8, 9”), And the combination of symbols other than the combination of the out reach-out symbols, that is, the non-out-of-reach-out symbols combination is stop-displayed to be determined by lottery. Further, blue is selected as the stop result of the state suggestion area 43 of the pattern display device 41 (step SC807).

Figure 215 is a flow chart showing the processing for shortening working hours executed in step S8308 of the process during special figure determination (Figure 128).

First, it is determined whether or not the high probability flag 321 is set to "1" (step SE901). When "1" is set to the high probability flag 321 (step SE901: YES), the process for shortening working hours is terminated without executing the processes after step SE902.

If the high probability flag 321 is not set to "1" and the value of the time saving target counter 371 is 1 or more (step SE901: NO, step SE902: YES), that is, the first to third time saving state ST1 If any of ~ ST3C, the subtraction process of the time saving state counter 386 (step SE903), the subtraction process of the first standby counter 406 (step SE904), the subtraction process of the second standby counter 407 (step SE905) and the third standby Subtraction processing of counter 408 (step SE906) is executed. In the subtraction process of the time saving state counter 386, the value of the time saving state counter 386 is subtracted by 1. In the subtraction process of the first standby counter 406, 1 is subtracted from the value of the first standby counter 406 on condition that the value of the first standby counter 406 is 1 or more. In the subtraction process of the second standby counter 407, 1 is subtracted from the value of the second standby counter 407 on condition that the value of the second standby counter 407 is 1 or more. In the subtraction process of the third standby counter 408, 1 is subtracted from the value of the third standby counter 408 on condition that the value of the third standby counter 408 is 1 or more.

Here, since the processing of steps SE904 to SE906 is executed in the time saving states ST1 to ST3C, when the third time saving states ST3A to ST3C are latent, 1 in the time saving states ST1 to ST3C that are the target of execution Not only is the value of the time saving state counter 386 decremented by 1 when one game round is executed, but also the values of the waiting counters 406 to 408 corresponding to the third time saving state ST3A to ST3C during latency are decremented by 1. . Therefore, when the third time saving states ST3A to ST3C are latent, the number of remaining continuation times of the time saving states ST1 to ST3C which are the target of execution when one game round is executed is subtracted by 1. Not only, the remaining number of continuations of the latent third time saving state ST3A to ST3C is also subtracted by one.

The first time saving state ST1 has a continuation count of 100 times, the second time saving state ST2 has a continuation count of 150 times, the 3A time saving state ST3A has a continuation count of 50 times, and the 3B time saving state ST3B has a continuation count. is 100 times, and the number of times of continuation of the 3C time saving state ST3C is 130 times, so depending on the timing when the 3rd time saving state ST3A to ST3C latent, when the time saving state ST1 to ST3C to be executed ends, the first The value of the standby counter 406 is 1 or more and the third time saving state ST3A to ST3C following the previous time saving state ST1 to ST3C is executed over the remaining number of continuations stored in the first waiting counter 406 can occur, and the value of the standby counters 406 to 408 becomes "0" in the middle of the time saving states ST1 to ST3C to be executed, and a situation occurs in which the latent third time saving states ST3A to ST3C are terminated without being executed. obtain.

Thereafter, it is determined whether or not a shift opportunity for the standby counters 406 to 408 has occurred (step SE907). Specifically, it is determined whether or not the value of the first standby counter 406, which was 1 or more, has become "0" due to the execution of the process of step SE904. If an affirmative determination is made, shift processing of the standby counters 406 to 408 is executed (step SE908). In this case, after shifting the value of the second standby counter 407 to the first standby counter 406 and shifting the value of the third standby counter 408 to the second standby counter 407, the third standby counter 408 is cleared to "0". . Also, it is determined whether or not the value of the second standby counter 407, which was 1 or more, has become "0" due to the execution of the process of step SE905. If an affirmative determination is made, shift processing of the standby counters 406 to 408 is executed (step SE908). In this case, after shifting the value of the third standby counter 408 to the second standby counter 407, the third standby counter 408 is cleared to "0".

When a negative determination is made in step SE907 or when the processing of step SE908 is executed, by determining whether the value of the time saving state counter 386 is "0", the time saving state ST1 to ST3C to be executed ends It is determined whether or not it has been completed (step SE909). When the value of the time saving state counter 386 is "0" (step SE909: YES), it is determined whether the value of the first standby counter 406 is 1 or more (step SE910).

If an affirmative determination is made in step SE910, it means that the third time-saving state ST3A to ST3C during latency exists. In this case, setting processing to the time saving state counter 386 is first executed (step SE911). In setting processing to the time saving state counter 386 , the value of the first standby counter 406 is set to the time saving state counter 386 . Then, the setting process of the time reduction object counter 371 is performed (step SE912). In the process of setting the time saving target counter 371, the time saving target counter 371 is set to "3" corresponding to the third time saving states ST3A to ST3C. As a result, the third time saving states ST3A to ST3C are to be executed. In addition, the third time saving state ST3A to ST3C, which is the execution target, is executed over the number of continuations corresponding to the value set in the time saving state counter 386 in step SE911. After that, shift processing of the standby counters 406 to 408 is executed (step SE913). In the shift processing, the value of the second standby counter 407 is shifted to the first standby counter 406, and after shifting the value of the third standby counter 408 to the second standby counter 407, the third standby counter 408 is set to "0". clear.

After that, it transmits to the sound and light side MPU 93 a state designation command indicating that the third time-saving state ST3A to ST3C, which was in hiding, has started (step SE916). When the sound and light side MPU 93 receives the state designation command, the time saving state ST1 to ST3C that was the object of execution is completed, and the latent third time saving state ST3A to ST3C is started. Processing is executed to be executed by the display device 41, the display light emitting unit 64, and the speaker unit 65. FIG. Also, the time saving continuation counter 375 is cleared to "0" (step SE917). Since the time saving continuation counter 375 is cleared to "0", the determination mode of the variable display period of the game times in the third time saving state ST3A to ST3C returns to the determination mode when the third time saving state ST3A to ST3C is newly started. It will be.

If a negative determination is made in step SE910, the time reduction target counter 371 is cleared to "0" (step SE914). As a result, the game state becomes the normal game state. In addition, the outer end flag at the end of the time saving in the main side RAM84 is set to "1" (step SE915), and the state designation command indicating that the time saving state ST1 to ST3C has ended and the normal game state has been transferred It is transmitted to the MPU 93 (step SE916), and the time saving continuation counter 375 is cleared to "0" (step SE917).

According to the embodiment detailed above, the following excellent effects are obtained.

The main side RAM84 is provided with a first waiting counter 406, a second waiting counter 407 and a third waiting counter 408, and the game times corresponding to the first to third time saving results are executed in the time saving states ST1 to ST3C. In that case, the information of the number of times of continuation of the third time saving state ST3A to ST3C corresponding to the time saving result is stored in the order of the first waiting counter 406 → second waiting counter 407 → third waiting counter 408 . As a result, regardless of whether or not the same type of third time saving states ST3A to ST3C are already latent, a plurality of third time saving states ST3A to ST3C are latent according to the order of occurrence of time saving results. Thereby, it is possible to diversify the combination of the third time saving states ST3A to ST3C that are latent targets when the plurality of third time saving states ST3A to ST3C are latent at the same time.

A game cycle corresponding to the first to third time saving results is executed in a situation where information on the remaining number of continuations of the third time saving states ST3A to ST3C is set in all of the first to third waiting counters 406 to 408. In that case, the time saving result is invalidated. This makes it possible to simplify the processing configuration in a configuration in which a plurality of third time-saving states ST3A to ST3C can be latent at the same time.

If a plurality of third time-saving states ST3A-ST3C are latent when the time-saving states ST1-ST3C to be executed are completed, the third time-saving states ST3A-ST3C in which the latency occurs early are set to be executed first. be done. As a result, it becomes possible to target the third time-saving states ST3A to ST3C during latency according to the order in which latency occurred.

<Another form of the twenty-ninth embodiment>
(1) FIG. 216 is a flow chart showing another form of setting processing for time saving results in the twenty-ninth embodiment. In steps SF101 to SF111, the same processes as steps SE801 to SE811 in the time saving result setting process (FIG. 214) in the twenty-ninth embodiment are executed. Further, in steps SF112 to SF120, the same processes as steps SE812 to SE820 in the time saving result setting process (FIG. 214) in the twenty-ninth embodiment are executed.

When the game round corresponding to one of the first to third time saving results is executed during the execution of the time saving states ST1 to ST3C, all values of the first to third waiting counters 406 to 408 are 1 or more (step SF118: YES), shift processing of the standby counters 406 to 408 is executed (step SF121). In the shift processing, the value of the second standby counter 407 is shifted to the first standby counter 406, and after shifting the value of the third standby counter 408 to the second standby counter 407, the third standby counter 408 is set to "0". clear.

After that, the number of continuations of the third time saving states ST3A to ST3C corresponding to this time saving result is set in the third standby counter 408 (step SF122). Specifically, if it is the first time saving result, "50" corresponding to the 3A time saving state ST3A is set to the third waiting counter 408, and if it is the second time saving result, "100" corresponding to the 3B time saving state ST3B is set to the third waiting counter 408, and if the result is the third time saving result, "130" corresponding to the third C time saving state ST3C is set to the third waiting counter 408.

After that, a state specifying command indicating that the latency of the third time saving state ST3A to ST3C has occurred is transmitted to the sound and light side MPU 93 (step SF123). When the sound and light side MPU 93 receives the state designation command, the effect indicating that the latency of the third time saving state ST3A to ST3C has occurred and the effect indicating the type of the third time saving state ST3A to ST3C that is the target of hiding is a pattern. Processing is executed so as to be executed by the display device 41, the display light emitting unit 64, and the speaker unit 65. FIG. As a result, the player can recognize that the third time-saving states ST3A to ST3C are hidden, although they are not targets for execution.

According to the above configuration, when the game round corresponding to one of the first to third time saving results is executed during the execution of the time saving state ST1 to ST3C, all of the first to third waiting counters 406 to 408 If the value of is 1 or more, the third time saving state ST3A ~ ST3C that was the target of latent first is invalidated, and the third time saving state ST3A ~ ST3C corresponding to this time saving result is the last execution order It becomes a latent target so that it becomes. As a result, it is possible to increase the frequency with which the third time saving state ST3A to ST3C is set as a latent target with the time saving result as a trigger.

(2) FIG. 217 is a flow chart showing another form of setting processing for time saving results in the twenty-ninth embodiment. In steps SF201 to SF211, the same processes as steps SE801 to SE811 in the time saving result setting process (FIG. 214) in the twenty-ninth embodiment are executed.

If the value of the time saving target counter 371 is 1 or more (step SF203: YES), if the value of the third waiting counter 408 is "0" (step SF212: NO), the setting process to the waiting counters 406 to 408 Execute (step SF213). In the process of setting the waiting counters 406 to 408, if the value of the first waiting counter 406 is "0", the number of continuations of the third time saving state ST3A to ST3C corresponding to the time saving result of this time is set to the first waiting counter 406. Then, if the value of the first waiting counter 406 is 1 or more and the value of the second waiting counter 407 is "0", the number of continuations of the third time saving state ST3A to ST3C corresponding to the time saving result of this time is set to the second waiting Set to the counter 407, if the value of each of the first standby counter 406 and the second standby counter 407 is 1 or more, the number of continuation of the third time saving state ST3A ~ ST3C corresponding to the time saving result of this time the third waiting counter Set to 408.

After that, a state designation command indicating that the latency of the third time saving state ST3A to ST3C has occurred is transmitted to the sound and light side MPU 93 (step SF214). When the sound and light side MPU 93 receives the state designation command, an effect indicating that the latency of the third time saving state ST3A to ST3C has occurred and an effect indicating the type of the third time saving state ST3A to ST3C that is the target of the latency is a pattern. Processing is executed to be executed by the display device 41, the display light emitting unit 64, and the speaker unit 65. FIG. As a result, the player can recognize that the third time-saving states ST3A to ST3C are hidden, although they are not targets for execution.

If the value of the time saving target counter 371 is 1 or more (step SF203: YES), and if the value of the third waiting counter 408 is 1 or more (step SF212: YES), the 3rd corresponding to this time saving result It is determined whether or not there are standby counters 406 to 408 whose values are smaller than the number of times the 3 o'clock short states ST3A to ST3C have continued (step SE215). When a negative determination is made in step SE215, the setting process for this time saving result is terminated as it is. In this case, the time saving result of this time will be invalidated.

If an affirmative determination is made in step SE215, the number of continuations of the third time saving state ST3A to ST3C corresponding to the time saving result of this time is set to the waiting counters 406 to 409 with the smallest number of continuations among the waiting counters 406 to 409 (step SE216). As a result, instead of the third time saving state ST3A to ST3C with the lowest remaining number of continuations among the plurality of third time saving states ST3A to ST3C during latency, the third time saving state ST3A to ST3C corresponding to the time saving result of this time A new hiding target. In addition, the order of execution of the third time saving states ST3A to ST3C that are the target of this latency is the order of execution of the third time saving states ST3A to ST3C that have been overwritten. . However, it is not limited to this, and the shift processing of the standby counters 406 to 408 is executed so that the order to be executed in the third time saving state ST3A to ST3C that is the target of this latency is the last order. It is good also as a structure.

After that, a state specifying command indicating that the latency of the third time saving state ST3A to ST3C has occurred is transmitted to the sound and light side MPU 93 (step SF217). When the sound and light side MPU 93 receives the state designation command, an effect indicating that the latency of the third time saving state ST3A to ST3C has occurred and an effect indicating the type of the third time saving state ST3A to ST3C that is the target of the latency is a pattern. Processing is executed so as to be executed by the display device 41, the display light emitting unit 64, and the speaker unit 65. FIG. As a result, the player can recognize that the third time-saving states ST3A to ST3C are hidden, although they are not targets for execution.

According to the above configuration, when the game cycle corresponding to any of the first to third time saving results is executed in a situation where all the values of the waiting counters 406 to 408 are 1 or more, it corresponds to the current time saving result If there is a waiting counter 406-408 that has a value less than the number of continuations of the third time saving state ST3A to ST3C, the remaining continuation of the latent third time saving state ST3A to ST3C Instead of the third time saving state ST3A to ST3C having the lowest number of times, the third time saving state ST3A to ST3C corresponding to the time saving result of this time becomes a new latent target. As a result, it is possible to maximize the remaining number of continuations of the third time-saving states ST3A to ST3C during latency.

(3) FIG. 218 is a flow chart showing another form of the processing for shortening working hours in the twenty-ninth embodiment. In steps SF301 to SF308, the same processes as steps SE901 to SE908 in the time-saving progress process (FIG. 215) in the twenty-ninth embodiment are executed.

When the value of the time saving state counter 386 after 1 subtraction is "0" (step SF309: YES), it is determined whether the value of the 1st waiting counter 406 is 1 or more (step SF310). If an affirmative determination is made in step SF310, it means that the third time-saving state ST3A to ST3C during latency exists. In this case, the standby counters 406 to 408 in which the number of continuations corresponding to the third time saving states ST3A to ST3C with high priority are set are specified (step SF311). Specifically, when the value of only the first waiting counter 406 is 1 or more and the values of the second waiting counter 407 and the third waiting counter 408 are "0", the first waiting counter 406 is specified. Also, if the value of two or more waiting counters 406-408 is 1 or more, grasp the type of the third time saving state ST3A-ST3C that triggered the setting of the number of continuations to those waiting counters 406-408, Identify the standby counters 406 to 408 in which the number of times of continuation of the third time saving state ST3A to ST3C of the type with the highest priority among them is set. In this case, if there is a plurality of waiting counters 406-408 set the number of continuations of the third time saving state ST3A-ST3C of the type with the highest priority, among those waiting counters 406-408 to be executed The waiting counters 406 to 408 that are the first in the order of The priority is the highest in the 3A time saving state ST3A with the lowest number of continuations, the next highest is the 3B time saving state ST3B with the next lowest number of continuations, and the 3C time saving state ST3C with the highest number of continuations is set lowest. However, this order may be reversed and other orders may be used.

It should be noted that, in this another form setting process for the time saving result (Figure 214) when the number of continuation of the third time saving state ST3A ~ ST3C is set to the standby counters 406 ~ 408, the type of the third time saving state ST3A ~ ST3C is shown The information is also set to the standby counters 406 to 408, and when the shift processing of the standby counters 406 to 408 is executed, the type of the third time reduction state ST3A to ST3C that triggered the setting along with the information of the remaining number of continuations information is also shifted.

Then, the setting process to the time saving state counter 386 is performed (step SF312). In the setting process to the time saving state counter 386, the values of the standby counters 406 to 408 specified in step SF311 are set to the time saving state counter 386. Then, the setting process of the time reduction object counter 371 is performed (step SF313). In the process of setting the time saving target counter 371, the time saving target counter 371 is set to "3" corresponding to the third time saving states ST3A to ST3C. As a result, the third time saving states ST3A to ST3C are to be executed. In addition, the third time saving state ST3A to ST3C, which is the execution target, is executed over the number of continuations corresponding to the value set in the time saving state counter 386 in step SF312. After that, shift processing of the standby counters 406 to 408 is executed (step SF314). In the shift process, when the first standby counter 406 is identified in step SF311, the value of the second standby counter 407 is shifted to the first standby counter 406, and the value of the third standby counter 408 is shifted to the second standby counter 408. After shifting to the standby counter 407, the third standby counter 408 is cleared to "0". , the third standby counter 408 is cleared to "0", and if the third standby counter 408 is specified in step SF311, the third standby counter 408 is cleared to "0".

After that, it transmits to the sound and light side MPU 93 a state designation command indicating that the third time-saving state ST3A to ST3C, which was in hiding, has started (step SF317). When the sound and light side MPU 93 receives the state designation command, the time saving state ST1 to ST3C that was the object of execution is completed, and the latent third time saving state ST3A to ST3C is started. Processing is executed to be executed by the display device 41, the display light emitting unit 64, and the speaker unit 65. FIG. Also, the time saving continuation counter 375 is cleared to "0" (step SF318). Since the time saving continuation counter 375 is cleared to "0", the determination mode of the variable display period of the game times in the third time saving state ST3A to ST3C returns to the determination mode when the third time saving state ST3A to ST3C is newly started. It will be.

When a negative determination is made in step SF310, the time reduction target counter 371 is cleared to "0" (step SF315). As a result, the game state becomes the normal game state. In addition, the outer end flag at the end of the time saving in the main side RAM84 is set to "1" (step SF316), and the state designation command indicating that the time saving state ST1 to ST3C has ended and the normal game state has been transferred is sent to the sound and light side. It transmits to MPU93 (step SF317), and "0" clears the time saving continuation counter 375 (step SF318).

According to the above configuration, it is possible to target the latent third time-saving states ST3A to ST3C according to a predetermined priority.

(4) In this embodiment, the types of support modes are the same as in the twenty-fifth embodiment, low-frequency support mode, first high-frequency support mode, second high-frequency support mode, third high-frequency support mode, and fourth support mode. There are six types, a high frequency support mode and a fifth high frequency support mode (see FIG. 196(a)). The contents of these support modes are the same as those of the twenty-fifth embodiment. In addition, as in the twenty-fifth embodiment, the types of the time saving state are five types: the first time saving state ST1, the second time saving state ST2, the 3A time saving state ST41, the 3B time saving state ST42, and the 3C time saving state ST43. (See FIG. 196(b)). The contents of these time saving states ST1 to ST43 are the same as those of the twenty-fifth embodiment.

When the time saving target counter 371 is "1", it corresponds to the first time saving state ST1 as in the twenty-fifth embodiment, and when the time saving target counter 371 is "2", the twenty-fifth embodiment Similarly, it corresponds to the second time saving state ST2. In addition, when the time saving target counter 371 is "3", it corresponds to the 3A time saving state ST41, and when the time saving target counter 371 is "4", it corresponds to the 3B time saving state ST42, and the time saving target When the counter 371 is "5", it corresponds to the 3rd C time saving state ST43.

In this another form, when setting the number of times of continuation of the third time saving state ST41 to ST43 to the standby counters 406 to 408 in the setting process for the time saving result (FIG. 214), information indicating the type of the third time saving state ST41 to ST43 Along with being set in the standby counters 406 to 408, when the shift processing of the standby counters 406 to 408 is executed, along with the information of the remaining number of continuations, the information of the type of the third time reduction state ST41 to ST43 that triggered the setting is also shifted.

FIG. 219 is a flowchart showing another form of setting processing for time saving results in the twenty-ninth embodiment. In steps SE414 to SE422, the same processes as steps SE812 to SE820 in the time saving result setting process (FIG. 214) in the twenty-ninth embodiment are executed.

If the game result of the current game round is one of the first to third time saving results (step SF401: YES), it is determined whether or not "1" is set to the high probability flag 321 (step SF402) . And when "1" is set to the high probability flag 321 (step SF402: YES), the setting process for this time saving result is complete|finished, without performing the process after step SF403. In other words, even if the time saving result is selected in the winning/failure determination process of the game round executed in a high probability state, the setting of the third time saving state ST41 to ST43 triggered by the time saving result is not performed. Time-saving results are nullified.

If "1" is not set to the high probability flag 321 (step SF402: NO), by determining whether the value of the time reduction target counter 371 is 1 or more, the current game state is the first to the It is determined whether or not it is in one of the 3 o'clock reduction states ST1 to ST43 (step SF403). When the value of the time saving target counter 371 is "0" (step SF403: NO), that is, when the game state is the normal game state, "1" is set to the outer end flag at the time of time saving occurrence in the main RAM 84 ( step SF404). When "1" is set to the outer end flag at the time of time saving occurrence, the output state of the second jackpot signal is turned ON to the outer end terminal 333 for the second jackpot signal as in the fifteenth embodiment. A process for making the signal HI level is executed for a continuous period, and a process for making the output state of the advantageous state signal HI level to the outer terminal 334 for the advantageous state signal is executed.

After that, if the game result of the current game round is the first time saving result (step SF405: YES), the time saving target counter 371 is set to "3" and the time saving continuation counter 375 is cleared to "0" (step SF406). , "50" is set in the time saving state counter 386 (step SF407). As a result, the game state shifts from the normal game state to the 3A time saving state ST41. Also, if the game result of the current game round is the second time saving result (step SF408: YES), the time saving object counter 371 is set to "4" and the time saving continuation counter 375 is cleared to "0" (step SF409). , "100" is set in the time saving state counter 386 (step SF410). As a result, the game state shifts from the normal game state to the 3B time saving state ST42. Also, if the game result of the current game round is the third time saving result (step SF408: NO), the time saving object counter 371 is set to "5" and the time saving continuation counter 375 is cleared to "0" (step SF411). , "130" is set in the time saving state counter 386 (step SF412). As a result, the game state shifts from the normal game state to the 3C time saving state ST43.

When the processing of step SF407, step SF410 or step SF412 is executed, a state designation command indicating that the normal game state has shifted to the third time saving state ST41 to ST43 is transmitted to the sound and light side MPU 93 (step SF413). When the sound and light side MPU 93 receives the state designation command, the pattern display device 41 shows an effect indicating that the normal game state has shifted to the third time saving state ST41 to ST43 and the type of the third time saving state ST41 to ST43. , the display light emitting unit 64 and the speaker unit 65 execute processing.

In addition, in the setting process of the time saving target counter 371 in step SE912 in the time saving progressing process (FIG. 215), when the 3A time saving state ST3A is executed from the latent, the time saving target counter 371 is set to "3". , When the 3B time saving state ST3B becomes an execution object from latent, "4" is set to the time saving object counter 371, and when the 3C time saving state ST3C becomes an object from being latent, the time saving object counter 371 is set to "5".

According to the above configuration, the plurality of types of third time-saving states ST41 to ST43 differ not only in the number of times of continuation, which is the termination condition, but also in the support mode. This makes it possible to diversify the third time saving states ST41 to ST43.

(5) The number of waiting counters 406-408 is not limited to three, and may be two, four, five, six or more. may

(6) When the game round corresponding to the first to third time saving results is executed in a situation where all of the waiting counters 406 to 408 are 1 or more, the third time saving corresponding to the first to third time saving results If there are waiting counters 406 to 408 in which the values corresponding to the third time saving states ST3A to ST3C of lower priority than the priority of the states ST3A to ST3C exist, the third time saving of the lowest priority The number of continuations of the third time saving states ST3A to ST3C corresponding to the time saving results generated this time may be set in the standby counters 406 to 408 in which the values corresponding to the states ST3A to ST3C are set.

(7) All of the 3A time saving state ST3A, the 3B time saving state ST3B and the 3C time saving state ST3C are not limited to latent configurations, and the 3A time saving state ST3A, the 3B time saving state ST3B and the 3C Although part of the time saving state ST3C can be latent, the rest of the 3A time saving state ST3A, the 3B time saving state ST3B and the 3C time saving state ST3C may not be latent. In this case, when the game round corresponding to the first to third time saving results is executed in the time saving state ST1 to ST3C, depending on the type of the time saving result, the third time saving state ST3A to ST3C latents, and the type of the time saving result Depending on the situation, its occurrence will be nullified.

(8) The number of times the 3A time saving state ST3A continues is less than the number of times the first time saving state ST1 continues, the number of times the 3B time saving state ST3B continues is the same as the number of times the first time saving state ST1 continues, and the 3C time saving state The number of continuations of ST3C is greater than the number of continuations of the first time reduction state ST1 and less than the number of continuations of the second time reduction state ST2, but the number of continuations of these third time reduction states ST3A to ST3C is arbitrary. For example, the number of continuations of all the 3A time saving state ST3A, the 3B time saving state ST3B and the 3C time saving state ST3C may be less than the number of times the first time saving state ST1 continues, and the number of times the first time saving state ST1 continues. It is good also as a structure less than the continuation frequency|count of 2nd time saving state ST2 more than more, and it is good also as a structure more than the continuation frequency|count of 2nd time saving state ST2. Further, part of the third time saving states ST3A to ST3C may be configured such that the number of times of continuation is equal to or greater than the number of times of continuation of the second time saving state ST2.

(9) When the game round corresponding to the first to third time saving results is executed in the third time saving state ST3A to ST3C, the corresponding third time saving state ST3A to ST3C is latent. When the game cycle corresponding to the first to third time saving results is executed in the time saving states ST3A to ST3C, the third time saving states ST3A to ST3C corresponding to the time saving results may be newly started. When the game rounds corresponding to the first to third time saving results are executed in the three time saving states ST3A to ST3C, the occurrence of the time saving result may be invalidated.

<Thirtieth Embodiment>
In this embodiment, conditions for ending the time saving states ST1 to ST3 are different from those in the nineteenth embodiment. The configuration different from that of the nineteenth embodiment will be described below. The description of the same configuration as that of the nineteenth embodiment is basically omitted.

FIG. 220(a) is an explanatory diagram for explaining the content of the support mode in this embodiment.

In this embodiment, as in the twenty-fifth embodiment, the normal pattern fluctuation period, which is the duration of the fluctuation display in which the variable display of the pattern is executed in the normal pattern display unit 38a, is changed so that the period is different. There are term, medium term and short term. The long term is 10 seconds, the medium term is 5 seconds and the short term is 1 second. Since the shorter the period, the shorter the shortest period between one electric power open state and the next electric power open state, in a situation where game balls are continued to be shot in a similar manner to the game area. When compared, the frequency with which the universal electrical accessory 34a of the second operating port 34 is in the open state per unit time is relatively high.

In this embodiment, as in the twenty-fifth embodiment, as the execution mode of the general electricity open state, a high expectation mode and a medium expectation degree mode are selected so that the degree of expectation of the game ball entering the general electricity role 34a is different. and a low-expectation mode. In the low-expectation mode, the short opening of the universal electrical accessory 34a occurs once. The duration of the short opening is 0.7 seconds. As in the first embodiment, the shooting cycle of the game ball is 0.6 seconds. Even if the ball is basically generated without being generated, the number of hit balls is about one. The general electric open state also ends when the number of game balls entering the second operating port 34 reaches 10, which is the upper limit number of the general electric side, but when short open occurs once As described above, even if a game ball enters the second operating port 34, it is about one, so the upper limit number of game balls on the power supply side will not enter the second operating port 34.

In the middle expectation mode, the long opening of the universal electrical accessory 34a occurs twice. The duration of the long open is 2 seconds. Since the game ball shooting cycle is 0.6 seconds, about three game balls can enter the second operation opening 34 when the general electric accessory 34a is opened once for a long time. Then, in the normal/commercial power open state of the middle expectation mode, the long open occurs twice with an interval period (specifically, 1 second) on the common/commercial power side in which the second operating port 34 is in the closed state. Therefore, about six game balls can be entered into the second operation opening 34 when the general electric open state of the middle expectation mode occurs. As described above, the general electric open state ends even when the number of game balls entering the second operation port 34 reaches 10, which is the upper limit number on the general electric side, but the long open occurs twice. In this case, even if game balls enter the second operating port 34 as described above, it is about 6, so the upper limit number of game balls on the power supply side will enter the second operating port 34. no.

In the high expectation mode, the long opening of the general electric accessory 34a occurs three times. The duration of the long open is 2 seconds. Since the game ball shooting cycle is 0.6 seconds, about three game balls can enter the second operation opening 34 when the general electric accessory 34a is opened once for a long time. Then, in the general electric open state of the high expectation mode, the long opening occurs three times with an interval period (specifically, 1 second) on the general electric side in which the second operating port 34 is in the closed state. Therefore, when the general electric open state of the high expectation mode occurs, about nine game balls can enter the second operation opening 34 . In addition, as described above, the general electric open state ends when the number of game balls entering the second operation port 34 reaches 10, which is the upper limit number of the general electric side. When the open state occurs, the event that the general electric open state ends can occur when the upper limit number of game balls on the general electric side enter the second operation opening 34 .

As described above, in the configuration in which the determination mode of the normal map propriety determination process, the normal map fluctuation period in the normal map display unit 38a, and the execution mode of the normal open state are set, the low frequency support mode as the support mode, the first A high frequency support mode, a second high frequency support mode and a medium frequency support mode are set. In the low-frequency support mode, the judgment mode of the general pattern correctness judgment process is the low probability mode on the general pattern side, the fluctuation period of the general pattern is long, and the execution mode of the general pattern open state is low expectation that short opening occurs once degree mode. In the first high-frequency support mode, the judgment mode of the general pattern correctness judgment process is the high probability mode on the general pattern side, the fluctuation period of the general pattern is short, and the execution mode of the general pattern open state is long open 3 times High expectations mode. In the second high-frequency support mode, the judgment mode of the general pattern correctness determination process is the low probability mode on the general pattern side, the fluctuation period of the general pattern is short, and the execution mode of the general pattern open state is long open 3 times High expectations mode. In the medium frequency support mode, the judgment mode of the general pattern correctness determination process is the low probability mode on the general pattern side, the fluctuation period of the general pattern is the medium period, and the execution mode of the general pattern open state is expected to occur twice long open. degree mode.

Expectation of the rate at which the general electrical accessory 34a of the second operation port 34 is in the open state per unit time when the game ball is continued to be shot in the same manner so as to generate a prize to the through gate 35. The degree is the highest in the first high-frequency support mode, the second highest in the second high-frequency support mode, the second highest in the medium-frequency support mode, and the lowest in the low-frequency support mode. In addition, in the low frequency support mode, since the execution mode of the normal electric open state becomes the low expectation mode, in the case of the low frequency support mode, although the game ball hardly enters the second operation port 34 On the other hand, in the first and second high-frequency support modes and the medium-frequency support mode, the execution mode of the electric power disconnection state is the high-expectation mode or the medium-expectation mode. In the case of the frequency support mode, it can be expected that the number of game balls entering the second operation port 34 is the upper limit number or more of the second reservation information in the second special figure reservation area 112 .

FIG. 220(b) is an explanatory diagram for explaining the contents of the time saving state set in the present embodiment.

Even in this embodiment, as in the nineteenth embodiment, the game state includes a normal game state, a high probability state, a first time saving state ST1, a second time saving state ST2, and a third time saving state ST5. exists. The contents of the normal game state, the high probability state, the first time saving state ST1 and the second time saving state ST2 are the same as those in the nineteenth embodiment. The third time-saving state ST5 occurs when the game cycle corresponding to the time-saving result is executed, and the support mode becomes the medium-frequency support mode. In addition, the third time-saving state ST5 ends when the opening/closing execution mode occurs as a result of a big win, and when 5 small win results occur without a big win result or 30 game rounds are completed. exit if The content of the small winning result is the same as that of the seventeenth embodiment.

FIG. 221 is an explanatory diagram for explaining the storage area of the main side RAM 84 used for controlling the game state.

The main side RAM84 is provided with a high probability flag 321, a ceiling counter 325, a time saving target counter 371, a first time saving state counter 372 and a second time saving state counter 373 as in the nineteenth embodiment. In addition, instead of the third time saving state counter 374 , the main side RAM 84 is provided with a third time saving small winning number counter 411 and a third time saving game number counter 412 . Note that the main RAM 84 is provided with a high-probability state counter in the same manner as in the first embodiment in order to count the remaining number of continuations in the high-probability state.

The third time-saving small hit number counter 411 is a counter for measuring the number of occurrences of the remaining small winning results in the third time-saving state ST5 by the main side MPU 82, and the third time-saving game number counter 412 is the third time-saving state ST5. is a counter for measuring the remaining number of continuations in the main MPU 82. If the opening and closing execution mode triggered by the 5R low probability result ends, in special electric end processing (Fig. 166), set "100" to the first time saving state counter 372 in step SA908, the second time saving state counter 373, The third time-shortening small hit number counter 411 and the third time-shortening game number counter 412 are cleared to "0".

Figure 222 is a flow chart showing the subtraction process of the ceiling counter 325 executed in step S8310 of the process during special figure determination (Figure 128).

If the high probability flag 321 is set to "1" (step SF501: YES), that is, if the high probability state is set, the subtraction process of the ceiling counter 325 is terminated without executing the processes after step SF502. If "1" is not set to the high probability flag 321 (step SF501: NO), that is, the game state is either the normal game state, the first time saving state ST1, the second time saving state ST2 and the third time saving state ST5 If there is, on condition that the value of the ceiling counter 325 is 1 or more (step SF502: YES), the value of the ceiling counter 325 is subtracted by 1 (step SF503). Then, when the value of the ceiling counter 325 after the subtraction of 1 is "0" (step SF504: YES), by determining whether the value of the time saving target counter 371 is "3", the third time saving It is determined whether or not the state is ST5 (step SF505). It should be noted that, like the 19th embodiment, the ceiling number of games is not completed in the middle of the first time saving state ST1.

When it is not the third time saving state ST5 (step SF505: NO), "2" is set to the time saving target counter 371 (step SF506), and "1" is set to the outer end flag at the time of time saving occurrence in the main side RAM84. (Step SF507). Moreover, "150" which is the continuation frequency|count of 2nd time saving state ST2 is set to the 2nd time saving state counter 373 (step SF508). Thereby, it is in the second time saving state ST2 which is the low probability mode and the second high frequency support mode. After that, a state designation command indicating that the second time saving state ST2 has started is transmitted to the sound and light side MPU 93 (step SF509).

On the other hand, if it is the third time saving state ST5 (step ST505: YES), without executing the processing of step ST506 and step SF507, the second time saving state counter 373 is the number of continuations of the second time saving state ST2 "150" is set (step SF508). As a result, the second time saving state ST2 is latent in the situation where the third time saving state ST5 is to be executed. That is, in this embodiment, the execution priority of the third time saving state ST3 is set higher than that of the second time saving state ST2. After that, a state designation command indicating that the second time saving state ST2 has been latent is transmitted to the sound and light side MPU 93 (step SF509).

Figure 223 is the flowchart which shows the setting processing for the time saving result which is executed in step S8309 of processing during special figure decision (Figure 128).

If the game result of the current game cycle is a time saving result (step SF601: YES), it is determined whether or not the high probability flag 321 is set to "1" (step SF602). And when "1" is set to the high probability flag 321 (step SF602: YES), the setting process for this time saving result is complete|finished, without performing the process after step SF603. In other words, even if the time saving result is selected in the winning/failure determination process of the game round executed in a high probability state, the setting of the third time saving state ST3 triggered by the time saving result is not performed. is disabled.

If "1" is not set to the high probability flag 321 (step SF602: NO), on condition that the value of the time saving target counter 371 is "0" (step SF603: YES), time saving generation in the main side RAM84 The hour outer end flag is set to "1" (step SF604). That is, when the game round corresponding to the time saving result is executed in a situation that is not the time saving state ST1, ST2, ST5, the outer end flag at the time of time saving occurrence is set to "1", and in the time saving state ST1, ST2, ST5. When the game cycle corresponding to the time saving result is executed in a certain situation, the outer end flag at the time of time saving occurrence is not set to "1". When "1" is set to the outer end flag at the time of time saving occurrence, the output state of the second jackpot signal is turned ON to the outer end terminal 333 for the second jackpot signal as in the fifteenth embodiment. A process for making the signal HI level is executed for a continuous period, and a process for making the output state of the advantageous state signal HI level to the outer terminal 334 for the advantageous state signal is executed.

When negative determination is made in step SF603 or when the process of step SF604 is performed, "3" is set to the time reduction object counter 371 (step SF605). In addition, set "5", which is the number of occurrences of the small hit result in the third time saving state ST5, to the third time saving small hit number counter 411 (step SF606), and further set the third time saving game number counter 412 to the third time saving state ST5 is set to "30" (step SF607). That is, not only in the normal game state, but also in the case of the first time saving state ST1 or even in the case of the second time saving state ST2, when the game round corresponding to the time saving result is executed, the third time saving State ST5 is to be executed. As described above, in the present embodiment, the execution priority of the third time saving state ST3 is set higher than the first time saving state ST1 and the second time saving state ST2.

Even if a time saving result occurs in the first time saving state ST1 and the third time saving state ST5 is to be executed, the first time saving state counter 372 is not cleared to "0", so the third time saving state ST5 is to be executed. In this situation, the first time saving state ST1 becomes a latent state. Also, even if a time saving result occurs in the second time saving state ST2 and the third time saving state ST5 is to be executed, the second time saving state counter 373 is not cleared to "0", so the third time saving state ST5 is executed. 2nd time saving state ST2 will be in the latent state in the situation used as object.

When the time saving result occurs in the third time saving state ST5, the third time saving small hit number counter 411 is reset to "5" which is the number of occurrences of the small hitting result in the third time saving state ST5, and the third "30" which is the continuation frequency of 3rd time saving state ST5 is reset to time saving game frequency counter 412. - 特許庁Thereby, even if the time saving result occurs in the third time saving state ST5, it is possible to prevent the time saving result from being invalidated.

After that, when a time saving result occurs in a game state that is not the third time saving state ST5, a state designation command indicating that the state has shifted to the third time saving state ST5 is transmitted to the sound and light side MPU 93, and time saving is performed in the third time saving state ST5. When the result occurs, a state designation command indicating that the third time saving state ST5 has been reset is transmitted to the sound and light side MPU 93 (step SF608). When the sound and light side MPU 93 receives the state designation command, in the former case, the design display device 41, the display light emitting unit 64 and the speaker unit 65 perform an effect indicating that the state has shifted to the third time saving state ST5. In the latter case, the pattern display device 41, the display light emitting unit 64, and the speaker unit 65 perform the effect indicating that the third time saving state ST5 has been reset. take action to ensure that

In addition, in the present embodiment, when the game round corresponding to the time saving result is executed in the game state other than the high probability state, the transition to the third time saving state ST5 or the resetting of the third time saving state ST5 occurs. , When the game round corresponding to the time saving result is executed in the game state other than the high probability state, the stop symbol decision processing for suggesting time saving is executed in the determination processing of the variation pattern (FIG. 169) (step SB309). In the stopping symbol determination process for suggesting time saving, a combination of time saving generating symbols (“1, 2, 3”) is selected as the stop result to be stopped and displayed in the symbol rows Z1 to Z3 of the symbol display device 41 . In addition, in the stopping symbol determination process for suggesting time saving, the effective lines L1 to L5 for stop-displaying combinations of time saving generating symbols are determined by lottery. Also, red is selected as the stop result of the state suggestion area 43 of the pattern display device 41 (step SB310).

On the other hand, if the game round corresponding to the time saving result is executed in the high probability state, the time saving result is invalidated, so if the game round corresponding to the time saving result is executed in the high probability state, the variation pattern In the determination process (FIG. 169), stop symbol determination process for non-reach out is executed (step SB306). In the stop symbol determination process for non-reach out, as the stop result to be stopped and displayed in the symbol rows Z1 to Z3 of the symbol display device 41, a combination of symbols corresponding to the jackpot result, a combination of time-saving generating symbols ("1, 2, 3 ”), and a combination of non-reach out-of-reach symbols, which is a combination of symbols other than the out-of-reach out-of-reach symbols combination, is stopped and displayed. Also, blue is selected as the stop result of the state suggestion area 43 of the pattern display device 41 (step SB307).

Figure 224 is a flow chart showing the time saving progress process executed in step S8308 of the special figure finalizing process (Figure 128).

First, it is determined whether or not the high probability flag 321 is set to "1" (step SF701). When "1" is set to the high probability flag 321 (step SF701: YES), the processing for shortening working hours is ended without executing the processing after step SF702.

If the high probability flag 321 is not set to "1" and the value of the time saving target counter 371 is 1 or more (step SF701: NO, step SF702: YES), that is, the first to third time saving state ST1 , If either ST2 or ST5, subtraction processing of the first time saving state counter 372 (step SF703), subtraction processing of the second time saving state counter 373 (step SF704), and subtraction processing of the third time saving game number counter 412 (Step SF705) is executed. In the subtraction process of the first time saving state counter 372, 1 is subtracted from the value of the first time saving state counter 372 on condition that the value of the first time saving state counter 372 is 1 or more. In the subtraction process of the second time saving state counter 373, 1 is subtracted from the value of the second time saving state counter 373 on condition that the value of the second time saving state counter 373 is 1 or more. In the subtraction process of the third time saving game number counter 412, 1 is subtracted from the value of the third time saving game number counter 412 on condition that the value of the third time saving game number counter 412 is 1 or more. After that, on the condition that a small hit result occurs in the current game round (step SF706: YES), the value of the third time-saving small hit number counter 411 is subtracted by 1 (step SF707).

Here, since the processing of steps SF703 to step SF705 is executed regardless of the type of the current time saving state ST1, ST2, and ST5, when one game round is executed in the third time saving state ST5, the third time saving Not only the value of the game number counter 412 is subtracted by 1, but if the value of the first time saving state counter 372 is 1 or more, the value of the first time saving state counter 372 is subtracted by 1, and the value of the second time saving state counter 373 If the value is 1 or more, the value of the second time saving state counter 373 is subtracted by 1. Therefore, when the first time saving state ST1 or the second time saving state ST2 is latent in the third time saving state ST5, the third time saving state ST3 which is to be executed when one game round is executed Not only the remaining number of continuations is subtracted by 1, but also the remaining number of continuations of the latent first time saving state ST1 or second time saving state ST2 is subtracted by 1. In this case, the value of the first time saving state counter 372 or the second time saving state counter 373 becomes "0" in the middle of the third time saving state ST5 which is the target of execution, and the first time saving state ST1 or the second time saving state ST2 is latent. Circumstances can arise where the

When a negative determination is made in step SF706 or when the processing of step SF707 is executed, by determining whether the value of the time reduction target counter 371 is "1", whether it is the first time reduction state ST1 is determined (step SF708). If it is the first time saving state ST1 (step SF708: YES), by determining whether the value of the first time saving state counter 372 is "0", the game times of the number of continuations in the first time saving state ST1 It is determined whether or not digestion is completed (step SF709). When a positive determination is made in step SF709, the time saving target counter 371 is cleared to "0" (step SF711). As a result, the game state becomes the normal game state. In addition, the outer end flag at the end of the time saving in the main RAM 84 is set to "1" (step SF711), and the state designation command indicating that the first time saving state ST1 has ended and the normal game state has been transferred to the sound and light side It is transmitted to the MPU 93 (step SF712).

When the value of the time saving target counter 371 is "2" (step SF713: YES), that is, when it is the second time saving state ST2, it is determined whether the value of the second time saving state counter 373 is "0" By doing so, it is determined whether or not digestion of the game times of the number of continuations in the second time saving state ST2 has been completed (step SF714). When a positive determination is made in step SF714, the time saving target counter 371 is cleared to "0" (step SF715). As a result, the game state becomes the normal game state. In addition, the outer end flag at the end of time saving in the main side RAM 84 is set to "1" (step SF716), and the state designation command indicating that the second time saving state ST2 has ended and the normal game state has been transferred It is transmitted to the MPU 93 (step SF717).

If the value of the time saving target counter 371 is "3" (step SF713: NO), that is, if it is the third time saving state ST3, either the third time saving small per number counter 411 and the third time saving game number counter 412 By determining whether or not it is "0", it is determined whether or not the end condition of the third time saving state ST5 is satisfied (step SF718). If the end condition of the third time saving state ST5 is satisfied (step SF718: YES), by determining whether the value of the first time saving state counter 372 is 1 or more, the first time saving state ST1 is latent It is determined whether or not it is in the middle (step SF719). When an affirmative determination is made in step SF719, "1" is set to the time reduction object counter 371 (step SF720). Thereby, 1st time saving state ST1 which was latent object becomes an execution object. Moreover, the said 1st time saving state ST1 is performed over the remaining continuation frequency|count currently memorize|stored in the 1st time saving state counter 372. FIG.

Then, the state specification command which shows that the 1st time saving state ST1 which was latent object became the object of execution is transmitted to sound light side MPU93 (step SF725). When the sound and light side MPU 93 receives the state designation command, the third time saving state ST5 is preferentially executed due to the occurrence of the time saving result in the middle of the execution target. A process for causing the symbol display device 41, the display light-emitting section 64 and the speaker section 65 to perform an effect indicating that ST1 is to be executed again is executed.

If a negative determination is made in step SF719, it is determined whether the second time saving state ST2 is in hiding by determining whether the value of the second time saving state counter 373 is 1 or more (step SF721). When affirmative determination is made in step SF721, "2" is set to the time reduction object counter 371 (step SF722). Thereby, 2nd time saving state ST2 which was latent object becomes execution object. Moreover, the said 2nd time saving state ST2 is performed over the remaining continuation frequency|count currently memorize|stored in the 2nd time saving state counter 373. FIG.

Then, the state specification command which shows that the 2nd time saving state ST2 which was latent object became the object of execution is transmitted to sound light side MPU93 (step SF725). When the sound and light side MPU 93 receives the state designation command, the third time saving state ST5 is preferentially executed due to the occurrence of the time saving result in the middle of the execution target. A process for causing the symbol display device 41, the display light-emitting portion 64 and the speaker portion 65 to perform an effect indicating that ST2 is to be executed again is executed.

When a negative determination is made in step SF721, the time saving target counter 371 is cleared to "0" (step SF723). As a result, the game state becomes the normal game state. In addition, the outer end flag at the end of the time saving in the main RAM 84 is set to "1" (step SF724), and the state designation command indicating that the third time saving state ST5 has ended and the normal game state has been transferred It is transmitted to the MPU 93 (step SF725).

According to the above configuration, when the game round corresponding to the time saving result is executed in the middle of the first time saving state ST1 or the second time saving state ST2, the first time saving state ST1 or the second time saving state which was the execution target ST2 is latent and the third time-saving state ST5 is to be executed. The advantage of the third time saving state ST5 for the player is lower than the first time saving state ST1 and the second time saving state ST2. Therefore, in the situation where the remaining number of continuations in the first time saving state ST1 or the second time saving state ST2 is equal to or greater than the number of continuations of the third time saving state ST5, the player expects that the time saving result will not occur. On the other hand, since the third time saving state ST5 is more advantageous for the player than the normal game state, in the situation where the remaining number of times of continuation in the first time saving state ST1 or the second time saving state ST2 is small, the player generates a time saving result. You will be expected to do so. That is, the situation where the player expects that the time saving result does not occur according to the remaining number of times in the first time saving state ST1 or the second time saving state ST2 and the situation where the player expects that the time saving result occurs It is possible to generate each of them, and it is possible to improve the interest of the game.

When the third time saving state ST5 is executed by executing the game round corresponding to the time saving result in the middle of the first time saving state ST1 or the second time saving state ST2, the first time saving state which was the execution target The state ST1 or the second time saving state ST2 becomes latent once, and after that, when the third time saving state ST5 to be executed ends, the remaining number of continuations of the first time saving state ST1 or the second time saving state ST2 is 1. If it is above, the 1st time-saving state ST1 or 2nd time-saving state ST2 in the latent will be performed again. In this case, the third time saving state ST5 ends when 30 game rounds are completed and also ends when 5 small win results occur, so 5 small win results occur early. Then, the third time saving state ST5 ends before 30 times of game rounds are completed, and the latent first time saving state ST1 or second time saving state ST2 is restarted. Therefore, the player expects that a small winning result occurs in the third time saving state ST5 in which the first time saving state ST1 or the second time saving state ST2 is latent, and it is possible to improve the interest of the game. Become.

<Another form of the thirtieth embodiment>
(1) FIG. 225(a) is an explanatory diagram for explaining another form of the time saving state. In the other form, as the time saving state, the first time saving state ST1 and the second time saving state ST2 are set, and instead of the third time saving state ST5, the 3A time saving state ST61, the 3B time saving state ST62 and the 3C time saving state ST63 is set.

The 3A time saving state ST61 occurs when the game cycle corresponding to the first time saving result is executed as in the 21st embodiment, and the support mode becomes the second high frequency support mode. In addition, the 3A time saving state ST61 ends when the opening/closing execution mode occurs as a result of a big win, and ends when 100 game rounds are completed without a big win result. The 3B time saving state ST62 occurs when the game cycle corresponding to the second time saving result is executed as in the 21st embodiment, and the support mode becomes the second high frequency support mode. In addition, the 3B time saving state ST62 ends when a big win results and the open/close execution mode occurs, and ends when 20 small wins occur without a big win result. The 3C time saving state ST63 occurs when the game cycle corresponding to the 3rd time saving result is executed as in the 21st embodiment, and the support mode becomes the medium frequency support mode. In addition, the 3C time saving state ST63 ends when the opening/closing execution mode occurs as a result of a big win, and when 5 small win results occur without a big win result or when 30 game rounds are completed. exit if

Among the third time saving states ST61 to ST63, the 3B time saving state ST62 is the most advantageous, the 3A time saving state ST61 is the next most advantageous, and the advantage of the 3C time saving state ST63 is the lowest. On the other hand, the priority of the execution target is the highest in the 3C time saving state ST63, the next highest in the 3A time saving state ST61, and the lowest in the 3B time saving state ST62. In addition, in this another form, even if the game round corresponding to one of the first to third time saving results is executed in the first time saving state ST1 or the second time saving state ST2, the third time saving state corresponding to the time saving result ST61 to ST63 are latent, and the first time saving state ST1 or the second time saving state ST2 being executed is maintained as it is as an object to be executed.

Even if the game cycle corresponding to the first time saving result or the second time saving result is executed in the middle of the 3C time saving state ST63, the 3C time saving state ST63 is continued as an execution target, and the 3A corresponding to the time saving result that occurred. The time saving state ST61 or the 3B time saving state ST62 is the latent target. In addition, when the game round corresponding to the third time saving result is executed in the middle of the 3A time saving state ST61 or the 3B time saving state ST62, the 3C time saving state ST63 becomes an execution object, and was an execution object until then. The 3A time saving state ST61 or the 3B time saving state ST62 is the latent target. In these cases, if the 3C time saving state ST63 ends before the end condition of the 3A time saving state ST61 or the 3B time saving state ST62 that is the latent target is satisfied, the 3A time saving that is the latent target Since the state ST61 or the 3B time-saving state ST62 is to be executed, the player expects that the 3C time-saving state ST63, which has a relatively low degree of advantage, ends early.

(2) FIG.225(b) is explanatory drawing for demonstrating another form of a time saving state. In the other form, as the time saving state, the first time saving state ST1 and the second time saving state ST2 are set, and instead of the third time saving state ST5, the 3A time saving state ST71, the 3B time saving state ST72 and the 3C time saving state ST73 is set.

The 3A time saving state ST71 occurs when the game cycle corresponding to the first time saving result is executed as in the 21st embodiment, and the support mode becomes the second high frequency support mode. In addition, the 3A time saving state ST71 ends when the opening/closing execution mode occurs as a result of a big win, and ends when 100 game rounds are completed without a big win result. The 3B time saving state ST72 occurs when the game cycle corresponding to the second time saving result is executed as in the 21st embodiment, and the support mode becomes the medium frequency support mode. In addition, the 3B time saving state ST72 ends when the open/close execution mode occurs as a result of the big win, and ends when the electric open state occurs 20 times without the result of the big win. The 3C time saving state ST73 occurs when the game cycle corresponding to the 3rd time saving result is executed as in the 21st embodiment, and the support mode becomes the medium frequency support mode. In addition, the 3C time saving state ST73 ends when the opening/closing execution mode occurs as a result of a big win, and ends when five small wins occur without a big win result.

Among the third time saving state ST71 to ST73, the 3A time saving state ST71 is the most advantageous, the 3B time saving state ST72 is next advantageous, and the advantage of the 3C time saving state ST73 is the lowest. On the other hand, the priority of the execution target is the highest in the 3C time saving state ST73, the next highest in the 3B time saving state ST72, and the lowest in the 3A time saving state ST71. In addition, in this another form, even if the game round corresponding to one of the first to third time saving results is executed in the first time saving state ST1 or the second time saving state ST2, the third time saving state corresponding to the time saving result ST71 to ST73 are latent, and the first time saving state ST1 or the second time saving state ST2 being executed is maintained as it is as an object to be executed.

Even if the game cycle corresponding to the first time saving result or the second time saving result is executed in the middle of the 3C time saving state ST73, the 3C time saving state ST73 is continued as an execution target, and the 3A corresponding to the time saving result that occurred. The time saving state ST71 or the 3B time saving state ST72 is the latent target. Further, when the game round corresponding to the third time saving result is executed in the middle of the 3A time saving state ST71 or the 3B time saving state ST72, the 3C time saving state ST73 becomes an execution target, and has been an execution target until then. The 3A time saving state ST71 or the 3B time saving state ST72 is the latent target. In these cases, if the 3C time saving state ST73 ends before the end condition of the 3A time saving state ST71 or the 3B time saving state ST72 that is a latent target is satisfied, the 3A time saving that is a latent target Since the state ST71 or the 3B time-saving state ST72 is to be executed, the player expects that the 3C time-saving state ST73, which has a relatively low degree of advantage, ends early.

Even if the game cycle corresponding to the first time saving result is executed in the middle of the 3B time saving state ST72, the 3B time saving state ST72 is continued as an execution object, and the 3A time saving state ST71 corresponding to the time saving result that has occurred is latent. Be eligible. In addition, when the game round corresponding to the second time saving result is executed in the middle of the 3A time saving state ST71, the 3B time saving state ST72 becomes the execution target, and the 3A time saving state ST71 that has been the execution target until then is Subject to hiding. In these cases, if the 3B time saving state ST72 ends before the end condition of the 3A time saving state ST71 that is the target of hiding is satisfied, the 3A time saving state ST71 that is the target of hiding is the execution target. Therefore, the player expects that the 3B time saving state ST72, which has a relatively low advantage, ends early.

<Thirty-first embodiment>
This embodiment differs from the sixth embodiment in that it has a configuration for preventing malfunction of the special electric drive unit 32b, the distribution entrance drive unit 163, and the switching drive unit 167. ing. The configuration different from that of the sixth embodiment will be described below. Note that the description of the same configuration as that of the sixth embodiment is basically omitted.

FIG. 226 is an explanatory diagram for explaining the electrical configuration of the pachinko machine 10 in this embodiment.

As already explained in the first embodiment, the main MPU 82 is mounted on the main control board 81, and the main MPU 82 includes the main ROM 83, the main RAM 84, the interrupt circuit, the timer circuit, the data Input/output circuits, various counter circuits as random number generators, etc. are built in. As shown in FIG. 226, the input/output port 421 is incorporated in the main MPU 82 in this embodiment. The input/output port 421 is an input/output port having a function as an input port and a function as an output port. It is not essential that the main ROM 83 and the main RAM 84 are integrated into one chip for the main MPU 82, and they may be individually chipped.

As already described in the first embodiment, the output side of the main MPU 82 is connected with the special electric drive unit 32b in the special electric prize winning device 32 . The special electric drive unit 32b is a solenoid that opens and closes the open/close door 32a (see FIG. 44) of the special electric prize winning device 32. FIG. The special electric prize winning device 32 is in an open state when the special electric driving unit 32b is in a driven state, and is in a closed state when the special electric electric driving unit 32b is in a non-driving state. Further, as already described in the sixth embodiment, the output side of the main MPU 82 is connected to the distribution entry driving section 163 and the switching driving section 167 in the distribution winning device 161 . A distribution inlet drive unit 163 switches a distribution inlet 161a (see FIG. 44) in the distribution winning device 161 between a closed state in which game balls cannot pass and an open state in which game balls can pass. It is a solenoid that opens and closes the side opening/closing member 162 (see FIG. 44). The distribution side opening/closing member 162 is opened by being driven through a link mechanism (not shown) by the driving section 163 for the distribution entrance. The switching drive unit 167 is a solenoid that displaces the switching piece 166 of the distribution winning device 161 . As already explained in the sixth embodiment, the switching piece 166 is provided at a branch point of the discharge passage area 165b of the prize distribution device 161 to the V winning passage area 165c (see FIG. 46). The switching piece 166 is displaceable between a retracted position where the entirety is retracted outside the discharge passage area 165b and a V-guided position where it protrudes into the discharge passage area 165b. A driving force of a switching driving portion 167 is transmitted to the switching piece 166 through a transmission unit (not shown). When the switching driving portion 167 is in the non-driving state, the switching piece 166 is arranged at the retracted position by the biasing force of a biasing means such as a spring (not shown), and when the switching driving portion 167 is in the driving state, the switching piece 166 is retracted. The switching piece 166 is displaced against the urging force and placed at the V-guiding position.

The input/output port 421 is provided with a 0th terminal NS0, a first terminal NS1 and a second terminal NS2. FIG. 227(a) is an explanatory diagram for explaining the signals output from the 0th to 2nd terminals NS0 to NS2 of the input/output port 421. FIG. As shown in FIG. 227(a), the 0th terminal NS0 is used to output a drive control signal for controlling the drive of the special electric drive unit 32b. In addition, the first terminal NS1 is used to output a drive control signal for controlling the driving of the drive section 163 for sorting entrance, and the second terminal NS2 is used to control the drive of the switching drive section 167. used to output drive control signals for A detailed configuration for performing drive control of the special electric drive unit 32b, the distribution entrance drive unit 163, and the switching drive unit 167 will be described later.

As shown in FIG. 226 , the main control board 81 is provided with a 0th malfunction prevention circuit 422 , a first malfunction prevention circuit 423 and a second malfunction prevention circuit 424 . The 0th malfunction prevention circuit 422 is a circuit for preventing malfunction of the special electric drive unit 32b, and the first malfunction prevention circuit 423 prevents malfunction of the distribution entrance drive unit 163. Second malfunction prevention circuit 424 is a circuit for preventing malfunction of switching drive unit 167 . It should be noted that the malfunctions of these drive units 32b, 163, 167 are operations that are not intended at the design stage. Details of the malfunction prevention circuits 422 to 424 will be described later.

As shown in FIG. 226, the main MPU 82 is provided with a control register 425 , an output data register 426 and an input data register 427 . 227(b) is an explanatory diagram for explaining the configuration of the control register 425, FIG. 227(c) is an explanatory diagram for explaining the configuration of the output data register 426, and FIG. 227(d) is an explanatory diagram for explaining the configuration of the input FIG. 4 is an explanatory diagram for explaining the configuration of a data register 427; Each of the control register 425, the output data register 426 and the input data register 427 is a 1-byte storage area having 0th to 7th bits. These registers 425 to 427 are storage areas in which data is read by the main MPU 82 and data is written by the main MPU 82 .

227(b) to 227(d), the 0th bit 425a of the control register 425, the 0th bit 426a of the output data register 426, and the 0th bit 427a of the input data register 427 are connected to the input/output port 421. The first bit 425b of the control register 425, the first bit 426b of the output data register 426, and the first bit 427b of the input data register 427 correspond to the first terminal NS0 of the input/output port 421. , and the second bit 425c of the control register 425, the second bit 426c of the output data register 426, and the second bit 427c of the input data register 427 correspond to the second terminal NS2 of the input/output port 421. . The 3rd to 7th bits of the control register 425, the 3rd to 7th bits of the output data register 426, and the 3rd to 7th bits of the input data register 427 are unused. The value is kept at "0".

FIG. 227(e) is an explanatory diagram for explaining the data set in the 0th to 2nd bits 425a to 425c of the control register 425, and FIG. FIG. 227(g) is an explanatory diagram for explaining data set in bits 426a to 426c, and FIG. It is a diagram. The main MPU 82, as shown in FIG. 227(e), sets data indicating the input/output direction at the 0th terminal NS0 to the 0th bit 425a of the control register 425, and sets the input/output direction at the first terminal NS1. Data indicating the direction of input/output at the second terminal NS2 is set in the second bit 425c. The data "0" set in the 0th to 2nd bits 425a to 425c of the control register 425 is data for causing the corresponding terminals NS0 to NS2 to function as output terminals, and the 0th to 2nd bits 425a The data "1" set in .about.425c is data for causing the corresponding terminals NS0 to NS2 to function as input terminals.

When the 0th to 2nd terminals NS0 to NS2 are to function as output terminals, the main MPU 82, as shown in FIG. , data to be output from the first terminal NS1 is set to the first bit 426b, and data to be output from the second terminal NS2 is set to the second bit 426c. When the 0th to 2nd terminals NS0 to NS2 function as input terminals, the data input to the 0th terminal NS0 is stored in the 0th bit 427a of the input data register 427 as shown in FIG. 227(g). Data input to the first terminal NS1 is stored in the first bit 427b, and data input to the second terminal NS2 is stored in the second bit 427c.

As shown in FIG. 226, the main MPU 82 is provided with a port setting circuit 428, and the input/output port 421 has a 0th output data area DA0, a first output data area DA1 and a second output data area DA2. is provided. The port setting circuit 428 is hardware for controlling the input/output port 421 based on the data set in the control register 425 and the output data register 426 without going through the control by the processing executed by the main MPU 82. It is wear. The 0th output data area DA0 is set with data "0" or "1" that determines the state of the drive control signal output from the 0th terminal NS0 when the 0th terminal NS0 functions as an output terminal. The first output data area DA1 is a 1-bit storage area, and the first output data area DA1 is "0" which determines the state of the drive control signal output from the first terminal NS1 when the first terminal NS1 functions as an output terminal. or a 1-bit storage area in which data "1" is set, and the second output data area DA2 is a drive control output from the second terminal NS2 when the second terminal NS2 functions as an output terminal. This is a 1-bit storage area in which data "0" or "1" that determines the state of a signal is set.

When the 0th bit 425a of the control register 425 is set to "0" (data corresponding to output), the port setting circuit 428 sets the 0th bit 426a of the output data register 426 to "0" or Data "1" is set in the 0th output data area DA0. When "0" is set in the 0th output data area DA0, the HI level corresponding to the power supply voltage (specifically, 5V) supplied from the 0th terminal NS0 of the input/output port 421 to the main side MPU 82 When "1" is set in the 0th output data area DA0, a LOW level signal is output from the 0th terminal NS0. When the first bit 425b of the control register 425 is set to "0" (data corresponding to output), the port setting circuit 428 sets the first bit 426b of the output data register 426 to "0" or Data "1" is set in the first output data area DA1. When "0" is set in the first output data area DA1, the HI level corresponding to the power supply voltage (specifically, 5V) supplied from the first terminal NS1 of the input/output port 421 to the main side MPU 82 When "1" is set in the first output data area DA1, a LOW level signal is output from the first terminal NS1. When the second bit 425c of the control register 425 is set to "0" (data corresponding to output), the port setting circuit 428 sets the second bit 426c of the output data register 426 to "0" or Data "1" is set in the second output data area DA2. When "0" is set in the second output data area DA2, the HI level corresponding to the power supply voltage (specifically 5 V) supplied from the second terminal NS2 of the input/output port 421 to the main side MPU 82 When "1" is set in the second output data area DA2, a LOW level signal is output from the second terminal NS2.

The data set in the 0th to 2nd output data areas DA0 to DA2 disappear after being stored and held for a predetermined time (for example, 20 milliseconds). The data set in the 0th to 2nd bits 426a to 426c of the output data register 426 are set in the 0th to 2nd output data areas DA0 to DA2 in a short cycle (for example, a cycle of 2 milliseconds). Therefore, when the 0th bit 425a of the control register 425 is set to "0", the drive control signal output from the 0th terminal NS0 is the data set in the 0th bit 426a of the output data register 426. is maintained in a state corresponding to When the first bit 425b of the control register 425 is set to "0", the drive control signal output from the first terminal NS1 is the data set in the first bit 426b of the output data register 426. The corresponding states are maintained. Furthermore, when the second bit 425c of the control register 425 is set to "0", the drive control signal output from the second terminal NS2 is the data set in the second bit 426c of the output data register 426. is maintained in a state corresponding to

When rewriting the data of one of the 0th to 2nd bits 426a to 426c in the output data register 426, the main MPU 82 grasps the 1-byte data stored in the output data register 426 before rewriting, After-change data is generated by changing only the bit data to be rewritten out of the grasped 1-byte data. Then, the post-change data is written to the output data register 426 . As a result, only the data of the bit to be rewritten is rewritten while maintaining the data of the bits other than the bit to be rewritten.

When the 0th bit 425a of the control register 425 is set to "1" (data corresponding to input), the port setting circuit 428 sets "0" corresponding to the LOW level signal input to the 0th terminal NS0. or "1" corresponding to the HI level signal input to the 0th terminal NS0 is stored in the 0th bit 427a of the input data register 427. When the first bit 425b of the control register 425 is set to "1" (data corresponding to input), the port setting circuit 428 responds to the LOW level signal input to the first terminal NS1. The data setting is performed so that the first bit 427b of the input data register 427 stores the data "0" or the data "1" corresponding to the HI level signal input to the first terminal NS1. Furthermore, when the second bit 425c of the control register 425 is set to "1" (data corresponding to input), the port setting circuit 428 corresponds to the LOW level signal input to the second terminal NS2. data “0” or data “1” corresponding to the HI level signal input to the second terminal NS2 is stored in the second bit 427 c of the input data register 427 . These data settings are repeatedly executed at a predetermined cycle (for example, a cycle of 2 milliseconds). The main MPU 82, in a state in which the 0th to 2nd bits 425a to 425c of the control register 425 are set to "1", reads the data stored in the 0th to 2nd bits 427a to 427c of the input data register 427. , the states of the signals input to the 0th to 2nd terminals NS0 to NS2 of the input/output port 421 can be grasped.

As shown in FIG. 226, the main MPU 82 is provided with an external output port 429 . The external output port 429 is an output port for externally outputting signals to the hall computer HC (see FIG. 228) provided outside the pachinko machine 10 . The external output port 429 is provided with a 0th terminal GS0 and a first terminal GS1. As already described in the sixth embodiment, the low-frequency support mode, the first high-frequency support mode, and the second high-frequency support mode are set as the support modes. In this embodiment, the signals output from the pachinko machine 10 to the hall computer HC include an advantageous support mode signal and an opening/closing execution mode signal. The advantageous support mode signal is a signal indicating that the support mode is the first high-frequency support mode or the second high-frequency support mode. Also, the opening/closing execution mode signal is a signal indicating that the opening/closing execution mode is being generated. The 0th terminal GS0 is used to output a 0th setting signal for setting the state of the advantageous support mode signal externally output to the hall computer HC, and the first terminal GS1 is used to externally output the hall computer HC. It is used to output a first setting signal for setting the state of the opening/closing execution mode signal to be output.

As shown in FIG. 226, the main MPU 82 is provided with an external output register 432, and the external output port 429 is provided with a 0th external output area GA0 and a first external output area GA1. The external output register 432 is a storage area in which data is read by the main MPU 82 and data is written by the main MPU 82 . The external output register 432 consists of 1 byte. The main MPU 82 sets the data "0" or "1" output from the 0th terminal GS0 of the external output port 429 to the 0th bit of the external output register 432, and sets the 1st terminal of the external output port 429. The data "0" or "1" output from GS1 is set in the first bit of the external output register 432. The 2nd to 7th bits of the external output register 432 are unused, and the values of the 2nd to 7th bits are "0".

Each of the 0th primary output area GA0 and the 1st primary output area GA1 is a 1-bit storage area. The port setting circuit 428 sets the data set in the 0th bit of the external output register 432 to the 0th external output area GA0 at a predetermined period (specifically, a period of 2 milliseconds), and The data set in the first bit of the register 432 is set in the first external output area GA1. When "0" is set in the 0th external output area GA0, the 0th setting signal output from the 0th terminal GS0 becomes the LOW level corresponding to "0", and the 0th external output area GA0 is set to "1", the 0th setting signal output from the 0th terminal GS0 becomes the HI level corresponding to the "1". Further, when "0" is set in the first external output area GA1, the first setting signal output from the first terminal GS1 becomes the LOW level corresponding to "0", and the first external output When "1" is set in the area GA1, the first setting signal output from the first terminal GS1 becomes HI level corresponding to the "1".

As shown in FIG. 226, the main control board 81 is provided with an external output circuit 431 . The external output circuit 431 is provided so that the advantageous support mode signal and the opening/closing execution mode signal fall from the HI level to the LOW level at the same time when the power failure signal falls from the HI level to the LOW level. hardware. The external output circuit 431 includes the 0th setting signal output from the 0th terminal GS0 of the external output port 429, the first setting signal output from the first terminal GS1, and the power failure signal output from the power failure monitoring board 85. is entered. A detailed configuration for externally outputting the advantageous support mode signal and the opening/closing execution mode signal to the hall computer HC will be described later.

As shown in FIG. 226, an electric path LN11, a signal line LN12 and a signal line LN13 are provided as an electric path electrically connecting the main side MPU 82 and the power failure monitoring board 85. FIG. As already described in the first embodiment, the power failure monitoring board 85 is connected to the power supply/emission control device 78 having the function of supplying operating power. The power outage monitoring board 85 relays the main control board 81 and the power/launch control device 78 . The power supply/emission control device 78 supplies power supply voltage (specifically 5 V) to the main side MPU 82 via the power failure monitoring board 85 . The blackout monitoring board 85 monitors the voltage of DC stable 36V, which is the maximum voltage output from the power supply/launch control device 78 . The electric path LN11 is an electric path for supplying a power supply voltage of 5 V from the power failure monitoring board 85 to the main MPU 82 . The signal line LN12 is a signal line for outputting a power failure signal from the power failure monitoring board 85 to the main side MPU 82, and the signal line LN13 is a signal line for outputting a reset signal from the power failure monitoring board 85 to the main side MPU 82. This is a signal line for output.

When the supply of operating power to the pachinko machine 10 is started, the power failure monitoring board 85 first raises the power failure signal from the LOW level to the HI level, and a predetermined time (specifically, 9 milliseconds), the reset signal is raised from the LOW level to the HI level. The main MPU 82 starts operating when the input reset signal rises from LOW level to HI level. When the supply of operating power to the pachinko machine 10 is stopped and the occurrence of a power failure is identified by the power failure monitoring board 85, the power failure monitoring board 85 first lowers the power failure signal from the HI level to the LOW level, and the power failure signal. The reset signal is lowered from HI level to LOW level after a predetermined time (specifically, 9 milliseconds) has elapsed since the fall. When the power failure signal is raised after the supply of operating power to the pachinko machine 10 is started, the power failure monitoring board 85 does not lower the power failure signal until the occurrence of the power failure is specified. Further, when the supply of operating power to the pachinko machine 10 is started and the reset signal is raised after the power failure signal is raised, the power failure monitoring board 85 identifies the occurrence of the power failure and resets after the power failure signal is lowered. The reset signal is not lowered until the signal is lowered. The main MPU 82 recognizes that a power failure has occurred based on the fact that the power failure signal that has been input falls from the HI level to the LOW level, and executes power failure processing. As already described in the first embodiment, the power failure process is executed in the power failure monitoring process (FIG. 231) in step S201 of the timer interrupt process (FIG. 14). When the reset signal input to the main MPU 82 falls from HI level to LOW level, the operation of the main MPU 82 stops. Details of the power failure signal, reset signal, and power failure monitoring process will be described later.

As shown in FIG. 226, the main control board 81 has a signal line for inputting the reset signal output from the blackout monitoring board 85 to the main side MPU 82 to the 0th to second malfunction prevention circuits 422 to 424. LN14 is formed. The signal line LN14 is formed by branching the signal line LN13 from the power failure monitor board 85 at a midway position on the main control board 81 toward the main side MPU82. Further, as shown in FIG. 226, the main control board 81 is formed with a signal line LN15 for inputting a power failure signal output from the power failure monitoring board 85 to the main MPU 82 to the external output circuit 431. there is The signal line LN15 is formed by branching the signal line LN12 from the power failure monitor board 85 to the main MPU 82 at a midway position on the main control board 81 .

Next, before describing the malfunction prevention circuits 422 to 424 and the external output circuit 431, the electronic components mounted on the main control board 81 will be described. FIG. 228 is a block diagram showing an electrical configuration for performing drive control of the drive section 32b for the special electric, the drive section 163 for the distribution entrance, and the drive section 167 for switching.

As shown in FIG. 228, the main control board 81 is mounted with a first logic IC 433 and a second logic IC 434 . The first logic IC 433 is an electronic component that incorporates five NAND circuits 441 to 445: a 0th NAND circuit 441 , a first NAND circuit 442 , a second NAND circuit 443 , a third NAND circuit 444 and a fourth NAND circuit 445 . In addition, the second logic IC 434 is an electronic component incorporating six NOT circuits 451 to 456: a 0 NOT circuit 451, a first NOT circuit 452, a second NOT circuit 453, a third NOT circuit 454, a fourth NOT circuit 455 and a fifth NOT circuit 456. is.

Each of the NAND circuits 441-445 in the first logic IC 433 has two input terminals and one output terminal. The NAND circuits 441 to 445 output a LOW level signal (a signal corresponding to "0") from the output terminal when a HI level signal (a signal corresponding to "1") is input to both of the two input terminals. and outputs a HI level signal from the output terminal when a LOW level signal is input to at least one of the two input terminals.

When the NAND circuits 441 to 445 recognize that a LOW level signal is input to the input terminal, the voltage of the signal input to the input terminal is the first reference voltage (specifically, 2.8 V). ), it recognizes that the signal input to the input terminal has changed to HI level. In addition, when the NAND circuits 441 to 445 recognize that a HI level signal is input to the input terminal, the voltage of the signal input to the input terminal is set to the second reference voltage (specifically, 1). .6V), it recognizes that the signal input to the input terminal has changed to LOW level. Since the first reference voltage is set to a voltage higher than the second reference voltage, the NAND circuits 441 to 445 are affected by noise when HI level signals are input to the input terminals of the NAND circuits 441 to 445. This reduces the possibility that 441 to 445 misidentify that a LOW level signal is input to the input terminals. In addition, since the second reference voltage is set to a voltage lower than the first reference voltage, in a situation in which a LOW level signal is input to the input terminals of the NAND circuits 441 to 445, noise influences the voltage. This reduces the possibility that the NAND circuits 441 to 445 misidentify that a HI level signal is input to the input terminal.

Each of the NOT circuits 451 to 456 in the second logic IC 434 has one input terminal and one output terminal. When a HI level signal (a signal corresponding to "1") is input to the input terminals of the NOT circuits 451 to 456, the NOT circuits 451 to 456 generate a LOW level signal (a signal corresponding to "0") obtained by inverting the HI level signal. signal) is output from the output terminal, and when a LOW level signal is input to the input terminal, a HI level signal obtained by inverting the LOW level signal is output from the output terminal.

When the NOT circuits 451 to 456 recognize that a LOW level signal is input to the input terminal, the voltage of the signal input to the input terminal is the first reference voltage (specifically, 2.8V). ), it recognizes that the signal input to the input terminal has changed to HI level. When the NOT circuits 451 to 456 recognize that a HI level signal is input to the input terminal, the voltage of the signal input to the input terminal is set to the second reference voltage (specifically, 1). .6V), it recognizes that the signal input to the input terminal has changed to LOW level. Since the first reference voltage is set to a voltage higher than the second reference voltage, the NOT circuits are affected by noise when HI level signals are input to the input terminals of the NOT circuits 451 to 456. This reduces the possibility that 451 to 456 misidentify that a LOW level signal is input to the input terminal. In addition, since the second reference voltage is set to a voltage lower than the first reference voltage, in a situation where a LOW level signal is input to the input terminals of the NOT circuits 451 to 456, noise influences the input terminals. This reduces the possibility that the NOT circuits 451 to 456 misidentify that a HI level signal is input to the input terminal.

As shown in FIG. 228, the main control board 81 is mounted with a first logic IC 435 and a second logic IC 436 . The first logic IC 435 is the same electronic component as the first logic IC 433 already described, and the second logic IC 436 is the same electronic component as the second logic IC 434 already described. Although not shown, the main control board 81 is mounted with a plurality of first logic ICs including the first logic ICs 433 and 435, and a plurality of second logic ICs including the second logic ICs 434 and 436. is implemented. In particular, a circuit having an AND circuit function, a circuit having an OR circuit function, a circuit having an XOR circuit function, a circuit having a NOT circuit function, and a NOR circuit by combining the NAND circuits built in the first logic IC. A plurality of first logic ICs are mounted on the main control board 81 because it is possible to form a circuit having circuit functions.

Next, a configuration for externally outputting the advantageous support mode signal and the opening/closing execution mode signal to the hall computer HC will be described.

As shown in FIG. 228, the external output circuit 431 is formed using a third NAND circuit 444 and a fourth NAND circuit 445 which are part of the five NAND circuits 441 to 445 built in the first logic IC 433. ing. One of the two input terminals provided in the third NAND circuit 444 is electrically connected to the 0th terminal GS0 of the external output port 429, and the other of the two input terminals is connected to the power outage monitoring board 85. electrically connected. The 0th setting signal output from the 0th terminal GS0 of the external output port 429 and the power failure signal output from the power failure monitoring board 85 are input to the third NAND circuit 444 . One of the two input terminals provided in the fourth NAND circuit 445 is electrically connected to the first terminal GS1 of the external output port 429, and the other of the two input terminals is connected to the power failure monitoring board. 85 is electrically connected. The first setting signal output from the first terminal GS1 of the external output port 429 and the power failure signal output from the power failure monitoring board 85 are input to the fourth NAND circuit 445 .

Signals output from the third NAND circuit 444 and the fourth NAND circuit 445 are externally output to the hall computer HC via the external terminal plate 457 . The external terminal plate 457 is provided with a first outer NOT circuit 437 corresponding to the third NAND circuit 444 of the external output circuit 431 and a fourth NAND circuit 437 corresponding to the fourth NAND circuit 445 of the external output circuit 431 . A two-outer-end NOT circuit 438 is formed. These first outer-end NOT circuit 437 and second outer-end NOT circuit 438 have one input terminal and one output terminal, like the 0th to 5th NOT circuits 451 to 456 described above. The signal output from the third NAND circuit 444 is externally output to the hall computer HC via the first outer end NOT circuit 437, and the signal output from the fourth NAND circuit 445 is output via the second outer end NOT circuit 438. It is output to the hall computer HC. The signal externally output from the first outer end NOT circuit 437 to the hall computer HC is the above-mentioned advantageous support mode signal, and the signal externally output from the second outer end NOT circuit 438 to the hall computer HC is the above-described open/close execution signal. mode signal.

The first outer-end NOT circuit 437 and the second outer-end NOT circuit 438 recognize that a LOW-level signal is input to the input terminal in the same way as the 0th to fifth NOT circuits 451 to 456 described above. recognize that the signal input to the input terminal has changed to HI level when the voltage of the signal input to the input terminal exceeds the first reference voltage (specifically, 2.8 V) in In addition, when the voltage of the signal input to the input terminal falls below the second reference voltage (specifically, 1.6 V) in a situation where it is recognized that a HI level signal is input to the input terminal , it recognizes that the signal input to the input terminal has changed to LOW level. Since the signal output from the third NAND circuit 444 to the external terminal board 457 is externally output to the hall computer HC via the first outer end NOT circuit 437, the hall computer HC is affected by noise. The state of the output advantageous support mode signal is prevented from changing. In addition, since the signal output from the fourth NAND circuit 445 to the external terminal board 457 is externally output to the hall computer HC via the second outer end NOT circuit 438, the hall computer HC is affected by noise. This prevents the state of the opening/closing execution mode signal output to the outside from changing.

The main MPU 82 raises the 0th setting signal output from the 0th terminal GS0 from the LOW level to the HI level when the state in which the support mode is the first high-frequency support mode or the second high-frequency support mode is started. At the same time, when the state ends, the 0th setting signal is lowered. As already explained, when the supply of operating power to the pachinko machine 10 is started, the power failure monitoring board 85 raises the power failure signal from the LOW level to the HI level. The power failure signal is not lowered to the LOW level until the power failure monitor board 85 identifies the occurrence of a power failure. When both the 0th setting signal and the power failure signal input to the third NAND circuit 444 are at HI level, the signal output from the third NAND circuit 444 to the first outer end NOT circuit 437 of the external terminal plate 457 becomes LOW level. When this signal becomes LOW level, the advantageous support mode signal externally output from the first outer end NOT circuit 437 to the hall computer HC becomes HI level. This makes it possible for the hall computer HC to recognize that the support mode of the pachinko machine 10 has started in the first high-frequency support mode or the second high-frequency support mode. On the other hand, when at least one of the 0th setting signal and the power failure signal input to the third NAND circuit 444 is at the LOW level, output from the third NAND circuit 444 to the first outer end NOT circuit 437 of the external terminal plate 457 HI level. When this signal becomes HI level, the advantageous support mode signal externally output from the first outer end NOT circuit 437 to the hall computer HC becomes LOW level. This makes it possible for the hall computer HC to recognize that the support mode of the pachinko machine 10 has ended in the first high-frequency support mode or the second high-frequency support mode.

The main MPU 82 raises the first setting signal output from the first terminal GS1 from the LOW level to the HI level when the opening/closing execution mode is started, and outputs the first setting signal when the opening/closing execution mode ends. Stand down. As already explained, when the supply of operating power to the pachinko machine 10 is started, the power failure monitoring board 85 raises the power failure signal from the LOW level to the HI level. The power failure signal is not lowered to the LOW level until the power failure monitor board 85 identifies the occurrence of a power failure. When both the first setting signal and the power failure signal input to the fourth NAND circuit 445 are at HI level, the signal output from the fourth NAND circuit 445 to the second outer end NOT circuit 438 of the external terminal plate 457 becomes LOW level. When this signal becomes LOW level, the opening/closing execution mode signal externally output from the second outer end NOT circuit 438 to the hall computer HC becomes HI level. This enables the hall computer HC to recognize that the opening/closing execution mode of the pachinko machine 10 has been started. On the other hand, when at least one of the first setting signal and the power failure signal input to the fourth NAND circuit 445 is at the LOW level, the output from the fourth NAND circuit 445 to the second outer end NOT circuit 438 of the external terminal plate 457 HI level. When this signal becomes HI level, the opening/closing execution mode signal externally output from the second outer end NOT circuit 438 to the hall computer HC becomes LOW level. This enables the hall computer HC to recognize that the opening/closing execution mode of the pachinko machine 10 has ended.

When the power failure monitor board 85 identifies the occurrence of a power failure while the advantageous support mode signal externally output to the hall computer HC from the external terminal plate 457 is at HI level, it is input to the third NAND circuit 444. When the current power failure signal falls from HI level to LOW level, the signal output from the third NAND circuit 444 to the first outer end NOT circuit 437 of the external terminal plate 457 rises from LOW level to HI level. When this signal rises to HI level, the advantageous support mode signal externally output from the first outer end NOT circuit 437 to the hall computer HC falls from HI level to LOW level. In this way, the state of the advantageous support mode signal externally output to the hall computer HC is determined based on the states of the 0th setting signal and the power failure signal input to the third NAND circuit 444. The falling edge of the advantageous support mode signal can be made to occur at the same time as the falling edge of the signal. As a result, the hall computer HC recognizes that the state in which the pachinko machine 10 is in the first high-frequency support mode or the second high-frequency support mode continues even though the power failure signal has fallen to the LOW level. You can prevent the situation from occurring.

In the state where the opening/closing execution mode signal externally output from the external terminal plate 457 to the hall computer HC is at HI level, when the occurrence of a power failure is specified by the power failure monitoring board 85, the signal is input to the fourth NAND circuit 445. When the current power failure signal falls from HI level to LOW level, the signal output from the fourth NAND circuit 445 to the second outer end NOT circuit 438 of the external terminal plate 457 rises from LOW level to HI level. When this signal rises to HI level, the opening/closing execution mode signal externally output from the second outer end NOT circuit 438 to the hall computer HC falls from HI level to LOW level. Thus, the state of the opening/closing execution mode signal externally output to the hall computer HC is determined based on the states of the first setting signal and the power failure signal input to the fourth NAND circuit 445. The opening/closing execution mode signal can be made to fall simultaneously with the fall of the signal. As a result, it is possible to prevent the hall computer HC from recognizing that the opening/closing execution mode of the pachinko machine 10 is continued even though the power failure signal has fallen to the LOW level.

Next, a configuration for executing drive control of the special electric drive unit 32b, the distribution entrance drive unit 163, and the switching drive unit 167 will be described.

As shown in FIG. 228, the special electric prize winning device 32 is provided with a 0th MOSFET 461 as an element having an amplifying action and a switching action. Also, the distribution winning device 161 is provided with a first MOSFET 462 and a second MOSFET 463 as elements having an amplifying action and a switching action. Each of these MOSFETs 461-463 has a source, drain and gate. MOSFETs 461 to 463 are n-channel enhancement type MOSFETs. In addition, instead of the n-channel enhancement-type MOSFET, p-channel enhancement-type MOSFET, n-channel depression-type MOSFET, p-channel depression-type MOSFET, junction-type MOSFET, and transistor (bipolar transistor) may be provided.

The 0th terminal NS0 of the input/output port 421 is electrically connected to the gate of the 0th MOSFET 461 via the 0th malfunction prevention circuit 422 . The source of the 0th MOSFET 461 is electrically connected to the drive unit 32b for special electrics, and the drain of the 0th MOSFET 461 is grounded. One end of the special electric drive unit 32b is pulled up to, for example, 36 V, and the special electric drive unit 32b enters a driving state when the voltage applied to the gate of the 0th MOSFET 461 is HI level, and When the voltage is at LOW level, it is in a non-driving state.

A first terminal NS1 of the input/output port 421 is electrically connected to the gate of the first MOSFET 462 via the first malfunction prevention circuit 423 . The source of the first MOSFET 462 is electrically connected to the distribution entrance driver 163, and the drain of the first MOSFET 462 is grounded. One end of the distribution inlet drive unit 163 is pulled up to, for example, 36 V, and the distribution inlet drive unit 163 is driven when the voltage applied to the gate of the first MOSFET 462 is HI level. A non-driving state occurs when the voltage applied to the gate is at a LOW level.

A second terminal NS2 of the input/output port 421 is electrically connected to the gate of the second MOSFET 463 via the second malfunction prevention circuit 424 . The source of the second MOSFET 463 is electrically connected to the switching driver 167, and the drain of the second MOSFET 463 is grounded. One end of the switching driving section 167 is pulled up to, for example, 36 V, and the switching driving section 167 is driven when the voltage applied to the gate of the second MOSFET 463 is HI level, and the voltage applied to the gate is When it is at LOW level, it is in a non-driving state.

Next, malfunction prevention circuits 422 to 424 will be described.

The 0th malfunction prevention circuit 422 includes a 0th NOT circuit 451, a 0th NAND circuit 441, and a 3rd NOT circuit 454 as logic circuits. The first malfunction prevention circuit 423 includes a first NOT circuit 452, a first NAND circuit 442, and a fourth NOT circuit 455 as logic circuits, and the second malfunction prevention circuit 424 includes a second NOT circuit 455 as a logic circuit. It has a circuit 453 , a second NAND circuit 443 and a fifth NOT circuit 456 .

As described above, the 0th terminal NS0 of the input/output port 421 is electrically connected to the 0th MOSFET 461 via the 0th malfunction prevention circuit 422 . As shown in FIG. 228, the 0th terminal NS0 of the input/output port 421 is electrically connected via the 0th NOT circuit 451 to one of the two input terminals of the 0th NAND circuit 441. ing. A signal obtained by inverting the drive control signal output from the 0th terminal NS0 is input to the one input terminal. The other input terminal of the 0th NAND circuit 441 is electrically connected to the power failure monitoring board 85, and a reset signal is input to the other input terminal. As already described with reference to FIG. 226, the signal line LN14 is provided by branching the signal line LN13 for outputting the reset signal from the power failure monitor board 85 to the main MPU 82. FIG. As shown in FIG. 228, the 0th NAND circuit 441 is electrically connected to the blackout monitoring board 85 via the signal line LN14. The output terminal of the 0th NAND circuit 441 is electrically connected to the gate of the 0th MOSFET 461 via the third NOT circuit 454 .

As described above, the first terminal NS1 of the input/output port 421 is electrically connected to the first MOSFET 462 via the first malfunction prevention circuit 423 . As shown in FIG. 228, the first terminal NS1 of the input/output port 421 is electrically connected via the first NOT circuit 452 to one of the two input terminals of the first NAND circuit 442. ing. A signal obtained by inverting the drive control signal output from the first terminal NS1 is input to the one input terminal. The other input terminal of the first NAND circuit 442 is electrically connected to the power failure monitoring board 85, and a reset signal is input to the other input terminal. The first NAND circuit 442 is electrically connected to the power outage monitoring board 85 via a signal line LN14 and a signal line LN16 formed by branching the signal line LN14. An output terminal of the first NAND circuit 442 is electrically connected to the gate of the first MOSFET 462 via the fourth NOT circuit 455 .

As described above, the second terminal NS2 of input/output port 421 is electrically connected to second MOSFET 463 via second malfunction prevention circuit 424 . As shown in FIG. 228, the second terminal NS2 of the input/output port 421 is electrically connected through the second NOT circuit 453 to one of the two input terminals of the second NAND circuit 443. ing. A signal obtained by inverting the drive control signal output from the second terminal NS2 is input to the one input terminal. The other input terminal of the second NAND circuit 443 is electrically connected to the power failure monitoring board 85, and a reset signal is input to the other input terminal. The second NAND circuit 443 is electrically connected to the power outage monitoring board 85 via a signal line LN14 and a signal line LN17 formed by branching the signal line LN14. The output terminal of the second NAND circuit 443 is electrically connected to the gate of the second MOSFET 463 via the fifth NOT circuit 456 .

FIG. 229 is a diagram for explaining the relationship between the drive control signals output from the 0th to 2nd terminals NS0 to NS2 of the input/output port 421, the reset signal output from the blackout monitor board 85, and the state of the target drive unit. It is an explanatory diagram. The target driving unit corresponding to the 0th terminal NS0 is the special electric driving unit 32b, the target driving unit corresponding to the first terminal NS1 is the distribution entrance driving unit 163, and the target corresponding to the second terminal NS2. The driving portion is the switching driving portion 167 .

As described above, the 0th to 2nd NOT circuits 451 to 453 output from the output terminals signals obtained by inverting the signals input to the input terminals. As shown in FIG. 229, when the drive control signals output from the 0th to 2nd terminals NS0 to NS2 are at LOW level, the signals output from 0th to 2nd NOT circuits 451 to 453 are at HI level. At the same time, when the drive control signals output from the 0th to 2nd terminals NS0 to NS2 are at HI level, the signals output from 0th to 2nd NOT circuits 451 to 453 are at LOW level.

As described above, the 0th to second NAND circuits 441 to 443 output a LOW level signal from the output terminal when both of the signals input to the two input terminals are HI level, and When at least one of the input signals is LOW level, a HI level signal is output from the output terminal. As shown in FIG. 229, the signals input from the 0th to 2nd NOT circuits 451 to 453 to the 0th to 2nd NAND circuits 441 to 443 and the signals input from the power failure monitoring board 85 to the 0th to 2nd NAND circuits 441 to 443 When both of the reset signals are at HI level, the signals output from the 0th to 2nd NAND circuits 441 to 443 to the 3rd to 5th NOT circuits 454 to 456 are at LOW level. Also, at least one of the signals input from the 0th to 2nd NOT circuits 451 to 453 to the 0th to 2nd NAND circuits 441 to 443 and the reset signal input from the power failure monitoring board 85 to the 0th to 2nd NAND circuits 441 to 443 is at LOW level, the signals output from the 0th to second NAND circuits 441 to 443 are at HI level.

As already explained, the third to fifth NOT circuits 454 to 456 output from the output terminals signals obtained by inverting the signals input to the input terminals. As shown in FIG. 229, when the signals input from the 0th to 2nd NAND circuits 441 to 443 to the 3rd to 5th NOT circuits 454 to 456 are at the LOW level, the 3rd to 5th NOT circuits 454 to 456 to the 3rd to 5th NOT circuits 454 to 456 When the signals output to the gates of the 0th to second MOSFETs 461 to 463 are at HI level and the signals input from the 0th to 2nd NAND circuits 441 to 443 to the 3rd to 5th NOT circuits 454 to 456 are at HI level During this period, the signals output from the third to fifth NOT circuits 454 to 456 to the gates of the zeroth to second MOSFETs 461 to 463 are at the LOW level. Then, as described above, the signals input to the gates of the 0th to 2nd MOSFETs 461 to 463 become HI level (a state in which HI level voltage is applied to the gates of the 0th to 2nd MOSFETs 461 to 463). The target driving units corresponding to the 0th to 2nd MOSFETs 461 to 463 are driven, and the signals input to the gates of the 0th to 2nd MOSFETs 461 to 463 become LOW level (the gates of the 0th to 2nd MOSFETs 461 to 463 are LOW). level voltage is applied), the target drive sections corresponding to the 0th to 2nd MOSFETs 461 to 463 are brought into a non-driving state.

As already explained, when the supply of operating power to the pachinko machine 10 is started, the power failure monitoring board 85 first raises the power failure signal from the LOW level to the HI level, and waits for a predetermined time ( Specifically, after 9 milliseconds have elapsed, the reset signal is raised from the LOW level to the HI level. The reset signal is not lowered to the LOW level until the reset signal is lowered after the occurrence of the power failure is specified by the power failure monitor board 85 and the power failure signal is lowered.

As shown in FIG. 229, the main MPU 82 sets the drive control signal output from the 0th terminal NS0 to LOW level when the reset signal output from the blackout monitoring board 85 is at HI level. In addition, by setting the drive control signal output from the 0th terminal NS0 to HI level in this situation, the special electric drive unit 32b can be brought into a non-driving state. can. In addition, the main MPU 82 sets the drive control signal output from the first terminal NS1 to LOW level when the reset signal output from the blackout monitoring board 85 is at HI level, thereby driving the distribution entrance. In this situation, the driver 163 for the distribution entrance can be brought into a non-driving state by setting the drive control signal output from the first terminal NS1 to HI level. . Furthermore, the main MPU 82 sets the drive control signal output from the second terminal NS2 to LOW level in a situation where the reset signal output from the power failure monitor board 85 is at HI level. can be brought into a driven state, and the switching drive section 167 can be brought into a non-driven state by setting the drive control signal output from the second terminal NS2 to HI level in this situation.

When the drive control signals output from the 0th to 2nd terminals NS0 to NS2 are at the LOW level, the target drive section enters the drive state. Therefore, when the voltage of the drive control signal output from the 0th to 2nd terminals NS0 to NS2 to the 0th to 2nd NOT circuits 451 to 453 is instantaneously boosted by the influence of noise, It is possible to prevent malfunction of the target driving unit from occurring due to the influence of noise.

Next, the states of the drive control signals output from the 0th to 2nd terminals NS0 to NS2 when the supply of operating power to the pachinko machine 10 is started will be described.

The control register 425, the output data register 426 and the input data register 427 in the main side MPU 82 are discharged when the supply of operating power to the pachinko machine 10 is stopped, and each bit in these registers 425 to 427 The value is "0". The state in which these bit values are "0" is a process of setting "1" to any bit in the main side MPU 82 even when the supply of operating power to the pachinko machine 10 is started (for example, FIG. 233 The process of step SF904 in the port output process, which will be described later with reference to , is executed. As already explained, when the values of the 0th to 2nd bits 425a to 425c of the control register 425 are "0", the 0th to 2nd terminals NS0 to NS2 of the input/output port 421 function as output terminals. is. Further, when the values of the 0th to 2nd bits 426a to 426c of the output data register 426 are "0", the HI level drive corresponding to the power supply voltage (5V in a stable supply state) supplied to the main side MPU 82 This is a state in which control signals are set to be output from the 0th to 2nd terminals NS0 to NS2. Thus, when the supply of operating power to the pachinko machine 10 is started, the main MPU 82 sets "1" to any bit in the control register 425, the output data register 426 and the input data register 427. These registers 425 to 427 have data for outputting HI level drive control signals corresponding to the power supply voltage (5V in a stable supply state) from the 0th to 2nd terminals NS0 to NS2 until the processing for It will be in the set state. Further, when the supply of operating power to the pachinko machine 10 is started, the input/output port 421 outputs the 0th to 2nd terminals NS0 to NS2 due to the configuration of the circuit provided inside the input/output port 421. In addition to being in a state of functioning as a terminal, a state is reached in which a signal of a voltage level corresponding to the power supply voltage supplied to the main side MPU 82 is output from the 0th to 2nd terminals NS0 to NS2. Therefore, when the supply of operating power to the pachinko machine 10 is started, the control register 425, the output data register 426 and the input data register 427 are set to "1" by the main MPU 82. Until the process is executed, a signal of a voltage level corresponding to the power supply voltage supplied to the main side MPU 82 is output from the 0th to 2nd terminals NS0 to NS2.

When the supply of operating power to the pachinko machine 10 is started, the power supply voltage supplied to the main side MPU 82 gradually rises to the voltage in the stable state (specifically 5V). The power failure monitoring board 85 is such that the power supply voltage supplied by the power supply/launch control device 78 to the main side MPU 82 via the power failure monitoring board 85 does not fall below the specified operating voltage (specifically 3 V) for a predetermined time (for example 2 milliseconds), it recognizes that the power supply voltage supplied to the main side MPU 82 has stabilized, and raises the power failure signal from the LOW level to the HI level. During the period from when the supply of the operating power to the pachinko machine 10 is started until the power failure signal is raised, the power supply voltage supplied to the main side MPU 82 rises and the power supply voltage falls repeatedly. Therefore, when the supply of operating power to the pachinko machine 10 is started, the voltage level of the drive control signal output from the 0th to 2nd terminals NS0 to NS2 of the input/output port 421 is supplied to the main side MPU 82. As with the power supply voltage, while repeating the rise and fall, as a whole, it gradually approaches the HI level voltage (specifically, 5V) in the stable state.

If it is assumed that drive control of the special electric drive unit 32b, the distribution entrance drive unit 163, and the switching drive unit 167 is performed based only on the drive control signals output from the 0th to 2nd terminals NS0 to NS2. , and the output of the drive control signals from the 0th to 2nd terminals NS0 to NS2 are unstable, there is a risk that these drive units 32b, 163, and 167 may malfunction. On the other hand, in the present embodiment, in addition to the drive control signals output from the 0th to 2nd terminals NS0 to NS2, the driving unit 32b for the special electric, the driving unit 163 for the distribution entrance, and the switching driving unit 167 is provided with a reset signal for driving control. The reset signal is maintained at the LOW level during the period in which the power supply voltage supplied to the main side MPU 82 is in an unstable state after the supply of operating power to the pachinko machine 10 is started. As already described with reference to FIG. 229, by setting the reset signal to LOW level, the non-driving state of these drive sections 32b, 163 and 167 can be maintained regardless of the state of the drive control signal. . As a result, it is possible to prevent the drive units 32b, 163 and 167 from malfunctioning at the start of supply of operating power to the pachinko machine 10. FIG.

As shown in FIG. 228, the signal path (signal line LN14) from the power failure monitoring board 85 to the 0th to 2nd NAND circuits 441 to 443 of the 0th to 2nd malfunction prevention circuits 422 to 424 is The signal line LN14 is grounded via a pull-down resistor 464 having an electrical resistance (specifically, an electrical resistance of 4.7 kΩ) at a position closer to the blackout monitoring board 85 than the position where the signal line LN14 branches to the signal lines LN16 and LN17. there is As a result, during the period until the blackout monitoring board 85 raises the reset signal from LOW level to HI level after the supply of operating power to the pachinko machine 10 is started, noise that tries to boost the voltage of the reset signal is generated. Even when such noise occurs, it is possible to prevent the reset signal from rising to the HI level due to the influence of the noise.

The pull-down resistor provided to prevent malfunction of the drive unit 32b for the special electric, the drive unit 163 for the distribution entrance, and the drive unit 167 for switching is one of the pull-down resistors 464 provided on the signal line LN14. Only. As a result, it is possible to prevent malfunction of these drive units 32b, 163, and 167 while suppressing an increase in power consumption of the pachinko machine 10. FIG.

As described above, the signal line LN14 is formed by branching the signal line LN13 for outputting the reset signal from the power failure monitoring board 85 toward the main MPU 82 at a midpoint, and the signal line LN14 is formed by branching the signal line LN14. The signal lines LN16 and LN17 are used to input a reset signal to the 0th to 2nd malfunction prevention circuits 422 to 424. FIG. For this reason, compared to a configuration in which a device separate from the power failure monitoring board 85 is provided for outputting a signal that is maintained at the LOW level immediately after the power is turned on and rises to the HI level after that, the drive for the special electric The configuration for preventing malfunction of the portion 32b, the distribution entrance driving portion 163, and the switching driving portion 167 can be simplified.

As already explained, the external output circuit 431 is formed using the third NAND circuit 444 and the fourth NAND circuit 445 built in the first logic IC 433 . 228, the 0th malfunction prevention circuit 422 includes a 0th NAND circuit 441 built in the first logic IC 433, a 0th NOT circuit 451 built in the second logic IC 434, and a 3rd NOT circuit. 454, and the first malfunction prevention circuit 423 includes a first NAND circuit 442 built in the first logic IC 433, a first NOT circuit 452 built in the second logic IC 434, and a first NOT circuit 452 built in the second logic IC 434. The second malfunction prevention circuit 424 includes a second NAND circuit 443 incorporated in the first logic IC 433 and a second NOT circuit 453 incorporated in the second logic IC 434. and the fifth NOT circuit 456 .

The 0th NOT circuit 451 and the 3rd NOT circuit 454 of the 0th malfunction prevention circuit 422, the 1st NOT circuit 452 and the 4th NOT circuit 455 of the 1st malfunction prevention circuit 423, and the 2nd NOT circuit 453 of the 2nd malfunction prevention circuit 424 and the fifth NOT circuit 456 are incorporated in one electronic component (second logic IC 434). Therefore, the number of electronic components to be mounted on the main control board 81 can be reduced compared to the configuration in which two or more electronic components are mounted on the main control board 81 in order to provide the 0th to 5th NOT circuits 451 to 456. be able to.

The 0th NAND circuit 441 of the 0th malfunction prevention circuit 422, the first NAND circuit 442 of the first malfunction prevention circuit 423, and the second NAND circuit 443 of the second malfunction prevention circuit 424 are one electronic component (first It is built in the logic IC 433). Therefore, the number of electronic components to be mounted on the main control board 81 can be reduced compared to the configuration in which two or more electronic components are mounted on the main control board 81 in order to provide these 0th to 2nd NAND circuits 441 to 443. be able to.

In the configuration in which the external output circuit 431 is formed using the third NAND circuit 444 and the fourth NAND circuit 445, which are part of the five NAND circuits 441 to 445 built in the first logic IC 433, the five The 0th to 2nd NAND circuits 441 to 443 of the NAND circuits 441 to 445 which are not included in the external output circuit 431 are used to form the 0th to 2nd malfunction prevention circuits 422 to 424 . As a result, compared to a configuration in which a plurality of electronic components incorporating NAND circuits are mounted on the main control board 81 to form the external output circuit 431 and the 0th to 2nd malfunction prevention circuits 422 to 424, The number of electronic components mounted on the main control board 81 can be suppressed.

A 0th NAND circuit 441 that is part of the five NAND circuits 441 to 445 built in the first logic IC 433 and a 0th NOT that is a part of the six NOT circuits 451 to 456 built in the second logic IC 434 In the configuration in which the 0th malfunction prevention circuit 422 is formed using the circuit 451 and the third NOT circuit 454, the 0th malfunction prevention circuit among the five NAND circuits 441 to 445 built in the first logic IC 433 First to second NAND circuits 442 to 443 not included in the circuit 422, and the first NOT not included in the 0th malfunction prevention circuit 422 among six NOT circuits 451 to 456 built in the second logic IC 434. Using the circuit 452, the second NOT circuit 453, the fourth NOT circuit 455 and the fifth NOT circuit 456, the first and second malfunction prevention circuits 423 and 424 are formed. As a result, the number of electronic components (first logic IC 433 and second logic IC 434) mounted on the main control board 81 to form the 0th to 2nd malfunction prevention circuits 422 to 424 can be reduced.

The number (specifically, one) of the NAND circuits 441 to 443 used in the first logic IC 433 to form the 0th to 2nd malfunction prevention circuits 422 to 424 is 2 The number of NOT circuits 451 to 456 used in the second logic IC 434 to form each of the malfunction prevention circuits 422 to 424 is different (specifically, two). In the configuration, NAND circuits 441 to 443 built in one first logic IC 433 and NOT circuits 451 to 456 built in one second logic IC 434 are used to detect the 0th to 2nd malfunctions. By forming the prevention circuits 422 to 424, electronic components (first logic IC 433 and second logic IC 434 ) is reduced.

The logic circuits (the third NAND circuit 444 and the fourth NAND circuit 445) included in the external output circuit 431 are only NAND circuits. On the other hand, the types of logic circuits (the 0th NAND circuit 441, the 0th NOT circuit 451 and the 3rd NOT circuit 454) included in the 0th malfunction prevention circuit 422 are NAND circuits and NOT circuits. Only some of the logic circuit types (NAND circuit and NOT circuit) included in the 0th malfunction prevention circuit 422 are common to the logic circuit types (NAND circuit) included in the external output circuit 431. 0 NAND circuit 441, third NAND circuit 444, and fourth NAND circuit 445, which are logic circuits of the type commonly included in the 0th malfunction prevention circuit 422 and the external output circuit 431, logic IC (first logic IC 433). Accordingly, in order to provide the 0th NAND circuit 441 included in the 0th malfunction prevention circuit 422, the first logic IC 481 incorporating the third NAND circuit 444 and the fourth NAND circuit 445 included in the external output circuit 431 is The number of first logic ICs mounted on the main control board 81 can be reduced compared to a configuration in which separate first logic ICs are mounted. In addition, a NAND circuit (first to fourth NAND circuits 442 to 445), which is a type of logic circuit commonly included in the first malfunction prevention circuit 423, the second malfunction prevention circuit 424, and the external output circuit 431 ) are also integrated in the first logic IC 433 . As a result, the number of first logic ICs 433 mounted on the main control board 81 can be suppressed.

The types of logic circuits included in each of the three malfunction prevention circuits 422 to 424 are common to the NAND circuit and the NOT circuit. In a configuration in which the 0th to 2nd NAND circuits 441 to 443 included in the 0th to 2nd malfunction prevention circuits 422 to 424 are integrated into one electronic component (first logic IC 433), the 0th to 2nd The 0th to 5th NOT circuits 451 to 456 included in the 2 malfunction prevention circuits 422 to 424 are also integrated into one electronic component (second logic IC 434). As a result, the number of electronic components mounted on the main control board 81 to form these three malfunction prevention circuits 422 to 424 can be reduced.

By reducing the number of electronic components mounted on the main control board 81 in this way, the manufacturing efficiency of the main control board 81 can be improved and the manufacturing cost of the main control board 81 can be reduced.

When the drive control signal is output from the 0th terminal NS0 of the input/output port 421, the signals flow through the 0th malfunction prevention circuit 422 in the order of the 0th NOT circuit 451→0th NAND circuit 441→3rd NOT circuit 454. The 0th NOT circuit 451 is present most upstream in the signal flow, the 0th NAND circuit 441 is present second upstream in the signal flow, and the third NOT circuit 454 is present most downstream in the signal flow. Existing.

As shown in FIG. 228, the output terminal of the 0th NAND circuit 441 and the input terminal of the third NOT circuit 454 are electrically connected. Then, in the signal path at the time of output, the third NOT circuit 454 existing downstream of the 0th NAND circuit 441 is located upstream of the 0th NAND circuit 441 as a physical position of the 0th NOT circuit. A signal path of the 0th malfunction prevention circuit 422 is formed so as to be located in parallel with 451 . The third NOT circuit 454, which exists most downstream in the signal flow, is located most upstream in the signal flow than the 0 NAND circuit 441, which exists second upstream in the signal flow. By arranging the 0th NOT circuit 451 at a position physically close to the 0th NOT circuit 451, the 0th NOT circuit 451 existing most upstream in the signal flow across the 0th NAND circuit 441 and the 0th NOT circuit 451 existing most downstream in the signal flow. The third NOT circuit 454 and the third NOT circuit 454 may be incorporated in one logic IC called the second logic IC 434 . Therefore, the 0th NOT circuit 451 existing on the upstream side of the signal flow across the 0th NAND circuit 441 and the 3rd NOT circuit 454 existing on the downstream side of the signal flow are incorporated in different logic ICs. The number of the second logic ICs 434 mounted on the main control board 81 can be reduced compared to the configuration in which the second logic ICs 434 are mounted.

In the first malfunction prevention circuit 423, similarly to the 0th malfunction prevention circuit 422, the first NOT circuit 452, which exists most upstream in the signal flow across the first NAND circuit 442, and the most downstream in the signal flow. The fourth NOT circuit 455 existing in the second logic IC 434 is built in one logic IC. In addition, in the second malfunction prevention circuit 424 as well as in the 0th malfunction prevention circuit 422 and the first malfunction prevention circuit 423, the second NOT that exists most upstream in the signal flow with the second NAND circuit 443 interposed therebetween. The circuit 453 and the fifth NOT circuit 456 existing most downstream in the signal flow are built in one logic IC called the second logic IC 434 . As a result, the number of second logic ICs 434 mounted on the main control board 81 can be reduced.

As described above, the first logic ICs 433 are the same electronic components as the plurality of first logic ICs mounted on the main control board 81, and the second logic ICs 434 are the same electronic components as the plurality of first logic ICs mounted on the main control board 81. 2 is the same electronic component as the logic IC. An external output circuit 431 and 0th to 2nd malfunction prevention circuits 422 to 424 are formed using a plurality of electronic components (first logic IC and second logic IC) mounted on the main control board 81. As a result, the electronic components mounted on the main control board 81 are shared, and the types of electronic components mounted on the main control board 81 are reduced. As a result, the manufacturing efficiency of the main control board 81 is enhanced, and the manufacturing cost of the main control board 81 is reduced.

Next, the state of the target drive unit when the supply of operating power to the pachinko machine 10 is started will be described with reference to the time chart of FIG. 230, taking the special electric drive unit 32b as an example. FIG. 230(a) shows the period during which the drive unit 32b for the special electric is in the driving state, and FIG. 230(c) shows the state of the drive control signal output from the 0th terminal NS0 of the input/output port 421 to the 0th NOT circuit 451 of the 0th malfunction prevention circuit 422, and FIG. 230(d) shows the power failure monitoring board. 85 shows the state of the reset signal output to the 0th to 2nd NAND circuits 441 to 443 of the 0th to 2nd malfunction prevention circuits 422 to 424, and FIG. 230(f) shows the power supply voltage supplied to the main side MPU 82 via the power failure monitoring board 85 from the power/launch control device 78. FIG.

When the supply of operating power to the pachinko machine 10 is started at the timing of t1, at the timing of t1, the power supply voltage supplied to the main side MPU 82 begins to rise as shown in FIG. As shown in FIG. 230(c), the voltage of the drive control signal output from the 0th terminal NS0 of the input/output port 421 to the 0th NOT circuit 451 begins to rise.

At timing t1, the voltage of the signal input to the 0-NOT circuit 451 is lower than the first reference voltage (specifically, 2.8 V), that is, the 0-NOT circuit 451 outputs a LOW level signal to the input terminal. is input, the signal output from the 0th NOT circuit 451 to the 0th NAND circuit 441 is at HI level as shown in FIG. 230(b). Although not shown, the signals output from the first and second NOT circuits 452 and 453 to the first and second NAND circuits 442 and 443 also become HI level.

As already explained, the power supply voltage (5 V in a stable state) supplied from the power supply/launch control device 78 to the main side MPU 82 via the power failure monitoring board 85 is supplied to the pachinko machine 10 after the supply of operating power is started. As a whole, the voltage rises gradually while repeating the rise and fall of the voltage until the power failure signal is raised (see FIG. 230(f)). Further, as shown in FIG. 230(c), the voltage of the drive control signal output from the 0th terminal NS0 of the input/output port 421 also rises and falls in the same manner as the power supply voltage supplied to the main side MPU 82. While repeating the above, it gradually rises as a whole. Although illustration is omitted, the voltage of the drive control signal output from the first terminal NS1 and the second terminal NS2 of the input/output port 421 also rises and falls gradually as a whole while repeating the rise and fall of the voltage. In this way, over the period from the timing t1 when the supply of operating power to the pachinko machine 10 is started to the timing t7 when the power failure signal is raised, the 0th to second terminals NS0 of the input/output port 421 The voltage of the drive control signal output from NS2 becomes unstable.

In the period from timing t1 to timing t7, in a state where the drive control signal input to the 0th NOT circuit 451 is recognized as LOW level, timings t2 and t4 and t6, the voltage of the drive control signal input to the 0th NOT circuit 451 exceeds the first reference voltage (specifically, 2.8V) as shown in FIG. 230(c). The 0-NOT circuit 451 recognizes that the level of the signal input to the 0-NOT circuit 451 is HI level. Then, as shown in FIG. 230(b), the signal output from the 0th NOT circuit 451 falls from HI level to LOW level. 230(c) at the timings t3 and t5 in the state where the drive control signal input to the 0th NOT circuit 451 is recognized as being at the HI level. When the voltage of the drive control signal input to the 0-NOT circuit 451 falls below the second reference voltage (specifically, 1.6 V), the 0-NOT circuit 451 inputs to the 0-NOT circuit 451 The level of the signal is recognized as LOW level. Then, as shown in FIG. 230(b), the signal output from the 0th NOT circuit 451 rises from LOW level to HI level.

In this manner, during the period from timing t1 to timing t7, the voltage of the drive control signal output from the 0th terminal NS0 becomes unstable, causing the 0th NOT circuit 451 to the 0th NAND circuit 441 to rise of the output signal occurs. Although not shown, during this period, the voltages of the drive control signals output from the first terminal NS1 and the second terminal NS2 become unstable, so that the first and second NOT circuits 452 and 453 A rising edge of the signal output to the first and second NAND circuits 442 and 443 occurs. On the other hand, as already described, the reset signal output from the power failure monitoring board 85 is maintained at the LOW level during the period when the power supply voltage supplied to the main side MPU 82 is in an unstable state. As already described with reference to FIG. 229, when the reset signal is at the LOW level, regardless of the states of the signals output from the 0th to 2nd NOT circuits 451 to 453, the 0th to 2nd MOSFETs 461 to 453 The signal output to the gate of 463 becomes LOW level. Thereby, as shown in FIG. 230(a), it is possible to maintain the state in which the drive unit 32b for the special electric is in the non-driving state. Further, although illustration is omitted, it is possible to maintain a state in which the distribution entrance driving portion 163 and the switching driving portion 167 are in a non-driving state. Further, as already described, the signal path (signal line LN14) from the power failure monitoring board 85 to the 0th to 2nd NAND circuits 441 to 443 is grounded through the pull-down resistor 464. FIG. Therefore, even if noise is generated to push up the voltage of the reset signal, as shown in FIG. The signal can be held at a LOW level.

At the timing of t7, the power supply voltage supplied from the power supply/launch control device 78 to the main side MPU 82 via the power failure monitoring board 85 does not fall below the specified operating voltage (specifically 3 V) for a predetermined time (specifically When the power failure monitoring board 85 recognizes that the power failure has continued for a period of 2 milliseconds, as shown in FIG. Raise from LOW level to HI level. After that, at timing t8, which is after a predetermined period (specifically, 9 milliseconds) has elapsed from timing t7, the power failure monitoring board 85 switches the main side MPU 82 and the 0th to 2nd malfunction prevention circuits 422 to 424. The reset signals output to the 0th to 2nd NAND circuits 441 to 443 are raised from LOW level to HI level. Thereby, the operation of the main side MPU 82 is started. Specifically, at the timing of t8, the main MPU 82 starts the main process (FIG. 13). The time from the timing t7 when the power failure monitor board 85 raises the power failure signal to the timing t8 when the reset signal is raised is a time sufficient to stabilize the power supply voltage supplied to the main side MPU 82 at 5 V (specifically, is set to 9 ms). As a result, the operation of the main MPU 82 can be started after the main MPU 82 can be stably supplied with a power supply voltage of 5V.

After that, at the timing of t9, as shown in FIG. 230(c), the main MPU 82 lowers the drive control signal output from the 0th terminal NS0 from the HI level to the LOW level, as shown in FIG. 230(b). Then, the signal output from the 0th NOT circuit 451 rises from the LOW level to the HI level, and the signal output to the gate of the MOSFET 461 becomes HI level. As a result, at the timing of t9, as shown in FIG. 230(a), the driving section 32b for the special electric is in the driving state.

As described above, the period from the start of the supply of operating power to the pachinko machine 10 until the power supply voltage supplied to the main side MPU 82 reaches the specified operating voltage (specifically 3 V) (timing of t1 to t7 timing period), the voltage of the drive control signal output from the 0th to 2nd terminals NS0 to NS2 becomes unstable, so that the 0th to 2nd NOT circuits 451 to 453 to the 0th to 2nd NAND circuits Although the signals output to 441 to 443 rise, the reset signals output from the power failure monitor board 85 to the 0th to 2nd NAND circuits 441 to 443 are maintained at the LOW level during this period. As a result, immediately after the supply of the operating power to the pachinko machine 10 is started, the target drive unit (the special electric drive unit 32b, the distribution entrance drive unit 163, the switching drive unit 167) malfunctions. can be prevented.

A configuration in which drive control of the target drive unit is executed based on a combination of the state of the drive control signal output from the 0th to second terminals NS0 to NS2 and the state of the reset signal output from the power failure monitoring board 85. In addition, by adopting a configuration in which the reset signal is maintained at the LOW level when the supply of operating power to the pachinko machine 10 is started, it is possible to prevent malfunction of the target drive unit from occurring in the situation. can.

Next, a case where the supply of operating power to the pachinko machine 10 is stopped will be described. FIG. 231 is a flowchart showing power failure monitoring processing executed by the main MPU 82. FIG. As already described in the first embodiment, the power failure monitoring process is executed in step S201 of the timer interrupt process (FIG. 14).

When the power failure signal output from the power failure monitoring board 85 is HI level, that is, when a power failure has not occurred (step SF801: NO), power failure processing (processing of steps SF802 to SF804) is executed. This power outage monitoring process is terminated. On the other hand, if the power failure signal output from the power failure monitoring board 85 has fallen to the LOW level, that is, if the occurrence of a power failure has been specified (step SF801: YES), the power failure processing (steps SF802 to SF804). to run.

In the power failure processing, the power failure flag of the main RAM 84 is set to "1" (step SF802), and the checksum calculation process is executed (step SF803). In the checksum calculation process, a checksum is calculated and the calculated checksum is saved. Thereafter, port setting processing is executed (step SF804). In the port setting process, the control register 425, the output data register 426 and the input data register 427 are cleared to "0". The port setting circuit 428 selects the 0th to 2nd terminals of the input/output port 421 based on the data set in the 0th to 2nd bits 425a to 425c, 426a to 426c, and 427a to 427c of these registers 425 to 427. NS0 to NS2 output HI level drive control signals. As a result, the special electric drive unit 32b, the distribution entrance drive unit 163, and the switching drive unit 167 can be brought into a non-driving state. After executing the power failure processing (steps SF802 to SF804), an infinite loop is formed.

Next, the state of the target drive unit when the supply of the operating power to the pachinko machine 10 is stopped will be described with reference to the time chart of FIG. 232, taking the special electric drive unit 32b as an example. FIG. 232(a) shows the period in which the drive unit 32b for the special electric is in the driving state, and FIG. 232(c) shows the state of the signal output from the 0th NOT circuit 451 of the 0th malfunction prevention circuit 422 to the 0th NAND circuit 441, and FIG. FIG. 232(e) shows the state of the drive control signal output from the terminal NS0 to the 0th NOT circuit 451, and FIG. FIG. 232(f) shows the timing at which power failure processing is executed by the main MPU 82, and FIG. The state of the power failure signal output to the MPU 82 is shown, and FIG.

As shown in FIG. 232(a), when the supply of operating power to the pachinko machine 10 is stopped at the timing of t1 when the drive unit 32b for the special electric is in the driving state, as shown in FIG. 232(h) , the maximum voltage output from the power supply/launch control device 78 begins to drop, and at the timing of t2, it falls below the specified voltage (specifically, 24 V). The power failure monitor board 85 monitoring the maximum voltage lowers the power failure signal from the HI level to the LOW level at the timing t2, as shown in FIG. 232(g).

After that, at the timing of t3, when the power failure monitoring process (FIG. 231) recognizes the fall of the power failure signal, the power failure process (steps SF802 to SF804) is executed as shown in FIG. 232(f). . As already explained, in the power failure process, the 0th to 2nd bits 426a to 426c of the output data register 426 are set to "0". As a result, the drive control signal output from the 0th terminal NS0 rises from the LOW level to the HI level as shown in FIG. 232(d), and is output from the 0th NOT circuit 451 as shown in FIG. signal falls from HI level to LOW level. Then, as shown in FIG. 232(a), the driving section 32b for the special electric is in a non-driving state. As a result, the special electric prize winning device 32 is closed. Although not shown, the drive control signals output from the first terminal NS1 and the second terminal NS2 are also at HI level, like the drive control signal output from the 0th terminal NS0. Then, when the drive control signal output from the first terminal NS1 becomes HI level, the drive section 163 for the sorting entrance is put into a non-driving state and the sorting prize winning device 161 is put into a closed state. Further, when the drive control signal output from the second terminal NS2 becomes HI level, the switching driving section 167 is brought into a non-driving state and the switching piece 166 is placed at the retracted position.

At timing t4, which is a predetermined time (specifically, 9 milliseconds) after timing t2 when the power failure signal fell from HI level to LOW level, power failure monitoring is performed as shown in FIG. 232(e). The substrate 85 causes the reset signal to fall from HI level to LOW level. As a result, the operation of the main MPU 82 is stopped. In addition, when the reset signals input to the 0th to 2nd NAND circuits 441 to 443 of the 0th to 2nd malfunction prevention circuits 422 to 424 fall, the reset signals input to the 0th to 2nd NAND circuits 441 to 443 fall. The signals output from the 0th to 2nd NAND circuits 441 to 443 to the 3rd to 5th NOT circuits 454 to 456 become HI level regardless of the states of the drive control signals applied to the 3rd to 5th NOT circuits 441 to 443. The signals output from the 5NOT circuits 454 to 456 to the 0th to 2nd MOSFETs 461 to 463 are at LOW level. As a result, even if the drive control signal temporarily rises to HI level due to the influence of noise or the like that boosts the voltage of the drive control signal output from the 0th to 2nd terminals NS0 to NS2 of the input/output port 421, It is possible to create a state in which malfunctions of the drive unit 32b for the entrance, the drive unit 163 for the distribution inlet, and the drive unit 167 for switching do not occur.

When a LOW level drive control signal is output from the 0th to second terminals NS0 to NS2 and a HI level reset signal is output from the blackout monitoring board 85, the target drive unit (drive unit 32b for special electric , the distribution entrance drive unit 163 or the switching drive unit 167) is driven, the reset signal falls to the LOW level at the timing when the operation of the main MPU 82 stops. A state can be established in which a voltage corresponding to a HI level signal is not applied to the gate of the second MOSFET. As a result, after the operation of the main side MPU 82 is stopped, the power supply voltage supplied to the main side MPU 82 begins to drop. Even when a HI level signal is output from NS0 to NS2, it is possible to prevent the voltage corresponding to the HI level signal from being applied to the gates of the 0th to second MOSFETs 461 to 463. FIG. Therefore, it is possible to prevent the target driving unit from being driven after the operation of the main MPU 82 is stopped.

By lowering the reset signal at the timing after the timing at which the power failure signal is lowered, the voltage corresponding to the HI level signal is not applied to the gates of the 0th to 2nd MOSFETs 461 to 463 after the power failure processing is executed. can be As a result, until the power failure processing is executed, the target drive unit (the special electric drive unit 32b, the distribution entrance drive unit 163, and the switching drive unit 167) can be set to the drive state, and the reset After the signal falls, it is possible to prevent the target driving section from entering the driving state at a timing not intended in the design stage.

The timing of t4 is the timing before the maximum voltage output from the power supply/launch control device 78 as shown in FIG. This is the timing before the descent begins. Therefore, as shown in FIG. 232(d), the drive control signal output from the 0th terminal NS0 falls to the LOW level under the influence of the power supply voltage drop until the timing t4 when the reset signal falls. never go down. Although not shown, the drive control signals output from the first terminal NS1 and the second terminal NS2 also fall to the LOW level under the influence of the power supply voltage drop until the timing t4 when the reset signal falls. never go down. In this way, the drive control signals output from the 0th to 2nd terminals NS0 to NS2 fall to the LOW level under the influence of the drop in the power supply voltage supplied to the main MPU 82. By lowering the reset signal to the LOW level at the timing, it is possible to prevent malfunction of the special electric drive section 32b, the distribution entrance drive section 163, and the switching drive section 167 when the supply of operating power is stopped. can be prevented.

Next, various processes executed by the main side MPU 82 for executing drive control of the drive unit 32b for the special electric, the drive unit 163 for the distribution entrance, and the drive unit 167 for switching will be described.

First, the port output processing executed by the main MPU 82 will be described with reference to the flowchart of FIG. As already described in the first embodiment, port output processing is executed in step S207 of timer interrupt processing (FIG. 14).

In steps SF901 to SF910, processing for switching between the state in which the switching piece 166 (see FIG. 46) of the distribution winning device 161 is arranged at the retracted position and the state in which it is arranged at the V guidance position is executed. do. As already described in the sixth embodiment, the switching piece 166 is arranged at the retracted position by the biasing force of a biasing means such as a spring (not shown) when the switching driving portion 167 is in the non-driving state. When the driving portion 167 is driven, the switching piece 166 is displaced against the urging force thereof and placed in the V-guiding position.

In the port output process (FIG. 233), first, 1 is added to the value of the induction time counter provided in the main RAM 84 (step SF901). The induction time counter is a counter that allows the main MPU 82 to grasp the timing for switching between the state in which the switching piece 166 is arranged in the retracted position and the state in which it is arranged in the V-induction position. The induction time counter consists of 2 bytes. The value of the induction time counter is updated by adding 1 at intervals of about 4 milliseconds.

After that, it is determined whether or not "1" is set in the guiding flag provided in the main RAM 84 (step SF902). The in-guidance flag is a flag that enables the main MPU 82 to recognize that the switching piece 166 is arranged in the V guidance position. When the value of the guiding flag is "0" (step SF902: NO), that is, when the switching piece 166 is in the retracted position, the value of the guidance time counter in the main RAM 84 is "675". '' (step SF903). When the value of the guidance time counter is "675" or more, that is, when 2.7 seconds have passed since the switching piece 166 was placed at the retracted position, guidance start processing is executed. (Step SF904).

In the guidance start process (step SF904), the 1-byte data set in the output data register 426 is grasped, and changed data is generated by changing the second bit data of the 1-byte data to "1". do. By writing the changed data to the output data register 426, the data set in the 0th bit 426a and the 1st bit 426b of the output data register 426 is maintained while the data in the 2nd bit 426c is changed to "1." ”. The port setting circuit 428 sets the data "1" set in the second bit 426c to the second output data area DA2. As a result, the drive control signal output from the second terminal NS2 can be lowered from the HI level to the LOW level. As already described, the switching drive unit 167 is in the drive state when the drive control signal output from the second terminal NS2 is at LOW level and the reset signal output from the power failure monitoring board 85 is at HI level. becomes. When the reset signal rises from the LOW level to the HI level after the supply of operating power to the pachinko machine 10 is started, the reset signal is maintained at the HI level until the occurrence of power failure is specified. Therefore, the drive control signal output from the second terminal NS2 is lowered to the LOW level in the guidance start process (step SF904), so that the switching drive section 167 can be brought into the drive state. About 0.3 seconds after the switching driving portion 167 is driven, the switching piece 166 is placed at the V-leading position.

After that, "1" is set to the guiding flag of the main side RAM 84 (step SF905). This allows the main MPU 82 to recognize that the switching driving unit 167 is in the driving state. After that, the value of the induction time counter in the main RAM 84 is cleared to "0" (step SF906). As a result, it is possible for the main MPU 82 to grasp the elapsed time after the switching drive unit 167 is switched to the drive state.

When the guiding flag is set to "1" (step SF902: YES), that is, when the switching drive unit 167 is in the driving state, the value of the guidance time counter in the main RAM 84 is "325" or more. (step SF907: YES), that is, 1.3 seconds or more have passed since the switching drive unit 167 was switched to the drive state, the guidance end process is executed (step SF908). ).

In the guidance end processing (step SF908), the 1-byte data set in the output data register 426 is grasped, and changed data is generated by changing the 2nd bit data of the 1-byte data to "0". do. Then, by writing the changed data to the output data register 426, the data set in the 0th bit 426a and the 1st bit 426b of the output data register 426 is maintained while the data in the 2nd bit 426c is changed to "0". ”. The port setting circuit 428 sets the data “0” set in the second bit 426 c to the second output data area DA 2 of the input/output port 421 . As a result, the drive control signal output from the second terminal NS2 can rise from the LOW level to the HI level. By raising the drive control signal output from the second terminal NS2 to the HI level, the switching drive section 167 can be placed in a non-driving state and the switching piece 166 can be arranged at the retracted position.

After that, the guiding flag is cleared to "0" (step SF909). This allows the main MPU 82 to recognize that the switching drive unit 167 is in the non-driving state. After that, the value of the induction time counter is cleared to "0" (step SF910). This allows the main MPU 82 to grasp the elapsed time after the switching driving unit 167 is switched to the non-driving state.

Approximately 0.3 seconds after the switching drive unit 167 is switched to the driving state, the switching piece 166 is placed in the V-leading position. Continued. Thereafter, the switching driving portion 167 is switched to the non-driving state, and the switching piece 166 is placed at the retracted position. The non-driving state continues for approximately 2.7 seconds. As in the sixth embodiment, the switching piece 166 starts to operate when the operating power is supplied to the pachinko machine 10, and the switching piece 166 is V-induced at a certain cycle for a certain period of time. placed in position. The cycle in which the switching piece 166 is placed in the V-lead position is once every 4 seconds, and the period in which the switching piece 166 is held in the V-lead position is about 1 second.

If a negative determination is made in step SF903, if the processing of step SF906 is performed, if a negative determination is made in step SF907, or if the processing of step SF910 is performed, other output processing is executed. (step SF911) to end the port output process. In other output processing in step SF911, when output information has been set in the previous timer interrupt processing, processing for performing output corresponding to the output information is executed.

Next, the distribution start processing executed by the main MPU 82 will be described with reference to the flowchart of FIG. As already described in the sixth embodiment, the distribution start process is executed in step S2708 of the special figure special electric control process (FIG. 49).

First, a distribution start command is transmitted to the sound and light side MPU 93 (step SG101). When receiving the distribution start command from the main MPU 82, the sound and light side MPU 93 controls light emission of the display light emitting unit 64 and outputs sound of the speaker unit 65 so that an effect indicating that the distribution execution mode is in progress is executed. Execute control. Also, the sound and light side MPU 93 transmits a distribution start command to the display side MPU 103 . When the display side MPU 103 receives the distribution start command from the sound and light side MPU 93, the display side MPU 103 executes a display effect indicating that the distribution execution mode has started, and then displays a display effect indicating that the distribution execution mode is in progress. Display control of the symbol display device 41 is performed. After that, "5" is set in the distribution winning counter of the main side RAM 84 (step SG102). As already described in the sixth embodiment, the distribution winning counter is set in relation to the number of game balls entered in the distribution winning device 161 which is in the open state in the distribution execution mode. This counter is used by the main MPU 82 to identify the trigger for switching the device 161 from the open state to the closed state. After that, the processing for setting the distribution open period is executed (step SG103). In the distribution open period setting process, information corresponding to the 2 seconds is stored in the timer counter of the main side RAM 84 so that the period during which the distribution winning device 161 is maintained in the open state is 2 seconds, which is the distribution open period. set.

After that, a distribution opening process is executed to open the distribution winning device 161 (step SG104). In the distribution release process, 1-byte data set in the output data register 426 is grasped, and changed data is generated by changing the first bit data of the 1-byte data to "1". By writing the changed data to the output data register 426, the data set in the 0th bit 426a and the 2nd bit 426c of the output data register 426 are maintained while the data in the 1st bit 426b is changed to "1". ”. The port setting circuit 428 sets the data “1” set in the first bit 426 b to the first output data area DA 1 of the input/output port 421 . As a result, the drive control signal output from the first terminal NS1 can be lowered from the HI level to the LOW level. As already described, the distribution entrance drive unit 163 operates when the drive control signal output from the first terminal NS1 is at the LOW level and the reset signal output from the power failure monitoring board 85 is at the HI level. It will be in the driving state. When the reset signal rises from the LOW level to the HI level after the supply of operating power to the pachinko machine 10 is started, the reset signal is lowered after the occurrence of a power failure is specified and the power failure signal is lowered. HI level is maintained until Therefore, in the sorting start process (step SG104), the drive control signal output from the first terminal NS1 is lowered to the LOW level, so that the sorting entrance driving section 163 can be driven. As a result, the distribution winning device 161 can be brought into an open state.

After that, the distribution opening flag provided in the main RAM 84 is set to "1" (step SG105). The distribution open flag is a flag that allows the main side MPU 82 to grasp that the distribution winning device 161 should be maintained in an open state. After that, by adding 1 to the value of the special special electric counter, the value of the special special electric counter is updated to "4" corresponding to the distribution processing (step S2709) (step SG106), and the main distribution start processing exit.

Next, the distribution processing executed by the main MPU 82 will be described with reference to the flowchart of FIG. As already described in the sixth embodiment, the distribution process is executed in step S2709 of the special figure special electric control process (FIG. 49).

When a game ball is detected by the V winning detection sensor 169 (see FIG. 46) of the distribution winning device 161 (step SG201), the V winning flag of the main side RAM 84 is set to "1" (step SG202). As already described in the sixth embodiment, the V winning flag is a flag for specifying in the main side MPU 82 that the V winning detection sensor 169 has detected a game ball. After that, a V winning command is transmitted to the sound and light side MPU 93 (step SG203). When the sound and light side MPU 93 receives the V winning command from the main side MPU 82, the light emission control of the display light emitting unit 64 and the speaker are performed so that the effect corresponding to the detection of the game ball by the V winning detection sensor 169 is executed. The sound output control of the section 65 is executed. Also, the sound and light side MPU 93 transmits a V winning command to the display side MPU 103 . When the display side MPU 103 receives the V winning command from the sound and light side MPU 93, the display side MPU 103 displays and controls the pattern display device 41 so that a display performance indicating that the game ball is detected by the V winning detection sensor 169 is executed. .

When a negative determination is made in step SG201, or when the process of step SG203 is performed, it is determined whether or not the distribution winning device 161 is in the open state (step SG204). In step SG204, affirmative determination is made when "1" is set in the distribution open flag of the main side RAM84. When the distribution winning device 161 is in the open state (step SG204: YES), it is determined whether or not the distribution open period has passed (step SG205). At step SG205, an affirmative determination is made when the value of the timer counter in the main RAM 84 is "0". When the distribution open period has not passed (step SG205: NO), whether or not the game ball is detected by the count detection sensor 168 or the V winning detection sensor 169 (see FIG. 46) of the distribution winning device 161 , it is determined whether or not a prize has been awarded to the distribution prize winning device 161 (step SG206). If the distribution winning device 161 has won a prize (step SG206: YES), 1 is subtracted from the value of the distribution winning counter in the main RAM 84 (step SG207), and the distribution winning after the 1 subtraction is performed. It is determined whether or not the counter value is "0" (step SG208).

If an affirmative determination is made in step SG205 or step SG208, since the conditions for closing the distribution winning device 161 are satisfied, distribution closing processing is executed (step SG209). In the distribution closing process, 1-byte data set in the output data register 426 is grasped, and changed data is generated by changing the first bit data of the 1-byte data to "0". By writing the changed data to the output data register 426, the data set in the 0th bit 426a and the 2nd bit 426c of the output data register 426 are maintained while the data in the 1st bit 426b is changed to "0". ”. The port setting circuit 428 sets the data "0" set in the first bit 426b to the first output data area DA1. As a result, the drive control signal output from the first terminal NS1 can rise from the LOW level to the HI level. By raising the drive control signal output from the first terminal NS1 to the HI level, the drive unit 163 for the sorting entrance can be brought into a non-driving state, and the sorting winning device 161 can be brought into a closed state.

Thereafter, the distribution open flag of the main side RAM 84 is cleared to "0" (step SG210). Thereby, it is possible for the main side MPU 82 to grasp that the distribution winning device 161 is in the closed state. Thereafter, information corresponding to the waiting period is set in the timer counter of the main side RAM 84 in order to wait for the completion of the distribution execution mode until there are no more game balls in the distribution winning device 161 (step SG211). . The standby period is set as a period longer than the longest period required until the game ball entering the distribution winning device 161 is detected by either the count detection sensor 168 or the V winning detection sensor 169 . Specifically, it is set to 4 seconds. By waiting for the completion of the distribution execution mode until the standby period elapses in this way, it is assumed that the game ball entering the distribution winning device 161 just before the distribution winning device 161 is closed is temporarily detected as V winning. If detected by the sensor 169, it can be treated as valid.

If a negative determination is made in step SG204, it is determined whether or not the standby period measured by the timer counter of the main RAM 84 has passed (step SG212), and if the standby period has passed (step SG212 : YES), it is determined whether or not the V winning flag of the main RAM 84 is set to "1" (step SG213). If the V prize flag is set to "1" (step SG213: YES), the processing for shifting to the opening/closing execution mode (processing of steps SG214 to SG217) is executed. Specifically, display start processing of the special display portion 191 on the game board 24 is executed (step SG214). In the display start processing, the display of the special display portion 191 is controlled so that the display state of the special display portion 191 becomes a predetermined display state corresponding to execution of the opening/closing execution mode. After that, at steps SG215 to SG217, the same processes as steps S3003 to S3005 of the special figure determination process (FIG. 52) in the sixth embodiment are executed. Specifically, the information corresponding to the opening period (specifically 5 seconds) is set in the special figure side timer counter (step SG215), and the opening command is transmitted to the sound and light side MPU 93 (step SG216). When receiving the opening command, the sound and light side MPU 93 causes the pattern display device 41, the display light emitting portion 64 and the speaker portion 65 to perform an effect corresponding to the opening period. After that, by adding "3" to the value of the special special electric counter, the value of the special special electric counter is updated to "5" corresponding to the special electric start processing (step S2710) (step SG217), and the main distribution processing exit.

If a negative determination is made in step SG213, flag clear processing is executed (step SG218). In the flag clearing process, various flags of the main side RAM 84 used in the current game round are cleared to "0". For example, in the distribution execution mode, any one of the first to third small winning flags of the main side RAM 84 is set to "1", but the flag set to "1" is cleared to "0". . After that, by clearing the value of the special figure special electric counter to "0", the value of the special figure special electric counter is updated to "0" corresponding to the special figure fluctuation start process (step S2705) (step SG219), and the main distribution end the processing.

Next, the special electric start processing executed by the main MPU 82 will be described with reference to the flowchart of FIG. As already described in the sixth embodiment, the special electric start processing is executed in step S2710 of the special special electric control processing (FIG. 49).

On the condition that the value of the special figure side timer counter is "0" (step SG301: YES), ie, that the opening period has passed, the setting process of the number of times of opening and closing is executed (step SG302). In the processing for setting the number of times of opening and closing, if the current game result is a low-frequency jackpot result or a high-frequency jackpot result, the round counter of the main side RAM 84 is set to "10", and if the game result this time is the first small hit result. For example, the round counter of the main side RAM 84 is set to "1", and if the current game result is the result of the second small win, the round counter of the main side RAM 84 is set to "4", and the game result of this time is the third small win. If the result is a winning result, the round counter of the main side RAM 84 is set to "9". As already explained in the sixth embodiment, the round counter is a counter for specifying the number of remaining round games in the opening/closing execution mode by the main MPU 82 . After that, an open duration setting process is executed (step SG303). In the open duration setting process, the information of the open duration of the round game (specifically 29 seconds) is set to the special figure side timer counter. After that, "10" is set in the winning counter of the main side RAM 84 (step SG304). As already explained in the sixth embodiment, the winning counter is a counter for specifying the remaining number of winning upper limit numbers in the main MPU 82 .

After that, special electric release processing is executed (step SG305). In the special electric release process, 1-byte data set in the output data register 426 is grasped, and changed data is generated by changing the 0th bit data of the 1-byte data to "1". Then, by writing the changed data to the output data register 426, while maintaining the data set in the first bit 426b and the second bit 426c of the output data register 426, the data in the 0th bit 426a is changed to "1". ”. The port setting circuit 428 sets the data "1" set in the 0th bit 426a to the 0th output data area DA0. As a result, the drive control signal output from the 0th terminal NS0 can be lowered from the HI level to the LOW level. As already explained, the drive unit 32b for special electrics is driven when the drive control signal output from the 0th terminal NS0 is at LOW level and the reset signal output from the blackout monitoring board 85 is at HI level. state. When the reset signal rises from the LOW level to the HI level after the supply of operating power to the pachinko machine 10 is started, the reset signal is maintained at the HI level until the occurrence of power failure is specified. Therefore, in the special electric start process (step SG305), the drive control signal output from the 0th terminal NS0 is lowered to the LOW level, so that the special electric drive unit 32b can be driven. As a result, the special electric prize winning device 32 can be brought into an open state. After that, by adding 1 to the value of the special special electric counter, the value of the special special electric counter is updated to "6" (step SG306) corresponding to the special electric open processing (step S2711), and the special electric start processing ends. do.

Next, a description will be given of the special electric open processing executed by the main MPU 82 with reference to the flowchart of FIG. 237 . As already described in the sixth embodiment, the special electric open process is executed in step S2711 of the special electric power control process (FIG. 49).

When a game ball has entered the special electric winning device 32 (step SG401: YES), the value of the winning counter is subtracted by 1 (step SG402), and the value of the winning counter after the subtraction of 1 is " 0” (step SG403). In addition, when the game ball has not entered the special electric winning device 32 (step SG401: NO), it is released by determining whether the value of the special figure side timer counter is "0". It is determined whether or not the continuation period has passed (step SG404).

If an affirmative determination is made in step SG403 or step SG404, the value of the round counter in the main RAM 84 is decremented by 1 (step SG405), and special electric closing processing is executed (step SG406). In the special electric closing process, the 1-byte data set in the output data register 426 is grasped, and changed data is generated by changing the 0th bit data of the 1-byte data to "0". By writing the changed data to the output data register 426, the data set in the first bit 426b and the second bit 426c of the output data register 426 are maintained while the data in the 0th bit 426a is changed to "0". ”. The port setting circuit 428 sets the data "0" set in the 0th bit 426a to the 0th output data area DA0. As a result, the drive control signal output from the 0th terminal NS0 can rise from the LOW level to the HI level. By raising the drive control signal output from the 0th terminal NS0 to the HI level, the special electric prize winning device 32 can be brought into the closed state by putting the driving section 32b for the special electric into the non-driving state.

After that, if the value of the round counter after subtracting 1 in step SG405 is 1 or more (step SG407: YES), the interval period information (specifically 3 seconds) is set to the special figure side timer counter Then (step SG408), by adding 1 to the value of the special special electric counter, the value of the special electric electric counter is updated to "7" corresponding to the special electric closing process (step S2712) (step SG409), and this special electric Terminate open processing. On the other hand, if the value of the round counter after subtracting 1 in step SG405 is "0" (step SG407: NO), the information of the ending period (specifically 5 seconds) to the special figure side timer counter Set (step SG410), and send an ending command to the sound and light side MPU 93 (step SG411). When receiving the ending command, the sound and light side MPU 93 causes the pattern display device 41, the display light emitting portion 64 and the speaker portion 65 to perform an effect corresponding to the ending period. After that, by adding "2" to the value of the special electric charge counter, the value of the special electric charge counter is updated to "8" (step SG412) corresponding to the end processing of the special electric charge (step S2713), and the processing during the opening of this special electric charge exit.

Next, the processing during special electric closing executed by the main side MPU 82 will be described with reference to the flowchart of FIG. 238 . As already described in the sixth embodiment, the special power closing process is executed in step S2712 of the special power power control process (FIG. 49).

When the value of the special figure side timer counter is "0" (step SG501: YES), that is, when the interval period has passed, the opening duration setting process is executed (step SG502). In the open duration setting process, the information of the open duration of the round game (specifically 29 seconds) is set to the special figure side timer counter. After that, "10" is set in the winning counter of the main side RAM 84 (step SG503).

After that, as in step SG305 of the special electric start processing (FIG. 236), special electric open processing is executed (step SG504). In the special electric release process, 1-byte data set in the output data register 426 is grasped, and changed data is generated by changing the 0th bit data of the 1-byte data to "1". Then, by writing the changed data to the output data register 426, while maintaining the data set in the first bit 426b and the second bit 426c of the output data register 426, the data in the 0th bit 426a is changed to "1". ”. The port setting circuit 428 sets the data "1" set in the 0th bit 426a to the 0th output data area DA0. As a result, the drive control signal output from the 0th terminal NS0 can be lowered from the HI level to the LOW level. As already explained, the drive unit 32b for special electrics is driven when the drive control signal output from the 0th terminal NS0 is at LOW level and the reset signal output from the blackout monitoring board 85 is at HI level. state. When the reset signal rises from the LOW level to the HI level after the supply of operating power to the pachinko machine 10 is started, the reset signal is maintained at the HI level until the occurrence of power failure is specified. Therefore, in the special electric start process (step SG205), the drive control signal output from the 0th terminal NS0 is lowered to the LOW level, so that the special electric drive unit 32b can be driven. As a result, the special electric prize winning device 32 can be brought into an open state. After that, by adding 1 to the value of the special special electric counter, the value of the special special electric counter is updated to "6" (step SG505) corresponding to the special electric open processing (step S2711), and the special electric start processing ends. do.

According to the embodiment detailed above, the following excellent effects are obtained.

In addition to drive control signals output from terminals NS0 to NS2 of input/output port 421, reset signals output from power failure monitoring board 85 are input to 0th to 2nd malfunction prevention circuits 422 to 424, respectively. Malfunction prevention circuits 422 to 424 are applied to MOSFETs 461 to 463 corresponding to the malfunction prevention circuits 422 to 424 when the input drive control signal is at LOW level and the input reset signal is at HI level. output a HI level signal. Then, by outputting a HI level signal to the MOSFETs 461 to 463, the target driving unit (the driving unit 32b for the special train, the driving unit 163 for the distribution entrance, or the switching driving unit corresponding to the terminals NS0 to NS2 167) is driven. The reset signal output from the power failure monitoring board 85 is maintained at the LOW level during the period in which the power supply voltage supplied to the main side MPU 82 is in an unstable state after the supply of operating power to the pachinko machine 10 is started. be done. By maintaining the state in which the reset signal is at the LOW level, it is possible to maintain the state in which the target driving section is in the non-driving state, regardless of the state of the drive control signal. As a result, it is possible to prevent malfunction of the target driving unit when the supply of operating power to the pachinko machine 10 is started.

A signal path (signal line LN14) for outputting a reset signal from the power failure monitoring board 85 to the 0th to 2nd NAND circuits 441 to 443 of the 0th to 2nd malfunction prevention circuits 422 to 424 includes a pull-down resistor 464. grounded through As a result, during the period from when the supply of operating power to the pachinko machine 10 is started until the blackout monitoring board 85 raises the reset signal from the LOW level to the HI level, noise is generated that tries to boost the voltage of the reset signal. Even in this case, it is possible to prevent the reset signal from rising to the HI level due to the influence of the noise.

The pull-down resistor provided to prevent malfunction of the drive unit 32b for the special electric, the drive unit 163 for the distribution entrance, and the drive unit 167 for switching is one of the pull-down resistors 464 provided on the signal line LN14. Only. As a result, it is possible to prevent the drive units 32b, 163 and 167 from malfunctioning while suppressing the power consumption of the pachinko machine 10 from increasing.

When a LOW level drive control signal is output from the 0th to second terminals NS0 to NS2 and a HI level reset signal is output from the blackout monitoring board 85, the target drive unit (drive unit 32b for special electric , the distribution entrance drive unit 163 or the switching drive unit 167) is driven, the reset signal falls to the LOW level at the timing when the operation of the main MPU 82 stops. A state can be established in which a voltage corresponding to a HI level signal is not applied to the gate of the second MOSFET. As a result, after the operation of the main side MPU 82 is stopped, the power supply voltage supplied to the main side MPU 82 begins to drop. Even when a HI level signal is output from NS0 to NS2, it is possible to prevent the voltage corresponding to the HI level signal from being applied to the gates of the 0th to second MOSFETs 461 to 463. FIG. Therefore, it is possible to prevent the target driving unit from being driven after the operation of the main MPU 82 is stopped.

By lowering the reset signal at the timing after the timing at which the power failure signal is lowered, the voltage corresponding to the HI level signal is not applied to the gates of the 0th to 2nd MOSFETs 461 to 463 after the power failure processing is executed. can be As a result, until the power failure processing is executed, the target drive unit (the special electric drive unit 32b, the distribution entrance drive unit 163, and the switching drive unit 167) can be set to the drive state, and the reset After the signal falls, it is possible to prevent the target driving section from entering the driving state at a timing not intended in the design stage.

The timing at which the reset signal falls from the HI level to the LOW level when the supply of operating power is stopped is the timing before the power supply voltage (5V) supplied to the main side MPU 82 begins to drop. Therefore, the drive control signals output from the 0th to 2nd terminals NS0 to NS2 of the input/output port 421 cannot fall to the LOW level under the influence of the power supply voltage drop until the reset signal falls. do not have. A reset signal at a timing before the timing at which the drive control signals output from the 0th to 2nd terminals NS0 to NS2 fall to LOW level under the influence of a drop in the power supply voltage supplied to the main side MPU 82. is lowered to the LOW level, it is possible to prevent the special electric drive section 32b, the distribution entrance drive section 163, and the switching drive section 167 from malfunctioning when the supply of operating power is stopped.

The 0th NOT circuit 451 and the 3rd NOT circuit 454 of the 0th malfunction prevention circuit 422, the 1st NOT circuit 452 and the 4th NOT circuit 455 of the 1st malfunction prevention circuit 423, and the 2nd NOT circuit 453 of the 2nd malfunction prevention circuit 424 and the fifth NOT circuit 456 are incorporated in one electronic component (second logic IC 434). Therefore, the number of electronic components to be mounted on the main control board 81 can be reduced compared to the configuration in which two or more electronic components are mounted on the main control board 81 in order to provide the 0th to 5th NOT circuits 451 to 456. be able to.

The 0th NAND circuit 441 of the 0th malfunction prevention circuit 422, the first NAND circuit 442 of the first malfunction prevention circuit 423, and the second NAND circuit 443 of the second malfunction prevention circuit 424 are one electronic component (first It is built in the logic IC 433). Therefore, the number of electronic components to be mounted on the main control board 81 can be reduced compared to the configuration in which two or more electronic components are mounted on the main control board 81 in order to provide these 0th to 2nd NAND circuits 441 to 443. be able to.

In the configuration in which the external output circuit 431 is formed using the third NAND circuit 444 and the fourth NAND circuit 445, which are part of the five NAND circuits 441 to 445 built in the first logic IC 433, the five Of the NAND circuits 441-445, the 0th to 2nd NAND circuits 441-443 which are not included in the external output circuit 431 are used to form the 0th to 2nd malfunction prevention circuits 422-424. As a result, compared to a configuration in which a plurality of electronic components incorporating NAND circuits are mounted on the main control board 81 to form the external output circuit 431 and the 0th to 2nd malfunction prevention circuits 422 to 424, The number of electronic components mounted on the main control board 81 can be suppressed.

A 0th NAND circuit 441 that is part of the five NAND circuits 441 to 445 built in the first logic IC 433 and a 0th NOT that is a part of the six NOT circuits 451 to 456 built in the second logic IC 434 In the configuration in which the 0th malfunction prevention circuit 422 is formed using the circuit 451 and the third NOT circuit 454, the 0th malfunction prevention circuit among the five NAND circuits 441 to 445 built in the first logic IC 433 First to second NAND circuits 442 to 443 not included in the circuit 422, and the first NOT not included in the 0th malfunction prevention circuit 422 among six NOT circuits 451 to 456 built in the second logic IC 434. Using the circuit 452, the second NOT circuit 453, the fourth NOT circuit 455 and the fifth NOT circuit 456, the first and second malfunction prevention circuits 423 and 424 are formed. As a result, the number of electronic components (first logic IC 433 and second logic IC 434) mounted on the main control board 81 to form the 0th to 2nd malfunction prevention circuits 422 to 424 can be reduced.

The number (specifically, one) of NAND circuits 441 to 443 used in the first logic IC 433 to form each of the 0th to 2nd malfunction prevention circuits 422 to 424 is 2 The number of NOT circuits 451 to 456 used in the second logic IC 434 to form each of the malfunction prevention circuits 422 to 424 is different (specifically, two). In the configuration, NAND circuits 441 to 443 built in one first logic IC 433 and NOT circuits 451 to 456 built in one second logic IC 434 are used to detect the 0th to 2nd malfunctions. By forming the prevention circuits 422 to 424, electronic components (first logic IC 433 and second logic IC 434 ) is reduced.

In the signal path at the time of output, the third NOT circuit 454, which exists downstream of the 0th NAND circuit 441, is located in the 0th NOT circuit 451, which exists upstream of the 0th NAND circuit 441, as a physical position. A signal path of the 0th malfunction prevention circuit 422 is formed so as to be arranged side by side. The third NOT circuit 454, which exists most downstream in the signal flow, is located most upstream in the signal flow than the 0 NAND circuit 441, which exists second upstream in the signal flow. By arranging the 0th NOT circuit 451 at a position physically close to the 0th NOT circuit 451, the 0th NOT circuit 451 existing most upstream in the signal flow across the 0th NAND circuit 441 and the 0th NOT circuit 451 existing most downstream in the signal flow. The third NOT circuit 454 and the third NOT circuit 454 may be incorporated in one logic IC called the second logic IC 434 . Therefore, the 0th NOT circuit 451 existing on the upstream side of the signal flow across the 0th NAND circuit 441 and the 3rd NOT circuit 454 existing on the downstream side of the signal flow are incorporated in different logic ICs. The number of the second logic ICs 434 mounted on the main control board 81 can be reduced compared to the configuration in which the second logic ICs 434 are mounted.

In the first malfunction prevention circuit 423, similarly to the 0th malfunction prevention circuit 422, the first NOT circuit 452, which exists most upstream in the signal flow across the first NAND circuit 442, and the most downstream in the signal flow. The fourth NOT circuit 455 existing in the second logic IC 434 is built in one logic IC. In addition, in the second malfunction prevention circuit 424 as well as in the 0th malfunction prevention circuit 422 and the first malfunction prevention circuit 423, the second NOT that exists most upstream in the signal flow with the second NAND circuit 443 interposed therebetween. The circuit 453 and the fifth NOT circuit 456 existing at the most downstream of the signal flow are incorporated in one logic IC called the second logic IC 434 . As a result, the number of second logic ICs 434 mounted on the main control board 81 can be suppressed.

By reducing the number of electronic components mounted on the main control board 81, the manufacturing efficiency of the main control board 81 can be improved and the manufacturing cost of the main control board 81 can be reduced.

The first logic ICs 433 are the same electronic components as the first logic ICs mounted on the main control board 81, and the second logic ICs 434 are the same as the second logic ICs mounted on the main control board 81. It is the same electronic component. An external output circuit 431 and 0th to 2nd malfunction prevention circuits 422 to 424 are formed using a plurality of electronic components (first logic IC and second logic IC) mounted on the main control board 81. As a result, the electronic components mounted on the main control board 81 are shared, and the types of electronic components mounted on the main control board 81 are reduced. As a result, the manufacturing efficiency of the main control board 81 is enhanced, and the manufacturing cost of the main control board 81 is reduced.

<Thirty-Second Embodiment>
In this embodiment, the drive control signal and the selection signal are output in order to execute the drive control of the special electric drive unit 32b, the distribution entrance drive unit 163, and the switching drive unit 167. is different from the embodiment of The configuration different from that of the thirty-first embodiment will be described below. The description of the same configuration as that of the thirty-first embodiment is basically omitted.

FIG. 239 is an explanatory diagram for explaining the electrical configuration of the pachinko machine 10 in this embodiment.

As shown in FIG. 239, the main MPU 82 in this embodiment incorporates an input/output port 471 . The input/output port 471 is an input/output port having a function as an input/output port and a function as an output port. The input/output port 471 is provided with a 0th terminal NS10, a first terminal NS11, a second terminal NS12 and a third terminal NS13.

FIG. 240(a) is an explanatory diagram for explaining the signals output from the 0th to 3rd terminals NS10 to NS13 of the input/output port 471. FIG. As shown in FIG. 240(a), the 0th terminal NS10 outputs a drive control signal for performing drive control of the drive section 32b for the special train, the drive section 163 for the distribution entrance, and the drive section 167 for switching. used for Further, the first terminal NS11 is used to output a first selection signal for selecting the drive unit 32b for the special train as a drive target, and the second terminal NS12 is used to output the drive unit for the distribution entrance as a drive target. 163, and the third terminal NS13 is used to output a third selection signal for selecting the switching driver 167 as a drive target. A detailed configuration for performing drive control of the special electric drive unit 32b, the distribution entrance drive unit 163, and the switching drive unit 167 will be described later.

The main control board 81 is provided with an external output circuit 431 , a malfunction prevention circuit 472 , a first selection circuit 473 , a second selection circuit 474 and a third selection circuit 475 . As already explained in the thirty-first embodiment, the external output circuit 431 changes the advantageous support mode signal and the opening/closing execution mode signal from HI level to LOW level at the same time when the power failure signal falls from HI level to LOW level. This circuit is provided to enable the fall. The malfunction prevention circuit 472 is a circuit for preventing malfunction of the drive unit 32b for the special electric, the drive unit 163 for the distribution entrance, and the drive unit 167 for switching. The first selection circuit 473 is a circuit for selecting the drive unit 32b for special electrics as a drive target, and the second selection circuit 474 is a circuit for selecting the distribution entrance drive unit 163 as a drive target. The third selection circuit 475 is a circuit for selecting the switching drive section 167 as a drive target. Details of the external output circuit 431, malfunction prevention circuit 472, and selection circuits 473 to 475 will be described later.

The main MPU 82 is provided with a control register 476 , an output data register 477 and an input data register 478 . FIG. 240(b) is an explanatory diagram for explaining the configuration of the control register 476, FIG. 240(c) is an explanatory diagram for explaining the configuration of the output data register 477, and FIG. FIG. 11 is an explanatory diagram for explaining the configuration of a data register 478; Each of the control register 476, the output data register 477 and the input data register 478 is a 1-byte storage area having 0th to 7th bits. These registers 476 to 478 are storage areas in which data is read by the main MPU 82 and data is written by the main MPU 82 .

The 0th bit 476a of the control register 476, the 0th bit 477a of the output data register 477, and the 0th bit 478a of the input data register 478 correspond to the 0th terminal NS10 of the input/output port 471. The 1 bit 476b, the first bit 477b of the output data register 477 and the first bit 478b of the input data register 478 correspond to the first terminal NS11 of the input/output port 471, the second bit 476c of the control register 476, the output The second bit 477c of the data register 477 and the second bit 478c of the input data register 478 correspond to the second terminal NS12 of the input/output port 471, the third bit 476d of the control register 476, and the third bit 476d of the output data register 477. The 3rd bit 477 d and the third bit 478 d of the input data register 478 correspond to the third terminal NS 13 of the input/output port 471 . The 4th to 7th bits of the control register 476, the 4th to 7th bits of the output data register 477, and the 4th to 7th bits of the input data register 478 are unused. The value is kept at "0".

FIG. 240(e) is an explanatory diagram for explaining the data set in the 0th to 3rd bits 476a to 476d of the control register 476, and FIG. FIG. 240(g) is an explanatory diagram for explaining data set in bits 477a to 477d, and FIG. It is a diagram. The main MPU 82, as shown in FIG. Data indicating the input/output direction at the second terminal NS12 is set at the first bit 476b, data indicating the input/output direction at the second terminal NS12 is set at the second bit 476c, and data indicating the input/output direction at the third terminal NS13 is set at the third bit 476d. set. The data "0" set in the 0th to 3rd bits 476a to 476d of the control register 476 is data for causing the corresponding terminals NS10 to NS13 to function as output terminals, and the 0th to 3rd bits 476a The data "1" set in .about.476d is data for causing the corresponding terminals NS10 to NS13 to function as input terminals.

When the 0th to 3rd terminals NS10 to NS13 are to function as output terminals, the main MPU 82, as shown in FIG. , the data output from the first terminal NS11 is set to the first bit 477b, the data output from the second terminal NS12 is set to the second bit 477c, and the data output from the third terminal NS13 is set to the third bit 477d. When the 0th to 3rd terminals NS10 to NS13 function as input terminals, the data input to the 0th terminal NS10 is stored in the 0th bit 478a of the input data register 478 as shown in FIG. 240(g). Data input to the first terminal NS11 is stored in the first bit 478b, data input to the second terminal NS12 is stored in the second bit 478c, and data input to the third terminal is stored in the third bit 478d. The data input to NS13 is stored.

As shown in FIG. 239, the main MPU 82 is provided with a port setting circuit 479, and the input/output port 471 has a 0th output data area DA10, a first output data area DA11, a second output data area DA12, and a A third output data area DA13 is provided. The port setting circuit 479 is hardware for controlling the input/output port 471 based on the data set in the control register 476 and the output data register 477 without going through the control by the processing executed by the main MPU 82 . It is wear. The 0th output data area DA10 is set with data "0" or "1" that determines the state of the drive control signal output from the 0th terminal NS10 when the 0th terminal NS10 functions as an output terminal. The first output data area DA11 is a 1-bit storage area, and the first output data area DA11 determines the state of the drive control signal output from the first terminal NS11 when the first terminal NS11 functions as an output terminal. or a 1-bit storage area in which data "1" is set, and the second output data area DA12 is a drive control output from the second terminal NS12 when the second terminal NS12 functions as an output terminal. This is a 1-bit storage area in which data "0" or "1" that determines the state of a signal is set. This is a 1-bit storage area in which data "0" or "1" that determines the state of the drive control signal output from the 3-terminal NS13 is set.

When the 0th bit 476a of the control register 476 is set to "0" (data corresponding to output), the port setting circuit 479 sets the 0th bit 477a of the output data register 477 to "0" or Data "1" is set in the 0th output data area DA10. When "0" is set in the 0th output data area DA10, the HI level corresponding to the power supply voltage (specifically 5V) supplied from the 0th terminal NS10 of the input/output port 471 to the main side MPU 82 When "1" is set in the 0th output data area DA10, a LOW level signal is output from the 0th terminal NS10. When the first bit 476b of the control register 476 is set to "0" (data corresponding to output), the port setting circuit 479 sets the first bit 477b of the output data register 477 to "0" or Data "1" is set in the first output data area DA11. When "0" is set in the first output data area DA11, the HI level corresponding to the power supply voltage (specifically 5 V) supplied from the first terminal NS11 of the input/output port 471 to the main side MPU 82 When "1" is set in the first output data area DA11, a LOW level signal is output from the first terminal NS11. When the second bit 476c of the control register 476 is set to "0" (data corresponding to output), the port setting circuit 479 sets the second bit 477c of the output data register 477 to "0" or Data "1" is set in the second output data area DA12. When "0" is set in the second output data area DA12, the HI level corresponding to the power supply voltage (specifically, 5 V) supplied from the second terminal NS12 of the input/output port 471 to the main side MPU 82 When "1" is set in the second output data area DA12, a LOW level signal is output from the second terminal NS12. When the third bit 476d of the control register 476 is set to "0" (data corresponding to output), the port setting circuit 479 sets the third bit 477d of the output data register 477 to "0" or Data "1" is set in the third output data area DA13. When "0" is set in the third output data area DA13, the HI level corresponding to the power supply voltage (specifically 5V) supplied from the third terminal NS13 of the input/output port 471 to the main side MPU 82 When "1" is set in the third output data area DA13, a LOW level signal is output from the third terminal NS13.

The data set in the 0th to 3rd output data areas DA10 to DA13 disappear after being stored and held for a predetermined time (for example, 20 milliseconds). The data set in the 0th to 3rd bits 477a to 477d of the output data register 477 are set in the 0th to 3rd output data areas DA10 to DA13 in a short cycle (for example, a cycle of 2 milliseconds). Therefore, when the 0th bit 476a of the control register 476 is set to "0", the drive control signal output from the 0th terminal NS10 is the data set in the 0th bit 477a of the output data register 477. is maintained in a state corresponding to When the first bit 476b of the control register 476 is set to "0", the drive control signal output from the first terminal NS11 is the data set in the first bit 477b of the output data register 477. The corresponding states are maintained. Furthermore, when the second bit 476c of the control register 476 is set to "0", the drive control signal output from the second terminal NS12 is the data set in the second bit 477c of the output data register 477. is maintained in a state corresponding to When the third bit 476d of the control register 476 is set to "0", the drive control signal output from the third terminal NS13 is the data set in the third bit 477d of the output data register 477. The corresponding states are maintained.

When rewriting the data of one of the 0th to 3rd bits 477a to 477d in the output data register 477, the main MPU 82 grasps the 1-byte data stored in the output data register 477 before rewriting, After-change data is generated by changing only the bit data to be rewritten out of the grasped 1-byte data. Then, the post-change data is written in the output data register 477 . As a result, only the data of the bit to be rewritten is rewritten while maintaining the data of the bits other than the bit to be rewritten.

When the 0th bit 476a of the control register 476 is set to "1" (data corresponding to input), the port setting circuit 479 sets "0" corresponding to the LOW level signal input to the 0th terminal NS10. or "1" corresponding to the HI level signal input to the 0th terminal NS10 is stored in the 0th bit 478a of the input data register 478. When the first bit 476b of the control register 476 is set to "1" (data corresponding to input), the port setting circuit 479 responds to the LOW level signal input to the first terminal NS11. The data setting is performed so that the first bit 478b of the input data register 478 stores data "0" or data "1" corresponding to the HI level signal input to the first terminal NS11. Furthermore, when the second bit 476c of the control register 476 is set to "1" (data corresponding to input), the port setting circuit 479 corresponds to the LOW level signal input to the second terminal NS12. data “0” or data “1” corresponding to the HI level signal input to the second terminal NS12 is stored in the second bit 478 c of the input data register 478 . When the third bit 476d of the control register 476 is set to "1" (data corresponding to input), the port setting circuit 479 responds to the LOW level signal input to the third terminal NS13. Data “0” data or “1” data corresponding to the HI level signal input to the third terminal NS13 is set to be stored in the third bit 478 d of the input data register 478 . These data settings are repeatedly executed at a predetermined cycle (for example, a cycle of 2 milliseconds). The main MPU 82 controls the data stored in the 0th to 3rd bits 478a to 478d of the input data register 478 while the 0th to 3rd bits 476a to 476d of the control register 476 are set to "1". , the states of the signals input to the 0th to 3rd terminals NS10 to NS13 of the input/output port 471 can be grasped.

Next, before describing the external output circuit 431, the malfunction prevention circuit 472, and the selection circuits 473 to 475, the electronic components mounted on the main control board 81 will be described. FIG. 241 is a block diagram showing an electrical configuration for performing drive control of the drive section 32b for special electric, the drive section 163 for distribution entrance, and the drive section 167 for switching.

As shown in FIG. 241, the main control board 81 is mounted with a first logic IC 481 and second logic ICs 482-484. The first logic IC 481 is an electronic component that incorporates six NAND circuits 491 to 496: a 0th NAND circuit 491, a first NAND circuit 492, a second NAND circuit 493, a third NAND circuit 494, a fourth NAND circuit 495 and a fifth NAND circuit 496. . The second logic IC 482 is an electronic component that incorporates three NOT circuits 511 to 513, namely, a 0 NOT circuit 511, a first NOT circuit 512 and a second NOT circuit 513. The second logic IC 483 includes a third NOT circuit 514, a It is an electronic component incorporating three NOT circuits 514 to 516, namely a 4NOT circuit 515 and a fifth NOT circuit 516, and the second logic IC 484 includes three NOT circuits 517, namely a sixth NOT circuit 517, a seventh NOT circuit 518 and an eighth NOT circuit 519. It is an electronic component that incorporates ∼519. The second logic IC 482, the second logic IC 483 and the second logic IC 484 are the same electronic component.

Each of the 0th to 5th NAND circuits 491 to 496 in the first logic IC 481 has two input terminals and one output terminal. These NAND circuits 491 to 496 output LOW level signals (corresponding to signal), and outputs a HI level signal from the output terminal when a LOW level signal is input to at least one of the two input terminals.

When the NAND circuits 491 to 496 recognize that a LOW level signal is input to the input terminal, the voltage of the signal input to the input terminal is the first reference voltage (specifically, 2.8V). ), it recognizes that the signal input to the input terminal has changed to HI level. In addition, when the NAND circuits 491 to 496 recognize that a HI level signal is input to the input terminal, the voltage of the signal input to the input terminal is set to the second reference voltage (specifically, 1). .6V), it recognizes that the signal input to the input terminal has changed to LOW level. Since the first reference voltage is set to a voltage higher than the second reference voltage, the NAND circuits 491 to 496 are affected by noise when HI level signals are input to the input terminals of the NAND circuits 491 to 496. This reduces the possibility that 491 to 496 misidentify that a LOW level signal is input to the input terminals. In addition, since the second reference voltage is set to a voltage lower than the first reference voltage, in a situation in which a LOW level signal is input to the input terminals of the NAND circuits 491 to 496, noise influences the voltage. This reduces the possibility that the NAND circuits 491 to 496 misidentify that a HI level signal is input to the input terminal.

Each of the 0th to 8th NOT circuits 511 to 519 in the second logic ICs 482 to 484 has one input terminal and one output terminal. When a HI level signal (a signal corresponding to "1") is input to the input terminals of these NOT circuits 511 to 519, the NOT circuits 511 to 519 invert the HI level signal to produce a LOW level signal (corresponding to "0"). ) is output from the output terminal, and when a LOW level signal is input to the input terminal, a HI level signal obtained by inverting the LOW level signal is output from the output terminal.

When the NOT circuits 511 to 519 recognize that a LOW level signal is input to the input terminal, the voltage of the signal input to the input terminal is the first reference voltage (specifically, 2.8 V). ), it recognizes that the signal input to the input terminal has changed to HI level. In addition, the NOTs 511 to 519 recognize that the voltage of the signal input to the input terminal is the second reference voltage (specifically, 1.6 V) in a situation where a HI level signal is input to the input terminal. ), it recognizes that the signal input to the input terminal has changed to LOW level. Since the first reference voltage is set to a voltage higher than the second reference voltage, the NOT circuits are affected by noise when HI level signals are input to the input terminals of the NOT circuits 511 to 519. This reduces the possibility that 511 to 519 misidentify that a LOW level signal is input to the input terminals. In addition, since the second reference voltage is set to a voltage lower than the first reference voltage, in a situation where a LOW level signal is input to the input terminals of the NOT circuits 511 to 519, noise may be generated. This reduces the possibility that the NOT circuits 511 to 519 misidentify that a HI level signal is input to the input terminal.

As shown in FIG. 241, the main control board 81 is mounted with a first logic IC 485 and a second logic IC 486 . The first logic IC 485 is the same electronic component as the already explained first logic IC 481, and the second logic IC 486 is the same electronic component as the already explained second logic ICs 482-484. Although not shown, the main control board 81 is mounted with a plurality of first logic ICs including the first logic ICs 481 and 485, and a plurality of second logic ICs including the second logic ICs 482 to 484 and 486. A logic IC is mounted. In particular, a circuit having an AND circuit function, a circuit having an OR circuit function, a circuit having an XOR circuit function, a circuit having a NOT circuit function, and a NOR circuit by combining the NAND circuits built in the first logic IC. A plurality of first logic ICs are mounted on the main control board 81 because it is possible to form a circuit having circuit functions.

Next, a configuration for externally outputting the advantageous support mode signal and the opening/closing execution mode signal to the hall computer HC will be described.

As already described in the thirty-first embodiment, the main MPU 82 is provided with the external output port 429 . Further, as described above, the main control board 81 is provided with the external output circuit 431 . As shown in FIG. 241, the external output circuit 431 includes a fourth NAND circuit 495 incorporated in the first logic IC 481 instead of the third NAND circuit 444 in the thirty-first embodiment. A fifth NAND circuit 496 built in the first logic IC 481 is included instead of the fourth NAND circuit 445 in the thirty-first embodiment. Thus, the external output circuit 431 is formed using the fourth NAND circuit 495 and the fifth NAND circuit 496 which are part of the six NAND circuits 491 to 496 built in the first logic IC 481 . As in the thirty-first embodiment, the fourth NAND circuit 495 receives the 0th setting signal output from the 0th terminal GS0 of the external output port 429 and the power failure signal output from the power failure monitoring board 85. be done. The fifth NAND circuit 496 also receives the first setting signal output from the first terminal GS1 of the external output port 429 and the power failure signal output from the power failure monitoring board 85 . A signal output from the fourth NAND circuit 495 is output to the hall computer HC via the first outer end NOT circuit 437 of the external terminal plate 457, and a signal output from the fifth NAND circuit 496 is output to the external terminal. It is output to the hall computer HC via the second outer end NOT circuit 438 of the plate 457 . The signal externally output from the first outer end NOT circuit 437 to the hall computer HC is the advantageous support mode signal, and the signal externally output from the second outer end NOT circuit 438 to the hall computer HC is the opening/closing execution mode signal. .

Next, a configuration for executing drive control of the special electric drive unit 32b, the distribution entrance drive unit 163, and the switching drive unit 167 will be described.

As already explained, the main control board 81 is provided with the first to third selection circuits 473 to 475 . Further, as in the 31st embodiment, the special electric prize winning device 32 is provided with the 0th MOSFET 461 as an element having an amplifying action and a switching action, and the sorting prize winning device 161 has an amplifying action and a switching action. A first MOSFET 462 and a second MOSFET 463 are provided as active elements (see FIG. 241).

As shown in FIG. 241, the 0th terminal NS10 of the input/output port 471 is electrically connected to the gate of the 0th MOSFET 461 through the malfunction prevention circuit 472 and the first selection circuit 473. 472 and the second selection circuit 474, and is electrically connected to the gate of the second MOSFET 463 via the malfunction prevention circuit 472 and the third selection circuit 475. there is

As in the thirty-first embodiment, the source of the 0th MOSFET 461 is electrically connected to the special electric drive section 32b, and the drain of the 0th MOSFET 461 is grounded. One end of the special electric drive unit 32b is pulled up to, for example, 36 V, and the special electric drive unit 32b enters a driving state when the voltage applied to the gate of the 0th MOSFET 461 is HI level, and A non-driving state occurs when the voltage is at the LOW level. Further, as in the thirty-first embodiment, the source of the first MOSFET 462 is electrically connected to the distribution entrance driving section 163, and the drain of the first MOSFET 462 is grounded. One end of the distribution entrance driving section 163 is pulled up to, for example, 36 V, and the distribution entrance driving section 163 enters a driving state when the voltage applied to the gate of the first MOSFET 462 is HI level. A non-driving state occurs when the voltage applied to the gate is at a LOW level. Furthermore, as in the thirty-first embodiment, the source of the second MOSFET 463 is electrically connected to the switching driver 167, and the drain of the second MOSFET 463 is grounded. One end of the switching driving section 167 is pulled up to, for example, 36 V, and the switching driving section 167 is driven when the voltage applied to the gate of the second MOSFET 463 is HI level, and the voltage applied to the gate is When it is at LOW level, it is in a non-driving state.

Next, the malfunction prevention circuit 472 and the first to third selection circuits 473 to 475 will be described.

As shown in FIG. 241, the malfunction prevention circuit 472 includes a first NOT circuit 512, a 0NAND circuit 491 and a second NOT circuit 513 as logic circuits. The 0th terminal NS10 of the input/output port 471 is electrically connected to one of the two input terminals of the 0th NAND circuit 491 via the first NOT circuit 512 . A signal obtained by inverting the drive control signal output from the 0th terminal NS10 is input to the one input terminal. The other input terminal of the 0th NAND circuit 491 is electrically connected to the power failure monitoring board 85, and a reset signal is input to the other input terminal. As shown in FIG. 239, the main control board 81 is formed with a signal line LN21 for inputting the reset signal output from the power failure monitoring board 85 to the main side MPU 82 to the malfunction prevention circuit 472. The signal line LN21 is formed by branching the signal line LN13 from the power failure monitor board 85 at a midway position on the main control board 81 toward the main side MPU82. As shown in FIG. 241, the reset signal is input to the 0th NAND circuit 491 of the malfunction prevention circuit 472 using the signal line LN21. An output terminal of the 0th NAND circuit 491 is electrically connected to the first to third selection circuits 473 to 475 via the second NOT circuit 513 . Specifically, the signal line LN22 extending from the output terminal of the second NOT circuit 513 in the malfunction prevention circuit 472 is connected to one of the two input terminals of the third NAND circuit 494 in the third selection circuit 475. . A signal line LN23 branched from the signal line LN22 is connected to one of two input terminals of the first NAND circuit 492 in the first selection circuit 473, and is branched from the signal line LN21. A signal line LN 24 formed by combining is connected to one of two input terminals of the second NAND circuit 493 in the second selection circuit 474 .

The first selection circuit 473 is hardware having a third NOT circuit 514 , a first NAND circuit 492 and a sixth NOT circuit 517 . The third NOT circuit 514 is one of the three NOT circuits 514 to 516 built in the second logic IC 483 . The first NAND circuit 492 is one of the six NAND circuits 491 to 496 built in the first logic IC 481, and the sixth NOT circuit 517 is one of the three NOT circuits built in the second logic IC 484. 517-519. That is, the first selection circuit 473 is part of the plurality of NOT circuits 514 to 516 built in the second logic IC 483 and part of the plurality of NAND circuits 491 to 496 built in the first logic IC 481. , and part of the plurality of NOT circuits 517 to 519 built in the second logic IC 484 . One of the two input terminals of the first NAND circuit 492 is electrically connected to the second NOT circuit 513 of the malfunction prevention circuit 472, and the other of the two input terminals is connected to the second NOT circuit 513 of the malfunction prevention circuit 472. It is electrically connected to the first terminal NS11 of the input/output port 471 via the 6NOT circuit 517 . Also, the output terminal of the first NAND circuit 492 is electrically connected to the gate of the 0th MOSFET 461 via the third NOT circuit 514 .

In the first selection circuit 473, when the signals input to both of the two input terminals of the first NAND circuit 492 are at HI level, the signals are output from the first NAND circuit 492 to the third NOT circuit 514. As the signal becomes LOW level, the signal output from the third NOT circuit 514 to the gate of the 0th MOSFET 461 becomes HI level. As a result, the drive unit 32b for the special electric can be brought into the drive state. On the other hand, when the signal input to at least one of the two input terminals of the first NAND circuit 492 is at LOW level, the signal output from the first NAND circuit 492 to the third NOT circuit 514 is at HI level. At the same time, the signal output from the third NOT circuit 514 to the gate of the 0th MOSFET 461 becomes LOW level. As a result, the drive unit 32b for the special electric can be brought into a non-driving state.

The second selection circuit 474 is hardware having a fourth NOT circuit 515 , a second NAND circuit 493 and a seventh NOT circuit 518 . A fourth NOT circuit 515 is one of three NOT circuits 514 to 516 built in the second logic IC 483 . The second NAND circuit 493 is one of the six NAND circuits 491 to 496 built in the first logic IC 481, and the seventh NOT circuit 518 is one of the three NOT circuits built in the second logic IC 484. 517-519. That is, the second selection circuit 474 is part of the plurality of NOT circuits 514 to 516 built in the second logic IC 483 and part of the plurality of NAND circuits 491 to 496 built in the first logic IC 481. , and a part of the plurality of NOT circuits 517 to 519 built in the second logic IC 484 . One of the two input terminals of the second NAND circuit 493 is electrically connected to the second NOT circuit 513 of the malfunction prevention circuit 472, and the other of the two input terminals is connected to the second NOT circuit 513 of the malfunction prevention circuit 472. It is electrically connected to the second terminal NS12 of the input/output port 471 via the 7NOT circuit 518 . Also, the output terminal of the second NAND circuit 493 is electrically connected to the gate of the first MOSFET 462 via the fourth NOT circuit 515 .

In the second selection circuit 474, when the signals input to both of the two input terminals of the second NAND circuit 493 are at HI level, the signals are output from the second NAND circuit 493 to the fourth NOT circuit 515. As the signal becomes LOW level, the signal output from the fourth NOT circuit 515 to the gate of the first MOSFET 462 becomes HI level. As a result, the drive unit 163 for sorting entrance can be brought into a driven state. On the other hand, when the signal input to at least one of the two input terminals of the second NAND circuit 493 is at LOW level, the signal output from the second NAND circuit 493 to the fourth NOT circuit 515 is at HI level. At the same time, the signal output from the fourth NOT circuit 515 to the gate of the first MOSFET 462 becomes LOW level. As a result, the drive unit 163 for sorting entrance can be brought into a non-driving state.

The third selection circuit 475 is hardware having a fifth NOT circuit 516 , a third NAND circuit 494 and an eighth NOT circuit 519 . A fifth NOT circuit 516 is one of the three NOT circuits 514 to 516 built in the second logic IC 483 . The third NAND circuit 494 is one of the six NAND circuits 491 to 496 built in the first logic IC 481, and the eighth NOT circuit 519 is one of the three NOT circuits built in the second logic IC 484. 517-519. That is, the third selection circuit 475 is part of the plurality of NOT circuits 514 to 516 built in the second logic IC 483 and part of the plurality of NAND circuits 491 to 496 built in the first logic IC 481. , and a part of the plurality of NOT circuits 517 to 519 built in the second logic IC 484 . One of the two input terminals of the third NAND circuit 494 is electrically connected to the second NOT circuit 513 of the malfunction prevention circuit 472, and the other of the two input terminals is connected to the second NOT circuit 513 of the malfunction prevention circuit 472. It is electrically connected to the third terminal NS13 of the input/output port 471 via the 8NOT circuit 519 . Also, the output terminal of the third NAND circuit 494 is electrically connected to the gate of the second MOSFET 463 via the fifth NOT circuit 516 .

In the third selection circuit 475, when the signals input to both of the two input terminals of the third NAND circuit 494 are at HI level, they are output from the third NAND circuit 494 to the fifth NOT circuit 516. As the signal becomes LOW level, the signal output from the fifth NOT circuit 516 to the gate of the second MOSFET 463 becomes HI level. As a result, the switching driving section 167 can be brought into the driving state. On the other hand, when the signal input to at least one of the two input terminals of the third NAND circuit 494 is at LOW level, the signal output from the third NAND circuit 494 to the fifth NOT circuit 516 is at HI level. At the same time, the signal output from the fifth NOT circuit 516 to the gate of the second MOSFET 463 becomes LOW level. As a result, the switching driving section 167 can be brought into a non-driving state.

FIG. 242 shows the drive control signal output from the 0th terminal NS10 of the input/output port 471, the selection signal output from the first to third terminals NS11 to NS13, the reset signal output from the power failure monitoring board 85, and the target drive signal. FIG. 10 is an explanatory diagram for explaining the relationship with the state of the unit; The target drive unit corresponding to the first terminal NS11 is the special electric drive unit 32b, the target drive unit corresponding to the second terminal NS12 is the distribution entrance drive unit 163, and the target corresponding to the third terminal NS13. The driving portion is the switching driving portion 167 .

As described above, the first NOT circuit 512 outputs from the output terminal a signal obtained by inverting the signal input to the input terminal. As shown in FIG. 242, when the drive control signal output from the 0th terminal NS10 is at LOW level, the signal output from the first NOT circuit 512 is at HI level and is output from the 0th terminal NS10. When the drive control signal is at HI level, the signal output from the first NOT circuit 512 is at LOW level.

As described above, the 0NAND circuit 491 outputs a LOW level signal from the output terminal when both of the signals input to the two input terminals are at the HI level, and also outputs a LOW level signal from the output terminal. When at least one of them is LOW level, a HI level signal is output from the output terminal. As shown in FIG. 242, when both the signal input from the first NOT circuit 512 to the 0th NAND circuit 491 and the reset signal input from the power failure monitoring board 85 to the 0th NAND circuit 491 are at HI level, the 0th NAND circuit The signal output from 491 to the second NOT circuit 513 becomes LOW level. Further, when at least one of the signal input from the first NOT circuit 512 to the 0th NAND circuit 491 and the reset signal input from the power failure monitoring board 85 to the 0th NAND circuit 491 is at the LOW level, the 0th NAND circuit 491 outputs signal becomes HI level.

As already described, the second NOT circuit 513 outputs from the output terminal a signal obtained by inverting the signal input to the input terminal. As shown in FIG. 242, when the signal input from the 0th NAND circuit 491 to the second NOT circuit 513 is at the LOW level, the signals output from the second NOT circuit 513 to the first to third selection circuits 473 to 475 are When the signal input from the 0th NAND circuit 491 to the second NOT circuit 513 is at HI level, the signals output from the second NOT circuit 513 to the first to third selection circuits 473 to 475 are LOW. be the level.

As already described in the thirty-first embodiment, when the supply of operating power to the pachinko machine 10 is started, the power failure monitoring board 85 first raises the power failure signal from the LOW level to the HI level, and the power failure signal After a predetermined time (specifically, 9 milliseconds) has elapsed since the rise, the reset signal is raised from LOW level to HI level. The reset signal is not lowered to the LOW level until the occurrence of a power failure is specified by the power failure monitor board 85 .

The signal output from the second NOT circuit 513 of the malfunction prevention circuit 472 to the first NAND circuit 492 of the first selection circuit 473 and the first selection signal output from the first terminal NS11 of the input/output port 471 are the sixth NOT. When both of the signals inverted by the circuit 517 are HI level, as described above, the signal input to the gate of the 0th MOSFET 461 becomes HI level, so that the drive unit 32b for special electrics is driven. . On the other hand, the signal output from the second NOT circuit 513 to the first NAND circuit 492 of the first selection circuit 473 and the first selection signal output from the first terminal NS11 of the input/output port 471 are When at least one of the inverted signals is LOW level, the signal input to the gate of the 0th MOSFET 461 becomes LOW level as described above, so that the driving section 32b for special electrics is in a non-driving state. In a state where the reset signal is at HI level, the main MPU 82 lowers the drive control signal output from the 0th terminal NS10 from HI level to LOW level and changes the first selection signal output from the first terminal NS11 from HI level to LOW level. By falling to the LOW level, the special electric drive unit 32b can be put into a driving state. Further, the main MPU 82 can set the first selection signal output from the first terminal NS11 to HI level in a state where the reset signal is at HI level, so that the driving section 32b for the special electric is put into a non-driving state. .

The signal output from the second NOT circuit 513 of the malfunction prevention circuit 472 to the second NAND circuit 493 of the second selection circuit 474 and the second selection signal output from the second terminal NS12 of the input/output port 471 are the seventh NOT. When both of the signals inverted by the circuit 518 are HI level, the signal input to the gate of the first MOSFET 462 becomes HI level as described above, whereby the driving section 163 for the distribution entrance is driven. becomes. On the other hand, the signal output from the second NOT circuit 513 to the second NAND circuit 493 of the second selection circuit 474 and the second selection signal output from the second terminal NS12 of the input/output port 471 are When at least one of the inverted signals is LOW level, the signal input to the gate of the first MOSFET 462 becomes LOW level as described above, so that the distribution entrance driving section 163 is put into a non-driving state. . In a state where the reset signal is HI level, the main MPU 82 lowers the drive control signal output from the 0th terminal NS10 from HI level to LOW level, and changes the second selection signal output from the second terminal NS12 from HI level. By lowering to the LOW level, the drive unit 163 for the sorting entrance can be driven. Further, the main MPU 82 sets the second selection signal output from the second terminal NS12 to HI level in a state where the reset signal is at HI level, thereby bringing the distribution entrance driving section 163 into a non-driving state. can be done.

The signal output from the second NOT circuit 513 of the malfunction prevention circuit 472 to the third NAND circuit 494 of the third selection circuit 475 and the third selection signal output from the third terminal NS13 of the input/output port 471 are the eighth NOT. When both of the signals inverted by the circuit 519 are HI level, the signal input to the gate of the second MOSFET 463 becomes HI level, thereby driving the switching driving section 167. On the other hand, the signal output from the second NOT circuit 513 to the third NAND circuit 494 of the third selection circuit 475 and the third selection signal output from the third terminal NS13 of the input/output port 471 are When at least one of the inverted signals is at LOW level, as described above, the signal input to the gate of the second MOSFET 463 is at LOW level, and the switching driving section 167 is put into a non-driving state. In a state where the reset signal is HI level, the main MPU 82 lowers the drive control signal output from the 0th terminal NS10 from HI level to LOW level, and changes the third selection signal output from the third terminal NS13 from HI level to LOW level. By rising to the LOW level, the switching driving section 167 can be put into a driving state. Further, the main MPU 82 can bring the switching driver 167 into a non-driving state by setting the third selection signal output from the third terminal NS13 to HI level when the reset signal is at HI level.

Next, the states of the signals output from the 0th to 3rd terminals NS10 to NS13 of the input/output port 471 when the supply of operating power to the pachinko machine 10 is started will be described.

As in the thirty-first embodiment, when the supply of operating power to the pachinko machine 10 is started, any bit in the control register 476, the output data register 477 and the input data register 478 at the main side MPU 82 These registers 476 to 478 output HI level drive control signals corresponding to the power supply voltage (5V in a stable supply state) from the 0th to 3rd terminals NS10 to NS13 until the process of setting "1" is executed. Data for output is set. Further, when the supply of operating power to the pachinko machine 10 is started, the input/output port 471 outputs the 0th to 3rd terminals NS10 to NS13 due to the configuration of the circuit provided inside the input/output port 471. In addition to being in a state of functioning as a terminal, the 0th to 3rd terminals NS10 to NS13 are in a state of outputting a signal of a voltage level corresponding to the power supply voltage supplied to the main side MPU82. Therefore, when the supply of operating power to the pachinko machine 10 is started, the control register 476, the output data register 477 and the input data register 478 are set to "1" by the main MPU 82. Until the process is executed, a signal of a voltage level corresponding to the power supply voltage supplied to the main side MPU 82 is output from the 0th to 3rd terminals NS10 to NS13.

As in the thirty-first embodiment, in the period from the start of the supply of operating power to the pachinko machine 10 to the start of the power failure signal, the power supply voltage supplied to the main side MPU 82 rises and the power supply voltage drop is repeated. Therefore, when the supply of operating power to the pachinko machine 10 is started, the voltage level of the drive control signal output from the 0th to 3rd terminals NS10 to NS13 of the input/output port 471 is supplied to the main side MPU82. As with the power supply voltage, the voltage gradually rises and falls, gradually reaching the HI level voltage (specifically, 5 V) in the stable state.

Only the signals output from the input/output port 471 (specifically, the drive control signal output from the 0th terminal NS10 and the first to third selection signals output from the first to third terminals NS11 to NS13) Based on this configuration, drive control of the special electric drive unit 32b, the distribution entrance drive unit 163, and the switching drive unit 167 is performed. There is a risk that these drive units 32b, 163, 167 may malfunction. On the other hand, in the present embodiment, in addition to the signal output from the input/output port 471, drive control of the special electric drive unit 32b, the distribution entrance drive unit 163, and the switching drive unit 167 is performed. is provided. The reset signal is maintained at the LOW level during the period in which the power supply voltage supplied to the main side MPU 82 is in an unstable state after the supply of operating power to the pachinko machine 10 is started. As shown in FIG. 242, by setting the reset signal to LOW level, the non-driving states of these drive sections 32b, 163, and 167 are maintained regardless of the states of the drive control signal and the first to third selection signals. can do. As a result, it is possible to prevent the drive units 32b, 163 and 167 from malfunctioning when the supply of operating power to the pachinko machine 10 is started.

As shown in FIG. 241, the signal line LN21 electrically connecting the power failure monitoring board 85 and the 0th NAND circuit 491 of the malfunction prevention circuit 472 has an electrical resistance (specifically, an electrical resistance of 4.7 kΩ). Grounded through pull-down resistor 497 . As a result, during the period until the blackout monitoring board 85 raises the reset signal from LOW level to HI level after the supply of operating power to the pachinko machine 10 is started, noise that tries to boost the voltage of the reset signal is generated. Even if it occurs, it is possible to prevent the reset signal from rising to the HI level due to the influence of the noise.

As described above, the malfunction prevention circuit 472 uses a signal that is maintained at the LOW level at the start of supply of operating power to the pachinko machine 10 and that rises to the HI level after the power supply voltage supplied to the main side MPU 82 stabilizes. This prevents malfunction of the drive unit 32b for the special electric, the drive unit 163 for the distribution entrance, and the drive unit 167 for switching. By using the reset signal output from the power failure monitoring board 85 toward the main side MPU 82 as the signal, it is maintained at the LOW level immediately after the power is turned on as a device separate from the power failure monitoring board 85, and after that, Compared to a configuration in which a device for outputting a signal rising to HI level is provided, the configuration for preventing malfunction of these drive units 32b, 163, 167 can be simplified.

As shown in FIG. 242, after the supply of operating power to the pachinko machine 10 is started and the reset signal is raised to the HI level, the drive control signal output from the 0th terminal NS10 of the input/output port 471 In addition, drive control of the drive unit 32b for the special electric is executed using the first selection signal output from the first terminal NS11, and distribution is performed using the second selection signal output from the second terminal NS12. Driving control of driving unit 163 for entrance is executed, and driving control of driving unit 167 for switching is executed using the third selection signal output from third terminal NS13. As a result, even if noise is generated to push up one of the two signals input to the first NAND circuit 492 of the first selection circuit 473, the special electric drive unit 32b is affected by the noise. can be prevented from being erroneously activated. Further, even if noise is generated to push up one of the two signals input to the second NAND circuit 493 of the second selection circuit 474, the driving unit for the sorting entrance is affected by the noise. 163 can be prevented from being erroneously activated, and even if noise is generated to push up one of the two signals input to the third NAND circuit 494 of the third selection circuit 475, It is possible to prevent the switching driving section 167 from being erroneously activated due to the noise.

In a configuration in which the first to third selection signals are used in addition to the drive control signal in a state where the reset signal is raised to the HI level, the drive control of these drive units 32b, 163, and 167 is executed. In the middle of the signal path from the 0th terminal NS10 of the output port 471 to the first to third NAND circuits 492 to 494 of the first to third selection circuits 473 to 475, the signal line LN22 is connected to the signal line LN23 and the signal line LN24. By providing the malfunction prevention circuit 472 at a position closer to the 0th terminal NS10 than the branched position, the number of malfunction prevention circuits 472 for the plurality of (specifically, three) selection circuits 473 to 475 is reduced to one. However, it is possible to prevent the drive units 32b, 163 and 167 from malfunctioning at the start of supply of operating power to the pachinko machine 10. By limiting the number of malfunction prevention circuits 472 to one, the number of electronic components mounted on the main control board 81 can be reduced, and the manufacturing efficiency of the main control board 81 can be improved. Manufacturing costs can be reduced.

As already explained, the external output circuit 431 is formed using the fourth NAND circuit 495 and the fifth NAND circuit 496 of the first logic IC 481 . As shown in FIG. 241, the malfunction prevention circuit 472 is formed using the 0 NAND circuit 491 of the first logic IC 481 and the first NOT circuit 512 and the second NOT circuit 513 of the second logic IC 482 . The first selection circuit 473 is formed using the third NOT circuit 514 of the second logic IC 483, the first NAND circuit 492 of the first logic IC 481, and the sixth NOT circuit 517 of the second logic IC 484. The second selection circuit 474 is formed using the fourth NOT circuit 515 of the second logic IC 483, the second NAND circuit 493 of the first logic IC 481, and the seventh NOT circuit 518 of the second logic IC 484. The selection circuit 475 is formed using the fifth NOT circuit 516 of the second logic IC 483 , the third NAND circuit 494 of the first logic IC 481 and the eighth NOT circuit 519 of the second logic IC 484 .

The first NOT circuit 512 and the second NOT circuit 513 in the malfunction prevention circuit 472 are incorporated in one electronic component (second logic IC 482). Therefore, the number of electronic components to be mounted on the main control board 81 can be reduced compared to a configuration in which two or more electronic components are mounted on the main control board 81 in order to provide these NOT circuits 512 and 513. .

The malfunction prevention circuit 472 is formed using first and second NOT circuits 512 and 513 which are part of the three NOT circuits 511 and 513 incorporated in the second logic IC 482 . As a result, of the three NOT circuits 511 to 513 built in the second logic IC 482, the 0 NOT circuit 511, which is not included in the malfunction prevention circuit 472, can be used to form another circuit. A malfunction prevention circuit 472 can be formed.

The first NAND circuit 492 in the first selection circuit 473, the second NAND circuit 493 in the second selection circuit 474, and the third NAND circuit 494 in the third selection circuit 475 are incorporated in one electronic component (first logic IC 481). there is Therefore, the number of electronic components to be mounted on the main control board 81 is reduced compared to the configuration in which two or more electronic components are mounted on the main control board 81 in order to provide these first to third NAND circuits 492 to 494. be able to.

The third NOT circuit 514 in the first selection circuit 473, the fourth NOT circuit 515 in the second selection circuit 474, and the fifth NOT circuit 516 in the third selection circuit 475 are incorporated in one electronic component (second logic IC 483). there is Therefore, the number of electronic components to be mounted on the main control board 81 can be reduced compared to the configuration in which two or more electronic components are mounted on the main control board 81 in order to provide the third to fifth NOT circuits 514 to 516. be able to.

The sixth NOT circuit 517 in the first selection circuit 473, the seventh NOT circuit 518 in the second selection circuit 474, and the eighth NOT circuit 519 in the third selection circuit 475 are incorporated in one electronic component (second logic IC 484). there is Therefore, the number of electronic components to be mounted on the main control board 81 can be reduced compared to the configuration in which two or more electronic components are mounted on the main control board 81 in order to provide the sixth to eighth NOT circuits 517 to 519. be able to.

In the configuration in which the external output circuit 431 is formed using the fourth NAND circuit 495 and the fifth NAND circuit 496, which are part of the six NAND circuits 491 to 496 built in the first logic IC 481, the six Of the NAND circuits 491 to 496, the 0th to 3rd NAND circuits 491 to 494 that are not included in the external output circuit 431 are used to form the malfunction prevention circuit 472 and the first to third selection circuits 473 to 475. It is As a result, a plurality of electronic components incorporating NAND circuits are mounted on the main control board 81 to form the external output circuit 431, the malfunction prevention circuit 472, and the first to third selection circuits 473 to 475. By comparison, the number of electronic components mounted on the main control board 81 can be suppressed.

A first NAND circuit 492 that is part of the six NAND circuits 491 to 496 built in the first logic IC 481 and a third NOT that is part of the three NOT circuits 514 to 516 built in the second logic IC 483 In the configuration in which the first selection circuit 473 is formed using the circuit 514 and the sixth NOT circuit 517 which is part of the three NOT circuits 517 to 519 incorporated in the second logic IC 484, the first logic Second to third NAND circuits 493 to 494 not included in the first selection circuit 473 among the six NAND circuits 491 to 496 built in the IC 481, and three NOT circuits 514 built in the second logic IC 483. 516 not included in the first selection circuit 473, and three NOT circuits 517 to 519 included in the second logic IC 484 included in the first selection circuit 473. The second and third selection circuits 474 and 475 are formed using the seventh and eighth NOT circuits 518 and 519 which are not connected. As a result, the number of electronic components (first logic IC 481 and second logic ICs 483 and 484) mounted on the main control board 81 to form the first to third selection circuits 473 to 475 can be reduced.

The logic circuits (NAND circuits 495 and 496) included in the external output circuit 431 are only NAND circuits. On the other hand, the types of logic circuits (NAND circuit 491 and NOT circuits 512 and 513) included in malfunction prevention circuit 472 are NAND circuits and NOT circuits. The types of logic circuits (NAND circuits 492-494 and NOT circuits 514-519) included in the first to third selection circuits 473-475 are also NAND circuits and NOT circuits. Only some of the logic circuit types included in the malfunction prevention circuit 472 and the logic circuit types included in the first to third selection circuits 473 to 475 are included in the external output circuit 431. Logic circuits (NAND circuit ) are integrated into one logic IC (first logic IC 481). As a result, the number of electronic components mounted on the main control board 81 can be reduced compared to a configuration in which two or more electronic components incorporating NAND circuits are mounted in order to provide these NAND circuits 491 to 496. be able to.

The types of logic circuits included in each of the three selection circuits 473 to 475 are common to the NAND circuits and NOT circuits. In a configuration in which the first to third NAND circuits 492 to 494 included in the first to third selection circuits 473 to 475 are integrated into one electronic component (first logic IC 481), the first to third selection circuits The third to fifth NOT circuits 514 to 516 included in the circuits 473 to 475 are integrated into one electronic component (second logic IC 483) and included in the first to third selection circuits 473 to 475. 6th to 8th NOT circuits 517 to 519 are integrated into one electronic component (second logic IC 484). As a result, the number of electronic components mounted on the main control board 81 to form these three selection circuits 473 to 475 can be reduced.

By reducing the number of electronic components to be mounted on the main control board 81 in this way, the manufacturing efficiency of the main control board 81 can be improved and the manufacturing cost of the main control board 81 can be reduced.

When a drive control signal is output from the 0th terminal NS10 of the input/output port 471, the signals flow in the order of the first NOT circuit 512→0th NAND circuit 491→second NOT circuit 513 in the malfunction prevention circuit 472. FIG. The first NOT circuit 512 exists most upstream in the signal flow, the 0th NAND circuit 491 exists second upstream in the signal flow, and the third NOT circuit 454 exists most downstream in the signal flow. Existing.

As shown in FIG. 241, the output terminal of the 0th NAND circuit 491 and the input terminal of the third NOT circuit 454 are electrically connected. In the signal path at the time of output, the second NOT circuit 513 present downstream of the 0th NAND circuit 491 is the first NOT circuit present upstream of the 0th NAND circuit 491 as a physical position. A signal path of the malfunction prevention circuit 472 is formed so as to be located in parallel with 512 . The second NOT circuit 513, which exists most downstream in the signal flow, is located most upstream in the signal flow than the 0 NAND circuit 491, which exists second upstream in the signal flow. By arranging the first NOT circuit 512 at a position physically close to the first NOT circuit 512, the first NOT circuit 512 existing most upstream in the signal flow across the 0th NAND circuit 491 and the first NOT circuit 512 existing most downstream in the signal flow. The second NOT circuit 513 and the second NOT circuit 513 may be incorporated in one logic IC called the second logic IC 482 . Therefore, the first NOT circuit 512 existing on the upstream side of the signal flow across the 0 NAND circuit 491 and the second NOT circuit 513 existing on the downstream side of the signal flow are incorporated in different logic ICs. The number of the second logic ICs 482 mounted on the main control board 81 can be reduced compared to the configuration in which the second logic ICs 482 are mounted.

As described above, the first logic IC 481 is the same electronic component as the plurality of first logic ICs mounted on the main control board 81, and the second logic ICs 482 to 484 are mounted on the main control board 81. It is the same electronic component as the second logic IC. Using a plurality of electronic components (first logic IC and second logic IC) mounted on the main control board 81, the external output circuit 431, the malfunction prevention circuit 472, and the first to third selection circuits 473 to 475 By being formed, the electronic components mounted on the main control board 81 are shared, and the types of electronic components mounted on the main control board 81 are reduced. As a result, the manufacturing efficiency of the main control board 81 is enhanced, and the manufacturing cost of the main control board 81 is reduced.

<Thirty-third Embodiment>
In this embodiment, the content of the processing executed by the main side MPU 82 when the supply of operating power to the pachinko machine 10 is started is different from that of the first embodiment. The configuration different from that of the first embodiment will be described below. Note that the description of the same configuration as that of the first embodiment is basically omitted.

FIG. 243 is a front view of the game board 24 in this embodiment, and FIG. 244 is an explanatory diagram for explaining the electrical configuration of the pachinko machine 10. FIG.

As in the first embodiment, the game board 24 is formed with a plurality of large and small openings penetrating in the front-rear direction. A mouth 33, a second operation mouth 34, a through gate 35, a variable display unit 36, a special figure unit 37, a normal figure unit 38, etc. are provided (see FIG. 243). As in the thirteenth embodiment, the game board 24 is provided with three general winning holes 31 . The second operating port 34 is provided with a universal electrical accessory 34a as a guide piece consisting of a pair of left and right movable pieces. As already described in the first embodiment, in the closed state of the general electric role 34a, the game ball cannot win the second operation opening 34, and the general electric role 34a is in the open state, so that the second operation opening It is possible to win a prize to 34. In addition, as in the first embodiment, an out port 24a is provided at the bottom of the game board 24, and game balls that do not enter various winning ports exit the game area PA through the out port 24a. Ejected.

In this embodiment, the operation confirmation of the special electric prize winning device 32, the operation confirmation of the general electric accessory 34a, the detection state of the game ball entering the ball entrance portion 24a, 31 to 34, and the game passing through the through gate 35 An input/output confirmation period is provided for confirming the state of ball detection. During the input/output confirmation period, an input/output confirmation process (FIG. 253), which will be described later, is executed at step SG904 of the timer interrupt process (FIG. 249). The input/output confirmation process is executed so that the manager of the game hall can grasp that the data input to the input port of the main side MPU 82 and the data output from the output port are normally performed. be.

As shown in FIG. 243, an input/output confirmation display device 521 is provided at the bottom right of the pattern display device 41 . The area where the input/output confirmation display device 521 is provided is an area through which game balls do not pass in the game area PA. The input/output confirmation display device 521 is a dedicated display device for notifying that it is the input/output confirmation period. The input/output confirmation display device 521 includes a light-emitting portion 521a (for example, an LED), which is lit during the input/output confirmation period.

As in the first embodiment, on the output side of the main MPU 82, there are a special electric drive unit 32b driven and controlled to open and close the special electric prize winning device 32, and an open/close operation of a general electric accessory 34a. is connected to a general electric drive unit 34b that is driven and controlled to perform (see FIG. 244). Also, as shown in FIG. 244, an input/output confirmation display device 521 is connected to the output side of the main MPU 82 . The main MPU 82 turns on the input/output confirmation display device 521 when the input/output confirmation period starts, and turns off the input/output confirmation display device 521 when the input/output confirmation period ends. The manager of the game hall can grasp that it is the input/output confirmation period by confirming that the input/output confirmation display device 521 is in a lighting state.

As in the thirteenth embodiment, on the input side of the main MPU 82, there are a first winning opening detection sensor 231a, a second winning opening detecting sensor 232a, a third winning opening detecting sensor 233a, a special electric detection sensor 234a, and a first winning opening detecting sensor 234a. An operating opening detection sensor 235a, a second operating opening detection sensor 236a, an outlet opening detection sensor 237a, and a gate detection sensor 238a are connected (see FIG. 244). As already described in the thirteenth embodiment, a game ball entering the general winning hole 31 is detected by any one of the first to third winning hole detection sensors 231a to 233a. In addition, the game ball entering the special electric prize winning device 32 is detected by the special electric detection sensor 234a, the game ball entering the first operation opening 33 is detected by the first operation opening detection sensor 235a, and the second operation opening A game ball entered into 34 is detected by the second operating hole detection sensor 236a, and a game ball entered into the out hole 24a is detected by the out hole detection sensor 237a. A game ball that has been detected by any one of the various detection sensors 231a to 237a will not be detected by the other detection sensors 231a to 237a. A game ball passing through the through gate 35 on the way down the game area PA is detected by the gate detection sensor 238a. As already explained in the thirteenth embodiment, each of the detection sensors 231a to 238a outputs a LOW level signal indicating non-detection as a detection signal when the passage of the game ball is not detected. , when the passage of the game ball is detected, a HI level signal indicating that the detection is in progress is output as a detection signal. Note that the relationship between the LOW level and the HI level may be reversed.

FIG. 245 is an explanatory diagram for explaining the structure of the main RAM 84. As shown in FIG. As shown in FIG. 245, the main RAM 84 is provided with a confirmation flag group 522 . The confirmation flag group 522 includes a first winning confirmation flag 522a, a second winning confirmation flag 522b, a third winning confirmation flag 522c, a special electric winning confirmation flag 522d, a first operation winning confirmation flag 522e, a second operation winning confirmation flag 522f, An out confirmation flag 522g and a gate win confirmation flag 522h are provided.

The first winning confirmation flag 522a is a flag that enables the main side MPU 82 to grasp that the game ball entering the general winning opening 31 has been detected by the first winning opening detection sensor 231a, and the second winning confirmation flag. 522b is a flag that enables the main MPU 82 to recognize that the game ball that entered the general winning hole 31 has been detected by the second winning hole detection sensor 232a. It is a flag that enables the main side MPU 82 to grasp that the game ball entering the mouth 31 has been detected by the third winning mouth detection sensor 233a. The special electric prize confirmation flag 522d is a flag that enables the main side MPU 82 to grasp that the game ball that entered the special electric prize winning device 32 has been detected by the special electric prize detection sensor 234a, and the first operation prize confirmation flag 522e is A flag that enables the main side MPU 82 to grasp that the game ball entering the first operation opening 33 is detected by the first operation opening detection sensor 235a, and the second operation winning confirmation flag 522f is the second operation It is a flag that enables the main side MPU 82 to grasp that the game ball entering the opening 34 has been detected by the second operating opening detection sensor 236a. is detected by the outlet detection sensor 237a. The gate winning confirmation flag 522h is a flag that enables the main MPU 82 to recognize that the game ball passing through the through gate 35 has been detected by the gate detection sensor 238a.

The main-side RAM 84 is provided with a plurality of areas, and addresses are set in one-to-one correspondence with each of these areas. As shown in FIG. 245, the main RAM 84 is provided with a timer counter area 523 in which timer counters 523a to 523g to be updated in the timer update process (FIG. 254) described later are collected. The timer counter area 523 is a storage area of a total of 11 bytes provided in the continuous address range of “0101H” to “010BH” in the main RAM 84 . Hereinafter, in this embodiment, "H" attached after a numerical value is a symbol indicating that the numerical value is expressed in hexadecimal notation.

The timer counter area 523 is provided with a confirmation timer counter 523a. The confirmation timer counter 523a is a timer counter that enables the main MPU 82 to grasp the remaining duration of the input/output confirmation period. The confirmation timer counter 523a consists of 2 bytes. The timer counter area 523 and the timer counters 523a to 523g provided in the timer counter area 523 will be described later in detail.

Next, the main processing executed by the main MPU 82 will be described with reference to the flowchart of FIG. As in the first embodiment, the main process is executed when the supply of operating power to the pachinko machine 10 is started.

In steps SG601 and SG602, the same processes as steps S101 and S102 of the main process (FIG. 13) in the first embodiment are executed. Specifically, first, power-on initialization processing is executed (step SG601). In the power-on initial setting process, for example, the process waits without proceeding to the next process until a predetermined wait time (specifically, one second) elapses after the main process is activated. During this predetermined waiting period, the start of operation and initial setting of the pattern display device 41 are completed. Also, access to the main side RAM 84 is permitted.

Thereafter, an internal function register setting process is executed (step SG602). In the internal function register setting process, the interrupt period of the timer interrupt process (FIG. 249), which is a process that is started by periodically interrupting the main process, is set to a predetermined period (specifically, 4 milliseconds). Details of timer interrupt processing (FIG. 249) will be described later.

After that, initialization processing of the stack pointer in the main MPU 82 is executed (step SG603). The stack pointer is an area in which address information is set for the main MPU 82 to specify a storage area to which information is written by a push instruction in a stack area provided in the main RAM 84 . Each time a push instruction is performed, the stack pointer information is updated to the address information of the storage area to be written in the next order, and each time a pop instruction is performed, the stack pointer information is updated to the previous order to be written is updated to the information of the address of the storage area. When using the stack area, the information to be stored is stored from the storage area of the last address in the stack area, and each time the information to be stored is added, the storage destination is moved toward the first address side in the stack area. A storage area is changed. In the stack pointer initialization process, the information of the last address in the stack area is set in the stack pointer. As a result, the storage area to which information is written by the push instruction can be the storage area of the last address in the stack area. Since the stack pointer is initialized when the supply of operating power is started, the storage area of the address existing on the first address side of the last address in the stack area after the supply of operating power is started can be written by the push instruction. Compared to the target configuration, the data capacity of the storage area secured as the stack area in the main RAM 84 can be suppressed.

Note that even in the configuration in which the stack pointer initialization process is executed at the start of supply of operating power, if the later-described RAM clear process (step SG620 or step SG701 of the set value update process (FIG. 247)) is not executed, the main Before the supply of operating power is stopped by executing this main process (FIG. 246) and a timer interrupt process (FIG. 249), which will be described later, based on information stored in a storage area other than the stack area in the side RAM 84. The game is started from the continuation of the game that was being executed.

After that, in steps SG604 to SG617, the same processes as steps S103 to S116 of the main process (FIG. 13) in the first embodiment are executed. Specifically, first, the start-up flag of the main RAM 84 is set to "1" (step SG604). Even if the timer interrupt processing (FIG. 249) is started, the start-up processing flag is set to the input/output confirmation processing (step SG904), the invalidation To specify in the main side MPU 82 that the timer interrupt process (FIG. 249) should be terminated without executing the process (step SG905) and the process (step SG911 to step SG924) for advancing the game flag.

The start-up processing flag is set to "1" when the processing (steps SG601 to SG627) at the start of supply of operating power is started in the main processing (FIG. 246). (Step SG601 to Step SG627) are completed and before the remaining process (Step SG628 to Step SG631) is started, it is cleared to "0". In the timer interrupt processing (FIG. 249), when the start-up processing flag is set to "1", the processing of steps SG903 to SG905 and steps SG911 to SG924 are not executed, thereby reducing operating power. Input/output confirmation processing (step SG904) in a situation where setting confirmation processing (step SG613) or setting value update processing (step SG618) described later in the supply start processing (steps SG601 to SG627) is being executed , the invalidation process (step SG905) and the process for advancing the game (steps SG911 to SG924) can be prevented from being executed. On the other hand, even in a situation in which the later-described setting confirmation process (step SG613) or set value update process (step SG618) is being executed among the processes (steps SG601 to SG627) when the supply of operating power is started, steps SG901 and The processing of steps SG906 to SG909 is executed. Therefore, even in this situation, power failure monitoring is executed, the winning random number counter C1, the type random number counter C2, the reach random number counter C3, and the random number initial value counter CINI are updated, and further fraud detection is executed.

After "1" is set to the startup processing flag in step SG604, it is determined whether or not "1" is set to the power failure flag provided in the main RAM 84 (step SG605). The power failure flag is set to "1" when the power failure process is executed in the power failure monitoring process (step SG901) of the timer interrupt process (FIG. 249). As in the first embodiment, the power failure flag is a flag for the main MPU 82 to specify whether or not the power failure process was appropriately performed at the time of the previous power failure.

If the power failure flag is set to "1" (step SG605: YES), it is determined whether the checksum is normal (step SG606). Specifically, first, a checksum is calculated for the main RAM 84 . The checksum may be calculated by any method, but the calculation method is the same as the calculation method when the checksum is calculated in the power failure process in the power failure monitoring process (step SG901) of the timer interrupt process (FIG. 249) to be described later. ing. After that, the checksum calculated in the power failure processing executed immediately before the supply of operating power to the main MPU 82 is stopped and stored in the main RAM 84 is read, and the read checksum is used in the current main MPU 82. Compare with the checksum calculated in the process. Then, it is determined whether or not the checksums match.

If the checksums match (step SG606: YES), it is determined whether or not the setting value corresponding to the information stored in the setting reference area of the main RAM 84 is within the normal range (step SG607). As already explained in the first embodiment, the setting reference area is a storage area in which information for specifying the setting values set to be used in the current pachinko machine 10 by the main side MPU 82 is stored. be. At step SG607, it is determined whether or not the setting value information stored in the setting reference area is one of "1" to "6".

If affirmative determinations are made in all steps SG605 to SG607, it means that no information abnormality has occurred in the main RAM 84. FIG. In this case, it is determined whether or not the setting updating flag provided in the main RAM 84 is set to "1" (step SG608). The setting updating flag is a flag for specifying in the main MPU 82 that the setting value updating process (step SG618) described later is being executed. is a display indicating that the setting value is being updated and a setting value being updated on the notification display device 141 (see FIG. 244) mounted on the main control board 81 of the main control device 71. is done. The notification display device 141 has a plurality of segment displays. These multiple segment displays are arranged side by side on the element mounting surface of the main control board 81, and the display surface of each segment display can be viewed from the outside of the board box without opening the board box of the main control unit 71. It has become.

When the supply of operating power to the main MPU 82 is stopped while the set value update process (step SG618) is being executed, the setting is made when the supply of operating power to the main MPU 82 is started after that. The update flag is set to "1". This state in which the setting update flag is set to "1" is maintained until the setting update flag is cleared to "0" in the setting value update process (step SG618).

If a negative determination is made in step SG608 because the setting updating flag is not set to "1", then in step SG609 the power supply of the pachinko machine 10 is turned on while the reset button 142 (see FIG. 244) is being pressed. It is determined whether an ON operation has been performed and supply of operating power to the main MPU 82 has started.

If the reset button 142 is not pressed (step SG609: NO), it is determined whether or not the game stop flag in the main RAM 84 is set to "1" (step SG610). By setting the game stop flag to "1", the process of steps SG911 to SG924 is not executed by making an affirmative determination at step SG910 in the timer interrupt process (FIG. 249) described later. As a result, if the power failure flag is not set to "1" because the power failure process was not properly performed at the time of the previous power failure, the storage state of the main RAM 84 has changed since the previous power failure. If the checksums do not match due to the fact that the game is in progress, or if the set value is abnormal, the process for advancing the game (steps SG911 to SG924) will not be executed. If an affirmative determination is made in step SG610, the processes of steps SG625 and SG626, which will be described later, are executed.

If a negative determination is made in step SG610, it is determined whether or not the setting key insertion section 143 (see FIG. 244) is turned on using the setting key (step SG611). If the setting key insertion unit 143 is turned on using the setting key (step SG611: YES), a setting confirmation process is executed (step SG613). Further, even if the setting key insertion unit 143 is not turned on using the setting key (step SG611: NO), the setting checking flag provided in the main RAM 84 is set to "1". If there is (step SG612: YES), a setting confirmation process is executed (step SG613).

The setting confirmation flag is a flag for specifying in the main MPU 82 that the setting confirmation process (step SG613) is being executed, and is notified when the setting confirmation flag is set to "1". On the display device 141, a display indicating that the setting value is being checked and a display indicating the currently set setting value are performed. The setting confirmation flag is set to "1" when the setting confirmation process (step SG613) is started, and is cleared to "0" when the setting confirmation process (step SG613) is terminated. In a situation where the setting confirmation process (step SG613) is not executed, basically the setting confirmation flag is not set to "1". However, if the supply of operating power to the main MPU 82 is stopped while the setting confirmation process (step SG613) is being executed, then if the supply of operating power to the main MPU 82 is started , the setting confirmation flag is set to "1". When the setting confirmation flag is set to "1", the RAM clear processing (step SG620) described later is executed, the set value update processing (step SG618) described later is executed, or the setting confirmation flag is set to "1". This is maintained until the setting confirmation flag is cleared to "0" in the process (step SG613).

As described above, not only when the reset button 142 is not pressed and the setting key insertion portion 143 is ON (that is, when the "setting confirmation operation" is performed), but also when the reset button 142 is The setting confirmation process (step SG613) is executed by executing the setting confirmation process (step SG613) even when the pressing operation is not performed and the setting confirmation flag is set to "1". If the power failure process is executed in this situation, the setting confirmation process (step SG613) is executed even if the "setting confirmation operation" is not performed when the supply of operating power is resumed thereafter. As a result, it is possible to continue to confirm the current set values of the pachinko machine 10.例文帳に追加On the other hand, even if the power failure process is executed while the setting confirmation process (step SG613) is being executed, if the reset button 142 is pressed when the supply of operating power is resumed after that, Without executing the setting confirmation process (step SG613), the RAM clear process (step SG620) and the set value update process (step SG618) corresponding to the operation performed at the time of resuming the supply of operating power are executed. be. This makes it possible to prioritize the execution of the RAM clearing process (step SG620) or the set value updating process (step SG618) over the setting confirmation process (step SG613).

Here, the setting confirmation process executed in step SG613 will be described.

In the setting confirmation process, first, interrupt permission is set. As a result, timer interrupt processing (FIG. 249) is interrupted and started at a predetermined cycle. In the pachinko machine 10, in the processing (step SG601 to step SG627) at the start of supply of operating power, the interrupt of the timer interrupt processing (FIG. 249) is basically prohibited, and the setting confirmation processing (step SG613) and the setting Execution of timer interrupt processing (FIG. 249) is permitted while value update processing (step SG618) is being executed. However, in the situation where the setting confirmation process (step SG613) or the set value update process (step SG618) is being executed, the startup process in progress flag is set to "1", so the timer interrupt process (Fig. 249) is started, among the various processes of the timer interrupt process (FIG. 249), power failure monitoring, updating of various counters, and fraud monitoring are executed, while input/output confirmation processing (step SG904) The timer interrupt process (FIG. 249) ends without executing the invalidation process (step SG905) and the process for advancing the game. After that, on the condition that the setting confirmation flag of the main RAM 84 is not set to "1", the setting confirmation flag is set to "1". By setting the setting confirmation flag to "1", a display indicating that the setting value of the pachinko machine 10 is being confirmed and a display indicating the current setting value of the pachinko machine 10 are displayed on the notification display device. 141. After that, a confirmation start command is transmitted to the sound and light side MPU 93 . As a result, an image indicating that the setting confirmation process (step SG613) is being executed and an image for recognizing the operation content for ending the setting confirmation process (step SG613) are displayed on the pattern display device 41. The display side MPU 103 is display-controlled so that the

After that, it is determined whether or not the setting key insertion unit 143 has switched from the ON state to the OFF state using the setting key. When it is specified that the setting key insertion unit 143 has been switched from the ON state to the OFF state, the setting confirmation flag of the main side RAM 84 is cleared to "0". As a result, the display device 141 for notification cancels the display indicating that the current setting value of the pachinko machine 10 is being confirmed and the display indicating the current setting value of the pachinko machine 10. be. After that, the interrupt prohibition is set. As a result, when the setting confirmation process (step SG613) is terminated and the main process (FIG. 246) returns to the operation power supply start process (steps SG601 to SG627), the timer interrupt process (FIG. 249) is executed. interrupt is disabled. After that, a return command at the time of confirmation is transmitted to the sound and light side MPU 93 . As a result, an image indicating that the setting confirmation process (step SG613) is being executed in the pattern display device 41 and an image for making it possible to recognize the operation content for ending the setting confirmation process (step SG613) are displayed. Display is terminated.

Returning to the description of the main processing (FIG. 246), when the setting key insertion unit 143 is not turned on using the setting key and the setting confirmation flag is not set to "1" (steps SG611 and Step SG612: NO), it is determined whether or not the gaming machine body 12 is open (step SG614). When the game machine main body 12 is in an open state with respect to the outer frame 11 (step SG614: YES), the ceiling counter 131 of the main side RAM 84 is set with information of 500 times, which is the number of fixed ceilings (step SG615). As already explained in the first embodiment, the ceiling counter 131 is a counter for specifying the number of remaining ceilings in the main MPU 82 .

When a negative determination is made in step SG614 or when the process of step SG615 is executed, a normal return command is transmitted to the sound/light side MPU 93 (step SG616). By receiving the normal return command, the sound and light side MPU 93 identifies that the main side MPU 82 has completed the process (steps SG601 to SG627) for starting supply of operating power, (step SG601 to step SG627), it is determined that none of the RAM clearing process (step SG620), setting confirmation process (step SG613), and setting value update process (step SG618) has been executed.

On the other hand, if it is determined in step SG609 that the reset button 142 has been pressed, and if it is determined that the setting key insertion unit 143 has been turned on using the setting key (step SG617: YES). Or, if it is determined in step SG608 that the setting updating flag is set to "1", the setting value updating process is executed by a CALL instruction (step SG618). As described above, not only when the reset button 142 is pressed and the setting key insertion portion 143 is turned ON (that is, when the "setting change operation" is performed), the reset button 142 is pressed. The setting value update process (step SG618) is executed even when the setting updating flag is set to "1" regardless of whether or not there is a pressing operation and an ON operation of the setting key insertion unit 143, thereby updating the setting value. If the power failure process is executed while the process (step SG618) is being executed, the operation contents at the time of starting the supply of the operating power after that are "no operation", "RAM clear operation", "setting change". The set value update process (step SG618) is executed regardless of whether the operation is "operation" or "setting confirmation operation". This makes it possible to give priority to the execution of the set value update process (step SG618).

When executing the set value update process (step SG618), a subroutine program corresponding to the set value update process is executed. A subroutine program corresponding to the set value update process is a subroutine program that is first called after the supply of operating power is started. Further, as already described, the stack pointer is initialized in step SG603, so that the storage area to be written by the push instruction is the storage area of the last address in the stack area. Therefore, when the program of the subroutine corresponding to the set value update process is executed, information for specifying the return address after execution of the set value update process (step SG618) is pushed by the push instruction to the storage area of the last address in the stack area. , and the storage area to be written by the push instruction in the stack area is updated to the second-to-last storage area. When the set value update process (step SG618) is completed, information for specifying the return address is read by the pop instruction, and the program indicated by the return address is returned to.

FIG. 247 is a flow chart showing the setting value updating process in step SG618.

First, RAM clear processing is executed by a CALL instruction (step SG701). When the RAM clear processing (step SG701) is executed, a subroutine program corresponding to the RAM clear processing is executed. Information for specifying an address is written in the second-to-last address storage area in the stack area by a push instruction. Then, when the RAM clearing process (step SG701) is completed, information for specifying the return address is read by the pop instruction, and the program indicated by the return address is returned to. Details of the RAM clear processing will be described later.

If the subroutine called in step SG701 has ended, the process advances to step SG702 for setting value update processing. In steps SG702 and SG703, the same processes as steps S2501 and S2502 of the set value update process (FIG. 42) in the fourth embodiment are executed. Specifically, interrupt permission is set to switch from a state in which the generation of timer interrupt processing (FIG. 249) is prohibited to a state in which it is permitted (step SG702). When the timer interrupt process (FIG. 249) is activated during execution of the setting value update process (FIG. 247), the processes of step SG901 and steps SG906 to SG909 are executed, while the input/output confirmation process (step SG904), invalidation processing (step SG905), and processing for advancing the game (steps SG911 to SG924) are not executed. After that, the setting updating flag of the main RAM 84 is set to "1" (step SG703). This allows the main MPU 82 to recognize that the set value update process (FIG. 247) is being executed.

After that, in steps SG704 to SG714, the same processes as steps S2507 to S2517 of the set value update process (FIG. 42) in the fourth embodiment are executed. Specifically, "1" is set in the setting update area of the main side RAM 84 (step SG704), and an update start command is sent to the sound and light side MPU 93 (step SG705). As a result, in the pattern display device 41, an image indicating that the setting value update process is being executed, an image for making it possible to recognize the operation content for changing the setting value, and the setting value update process are terminated. The display of an image is started to make it possible to recognize the content of the operation for the purpose. Thereafter, it is determined whether or not the setting value information stored in the setting update area is any one of "1" to "6" (step SG706). If it is not one of "1" to "6" (step SG706: NO), "1" is set in the setting update area (step SG707). As a result, the setting value to be updated becomes "setting 1".

If an affirmative determination is made in step SG706 or if the process of step SG707 is executed, it is determined whether or not the setting key insertion unit 143 has switched from the ON state to the OFF state using the setting key (step SG708). If a negative determination is made in step SG708, on condition that the reset button 142 is pressed (step SG709: YES), 1 is added to the value of the setting update area (step SG710). As a result, each time the reset button 142 is pressed once, the set value is updated to a value one step higher. If the reset button 142 is not pressed (step SG709: NO) or if 1 is added to the setting update area value, the process returns to step SG706. If it is determined that the area value is 7 or more, "1" is set in the setting update area in step SG707. As a result, when the reset button 142 is pressed once in the state of "setting 6", the setting returns to "setting 1".

If it is specified that the setting key insertion unit 143 has switched from the ON state to the OFF state (step SG708: YES), the setting reference area is overwritten with the setting value information stored in the setting update area (step SG711). ). As a result, the setting value information updated in the setting value update process this time is set in the setting reference area, and the setting value corresponding to the set information is the current setting of the pachinko machine 10. value.

After that, in order to prohibit the occurrence of timer interrupt processing (FIG. 249), interrupt prohibition is set (step SG712), and a return command at the time of update is transmitted to the sound and light side MPU 93 (step SG713). When the sound and light side MPU 93 receives the return command at the time of updating, the image indicating that the setting value update process is being executed in the pattern display device 41 and the operation content for changing the setting value are made recognizable. and the image for making it possible to recognize the content of the operation for ending the setting value updating process are ended. Further, when the sound and light side MPU 93 receives the return command at the time of updating, the display control and display of the pattern display device 41 are performed so that the initialization notification that the RAM clear processing (step SG701) has been executed is performed. Light emission control of the light emission unit 64 is executed. Note that the initialization notification will be described later in detail. Thereafter, the setting updating flag of the main RAM 84 is cleared to "0" (step SG714).

The time during which the reset button 142 is pressed in order to update the set value is a time that varies according to the operation of the manager of the game hall. Also, by allowing the generation of timer interrupt processing (FIG. 249) during execution of the set value update processing (FIG. 247), various counters are updated in steps SG906 to SG908 of the timer interrupt processing (FIG. 247). done. In the set value update process (FIG. 247), after the RAM clear process (step SG701) is executed, the timer interrupt process (FIG. 249) occurs before the reset button 142 is pressed to update the set value. is permitted, and generation of timer interrupt processing (FIG. 249) is prohibited after the reset button 142 is pressed. As a result, after the values of various counters are cleared to "0" in the RAM clearing process (step SG701), the varying time (the time during which the reset button 142 is pressed to update the set values) can be used. can update various counters.

Returning to the description of the main processing (FIG. 246), if it is determined in step SG609 that the reset button 142 has been pressed and the setting key insertion section 143 has not been turned on using the setting key, When determined (step SG617: NO), it is determined whether or not the game stop flag of the main side RAM 84 is set to "1" (step SG619). The game stop flag is a flag that allows the main side MPU 82 to grasp that the process (steps SG911 to SG924 in the timer interrupt process (FIG. 249)) for progressing the game should not be executed. By setting the game stop flag to "1", an affirmative determination is made in step SG910 of the timer interrupt process (FIG. 249), and the processes of steps SG911 to SG924 are not executed. As a result, if the power failure flag is not set to "1" because the power failure process was not properly performed at the time of the previous power failure, the storage state of the main RAM 84 has changed since the previous power failure. If the checksums do not match or if the set value is abnormal due to the fact that the game is being played, the processing (steps SG911 to SG924) for progressing the game is not executed.

If the game stop flag is not set to "1" (step SG619: NO), RAM clear processing is executed by a CALL command ( step SG620). When executing the RAM clear processing (step SG620), a subroutine program corresponding to the RAM clear processing is executed. When the RAM clearing process is executed in step SG620, the subroutine program corresponding to the RAM clearing process is the subroutine program that is first called after the supply of operating power is started. Further, as already explained, the memory area of the last address in the stack area becomes the object of writing by executing the stack pointer initialization process in step SG603. Therefore, when executing the program of the subroutine corresponding to the RAM clear processing, information for specifying the return address after the execution of the RAM clear processing (step SG620) is written by the push instruction to the storage area of the last address in the stack area. be Then, when the RAM clearing process (step SG620) is completed, information for specifying the return address is read by the pop instruction, and the program indicated by the return address is returned to. Details of the RAM clear processing will be described later.

If the subroutine called at step SG620 has ended, the process proceeds to step SG621 of the main process. In step SG621, a return command for clearing is transmitted to the sound and light side MPU 93. FIG. The sound and light side MPU 93 receives the return command at the time of clearing, thereby specifying that the main side MPU 82 has completed the processing for starting supply of operating power (steps SG601 to SG627), and starting the current supply of operating power. It specifies that the RAM clearing process (step SG620) has been executed in the time process (steps SG601 to SG627). When the sound/light side MPU 93 receives the return command at the time of clearing, the display control and the display light emitting unit of the pattern display device 41 are performed so that the initialization notification for notifying that the RAM clearing process (step SG620) has been executed is performed. 64 light emission control is executed. Details of the initialization notification will be described later.

If a negative determination is made in any of steps SG605 to SG607 in the main process (FIG. 246), that is, if the power failure flag is not set to "1", if the checksum does not match, or if the set value is abnormal If so, the game stop flag of the main side RAM 84 is set to "1" (step SG622). As already explained, by setting the game stop flag to "1", an affirmative determination is made in step SG910 of the timer interrupt process (FIG. 249), and the processes of steps SG911 to SG924 are not executed. As a result, if the power failure flag is not set to "1" because the power failure process was not properly performed at the time of the previous power failure, the storage state of the main RAM 84 has changed since the previous power failure. If the checksums do not match due to the fact that the game is in progress, or if the set value is abnormal, the process for advancing the game (steps SG911 to SG924) will not be executed.

Thereafter, information of 500 times, which is the number of fixed ceilings, is set in the ceiling counter 131 of the main RAM 84 (step SG623). Thereafter, it is determined whether or not the reset button 142 is pressed (step SG624). If the reset button 142 is not pressed (step SG624: NO), an abnormal command is sent to the sound and light side MPU 93 (step SG625). When the sound/light side MPU 93 receives the abnormality command, the sound/light side MPU 93 executes display control of the pattern display device 41, light emission control of the display light emitting section 64, and sound output control of the speaker section 65 so that an abnormality notification is performed. In the abnormality notification, the sound and light side MPU 93 causes the display light emitting section 64 to emit light in a mode of notifying the abnormality, and causes the speaker section 65 to output a voice saying "Please change the setting." Also, the character image "Please change the setting" is displayed on the pattern display device 41.例文帳に追加The anomaly notification is maintained until the supply of operating power to the pachinko machine 10 is stopped, and is terminated when the supply of operating power to the pachinko machine 10 is stopped. However, even if the supply of operating power to the pachinko machine 10 is temporarily stopped, the above notification will not be issued until the setting value update process (step SG618) is executed when the supply of operating power to the pachinko machine 10 is resumed. It will start again.

After that, the external output process at the time of abnormality is executed (step SG626). In the abnormal external output process, a process for externally outputting an abnormal signal to the management computer of the game hall is executed. In this case, the signal output of the abnormal signal is performed over a predetermined period (for example, 100 milliseconds). However, it is not limited to this, and in the situation where the game stop flag is set to "1", the signal output of the abnormal signal is continued, and the game stop flag is cleared to "0" to output the abnormal signal. A configuration in which signal output is stopped may be employed.

If the reset button 142 has been pressed (step SG624: YES), it is determined whether or not the setting key insertion section 143 has been turned on using the setting key (step SG617). When the reset button 142 is pressed and the setting key insertion unit 143 is turned on using the setting key (step SG617 and step SG624: YES), the setting value update process is executed by a CALL command (step SG618). The processing contents of the set value update processing are as already explained. In other words, when the operating power is supplied to the main MPU 82 while the "setting change operation" is being performed, an abnormality has occurred in the main RAM 84, and one of steps SG605 to SG607 is executed. Even if a negative determination is made in step SG618, the set value update process (step SG618) is executed. This makes it possible to give priority to changing the setting value. Also, in the set value update process (FIG. 247), the game stop flag is cleared to "0" by executing the RAM clear process in step SG701. As a result, when the setting value update process (step SG618) is executed, it is possible to bring the information abnormality occurring in the main side RAM 84 to a state where it has been resolved when the setting value update is completed. Become.

The supply of operating power to the main MPU 82 is started while the "setting change operation" is being performed, and an abnormality has occurred in the main RAM 84, so a negative determination is made in any of steps SG605 to SG607. Even when the set value update process (step SG618) is executed, the subroutine program corresponding to the set value update process is the subroutine program that is first called after the supply of operating power is started. For this reason, as already explained, when executing the program of the subroutine corresponding to the set value update process, the information for specifying the return address after the set value update process (step SG618) is executed is pushed to the end of the stack area by the push instruction. is written to the storage area at the address of

On the other hand, if the reset button 142 has been pressed but the setting key insertion portion 143 has not been turned ON (step SG624: YES, step SG617: NO), the game stop flag of the main side RAM 84 is set to "1". (step SG619). In the processing of step SG619 after the game stop flag is set to "1" at step SG622, the game stop flag is naturally set to "1", so an affirmative determination is made at step SG619. In this case, at step SG625, an abnormality command is transmitted to the sound and light side MPU 93, and at step SG626, an abnormality signal is output to the outside.

In other words, if an abnormality related to the power failure flag, checksum, and set value occurs and a negative determination is made in any of steps SG605 to SG607, the operation to the main MPU 82 is performed while the "RAM clear operation" is being performed. Even if power supply is started, the RAM clearing process (step SG620) is not executed. In addition, when the game stop flag is set to "1" and the "RAM clearing operation" is being performed, the supply of operating power to the main MPU 82 is started. Step SG620) is not executed. As a result, even if the supply of operating power to the main MPU 82 is started while the "RAM clearing operation" is being performed, the state in which the game stop flag is set to "1" is not cleared. It becomes possible. On the other hand, if the "setting change operation" is performed, the set value update process (step SG618) is executed regardless of whether or not the game stop flag is set to "1", and the setting The game stop flag is cleared to "0" in the value update process (step SG618). As a result, it becomes necessary to execute the set value update process (step SG618) in order to eliminate the state in which the game stop flag is set to "1". Therefore, when an information abnormality occurs in the main RAM 84, it is possible not only to initialize a part of the area of the main RAM 84 but also to reset the set values.

When the supply of operating power to the main side MPU 82 is started in a situation where the game stop flag is set to "1", the "setting change operation" is not performed, that is, the case of "no operation" Alternatively, when the "RAM clearing operation" or "setting confirmation operation" is performed, an affirmative determination is made in step SG610 or step SG619, whereby an abnormal command is transmitted in step SG625 and an external Execute output processing. As a result, when the game stop flag is set to "1", the main side Every time the supply of operating power to the MPU 82 is started, an abnormality notification in the pachinko machine 10 and an external output at the time of abnormality to the outside of the pachinko machine 10 are performed. Therefore, it is possible to make the manager of the game hall recognize that the set value should be changed.

When the process of step SG613 is executed, when the process of step SG616 is executed, when the process of step SG618 is executed, when the process of step SG621 is executed, or when the process of step SG626 is executed, the main side The start-up processing flag in RAM 84 is cleared to "0" (step SG627). As a result, a negative determination can be made in step SG902 of the timer interrupt processing (FIG. 249), which will be described later. A negative determination can be made in step SG910. In step SG627, the power failure flag of the main RAM 84 is also cleared to "0".

After that, the remaining processing of steps SG628 to SG631 is performed. In other words, although the main MPU 82 is configured to periodically execute timer interrupt processing (FIG. 249), there will be a remaining time between one timer interrupt processing and the next timer interrupt processing. This remaining time fluctuates according to the processing completion time of the timer interrupt processing. Using such irregular time, the remaining processing of steps SG628 to SG631 is repeatedly executed. In this respect, the remaining processes of steps SG628 to SG631 can be said to be non-periodic processes that are executed non-periodically.

In the remaining processing, first, in step SG628, interrupt prohibition is set to prohibit the occurrence of timer interrupt processing (FIG. 249). In subsequent Step SG629, random number initial value update processing for updating the random number initial value counter CINI is executed, and in Step SG630, variation counter update processing for updating the variation type counter CS is executed. In these updating processes, the current numerical information is read out from the corresponding counter of the main RAM 84, and after executing the process of adding 1 to the read numerical information, the process of overwriting the reading source counter is executed. In this case, they are cleared to "0" when the counter value exceeds the maximum value. After that, in step SG631, interrupt permission is set to switch from the state in which the generation of timer interrupt processing (FIG. 249) is prohibited to the state in which it is permitted. When the process of step SG631 has been executed, the process returns to step SG628, and the processes of steps SG628 to SG631 are repeated.

Next, the RAM clear processing executed by the main MPU 82 will be described with reference to the flowchart of FIG. As already explained, the RAM clearing process is executed in step SG701 of the set value update process (FIG. 247) and step SG620 of the main process (FIG. 246).

The subroutine program corresponding to the RAM clearing process called at step SG620 of the main process (FIG. 246) is the same as the subroutine program called at step SG701 of the set value update process (FIG. 247). For this reason, compared to the configuration in which the subroutine program called at step SG620 is stored in the main ROM 83 as a separate program from the subroutine program called at step SG701, the RAM clear processing is executed. The data capacity of the program stored in the main ROM 83 can be reduced.

As already explained, the main RAM 84 is provided with a plurality of areas, and addresses are set in one-to-one correspondence with each of these areas. The area to be initialized in the RAM clear process is set in the continuous address range of “0006H” to “04AFH” in the main RAM 84 .

In the RAM clearing process, first, "0007H", which is the top address of the address range ("0007H" to "04AFH") to be initialized, is set as the address to be initialized (step SG801). The initialization target address is an address for specifying the area of the main RAM 84 to be initialized in the target area clearing process in step SG802. The initialization target address is updated by the initialization target address updating process in step SG804.

After setting the address to be initialized in step SG801, the target area is cleared (step SG802). In the target area clearing process, the area of the main RAM 84 specified by the address to be initialized is cleared to "0" and initialized. After that, it is determined whether or not "04AFH", which is the end address of the address range to be initialized in the RAM clear processing, is set as the current address to be initialized (step SG803). If the address is not the end address (step SG803: NO), update processing of the address to be initialized is executed (step SG804). In the process of updating the address to be initialized, by specifying the address next to the current address to be initialized as the address to be initialized, the addresses are updated in the order of "0007H"→"0008H"→...→"04AEH"→"04AFH". , update the initialization target address. Then, the process proceeds to step SG802, and the processes of steps SG802 to SG804 are repeatedly executed until an affirmative determination is made in step SG803. As a result, the area set in the address range (“0007H” to “04AFH”) to be initialized in the main RAM 84 can be initialized.

By repeatedly executing the processing of steps SG802 to SG804 until an affirmative determination is made in step SG803, in the RAM clear processing (FIG. 248), the setting value information indicating the setting state of the pachinko machine 10 in the main side RAM 84 is set (that is, the setting reference area), the ceiling counter 131, the start-up processing flag, the area where the information for calculating the role ratio is stored in the main RAM 84, and the stack area. area is cleared to "0" and initialized. As a result, the area indicating whether or not the winning lottery mode is the high probability mode is cleared to "0", so the winning lottery draws regardless of the winning lottery mode immediately before the supply of the operating power to the pachinko machine 10 is stopped. Mode is low probability mode. In addition, the game round is not executed, the open/close execution mode is not executed, and the normal diagram display section 38a is not displayed in a variable manner, and the general electric accessory 34a is in the closed state. situation. In addition, since the special figure reservation area 84a and the general figure reservation area 84c are also cleared to "0", the first reservation information, the second reservation information and the reservation information on the general drawing side are erased. Also, the setting updating flag, the setting checking flag, and the setting update area are cleared to "0". Furthermore, the game stop flag is cleared to "0". Also, the timer counters 523a to 523g in the timer counter area 523 of the main RAM 84 are cleared to "0".

The stack area is excluded from areas to be cleared to "0" and initialized in the RAM clear processing (FIG. 248). Therefore, when a subroutine program corresponding to RAM clear processing is called in step SG620 of the main processing (FIG. 246), or when a subroutine program corresponding to RAM clear processing is called in step SG701 of the setting value update processing (FIG. 247), The return address information stored in the stack area is retained when the program is called.

If an affirmative determination is made in step SG803, that is, if the area set in the address range to be initialized in the main RAM 84 has been initialized, various registers are cleared. , various registers of the main MPU 82 are cleared to "0" (step SG805). The stack pointer in the main MPU 82 is excluded from being cleared to "0" in the various register clearing process (step SG805). As a result, when the subroutine program corresponding to the RAM clearing process is called in step SG620 of the main process (FIG. 246) after the RAM clearing process (FIG. 248) ends, the return address or set value stored in the stack area When a subroutine program corresponding to RAM clear processing is called in step SG701 of the update processing (FIG. 247), it is possible to return to the return address stored in the stack area.

Thereafter, similar to step SG602 of the main processing (FIG. 246) already described, by executing the internal function register setting processing, the interrupt cycle of the timer interrupt processing (FIG. 249) is changed to a predetermined cycle (specifically, 4 milliseconds). ) (step SG806).

After that, the instruction "LDW (KAKUTIM), 2500" is executed (step SG807). "LDW" is a 16-bit transfer command, "KAKUTIM" is the confirmation timer counter 523a in the timer counter area 523 of the main RAM 84, and "2500" is the input/output confirmation period (specifically, 10 seconds). It is the corresponding numerical information. By executing the command "LDW (KAKUTIM), 2500" in step SG807, numerical information "2500" is set in the confirmation timer counter 523a. When the value of the confirmation timer counter 523a is "1" or more, it is decremented by 1 and updated each time the timer update process (FIG. 254) described later is executed. Numerical information corresponding to the input/output confirmation period is set in the confirmation timer counter 523a in step SG807, thereby completing the processing (steps SG601 to SG627) at the start of supply of operating power in the main processing (FIG. 246). After that, it becomes an input/output confirmation period during which the input/output confirmation process (step SG904) is executed for 10 seconds.

The process of step SG807 for setting the numerical information corresponding to the input/output confirmation period to the confirmation timer counter 523a is the set value update process in step SG618 of the main process (Fig. When the RAM clear processing in step SG620 of the main processing (FIG. 246) is executed, that is, when the RAM clear processing (step SG620 or step SG701) is executed, supply of operating power to the pachinko machine 10 If neither the set value updating process in step SG618 nor the RAM clearing process in step SG620 is executed at the start of , that is, if the RAM clearing process (step SG620 or step SG701) is not executed, it is not executed. Therefore, it can be said that the input/output confirmation process (step SG904) is a process executed when the RAM clear process (step SG620 or step SG701) is executed.

The manager of the game hall presses the reset button 142 at the start of supply of operating power to the pachinko machine 10, thereby executing the input/output confirmation process (step SG904) after executing the RAM clearing process (step SG620). In addition, by pressing the reset button 142 and turning on the setting key insertion unit 143 at the start of supply of operating power to the pachinko machine 10, the setting value update process (step SG618) can be performed. After the execution, the input/output confirmation process (step SG904) can be executed. In addition, the manager of the game hall does not cause an input/output confirmation period (specifically, 10 seconds) by starting the supply of operating power to the pachinko machine 10 without pressing the reset button 142. By doing so, it is possible to quickly create a state in which the processing (steps SG911 to SG924) for progressing the game is executed.

After the supply of operating power to the pachinko machine 10 is started, when the RAM clear processing (step SG620 or step SG701) is executed, the input/output confirmation period is set, and when the RAM clear processing is not executed In the configuration in which the input/output confirmation period is not set, a process (step SG807) for generating an input/output confirmation period is set in the subroutine corresponding to the RAM clear process. This simplifies the processing configuration for setting the input/output confirmation period when the RAM clearing process is executed and not setting the input/output confirmation period when the RAM clearing process is not executed. be able to.

If power-on and power-off are repeated without executing the stack pointer initialization process (step SG603), in the stack area of the main RAM 84, the storage area to which information is written by the push command after power-on. address may shift toward the first address. Therefore, it is necessary to initialize the stack pointer at some point. As already explained, the RAM clearing process is executed by a common subroutine program called in step SG701 of the set value update process (FIG. 247) and step SG620 of the main process (FIG. 246). Also, the number of times the value of the stack pointer is updated (the number of times the CALL instruction is executed 2 times) is the number of times the value of the stack pointer is updated (when the CALL instruction is executed) from the start of supply of operating power until the RAM clear process is executed in step SG620 of the main process (FIG. 246). 1), which is the number of times Therefore, the value of the stack pointer when the RAM clear processing is executed in step SG701 of the setting value update processing (FIG. 247) is the same as the value of the stack pointer when the RAM clear processing is executed in step SG620 of the main processing (FIG. 246). does not match the value of the stack pointer in In step SG701 of the set value update process (FIG. 247) and step SG620 of the main process (FIG. 246), in a configuration in which a common subroutine program is called to execute RAM clear processing, the stack pointer is initialized in the RAM clear processing. If the configuration is such that the processing configuration for executing the RAM clear processing becomes complicated. On the other hand, by executing the stack pointer initialization process in step SG603 before the RAM clear process (step SG620 or step SG701) is executed, the RAM clear process is handled in steps SG620 and SG701. It is possible to prevent the processing configuration of the RAM clear processing from becoming complicated while configuring to call a common subroutine.

Next, timer interrupt processing will be described with reference to the flowchart of FIG. As already explained in the first embodiment, the timer interrupt process is repeatedly started at a period of 4 msec.

In step SG901, a power failure monitoring process is executed (step SG901), as in step S201 of the timer interrupt process (FIG. 14) in the first embodiment. In the power failure monitoring process, it is monitored whether or not a power failure signal corresponding to the occurrence of a power failure is received from the power failure monitoring board 85, and when the occurrence of a power failure is specified, an infinite loop occurs after the power failure process is executed. . In the power failure process, the power failure flag in the main RAM 84 is set to "1", the checksum is calculated, and the calculated checksum is saved.

After the power failure monitoring process is executed in step SG901, it is determined whether or not "1" is set in the start-up processing flag of the main RAM 84 (step SG902), and the start-up processing flag is set to "1". is not set (step SG902: NO), it is determined whether or not the value of the confirmation timer counter 523a in the timer counter area 523 of the main RAM 84 is "1" or more (step SG903). When the value of the confirmation timer counter 523a is "1" or more (step SG903: YES), the input/output confirmation process is executed by a CALL command (step SG904). When the input/output confirmation process (step SG904) is executed, a subroutine program corresponding to the input/output confirmation process is executed. ) is written in the stack area by the push instruction to specify the return address after the execution. Then, when the input/output confirmation process (step SG904) is completed, information for specifying the return address is read by the pop instruction, and the program indicated by the return address is returned to. When the subroutine called in step SG904 ends, this timer interrupt process ends without executing the processes of steps SG905 to SG924. The details of the input/output confirmation process will be described later.

If "1" is set in the start-up processing flag, the affirmative determination is made in step SG902, so the input/output confirmation process (step SG904) is not executed. The state in which the timer interrupt processing is executed while the start-up processing flag is set to "1" is the state in which the setting confirmation processing (step SG613) or the setting value updating processing (Fig. 247) is being executed. be. It is conceivable that the manager of the game hall preferentially confirms the setting value in the situation where the setting confirmation process (step SG613) is being executed, and the setting value update process (FIG. 247) is being executed. In situations where there is a need to update the setting values, priority should be given to the task of updating the setting values. Therefore, if the input/output confirmation process is executed while the setting confirmation process (step SG613) or the setting value update process (FIG. 247) is being executed, the input/output confirmation period by the manager of the gaming hall Confirmation work (operation confirmation of the special electric prize winning device 32, operation confirmation of the general electric accessory 34a, confirmation of the detection state of the game ball entered into the ball entry part 24a, 31 to 34, and game ball passing through the through gate 35 There is a possibility that the input/output confirmation period of 10 seconds will end before the confirmation of the detection state of (1) is sufficiently performed. Also, as already explained, when the setting confirmation process (step SG613) ends or when the set value update process (FIG. 247) ends, the interrupt by the timer interrupt process is prohibited. Furthermore, the execution period of the setting confirmation process (step SG613) and the execution period of the set value update process (FIG. 247) are periods that vary according to the operation mode by the manager of the game hall. Therefore, if the execution period of the setting confirmation process (step SG613) or the execution period of the setting value update process (FIG. 247) is less than 10 seconds, the input/output confirmation period is interrupted before it expires. On the other hand, the configuration in which the input/output confirmation period is started after the start-up processing flag is not set to "1", that is, after the processing (steps SG601 to SG627) at the start of supply of operating power is completed. is. As a result, the manager of the game hall can concentrate on the confirmation work during the input/output confirmation period. Also, it is possible to prevent the input/output confirmation period from being interrupted before the expiration.

When the value of the timer counter 523a for confirmation is "0" (step SG903: NO), invalidation processing is executed (step SG905). Although the details will be described later, the invalidation processing includes processing for setting a post-confirmation invalidation period (specifically, one second) at the end of the input/output confirmation period. In the post-confirmation invalidation period, even if a game ball is detected by detecting the rise from the LOW level to the HI level of the detection signal input from the special electric detection sensor 234a to the main side MPU 82, the game ball is detected. is treated as invalid, and the game ball is detected by detecting the rise from the LOW level to the HI level of the detection signal input from the second operation opening detection sensor 236a to the main side MPU 82 Even in this case, it is a period during which the detection of the game ball is treated as invalid. By setting the post-confirmation invalidation period at the end of the input/output confirmation period, the game ball entering the special electric prize winning device 32 immediately before the end of the input/output confirmation period is detected by the special electric detection sensor 234a during the post-confirmation invalidation period. When the game ball is detected, it is possible to prevent the game ball from being put out based on the occurrence of the detection of the game ball, and the special electric detection sensor during the period when the ball is not expected to enter the special electric winning device 32. It is possible to prevent the execution of the special electric ball error notification based on the detection of the game ball in 234a. In this way, by setting the post-confirmation invalidation period at the end of the input/output confirmation period, input/output is performed to confirm that the detection of the game ball that has entered the special electric prize winning device 32 is normally performed. It is possible to reduce the possibility that game balls are put out due to the game balls that have been handled by the special electric prize winning device 32 during the confirmation period, and that the game balls are the cause of the special electric winning balls. It is possible to prevent the error notification from being executed. The details of the special electric ball error notification will be described later.

By setting the post-confirmation invalidation period at the end of the input/output confirmation period, the game ball entering the second operation hole 34 just before the end of the input/output confirmation period is detected as the second operation hole during the post-confirmation invalidation period. When detected by the sensor 236a, it is possible to prevent the game ball from being put out based on the occurrence of the detection of the game ball, and the winning/failure determination process is based on the detection of the game ball. (Step S805 of the special figure fluctuation start process (FIG. 20) already described in the first embodiment) can be prevented from being executed. In addition, it is possible to prevent the execution of the general electric ball ball error notification based on the detection of the game ball by the second operation opening detection sensor 236a during the period in which the ball is not expected to enter the second operation opening 34. can be prevented. In this way, by setting the post-confirmation invalidation period at the end of the input/output confirmation period, the second operation is performed to confirm that the game ball entering the second operation opening 34 is normally detected. It is possible to reduce the possibility that the game ball will be put out due to the game ball that has been groomed in the second operation port 34, and reduce the possibility that the success/failure determination process will be executed. can. In addition, it is possible to prevent the game ball from causing the general electric ball error notification to be executed. In addition, the details of the general electric light bulb error notification will be described later.

When the affirmative determination is made in step SG902 or when the processing of step SG905 is performed, the process proceeds to step SG906. At steps SG906 to SG924, the same processes as steps S202 to S220 of the timer interrupt process (FIG. 14) in the first embodiment are executed. Specifically, first, random number update processing for lottery is executed (step SG906). Thereafter, in step SG907, random number initial value update processing is executed in the same manner as in step SG629 of the main processing (FIG. 246), and in step SG908, variation counter update processing is executed in the same manner as in step SG630 of the main processing (FIG. 246). do.

After that, fraud detection processing is executed to monitor whether or not a predetermined event set as a monitoring target for fraud has occurred (step SG909). In the fraud detection process, the game stop flag provided in the main side RAM 84 is set to "1" by monitoring the occurrence of a plurality of types of events and confirming that a predetermined event has occurred.

Thereafter, it is determined whether or not "1" is set to either the game stop flag or the start-up processing flag of the main RAM 84 (step SG910). If "1" is set to either the game stop flag or the start-up processing flag (step SG910: YES), this timer interrupt process is terminated without executing the processes of steps SG911 to SG924. As a result, in a situation where the game stop flag or the start-up processing flag is set to "1", it is possible to prevent the processing (steps SG911 to SG924) for progressing the game from being executed. .

When neither the game stop flag nor the start-up processing flag is set to "1" (step SG910: NO), the process for progressing the game in steps SG911 to SG924 is executed. Specifically, first, port output processing is executed (step SG911). In the port output process, when the output information has been set in the previous timer interrupt process, a process for outputting corresponding to the output information to the various driving units 32b and 34b is executed. For example, when the information to switch the special electric prize winning device 32 to the open state is set, the output of the drive signal to the special electric drive unit 32b is started, and when the information to switch to the closed state is set stops the output of the drive signal. In addition, when information is set to switch the general electric accessory 34a of the second operation port 34 to the open state, the output of the drive signal to the general electric drive unit 34b is started to switch to the closed state. When the information is set, the output of the drive signal is stopped. After that, read processing is executed (step SG912). In the reading process, signals other than the power failure signal and the winning signal are read, and the read information is stored for use in future processing.

After that, the command "CALL SWREAD2" is executed (step SG913). "SWREAD2" is an entering ball detection process. At step SG913, ball entry detection processing is executed by a CALL command. When executing the ball entry detection process (step SG913), a subroutine program corresponding to the ball entry detection process is executed. When the subroutine program is executed, the ball entry detection process (step SG913) is executed. Information for identifying the later return address is written to the stack area by the push instruction. Then, when the entering ball detection process (step SG913) is completed, information for specifying the return address is read by the pop instruction, and the program indicated by the return address is returned to. In the ball entry detection process, signals received from the respective detection sensors 231a to 238a are read, and the general prize winning port 31, the special electric prize winning device 32, the first operating port 33, the second operating port 34, the out port 24a and the through gate A process for identifying whether or not a ball is entered into 35 is executed. If the subroutine called at step SG913 has ended, the process proceeds to step SG914 of timer interrupt processing (FIG. 249). The details of the ball entry detection process will be described later.

At step SG914, the command "CALL TIMER" is executed. "TIMER" is timer update processing. At step SG914, timer update processing is executed by a CALL instruction. When the timer update process (step SG914) is executed, a subroutine program corresponding to the timer update process is executed. When the subroutine program is executed, however, after the timer update process (step SG914) is executed, there is no return. Information for specifying an address is written to the stack area by a push instruction. Then, when the timer update process (step SG914) is completed, information for specifying the return address is read by the pop instruction, and the program indicated by the return address is returned to. In the timer update process, the numerical information of the seven types of timer counters 523a to 523g provided in the timer counter area 523 of the main RAM 84 is collectively updated. If the subroutine called at step SG914 has ended, the process proceeds to step SG915 of timer interrupt processing (FIG. 249). Details of the timer update process will be described later.

At step SG915, a launch control process for controlling the launch of game balls is executed. In a situation where the shooting operation is continued with respect to the shooting operation device 28, one game ball is shot every 0.6 seconds so as to have a predetermined shooting cycle, as already explained. After that, as the input state monitoring process, based on the information read in the reading process of step SG912, disconnection confirmation of each detection sensor 231a to 238a and opening confirmation of the game machine main body 12 and the front door frame 14 are performed (step SG916 ).

After that, the special figure special electric control processing for performing the execution control of the game round and the execution control of the open/close execution mode is executed (step SG917), and the display control of the general figure display unit 38a and the execution control of the general electric open state are performed. Executes the normal/universal electric power control process for the purpose (step SG918). The processing contents of these special figure special electric control processing and general figure general electric control processing are basically the same as those of the first embodiment. The processing configuration of the different part will be explained later.

In subsequent step SG919, display control processing is executed. In the display control process in step SG919, based on the processing results of step SG917 and step SG918 immediately before, setting the output information for reflecting the increase or decrease number of the first reservation information in the first special figure reservation display unit 37c, the second Setting of output information for reflecting the increase/decrease number of pending information on the second special figure pending display unit 37d, and setting of output information for reflecting the increase/decrease number of pending information on the normal map side on the normal map pending display unit 38b I do. In addition, in the display control process in step SG919, based on the processing result of step SG917 and step SG918 immediately before, output information for updating the display contents of the first special figure display unit 37a and second special figure display unit 37b In addition to setting, output information is set for updating the display contents of the normal map display section 38a.

After that, the content of the command and signal received from the payout control device 77 is confirmed, and payout state reception processing for performing processing corresponding to the confirmation result is executed (step SG920). Also, a payout output process for setting the prize ball command as an output object is executed (step SG921). Also, an external information setting process is executed for controlling the start and end of the output of the external signal according to the processing results of the various processes executed in the current timer interrupt process (step SG922).

After that, the setting monitoring process is executed (step SG923). In the setting monitoring process, by determining whether or not the setting value information stored in the setting reference area of the main side RAM 84 is one of "1" to "6", it is set as a use target. It is determined whether the setting value is one of "setting 1" to "setting 6". If the setting value information stored in the setting reference area is "0" or 7 or more, it means that the setting value set to be used is abnormal. is set to "1". As a result, the game cannot proceed until the setting value to be used is newly set in the setting value update process (step SG618). Thereafter, management processing is executed (step SG924). In the management process, a process for storing the game history for calculating the role ratio, a process for calculating the role ratio using the stored game history, and a notification display of the calculated role ratio. A process for displaying on the device 141 is executed.

Thus, when the RAM clearing process (step SG620 or step SG701) is executed after the supply of operating power to the pachinko machine 10 is started, the process at the time of starting supply of operating power (step SG601 to step SG627) is completed, execution of the timer interrupt process (FIG. 249) is permitted, and a negative decision is made in step SG902 of the timer interrupt process (FIG. 249), and an affirmative decision is made in step SG903. Seconds, an I/O confirmation period is started. Then, when the input/output confirmation period has ended, on the condition that the game stop flag of the main side RAM 84 is not set to "1", the processing (step SG911 to step SG924) for progressing the game is performed. It becomes a playable state to be executed. When the input/output confirmation process is executed, the process for progressing the game is not executed until the input/output confirmation period ends even after the supply of operating power to the pachinko machine 10 is started. When the supply of the operating power to the pachinko machine 10 is started, the special electric prize winning device 32 before the game becomes possible by executing the input/output confirmation processing at the timing before the game becomes possible. And it can be made possible to confirm whether or not the opening/closing operation of the general electrical accessory 34a is normally performed. As a result, it is possible to reduce the possibility that the game will be played while the opening/closing operation of the special electric prize winning device 32 and the general electric accessory 34a is not performed normally. In addition, it is confirmed whether or not the detection of the game ball entering each of the ball entering portions 24a, 31 to 34 and the detection of the game ball passing through the through gate 35 are normally performed before the game becomes ready to play. can be made possible. As a result, it is possible to reduce the possibility that the game will be played while the state in which the detection of these game balls is not normally performed is overlooked.

When the pressing operation of the reset button 142 and the ON operation of the setting key inserting unit 143 are performed at the start of the supply of the operating power to the pachinko machine 10, the setting value updating process is executed, and the setting value updating process ends. Input/output confirmation processing is executed later. For this reason, the manager of the game hall continuously performs an operation to update the setting value, confirms the operation of the special electric prize winning device 32 and the general electric accessory 34a, and confirms the detection state of the game ball by the detection sensors 231a to 238a. can be done by

When the set value update process is executed, the input/output confirmation period is started by performing an operation for ending the set value update process. For this reason, compared with the configuration that requires an operation for starting the input/output confirmation period in addition to the operation for terminating the setting value update process, the operation confirmation of the special electric prize winning device 32 and the general electric accessory 34a, In addition, it is possible to simplify the processing configuration for confirming the detection state of game balls by the detection sensors 231a to 238a.

Next, "starting up process" in which "1" is set in the start-up processing flag of the main RAM 84, "game stop" in which "1" is set in the game stop flag of the main RAM 84, Timer interrupt processing (Fig. 249) is started in the "input/output confirmation period" or "game ready state" in which the value of the confirmation timer counter 523a of the main side RAM 84 is 1 or more and the input/output confirmation process is being executed. A description will be given of the processing that is executed when The "playable state" is a state in which neither the start-up process, the game stop, nor the input/output confirmation period exists.

FIG. 250 is an explanatory diagram for explaining the processing executed during the start-up processing, during the game stop, during the input/output confirmation period, and during the game ready state among the various processing set in the timer interrupt processing (FIG. 249). . As shown in FIG. 250, the timer interrupt processing includes power failure monitoring processing (step SG901), input/output confirmation processing (step SG904), invalidation processing for setting an invalidation period (step SG905), Various types of processing including processing for updating various counters and monitoring fraud (steps SG906 to SG909) and processing for progressing the game (steps SG911 to SG924) are set.

When timer interrupt processing is activated during startup processing, power failure monitoring processing (step SG901) and processing for updating various counters and fraud monitoring (steps SG906 to SG909) are executed. In addition, when the timer interrupt processing is started while the game is stopped, power failure monitoring processing (step SG901), invalidation period setting, updating of various counters, and processing for fraud monitoring (step SG905 to step SG909 ) are executed. Furthermore, when timer interrupt processing is started during the input/output confirmation period, power failure monitoring processing (step SG901) and input/output confirmation processing (step SG904) are executed. Further, when the timer interrupt process is started in the playable state, power failure monitoring process (step SG901), invalidation period setting, updating of various counters, and fraud monitoring process (step SG905 to step SG909 ) and a process for progressing the game (steps SG911 to SG924) are executed.

When the timer interrupt process is started during the input/output confirmation period, among the various processes set in the timer interrupt process, the invalidation period is set, various counters are updated, and fraud monitoring is performed (steps SG905 to Step SG909) and processing for progressing the game (step SG911 to step SG924) are not executed. By not executing the process for advancing the game, it is possible to prevent the game from proceeding during the input/output confirmation period. In addition, compared to the configuration in which the processing for setting the invalidation period, updating various counters, monitoring fraud, and processing for progressing the game are executed during the input/output confirmation period, the input/output confirmation period , the processing load on the main MPU 82 for executing timer interrupt processing can be reduced.

When timer interrupt processing is started during the input/output confirmation period, power failure monitoring processing (step SG901) is executed. As already explained, by executing the power failure process before the occurrence of a power failure is identified and the operation of the main MPU 82 is stopped, the power failure flag in the main RAM 84 can be set to "1", A checksum can be calculated and stored for the side RAM 84 . Further, as already explained, after the supply of operating power is started in a state in which the setting change operation is not performed, if the power failure flag is not set to "1" or the supply of operating power to the main MPU 82 is started If the checksum calculated later for the main RAM 84 does not match the checksum stored before the supply of operating power is stopped, an abnormality is reported. On the other hand, since the power failure monitoring process is executed even during the input/output confirmation period, the operation of the main MPU 82 will stop even if the occurrence of a power failure is identified during the input/output confirmation period. Power failure processing can be performed before. As a result, after the input/output confirmation period is interrupted due to the occurrence of a power failure, when the supply of operating power is started in a state in which the setting change operation is not performed, it is possible to prevent the abnormality notification from being executed. .

When the timer interrupt process is started, the power failure monitoring process (step SG901) is executed regardless of the situation in which the timer interrupt process is started. Therefore, when the occurrence of a power failure is specified, the power failure monitoring process (step SG901) is executed before the operation of the main MPU 82 stops regardless of the situation in which the occurrence of the power failure is specified. can do. As a result, the power failure flag of the main RAM 84 is set to "1" and the checksum calculated for the main RAM 84 is stored regardless of the situation in which the occurrence of the power failure is specified. , the operation of the main MPU 82 can be stopped. Therefore, even when the supply of operating power is resumed in a state in which the setting change operation is not performed, it is possible to prevent the abnormality notification from being executed due to the determination that the power failure flag is not set to "1". There is a possibility that the checksum for the main RAM 84 calculated after the supply of operating power to the main MPU 82 is resumed does not match the checksum stored before the supply of operating power is stopped, and an abnormality is reported. can be reduced.

When the timer interrupt process is activated, only a part of the multiple processes set in the timer interrupt process are executed in one process cycle of the timer interrupt process. All the processes set in the timer interrupt process are not executed in one process cycle. Of the various types of processing set for timer interrupt processing, only a combination of processing corresponding to the situation in which the timer interrupt processing is activated is executed, so that timer interrupt processing can be set for one processing cycle. It is possible to reduce the processing load of the main MPU 82 for executing the timer interrupt processing, compared to a configuration in which a situation in which all the processing currently in use may be executed.

Next, the monitoring delay period for special electric power and the monitoring delay period for ordinary electric power will be described.

As in the thirteenth embodiment, when the special electric prize winning device 32 that was open in the open/close execution mode is closed, a special electric monitoring delay period is set. The special electric monitoring delay period is a period in which the detection of game balls by the special electric detection sensor 234a provided in the special electric winning device 32 is treated as valid even after the special electric winning device 32 in the open state is closed. The special electric monitoring delay period is set as a period longer than or equal to the maximum period assumed as the period until the game ball that has won the special electric prize winning device 32 in the open state is detected by the special electric detection sensor 234a. is set to 1 second. By setting a special electric monitoring delay period at the end of the opening period of the special electric prize winning device 32 in the opening/closing execution mode, a game ball entering the special electric prize winning device 32 immediately before the end of the opening period is during the special electric supervisory delay period. When detected by the special electric detection sensor 234a, the detection of the game ball can be treated as valid.

A game ball that entered the special electric prize winning device 32 that was open in the opening/closing execution mode was detected by the special electric detection sensor 234a at a timing that did not correspond to either the opening period of the special electric prize winning device 32 or the special electric monitoring delay period. In this case, the game ball is not paid out based on the detection of the game ball, and the game ball is detected by the special electric detection sensor 234a during the period when the ball is not expected to enter the special electric prize winning device 32. A special light incoming ball error notification is executed based on what has been done. Since a period of 1 second is set as the special electric monitoring delay period, a game ball that enters the special electric winning apparatus 32 immediately before the end of the opening period of the special electric winning apparatus 32 in the opening/closing execution mode is delayed during the special electric monitoring delay period. Less chance of being detected later.

As in the thirteenth embodiment, when the second operating port 34, which has been in the open state, is in the closed state, the normal electric monitoring delay period is set. In the general electricity monitoring delay period, the detection of the game ball by the second operation opening detection sensor 236a provided in the second operation opening 34 is effective even after the second operation opening 34, which is in the open state, is closed. This period is treated as The general electricity monitoring delay period is set as a period longer than or equal to the maximum period assumed as the period until the game ball that has won the second operation opening 34 in the open state is detected by the second operation opening detection sensor 236a. Specifically, it is set to 1 second. By setting a normal electric monitoring delay period at the end of the opening period of the general electric role item 34a based on the electric role open winning, the game ball entering the second operation hole 34 immediately before the end of the open period is normal electric When detected by the second operation opening detection sensor 236a during the monitoring delay period, the detection of the game ball can be treated as valid.

Timing when the game ball entering the second operation port 34 during the open period of the general electric role 34a based on the electric role open winning does not fall under either the open period of the general electric role 34a or the general electric monitoring delay period. When detected by the second operation opening detection sensor 236a in the second operation opening detection sensor 236a, the payout of the game ball based on the detection of the game ball and the general electric propriety determination process are not performed, and the second operation opening 34 Normal electric ball ball error notification is executed based on the detection of the game ball in the second operation opening detection sensor 236a in the period in which the ball is not assumed. A period of 1 second is set as the general electric monitoring delay period, so that the game ball entering the second operation opening 34 immediately before the end of the opening period of the general electric role 34a based on the electric role open winning is Possibility of being detected after the general electricity monitoring delay period is reduced.

As shown in FIG. 245, the timer counter area 523 of the main RAM 84 is provided with a special electrical monitoring delay timer counter 523f and a general electrical monitoring delay timer counter 523g. The special electric monitoring delay timer counter 523f is a timer counter that enables the main side MPU 82 to grasp that it is the special electric monitoring delay period, and the general electric monitoring delay timer counter 523g is used in the ordinary electric monitoring delay period. It is a timer counter that enables the main side MPU 82 to grasp that there is. Each of the special electrical monitoring delay timer counter 523f and the general electrical monitoring delay timer counter 523g consists of 1 byte. The values of the special electric monitoring delay timer counter 523f and the general electric monitoring delay timer counter 523g are updated in the timer updating process (FIG. 254) described later. When the timer update process (FIG. 254) is executed in a state where the value of the special electric monitoring delay timer counter 523f is 1 or more, the value of the special electric monitoring delay timer counter 523f is decreased by 1 and the special electric monitoring delay timer When the timer update process (FIG. 254) is executed while the value of the counter 523f is "0", this state is maintained. Further, when the timer update process (FIG. 254) is executed in a state where the value of the general electric monitoring delay timer counter 523g is 1 or more, the value of the general electric monitoring delay timer counter 523g is decreased by 1 and When the timer update process (FIG. 254) is executed in a state where the value of the power monitoring delay timer counter 523g is "0", this state is maintained. The main MPU 82 recognizes that it is the special electric monitoring delay period based on the fact that the value of the special electric monitoring delay timer counter 523f is 1 or more, and when the value of the general electric monitoring delay timer counter 523g is 1 or more. Based on a certain thing, it is grasped that it is the monitoring delay period for general electric power.

Next, the special electric open processing executed by the main MPU 82 will be described with reference to FIG. 251 . As already described in the first embodiment, the special electric open process is executed in step S610 of the special electric power control process (FIG. 18).

First, a closing determination process is executed (step SH101). In the closing determination process, if the special electric winning confirmation flag 522d in the confirmation flag group 522 of the main side RAM 84 is set to "1", that is, if the winning to the special electric winning device 32 has occurred, the main side RAM 84 1 is subtracted from the value of the prize winning counter, and if the value of the prize winning counter after the subtraction of 1 is "0", it is determined that the condition for closing the special electric prize winning device 32 is met. The winning counter is a counter for specifying the remaining number of winning upper limit numbers in the main side MPU 82, as in the first embodiment. In addition, when no winning to the special electric winning device 32 occurs or when the value of the winning counter is not "0", a special figure side timer counter 523c provided in the timer counter area 523 of the main side RAM 84 (see FIG. 245 ) is "0", it is determined whether or not the open continuation period of the round game has elapsed. The special figure side timer counter 523c is a timer counter that enables the main side MPU 82 to grasp the remaining duration of the period set in the special figure special electric control process (FIG. 18). In step SH101, when the value of the special figure side timer counter 523c is "0", it is determined that the closing condition of the special electric prize winning device 32 is established.

If the condition for closing the special electric prize winning device 32 is satisfied (step SH102: YES), a closing setting process is executed (step SH103). In the closing setting process, the special electric prize winning device 32 is brought into a closed state by stopping the output of the drive signal to the driving section 32b for the special electric. After that, the special electric open state flag provided in the main side RAM 84 is cleared to "0" (step SH104). The special electric open state flag is a flag that enables the main side MPU 82 to grasp that it is an open period of the special electric winning device 32 in the opening/closing execution mode. By clearing the special electric open state flag to "0", it is possible for the main MPU 82 to grasp that the opening period of the special electric prize winning device 32 in the opening/closing execution mode has ended.

Thereafter, the numerical value information "250" corresponding to the special electric monitoring delay period (1 second) is set in the special electric monitoring delay timer counter 523f in the timer counter area 523 of the main side RAM 84 (step SH105). As a result, one second after the special electric prize winning device 32, which was in the open state, is closed, can be set as the special electric monitoring delay period, and the special electric detection sensor 234a detects the game ball during the special electric monitoring delay period. is detected, the detection of the game ball can be treated as valid.

Thereafter, 1 is subtracted from the value of the round counter in the main RAM 84 (step SH106), and ending branch processing is executed (step SH107). In the ending branch process, if the value of the round counter after subtracting 1 is 1 or more, the information of the interval period (specifically 3 seconds) is set to the special figure side timer counter 523c in the timer counter area 523 of the main side RAM84 After that, 1 is added to the value of the special figure special electric counter in the main side RAM84. As a result, the value of the special figure special electric counter becomes "5" corresponding to the special figure special electric closing process in step S611 of the special figure special electric control process (FIG. 18). On the other hand, if the value of the round counter after 1 subtraction is "0", the information of the ending period (specifically 5 seconds) is set to the special figure side timer counter 523c. Also, it transmits an ending command to the sound and light side MPU 93 . By receiving the ending command, the sound and light side MPU 93 causes the display light emitting section 64, the speaker section 65 and the pattern display device 41 to execute the ending effect of the opening/closing execution mode. After that, add 2 to the value of the special special electric counter. Thereby, the value of the special figure special electric counter becomes "6" corresponding to the special figure special electric end processing (step S612) of the special figure special electric control processing (FIG. 18).

Next, the general electric power control processing executed in the general electric power control processing in step SG918 of the timer interrupt processing (FIG. 249) will be described with reference to the flowchart of FIG. As already explained in the first embodiment, the general electric power control process is executed in step S310 of the general electric power control process (FIG. 15).

First, it is determined whether or not the general electricity open state flag provided in the main side RAM 84 is set to "1", thereby determining whether or not the second operation port 34 is in the open state (step SH201). . The general electric open state flag is a flag that enables the main side MPU 82 to grasp that it is an opening period of the second operating port 34 based on the electric open winning. In addition, when the output of the drive signal to the drive unit 34b for the general electric power is started in the normal electric power control processing (FIG. 15) during the normal electric power control process (step S309), the electric power open state flag is set to "1 ' is set, and also when the output of the drive signal to the drive unit 34b for the general electric power is started in step SH210, which will be described later, the general electric open state flag is set to "1" in step SH211. .

If "1" is set in the general open state flag (step SH201: YES), a closed determination process is executed (step SH202). In the closing determination process, when the second operation winning confirmation flag 522f in the confirmation flag group 522 of the main side RAM 84 is set to "1", that is, when the winning to the second operation opening 34 occurs, the main 1 is subtracted from the value of the general electric winning counter provided in the side RAM 84 . As in the first embodiment, the general electric prize counter indicates whether the number of game balls entering the second operating port 34 in the current electric open state has reached 10, which is the upper limit number of the general electric side. It is a counter for specifying whether or not at the main side MPU 82 . When the value of the electric winning prize counter after subtraction of 1 is "0", it is determined that the condition for closing the second operation port 34 is established. In addition, when the winning to the second operation port 34 has not occurred or when the value of the general electrical winning counter is not "0", the general drawing side timer counter 523d provided in the timer counter area 523 of the main side RAM 84 ( 245) is "0", it is determined whether or not the duration of one opening of the second operating port 34 has elapsed. The normal map side timer counter 523d is a timer counter that enables the main side MPU 82 to grasp the remaining duration of the period set in the normal map general power control process (FIG. 15). In step SH202, when the value of the normal chart side timer counter 523d is "0", it is determined that the closing condition of the second operation port 34 is established.

If the condition for closing the second operating port 34 is satisfied (step SH203: YES), a closing setting process is executed (step SH204). In the closing setting process, the output of the drive signal to the drive unit 34b for general electric power is stopped, thereby closing the second operation port 34. As shown in FIG. After that, the main-side RAM 84 is cleared to "0" for the main-side open state flag (step SH205).

Thereafter, numerical value information "250" corresponding to the general electric monitoring delay period (1 second) is set in the general electric monitoring delay timer counter 523g in the timer counter area 523 of the main side RAM 84 (step SH206). As a result, one second after the general electrical accessory 34a in the open state becomes the closed state can be set as the general electrical monitoring delay period, and the second operating port is detected during the general electrical monitoring delay period. When a game ball is detected by the sensor 236a, the detection of the game ball can be treated as valid.

Thereafter, end branch processing is executed (step SH207). In the end branch process, if the value of the general electric winning prize counter is "0", the value of the general electric general electric counter provided in the main side RAM 84 is cleared to "0" as the current general electric open state is completed. do. As a result, the process to be executed in the next process round of the normal pattern normal electric control process becomes the normal pattern fluctuation start process (step S307). When the value of the general electric prize winning counter is 1 or more, the value of the general electric open counter provided in the main side RAM 84 is subtracted by 1. As in the first embodiment, the general electrical open counter is a counter for specifying the number of times the general electrical accessory 34a of the second operating port 34 is opened in the current general electrical open state by the main side MPU 82. is. When the value of the general electric open counter after subtraction of 1 is "0", the value of the general electric open counter in the main side RAM 84 is cleared to "0" assuming that the current general electric open state has ended. As a result, the process to be executed in the next process round of the normal pattern normal electric control process becomes the normal pattern fluctuation start process (step S307). If the value of the general electric open counter after subtracting 1 is 1 or more, the information of the general electric side interval period (specifically, 2 seconds) is stored in the general electric side timer counter in the timer counter area 523 of the main side RAM 84. 523d. In this case, since the value of the general electric power counter is maintained, the processing to be executed in the next processing round of the general electric power control processing is maintained in the general electric control processing (Fig. 252).

When it is determined in the general electric control process that the general electric open state flag value in the main RAM 84 is "0" (step SH201: NO), the value of the general electric power side timer counter 523d in the timer counter area 523 of the main RAM 84 is "0", thereby determining whether or not the interval period on the common side has passed (step SH208). If the interval period of the common electric side has passed (step SH208: YES), the process of setting the open continuation period is executed (step SH209). In the open continuation period setting process, in the case of the low frequency support mode, information ("2500") corresponding to a long period (10 seconds) as the fluctuation period of the normal pattern is set in the normal pattern side timer counter 523d. In the case of the first high-frequency support mode or the second high-frequency support mode, information ("250") corresponding to a short period (1 second) as the variation period of the normal pattern is set in the normal pattern side timer counter 523d. After that, the second operation port 34 is opened by outputting the drive signal to the drive unit 34b for general electric power again (step SH210). After that, the main-side RAM 84 is set to "1" in the main-side open state flag (step SH211). In this case, since the value of the general electric power counter is maintained, the processing to be executed in the next processing round of the general electric power control processing is maintained in the general electric control processing (Fig. 252).

<Input/output confirmation processing>
Next, the program contents of the input/output confirmation process executed by the main MPU 82 will be described with reference to the explanatory diagram of FIG. As already explained, the input/output confirmation process is executed in step SG904 of the timer interrupt process (FIG. 249). As shown in FIG. 253, "1001" to "1006" are set as line numbers in this program. Program instructions are executed in ascending order of line number, except when a call or jump instruction is executed.

As shown in FIG. 253, "KAKUSYORI10" is set to the line number of "1001". This is not an instruction but data referred to when the developer of the pachinko machine 10 checks the program. Therefore, at line number "1001", the process proceeds to the next line number "1002" without executing any instruction.

At the line number "1002", the command "CALL TIMER" is set as in step SG914 of the timer interrupt processing (FIG. 249). As already explained, "TIMER" is a timer update process. At line number "1002", timer update processing is executed by a CALL instruction. Line number "1002" calls the same subroutine as the subroutine called at step SG914 of the timer interrupt processing (FIG. 249). When executing the timer update process, a subroutine program corresponding to the timer update process is executed. When executing the subroutine program, information for specifying the return address after execution of the timer update process is required. It is written to the stack area by a push instruction. Then, when the timer update process is completed, information for specifying the return address is read by a pop instruction, and the program indicated by the return address is returned to. In the timer update process, the numerical information of the seven types of timer counters 523a to 523g provided in the timer counter area 523 of the main RAM 84 is collectively updated. When the subroutine called at the line number "1002" ends, the process proceeds to the line number "1003" set next to the line number "1002" in the input/output confirmation processing (FIG. 253). Details of the timer update process will be described later.

At the line number "1003", the instruction "CALL SWREAD2" is set, as in step SG913 of the timer interrupt processing (FIG. 249). As already explained, "SWREAD2" is the ball entry detection process. At line number "1003", a ball entry detection process is executed by a CALL command. Line number "1003" calls the same subroutine as the subroutine called at step SG913 of the timer interrupt processing (FIG. 249). When executing the ball entry detection process, a subroutine program corresponding to the ball entry detection process is executed. When executing the subroutine program, the return address after execution of the ball entry detection process is specified. information is written to the stack area by a push instruction. Then, when the entering ball detection process is completed, information for specifying the return address is read by the pop command, and the program indicated by the return address is returned to. In the ball entry detection process, signals received from the respective detection sensors 231a to 238a are read, and the general prize winning port 31, the special electric prize winning device 32, the first operating port 33, the second operating port 34, the out port 24a and the through gate A process for identifying whether or not a ball is entered into 35 is executed. When the subroutine called at the line number "1003" ends, the process proceeds to the line number "1004" set next to the line number "1003" in the input/output confirmation processing (FIG. 253). The details of the ball entry detection process will be described later.

The command "CALL COMSEND" is set at the line number "1004". "COMSEND" is an entry notification command transmission process. At line number "1004", an entering ball command transmission process is executed by a CALL instruction. When executing the entering-ball command sending process, a subroutine program corresponding to the entering-ball command sending process is executed. Information for specifying is written to the stack area by a push instruction. Then, when the entering-ball command transmission process is completed, information for specifying the return address is read by the pop command, and the program indicated by the return address is returned to. When the subroutine called at the line number "1004" ends, the process proceeds to the line number "1005" set next to the line number "1004" in the input/output confirmation processing (FIG. 253). The contents of the entering-ball notification command transmission process will be described later in detail.

A command "CALL DSKKNY" is set at the line number "1005". "DSKKNY" is an operation confirmation process. At line number "1005", an operation confirmation process is executed by a CALL instruction. When executing the operation confirmation process, a subroutine program corresponding to the operation confirmation process is executed. When executing the subroutine program, the return address after the operation confirmation process is executed is specified. information is written to the stack area by a push instruction. Then, when the operation confirmation process is completed, information for specifying the return address is read by the pop instruction, and the program indicated by the return address is returned to. When the subroutine called at the line number "1005" ends, the process proceeds to the line number "1006" set next to the line number "1005" in the input/output confirmation processing (FIG. 253). Details of the operation confirmation process will be described later.

A command "RET" is set at the line number "1006". As already explained, the input/output confirmation process is a subroutine called by the CALL instruction in step SG904 of the timer interrupt process (FIG. 249). The timer interrupt processing (FIG. 249) ends without executing the processing from SG905 to step SG924.

As already explained, when the timer interrupt process (FIG. 249) is started during the input/output confirmation period, the power failure monitoring process (step SG901) and the input/output confirmation process (step SG904) are executed, while the invalid The processing (steps SG905 to SG909) for setting the activation period, updating various counters, and monitoring fraud, and the processing (steps SG911 to SG924) for progressing the game are not executed. In this configuration, in line number "1002" and line number "1003" of the input/output confirmation process (Fig. 253), a subroutine corresponding to the timer update process called in the process for progressing the game, and the ball entry detection process. A corresponding subroutine is called. As a result, even during the input/output confirmation period, the timer update process and the entering ball detection process can be executed each time the timer interrupt process is activated.

In the input/output confirmation process, only a program for executing a part of the program for executing a plurality of processes included in the process for progressing the game is used. The processing load on the main side MPU 82 for executing the input/output confirmation process during the input/output confirmation period can be reduced compared to a configuration that uses the entire program for executing the process of .

Compared with the configuration in which the program for updating the timer counter in the input/output confirmation process is stored in the main ROM 83 as a separate program from the program for updating the timer counter in the process for progressing the game. As a result, the data capacity of the program stored in the main ROM 83 for updating the timer counter can be reduced. In addition, a program different from the program for confirming the detection status of the game ball that has entered the ball entry sections 24a, 31 to 34 and the detection status of the game ball that has passed through the through gate 35 in the processing for progressing the game. A program for confirming the detection status of a game ball that has entered the ball entering sections 24a, 31 to 34 and the detection status of a game ball that passes through the through gate 35 in the input/output confirmation process is stored in the main ROM 83. As compared with the existing configuration, it is possible to reduce the data capacity of the program stored in the main side ROM 83 in order to confirm the detection status of these game balls.

Next, before explaining the timer update process (FIG. 254) executed by the main MPU 82, the configuration of the timer counter area 523 will be explained.

As already explained, the main RAM 84 is provided with a timer counter area 523 (see FIG. 245) in which the timer counters 523a to 523g to be updated in the timer updating process (FIG. 254) are aggregated. And, as already explained, in the timer counter area 523, the confirmation timer counter 523a, the special figure side timer counter 523c, the general figure side timer counter 523d, the special electric monitoring delay timer counter 523f, and the general electric monitoring delay timer counter 523g is provided. As shown in FIG. 245, the timer counter area 523 is provided with a switching timer counter 523b and a post-confirmation invalidation timer counter 523e. Each of the confirmation timer counter 523a, the switching timer counter 523b, the special diagram side timer counter 523c and the general diagram side timer counter 523d consists of 2 bytes, and the post-confirmation invalidation timer counter 523e, the special train monitoring delay timer counter 523f and the general Each of the power monitoring delay timer counters 523g consists of 1 byte.

The switching timer counter 523b controls the timing of switching the special electric prize winning device 32 and the general electric role 34a from the open state to the closed state, and the switching of the special electric prize winning device 32 and the general electric role 34a from the closed state to the open state during the input/output confirmation period. It is a timer counter that enables the master side MPU 82 to grasp the switching timing. The post-confirmation invalidation timer counter 523e is a timer counter that enables the main MPU 82 to grasp the post-confirmation invalidation period set at the end of the input/output confirmation period.

The seven timer counters 523a to 523g provided in the timer counter area 523 are confirmation timer counter 523a → switching timer counter 523b → special figure side timer counter 523c → general figure side timer counter 523d → post-confirmation invalidation timer counter 523e → Continuous "0101H" to "0101H" to "0101H"-" 010BH” address range.

Next, the timer update processing executed by the main MPU 82 will be described with reference to the flowchart of FIG. As already explained, the timer update process is executed at the line number "1002" of the input/output confirmation process (Fig. 253) during the input/output confirmation period, and the timer interrupt process (Fig. 249) is executed in the playable state. is executed in step SG914.

In steps SH301 to SH305, the 2-byte timer counters 523a to 523d among the seven timer counters 523a to 523g provided in the timer counter area 523 are updated. First, the confirmation timer counter 523a in the timer counter area 523 of the main RAM 84 is set as the target timer counter to be updated (step SH301). At step SH301, "0101H", which is the leading address of the addresses ("0101H" to "0102H") corresponding to the confirmation timer counter 523a, is set as the address for specifying the target timer counter. The target timer counter is updated in the first updating process (step SH305) of the target timer counter, which will be described later.

After that, the processing of steps SH302 to SH305 is repeatedly executed until the 2-byte timer counters 523a to 523d of the seven timer counters 523a to 523g provided in the timer counter area 523 are completely updated. Specifically, first, it is determined whether or not the value of the target timer counter is "0" (step SH302), and if the value of the target timer counter is not "0" (step SH302: NO), 2 bytes Subtraction processing is executed (step SH303). In the 2-byte subtraction process, an operation of subtracting 1 from the value of the target timer counter is executed. On the other hand, if the value of the target timer counter is "0" (step SH302: YES), the 2-byte subtraction process is not executed. As a result, the value of the target timer counter can be updated in such a manner that the value of the target timer counter does not fall below "0".

After that, it is determined whether or not the current target timer counter is the general/universal diagram side timer counter 523d (step SH304). If a negative determination is made in step SH304, that is, if there are timer counters that have not yet been updated among the 2-byte timer counters 523a to 523d, the first updating process for the target timer counter is performed. Execute (step SH305). In the first updating process of the target timer counter, "2" is added to the address for specifying the target timer counter. Thereby, the target timer counter is updated in the order of confirmation timer counter 523a→switching timer counter 523b→special figure side timer counter 523c→general figure side timer counter 523d.

Thereafter, the process proceeds to step SH302, and the processes of steps SH302 to SH305 are repeatedly executed until an affirmative determination is made in step SH304. If an affirmative determination is made in step SH304, that is, if updating of the 2-byte timer counters 523a to 523d is completed, the process proceeds to step SH306.

At steps SH306 to SH311, one-byte timer counters 523e to 523g among the seven timer counters 523a to 523g provided in the timer counter area 523 are updated. First, by adding 2 to the address for specifying the target timer counter, the post-confirmation invalidation timer counter 523e in the timer counter area 523 of the main side RAM 84 is set as the target timer counter to be updated (step SH306). The target timer counter is updated in the second updating process (step SH311) of the target timer counter, which will be described later.

Thereafter, subtraction processing for 1 byte is executed (step SH307). In the 1-byte subtraction process, an operation of subtracting 1 from the value of the target timer counter is executed. Thereafter, it is determined whether or not the carry flag is set to "1" by executing the 1-byte subtraction process (step SH308). In the 1-byte subtraction process, when the most significant bit of the target timer counter (the 7th bit among the 0th to 7th bits) is borrowed, the carry flag is set to "1" and the target If the most significant bit of the timer counter is not borrowed, the value of the carry flag becomes "0". If the carry flag is set to "1" (step SH308: YES), the value of the target timer counter is cleared to "0" (step SH309). As a result, the value of the target timer counter can be updated in such a manner that the value of the target timer counter does not fall below "0".

After that, it is determined whether or not the current target timer counter is the general electric monitoring delay timer counter 523g (step SH310). If a negative determination is made in step SH310, that is, if timer counters that have not yet been updated remain among the 1-byte timer counters 523e to 523g, the second updating process for the target timer counter is performed. Execute (step SH311). In the second updating process of the target timer counter, "1" is added to the address for specifying the target timer counter. As a result, the target timer counters are updated in the order of post-confirmation invalidation timer counter 523e→special electric monitoring delay timer counter 523f→general electric monitoring delay timer counter 523g.

Thereafter, the process proceeds to step SH307, and the processes of steps SH307 to SH311 are repeatedly executed until an affirmative determination is made in step SH310. If an affirmative determination is made in step SH310, that is, if updating of the 1-byte timer counters 523e to 523g is completed, this timer updating process is terminated.

As described above, when the timer update process is executed in a state where the values of the timer counters 523a to 523g are 1 or more, the values of the timer counters 523a to 523g are decreased by 1, and the values of the timer counters 523a to 523g are increased. When the timer update process is executed in the state of "0", the state of the value of the timer counters 523a to 523g being "0" is maintained.

As already explained, when the RAM clearing process (step SG620 or step SG701) is executed after starting the supply of operating power to the pachinko machine 10, the input/output confirmation process (FIG. 253) is executed after the RAM clearing process is executed. is executed. In the RAM clearing process, after the timer counters 523a to 523g provided in the timer counter area 523 are cleared to "0", only numerical information (specifically, "2500") is set. When the subroutine corresponding to the timer update process is called in the input/output confirmation process and the timer update process is executed, the value of the confirmation timer counter 523a is decremented by 1, and the switching timer counter 523b and the special figure side timer counter 523c, the general map side timer counter 523d, the post-confirmation invalidation timer counter 523e, the special electric supervising delay timer counter 523f, and the general electric supervising delay timer counter 523g are maintained at "0". As a result, even if the subroutine corresponding to the timer update process is called even during the input/output confirmation period in which the process for advancing the game (steps SG911 to SG924) is not executed, the timer executed during the input/output period It is possible to prevent the timer counters 523e to 523g used in the process for progressing the game from being updated in the update process.

Next, the operation confirmation process executed by the main MPU 82 will be described with reference to the flowchart of FIG. As already explained, the operation confirmation process is executed at line number "1005" of the input/output confirmation process (FIG. 253). The operation confirmation process is repeatedly executed at a cycle of 4 milliseconds during the input/output confirmation period.

First, the lighting processing of the input/output confirmation display device 521 is executed (step SH401). In the lighting process of the input/output confirmation display device 521, a lighting signal is output for turning the input/output confirmation display device 521 into a lighting state. The lighting state of the input/output confirmation display device 521 ends when the state in which the lighting signal is not output continues for a predetermined period (for example, 20 milliseconds). A lighting signal is output each time the confirmation process (FIG. 255) is executed. As a result, the input/output confirmation display device 521 can be turned on during the input/output confirmation period. Then, based on the input/output confirmation display device 521 being lit, it is possible for the manager of the game hall to grasp that it is the input/output confirmation period.

After that, it is determined whether "1" is set in the input/output checking flag 524 (see FIG. 245) provided in the main RAM 84 (step SH402). The input/output confirmation flag 524 is a flag that enables the main MPU 82 to recognize that it is the input/output confirmation period. If a negative determination is made in step SH402, that is, if it is the first time the operation confirmation process (FIG. 255) is executed after the supply of operating power to the pachinko machine 10 is started, step SH403 ~At step SH407, a process for opening the special electric prize winning device 32 and the general electric accessory 34a is executed. Specifically, first, a special electric drive signal output process is executed (step SH403). In the special electric drive signal output process, a special electric drive unit 32b is driven and the special electric winning device 32 is opened by outputting a drive signal to the special electric drive unit 32b. After that, drive signal output processing for general electricity is executed (step SH404). In the drive signal output process for general electric, by outputting a drive signal to the drive unit 34b for general electric, the drive unit 34b for general electric is driven and the accessory 34a for general electric is opened. .

After that, "1" is set to the operation check opening flag 525 (see FIG. 245) provided in the main RAM 84 (step SH405). The operation check open flag 525 is a flag that allows the main side MPU 82 to grasp that the special electric prize winning device 32 and the general electric accessory 34a should be in the open state during the input/output confirmation period. Thereafter, "1" is set in the input/output checking flag 524 of the main RAM 84 (step SH406). Thereby, it is possible for the main MPU 82 to grasp that it is the input/output confirmation period. After that, the switching timer counter 523b is set (step SH407). The switching timer counter 523b setting process (step SH407) is performed when starting the open state of the special electric prize winning device 32 and the general electric role 34a during the input/output confirmation period, and when the special electric prize winning device 32 and the general electric role 34a are closed. Executed when starting a In the process of setting the switching timer counter 523b (step SH407), numerical information "500" corresponding to 2 seconds for continuing the open state or closed state of the special electric prize winning device 32 and the general electric utility 34a is set to the timer counter of the main side RAM 84. A switching timer counter 523b in area 523 is set.

If an affirmative determination is made in step SH402, that is, if the operation confirmation process (FIG. 255) has already been executed once or more during the input/output confirmation period, the value of the switching timer counter 523b in the main RAM 84 is set to " 0" (step SH408). If the value of the switching timer counter 523b is not "0" (step SH408: NO), that is, at the timing of switching the open state to the closed state for the special electric prize winning device 32 and the general electric accessory 34a, or at the timing to switch the closed state to the open state If not, it is determined whether or not "1" is set in the operation check opening flag 525 of the main RAM 84 (step SH409). If "1" is not set in the operation check open flag 525 (step SH409: NO), that is, if the special electric prize winning device 32 and the general electric accessory 34a are closed, the special electric driving unit 32b and Without outputting a drive signal to the drive unit 34b for general electric power, the operation confirmation process is terminated. As a result, the closed state of the special electric prize winning device 32 and the general electric accessory 34a is continued.

On the other hand, if "1" is set in the operation check open flag 525 (step SH409: YES), processing for continuing the open state of the special electric prize winning device 32 and the general electric accessory 34a (steps SH410 to Step SH411) is executed. Specifically, as in step SH403 described above, a drive signal output process for special electric trains is executed (step SH410), and as in step SH404 described above, a drive signal output process for general electric trains is executed (step SH411), this operation confirmation process is terminated.

The open state of the special electric prize winning device 32 ends when a state in which no driving signal is output for driving the special electric driving unit 32b continues for a predetermined time (for example, 20 milliseconds). At the same time, in the open state of the general electric accessory 34a, a state in which no drive signal is output for driving the general electric drive unit 34b continues for a predetermined time (for example, 20 milliseconds). exit if If "1" is set in the operation confirmation open flag 525 during the input/output confirmation period, the driving unit 32b for the special electric power and the driving unit 32b for the general electric power are activated each time the operation confirmation process (FIG. 255) is executed. A drive signal is output to the portion 34b. Thereby, the open state of the special electric prize winning device 32 and the general electric accessory 34a can be continued.

If an affirmative determination is made in step SH408, it is determined whether or not the operation check open flag 525 of the main RAM 84 is set to "1" (step SH412), and the operation check open flag 525 is set to " 1" is set (step SH412: YES), in steps SH413 to SH415 and step SH407, the special electric prize winning device 32 and the general electric accessory 34a are switched from the open state to the closed state. do.

Specifically, first, closing processing of the special electric winning device 32 is executed (step SH413). In the process of closing the special electric prize winning device 32, the special electric prize winning device 32 is brought into a closed state by stopping the output of the driving signal to the driving section 32b for the special electric prize. After that, the closing process of the universal electrical accessory 34a is executed (step SH414). In the closing process of the universal electrical accessory 34a, the general electrical accessory 34a is closed by stopping the output of the driving signal to the drive unit 34b for the general electrical. After that, the value of the operation check open flag 525 of the main RAM 84 is cleared to "0" (step SH415). Thereby, it is possible for the main side MPU 82 to grasp that the special electric prize winning device 32 and the general electric accessory 34a should not be in the open state during the input/output confirmation period. After that, the process advances to step SH407 to execute setting processing of the switching timer counter 523b. In the process of setting the switching timer counter 523b, as described above, the switching timer sets the numerical value information "500" corresponding to the time (specifically, two seconds) for continuing the closed state of the special electric prize winning device 32 and the general electric accessory 34a. Set the counter 523b.

On the other hand, when a negative determination is made in step SH412, the process proceeds to step SH403, and in steps SH403 to SH407, processing for switching the special electric prize winning device 32 and the general electric accessory 34a from the closed state to the open state is executed. do. The contents of the processing from step SH403 to step SH407 have already been explained. By outputting a drive signal to the special electric drive unit 32b in step SH403, the special electric prize winning device 32 can be opened, and in step SH404, a drive signal is sent to the general electric drive unit 34b. By outputting , the universal electrical accessory 34a can be brought into an open state. By setting "1" to the operation check opening flag 525 in step SH405, the main side MPU 82 is notified that the special electric prize winning device 32 and the general electric accessory 34a should be opened during the input/output confirmation period. can be comprehended. By setting the input/output checking flag 524 to "1" in step SH406, the main MPU 82 can grasp that it is the input/output checking period. By setting the numerical value information "500" to the switching timer counter 523b in step SH407, the open state of the special electric prize winning device 32 and the general electric accessory 34a can be continued for two seconds.

In this way, in the input/output confirmation period, the special electric prize winning device 32 and the general electric role 34a are open for 2 seconds, and the confirmation open state in which the special electric prize winning device 32 and the general electric role 34a are open for 2 seconds. A confirmation closed continuation state in which the closed state is maintained over a period of time is alternately repeated. The manager of the game hall can grasp that it is the input/output confirmation period based on the fact that the input/output confirmation display device 521 is in the lighting state. Then, by confirming the operation mode of the special electric prize winning device 32 and the general electric accessory 34a during the input/output confirmation period, whether the opening and closing operation of the special electric prize winning device 32 and the general electric accessory 34a is normally performed It is possible to grasp whether As a result, it is possible to reduce the possibility that the game will be played in a state in which the special electric prize winning device 32 and the general electric accessory 34a are not normally opened and closed.

In the game-enabled state in which the process for advancing the game (steps SG911 to SG924) is executed, the opening/closing operation of the special electric prize winning device 32 is performed regardless of the timing at which the opening/closing operation of the general electric accessory 34a is performed. In the configuration, during the input/output confirmation period, the opening/closing operation of the special electric prize winning device 32 is performed at the same timing as the opening/closing operation of the general electric accessory 34a. This simplifies the configuration for the main side MPU 82 to grasp the timing of switching the special electric prize winning device 32 and the general electric accessory 34a from the closed state to the open state and the timing of switching from the open state to the closed state. can.

Based on the value of one switching timer counter 523b, the timing for opening/closing operation of the special electric prize winning device 32 and the timing for opening/closing operation of the general electric accessory 34a are grasped. For this reason, a timer counter for grasping the timing for opening/closing operation of the general electric accessory 34a is provided as a separate timer counter from the timer counter provided for grasping the timing for opening/closing operation of the special electric prize winning device 32. Compared to the provided configuration, the configuration for enabling grasping of the timing of these opening/closing operations can be simplified.

The input/output confirmation period starts when the RAM clear process (step SG620) or the set value update process (FIG. 247) ends, and ends when 10 seconds have passed since the start of the input/output confirmation period. Although it is necessary for the manager of the game hall to execute the RAM clearing process (step SG620) or the setting value updating process (FIG. 247), the special electric prize winning device 32 and general electric accessory 34a are checked for operation, and the detection sensors 231a to 238a. If it is not necessary to confirm the detection state of the game ball by, by leaving the pachinko machine 10 as it is during the input/output confirmation period, it is possible to put it in a state where processing for progressing the game is executed after a predetermined time. . As a result, the management burden on the manager of the game hall can be reduced.

Next, the ball entry detection process executed by the main MPU 82 will be described with reference to the flowchart of FIG. As already explained, the ball entry detection process is executed at line number "1003" of the input/output confirmation process (Fig. 253) during the input/output confirmation period, and the timer interrupt process (Fig. 249 ) in step SG913.

First, various flag clearing processes are executed (step SH501). In the various flag clearing process, the first winning confirmation flag 522a, the second winning confirmation flag 522b, the third winning confirmation flag 522c, the special electric winning confirmation flag 522d, and the first operation winning confirmation flag provided in the confirmation flag group 522 of the main side RAM 84 The flag 522e, the second operation winning confirmation flag 522f, the out confirmation flag 522g and the gate winning confirmation flag 522h are cleared to "0". In the playable state, ball entry detection processing is executed in step SG913 of the timer interrupt processing (FIG. 249), and confirmation is made by the ball entry detection processing before the processing cycle of the timer interrupt processing ends. Based on the information set in the flag group 522, the payout output process (step SG921) is executed. Also, during the input/output confirmation period, the input/output confirmation process (FIG. 253) is performed at line number "1003" to detect the incoming ball. Based on the information set in the confirmation flag group 522 in the detection process, a later-described incoming ball notification command transmission process (line number "1004") is executed. Therefore, even if the confirmation flag is cleared to "0" each time the entering ball detection process is started, no problem occurs.

After that, when the rise from the LOW level to the HI level of the detection signal input from the first winning hole detection sensor 231a to the main side MPU 82 is detected (step SH502: YES), the first winning confirmation flag of the confirmation flag group 522 is detected. 522a is set to "1" (step SH503), and the value of the 10 prize ball counter provided in the main side RAM 84 is incremented by 1 (step SH504). In addition, when the rise from the LOW level to the HI level of the detection signal input from the second winning opening detection sensor 232a to the main MPU 82 is detected (step SH505: YES), the second winning confirmation flag of the confirmation flag group 522 is detected. 522b is set to "1" (step SH506), and 1 is added to the value of the 10 prize ball counter in the main side RAM 84 (step SH507). Furthermore, when the rise from the LOW level to the HI level of the detection signal input from the third winning hole detection sensor 233a to the main side MPU 82 is detected (step SH508: YES), the third winning confirmation of the confirmation flag group 522 The flag 522c is set to "1" (step SH509), and the value of the 10 prize ball counter in the main side RAM 84 is incremented by 1 (step SH510). As in the thirteenth embodiment, the 10 prize ball counter is a counter for the main side MPU 82 to specify the number of times the payout of 10 game balls should be executed. When the value of the 10 prize ball counter is 1 or more, the 10 prize ball command is output to the payout control device 77 in the payout output process of step SG921 in the timer interrupt process (Fig. 249), and the 10 prize ball command is output. When the command is output once, the value of the 10-ball counter is subtracted by 1. When the payout control device 77 receives the 10 prize ball command, it drives and controls the payout device 76 so that 10 game balls are paid out.

If a negative determination is made in step SH508, or if the process of step SH510 is carried out, the process proceeds to step SH511. In step SH511, it is determined whether or not the rise of the detection signal input from the first working opening detection sensor 235a to the main MPU 82 from the LOW level to the HI level has been detected. If (step SH511: YES), the first operation winning confirmation flag 522e is set to "1" (step SH512), and the value of the one-ball counter provided in the main RAM 84 is incremented by 1 (step SH513). ). The one prize ball counter is a counter for specifying the number of times one game ball should be paid out by the main side MPU 82 . When the value of the counter for one prize ball is 1 or more, the one prize ball command is output to the payout control device 77 in the payout output process of step SG921 in the timer interrupt process (Fig. 249), and the one prize ball command is output to the payout control device 77. When the command is output once, the value of the one prize ball counter is subtracted by one. When the payout control device 77 receives the one prize ball command, it drives and controls the payout device 76 so that one game ball is paid out.

When a negative determination is made in step SH511, or when the process of step SH513 is performed, the rising from the LOW level to the HI level of the detection signal input from the outlet detection sensor 237a to the main side MPU 82 is detected. (Step SH514), and if the rise of the detection signal is detected (Step SH514: YES), the out confirmation flag 522g of the confirmation flag group 522 is set to "1" (Step SH515). Further, when the detection signal input from the gate detection sensor 238a to the main MPU 82 rises from the LOW level to the HI level (step SH516: YES), the gate winning confirmation flag 522h of the confirmation flag group 522 is set to "1". ' is set (step SH517).

If a negative determination is made in step SH516, or if the process of step SH517 is carried out, an entering ball detection handling process is executed (step SH518). FIG. 257 is a flow chart showing an entering ball detection handling process.

In the incoming ball detection handling process, when the detection signal input from the special electric detection sensor 234a to the main side MPU 82 is detected to rise from the LOW level to the HI level (step SH601: YES), the special electric open state flag in the main side RAM 84 is detected. is set to "1" (step SH602). As already explained, the special electric open state flag is a flag that enables the main MPU 82 to grasp that it is the open period of the special electric winning device 32 in the opening/closing execution mode. If "1" is not set to the special electric open state flag (step SH602: NO), it is determined whether the value of the special electric monitoring delay timer counter 523f in the main RAM 84 is "1" or more ( step SH603).

If it is the opening period of the special electric prize winning device 32 in the opening/closing execution mode (step SH602: YES) or if it is the special electric monitoring delay period (step SH603: YES), 15 prize balls provided in the main side RAM 84 1 is added to the counter value (step SH604). The 15 prize ball counter is a counter for the main side MPU 82 to specify the number of times the payout of 15 game balls should be executed. When the value of the 15 prize ball counter is 1 or more, the 15 prize ball command is output to the payout control device 77 in the payout output process of step SG921 in the timer interrupt process (FIG. 249), and the 15 prize ball counter is output. When the command is output once, the value of the 15 prize ball counter is subtracted by 1. When the payout control device 77 receives the 15 prize ball command, it drives and controls the payout device 76 so that 15 game balls are paid out.

If a negative determination is made in step SH603, it is determined whether or not "1" is set in the input/output checking flag 524 of the main RAM 84 (step SH605). When the process of step SH604 is performed, or when an affirmative determination is made in step SH605, "1" is set to the special electric winning confirmation flag 522d in the confirmation flag group 522 of the main side RAM84 (step SH606). This enables the main side MPU 82 to grasp that the game ball is detected by the special electric detection sensor 234a during the opening period of the special electric winning device 32 in the opening/closing execution mode, the special electric monitoring delay period, or the input/output confirmation period. can be done.

If a negative determination is made in step SH605, it is determined whether or not the value of the post-confirmation invalidation timer counter 523e provided in the main RAM 84 is "1" or more (step SH607). If a negative determination is made in step SH607, that is, the special electric is detected in a situation that does not correspond to any of the opening period of the special electric prize winning device 32 in the opening and closing execution mode, the special electric monitoring delay period, the input/output confirmation period, and the post-confirmation invalidation period. When the game ball is detected by the sensor 234a, a special electric ball error command is transmitted to the sound and light side MPU 93 (step SH608). The special electric ball error command is issued when the game ball is detected by the special electric detection sensor 234a in neither the opening period of the special electric winning device 32, the special electric monitoring delay period, the input/output confirmation period, nor the post-confirmation invalidation period in the open/close execution mode. This is a command for making the sound and light side MPU 93 recognize that a detected special electric ball error has occurred. By receiving the special electric ball error command, the sound and light side MPU 93 causes the symbol display device 41, the display light emitting unit 64 and the speaker unit 65 to notify the special electric ball error. Specifically, the display light emitting unit 64 is caused to emit light in a manner corresponding to the occurrence of the special electric ball error, and the speaker unit 65 is caused to output a voice saying "Special electric ball error has occurred". Also, the symbol display device 41 is made to display a character image of "Special electric ball error occurred". The special electric ball error notification is maintained until the supply of operating power to the pachinko machine 10 is stopped, and is terminated when the supply of operating power to the pachinko machine 10 is stopped.

After that, the game stop flag of the main side RAM 84 is set to "1" (step SH609). As a result, even if the timer interrupt process (FIG. 249) is activated, the process (steps SG911 to SG924) for advancing the game can be brought into a state where it is not executed. After that, as in step SG626 of the main process (FIG. 246), an external output process at the time of abnormality is executed (step SH610). In the abnormal external output process, a process for externally outputting an abnormal signal to the management computer of the game hall is executed. In this case, the signal output of the abnormal signal is performed over a predetermined period (for example, 100 milliseconds).

In this way, the game ball is detected by the special electric detection sensor 234a in neither the opening period of the special electric prize winning device 32, the special electric monitoring delay period, the input/output confirmation period, nor the post-confirmation invalidation period in the opening/closing execution mode. In the case where a special electric ball error occurs and the processing for proceeding with the game is not executed, if the game ball is detected by the special electric detection sensor 234a during the post-confirmation invalidation period, the special electric Excluded from cases where ball entry errors occur. This prevents a special electric ball error from occurring when a game ball that enters the special electric winning device 32 immediately before the end of the input/output confirmation period is detected by the special electric detection sensor 234a during the post-confirmation invalidation period. can be prevented. Therefore, it is possible to prevent the occurrence of a special electric ball error caused by the game ball that has been handled by the special electric winning device 32 during the input/output confirmation period.

When a negative determination is made in step SH601, when the process of step SH606 is performed, or when an affirmative determination is made in step SH607, detection input from the second operation opening detection sensor 236a to the main side MPU 82 It is determined whether or not the rise of the signal from LOW level to HI level is detected (step SH611), and if the rise of the detection signal is detected (step SH611: YES), the main side RAM 84 is disconnected It is determined whether or not the state flag is set to "1" (step SH612). As already explained, the general electric open state flag is a flag that enables the main side MPU 82 to grasp that it is the opening period of the second operation port 34 based on the electric open winning. When a negative determination is made in step SH612, it is determined whether or not the value of the general electric monitoring delay timer counter 523g of the main side RAM 84 is "1" or more, that is, whether or not it is the general electric monitoring delay period. is determined (step SH613).

In the case of the opening period of the second operation port 34 based on the electrification open winning (step SH612: YES) or in the case of the general electric monitoring delay period (step SH613: YES), one prize ball in the main side RAM 84 1 is added to the counter value (step SH614). On the other hand, if it is neither the open period of the second operation port 34 based on the electoral open election nor the monitoring delay period for general electric power (step SH612: NO, step SH613: NO), the input/output of the main side RAM 84 is being confirmed. It is determined whether or not the flag 524 is set to "1" (step SH615).

When the process of step SH614 is performed, or when an affirmative determination is made in step SH615, "1" is set to the second operation winning confirmation flag 522f provided in the main side RAM 84 (step SH616). Thereby, it is possible for the main side MPU 82 to be able to grasp that the ball entering the second operation port 34 has been detected.

If a negative determination is made in step SH615, it is determined whether or not the value of the post-confirmation invalidation timer counter 523e in the timer counter area 523 of the main RAM 84 is 1 or more (step SH617). If the value of the activation timer counter 523e is 1 or more (step SH617: YES), that is, if it is the post-confirmation invalidation period, the processing of steps SH614, SH617, SH618, SH609 and SH610 is executed. Without doing so, the main ball-entering detection handling process is terminated. When the game ball entering the second operation opening 34 immediately before the end of the input/output confirmation period is detected by the second operation opening detection sensor 236a during the invalidation period after confirmation, the game ball is paid out. No processing is performed to set the second operation winning confirmation flag 522f to "1". Also, a normal light bulb error, which will be described later, does not occur.

If a negative determination is made in step SH617, that is, if none of the opening period of the second operation port 34 based on the electric power open winning, the general power monitoring delay period, the input/output confirmation period, and the post-confirmation invalidation period transmits an ordinary light bulb error command to the sound and light side MPU 93 (step SH618). The normal electric ball entry error command is the second operation opening in a situation that is neither the opening period of the second operation opening 34 based on the electrification opening winning, the general electric monitoring delay period, the input/output confirmation period, or the invalidation period after confirmation. This is a command for making the sound and light side MPU 93 recognize that a general electric ball entry error in which a game ball is detected by the detection sensor 236a has occurred. The sound and light side MPU 93 receives the ordinary electric ball error command, and causes the symbol display device 41, the display light emitting unit 64 and the speaker unit 65 to notify the ordinary electric ball ball error. Specifically, the display light emitting unit 64 is caused to emit light in a manner corresponding to the occurrence of the normal electric ball error, and the speaker unit 65 is caused to output a voice saying "general electric ball error". Also, the symbol display device 41 is made to display a character image of "general electric ball error". The normal ball ball error notification is maintained until the supply of operating power to the pachinko machine 10 is stopped, and is terminated when the supply of operating power to the pachinko machine 10 is stopped.

After that, the process proceeds to step SH609. As already explained, in step SH609, the game stop flag of the main RAM 84 is set to "1". As a result, even if the timer interrupt process (FIG. 249) is activated, the process (steps SG911 to SG924) for advancing the game can be brought into a state in which it is not executed. After that, as in step SG626 of the main process (FIG. 246), an external output process at the time of abnormality is executed (step SH610). In the abnormal external output process, a process for externally outputting an abnormal signal to the management computer of the game hall is executed. In this case, the signal output of the abnormal signal is performed over a predetermined period (for example, 100 milliseconds).

In this way, the second operating port detection sensor 236a detects the second operating port 34 in neither the open period of the second operating port 34 based on the electoral open election, the general power monitoring delay period, the input/output confirmation period, or the post-confirmation invalidation period. When a game ball is detected by the second operation opening detection sensor 236a during the post-confirmation invalidation period, the game ball is detected by the second operation opening detection sensor 236a in a configuration in which a normal ball entry error occurs and processing for progressing the game is not executed. If it is detected, it is excluded from the occurrence of a normal light bulb error. As a result, when a game ball entering the second operation opening 34 immediately before the end of the input/output confirmation period is detected by the second operation opening detection sensor 236a during the post-confirmation invalidation period, a normal electric ball entry error occurs. You can prevent it from happening. It is possible to prevent the normal electric ball entry error from occurring due to the game ball which is maintained in the second operation port 34 during the input/output confirmation period.

Next, the entering-ball notification command transmission process executed by the main MPU 82 will be described with reference to the flowchart of FIG. As already explained, the incoming ball notification command transmission process is executed at line number "1004" of the input/output confirmation process (FIG. 253). The entering-ball notification command transmission process is executed during the input/output confirmation period, but is not executed during the playable state.

When the first winning confirmation flag 522a in the confirmation flag group 522 of the main side RAM 84 is set to "1" (step SH701: YES), a common ball entry notification command is transmitted to the sound and light side MPU 93 (step SH702). ). The common ball entry notification command is to output from the speaker unit 65 a common ball entry notification sound for notifying that a game ball that has entered the general winning opening 31 or the first operation opening 33 has been detected during the input/output confirmation period. is a command for causing the sound and light side MPU 93 to recognize the . The common entry notification command is transmitted at steps SH702, SH704, SH706 and SH710. When the sound and light side MPU 93 receives the common ball entry notification command, it reads out the common ball entry notification sound table from the sound and light side ROM 94 and notifies the common entry ball notification sound for 0.6 seconds according to the read common ball entry notification sound table. Sound output control of the speaker unit 65 is executed so that sound is output.

A ball entry notification sound that is output when a ball enters the general winning holes 31 provided on the game board 24, and an input ball that is output when a ball enters the first operation hole 33. Since the ball notification sound is shared, the data capacity of the ball entry notification sound table stored in the sound and light side ROM 94 is suppressed, and the number of types of ball entry notification sounds becomes too large. is prevented.

When the second winning confirmation flag 522b in the confirmation flag group 522 is set to "1" (step SH703: YES), a common ball entry notification command is transmitted to the sound and light side MPU 93 (step SH704). As a result, the second ball entry notification sound can be output from the speaker unit 65 for 0.6 seconds. Also, when the third winning confirmation flag 522c in the confirmation flag group 522 is set to "1" (step SH705: YES), a common ball entry notification command is transmitted to the sound and light side MPU 93 (step SH706). As a result, the third ball entry notification sound can be output from the speaker unit 65 for 0.6 seconds.

If the special electric winning confirmation flag 522d in the confirmation flag group 522 is set to "1" (step SH707: YES), a special electric winning ball notification command is transmitted to the sound and light side MPU 93 (step SH708). The special electric incoming ball notification command indicates that a special electric incoming ball notification sound should be output from the speaker unit 65 to notify that a game ball that has entered the special electric winning device 32 has been detected by the special electric detection sensor 234a during the input/output confirmation period. This is a command for making the sound and light side MPU 93 recognize it. When the sound and light side MPU 93 receives the special electric landing ball notification command, it reads out the special electric landing ball notification sound table from the sound and light side ROM 94, and notifies the special electric landing ball notification sound for 0.6 seconds according to the read special electric landing ball notification sound table. Sound output control of the speaker unit 65 is executed so that sound is output. The manager of the game hall maintains the game ball in the special electric prize winning device 32 which is performing the opening and closing operation during the input/output confirmation period, and confirms whether or not the special electric ball notification sound is output. It is possible to grasp whether or not the detection of the game ball entering the device 32 is normally performed.

When "1" is set to the first operation winning confirmation flag 522e in the confirmation flag group 522 (step SH709: YES), a common ball entry notification command is transmitted to the sound and light side MPU 93 (step SH710). As a result, the common ball entry notification sound can be output from the speaker unit 65 for 0.6 seconds.

When the second operation winning confirmation flag 522f in the confirmation flag group 522 is set to "1" (step SH711: YES), the second operation incoming ball notification command is transmitted to the sound and light side MPU 93 (step SH712). . The second operation ball entry notification command is a second operation entry ball notification sound that notifies that the game ball entering the second operation opening 34 has been detected by the second operation opening detection sensor 236a during the input/output confirmation period. This is a command for making the sound and light side MPU 93 recognize that it should be output from the unit 65 . When the sound and light side MPU 93 receives the second operation entrance ball notification command, it reads out the second operation entrance ball notification sound table from the sound and light side ROM 94, and in 0.6 seconds according to the read second operation entrance ball notification sound table. The sound output control of the speaker unit 65 is executed so that the second operation ball entry notification sound is output over the entire period. The manager of the game hall puts a game ball in the second operation port 34, which is switched between the open state and the closed state by the opening and closing operation of the general electric accessory 34a during the input/output confirmation period, and enters the second operation. By confirming whether or not the ball notification sound is output, it is possible to grasp whether or not the game ball entered into the second operation opening 34 is normally detected.

When the out confirmation flag 522g in the confirmation flag group 522 is set to "1" (step SH713: YES), an out notification command is transmitted to the sound and light side MPU 93 (step SH714). The out notification command is a sound and light command to output from the speaker unit 65 an out ball notification sound that notifies that a game ball that has entered the out port 24a has been detected by the out port detection sensor 237a during the input/output confirmation period. This is a command for the side MPU 93 to recognize. When the sound and light side MPU 93 receives the out-ball notification command, it reads out the out-ball entry notification sound table from the sound and light side ROM 94, and performs the out-ball notification for 0.6 seconds according to the read out-ball entry notification sound table. Sound output control of the speaker unit 65 is executed so that sound is output.

When the gate winning confirmation flag 522h in the confirmation flag group 522 is set to "1" (step SH715: YES), a gate entry notification command is transmitted to the sound and light side MPU 93 (step SH716). The gate entry notification command is a sound and light command to output a gate entry notification sound from the speaker unit 65 to notify that a game ball passing through the through gate 35 has been detected by the gate detection sensor 238a during the input/output confirmation period. This is a command for the side MPU 93 to recognize. When the sound and light side MPU 93 receives the gate entry notification command, it reads the gate entry notification sound table from the sound and light side ROM 94, and performs the gate entry notification for 0.6 seconds according to the read gate entry notification sound table. Sound output control of the speaker unit 65 is executed so that sound is output.

The sound/light-side MPU 93 issues a common entry ball notification command while outputting any one of the common entry ball notification sound, the special electric entry ball notification sound, the second operation entry ball notification sound, the out ball entry notification sound, and the gate entry ball notification sound. , a special electric ball entry notification command, a second operation entry notification command, an out-ball entry notification command, or a gate entry notification command, an entry notification corresponding to these entry notification commands in the order in which they are received. Sound output control of the speaker section 65 is executed so that sound is output from the speaker section 65 .

After transmitting the gate entry notification command in step SH716, the value of the confirmation timer counter 523a in the timer counter area 523 of the main side RAM 84 is cleared to "0" (step SH717). As a result, in the next timer interrupt process (FIG. 249), a negative determination is made in step SG903, and the processes after step SG905 are executed. Although details will be described later, when the invalidation process (step SG905) is executed first after the value of the confirmation timer counter 523a is cleared to "0" in step SH717, the special electric prize winning device 32 and the general electric role The processing for closing the object 34a is executed, and the input/output confirmation period ends. For this reason, even if the input/output confirmation period ends before the elapsed time from the start of the input/output confirmation period reaches 10 seconds, after the input/output confirmation period ends, can be closed.

In the timer interrupt processing (FIG. 249), input/output confirmation processing is performed under the conditions that the start-up processing flag in the main RAM 84 is not set to "1" and the value of the confirmation timer counter 523a is 1 or more. In the configuration in which the process (step SG904) is executed, when the entry into the through gate 35 is detected during the input/output confirmation period, the ball entry command transmission process (FIG. 258) is executed to end the input/output confirmation period. ) is only the process of clearing the confirmation timer counter 523a to "0". This makes it possible to simplify the processing configuration for ending the input/output confirmation period in the middle.

As described above, during the input/output confirmation period, when a game ball entering the general winning opening 31, the special electric winning device 32, the first operating opening 33, the second operating opening 34, or the out opening 24a is detected, the speaker A ball entry notification sound is output from the unit 65 . Also, when a game ball passing through the through gate 35 is detected during the input/output confirmation period, a ball entry notification sound is output. The manager of the game hall checks that the ball entry sections 24a, 31 to 34 and the through gate 35 are put into the ball entry sections 24a, 31 to 34 and the through gate 35, and that the ball entry notification sound is output. ~ 34 or the detection sensor 231a ~ 238a corresponding to the through gate 35 can be grasped that the detection of the game ball is normally performed, It can be ascertained that no disconnection has occurred in the signal line electrically connecting the corresponding detection sensors 231a to 238a and the main side MPU . In addition, the manager of the game hall checks the ball entry sections 24a, 31 to 34 or the through gate 35 and discovers that the ball entry notification sound is not output, thereby 31 to 34 or the detection sensors 231a to 238a corresponding to the through gate 35 can be grasped that the detection of the game ball is not normally performed, and the ball entering portion 24a, 31 to 34 or through It is possible to grasp the possibility that the signal line electrically connecting the detection sensors 231a to 238a corresponding to the gate 35 and the main side MPU 82 is broken.

The input/output confirmation period ends when 10 seconds have passed since the start of the input/output confirmation period, or when the game ball entering the through gate 35 is detected by the gate detection sensor 238a. The manager of the game hall completes the input/output confirmation period without waiting for the expiration of the input/output confirmation period by entering the game ball into the through gate 35 in the middle of the input/output confirmation period set to 10 seconds. can be terminated. As a result, even when the RAM clearing process (step SG620 or step SG701) is executed, it is possible to shorten the period from the start of supply of operating power to the pachinko machine 10 to the state in which the game can proceed. can do.

As shown in FIG. 243, on the game board 24, the through gate 35 is located upstream of the general prize winning port 31, the special electric prize winning device 32, the first operating port 33, the second operating port 34 and the out port 24a in the downstream direction of the game ball. placed on the side. Therefore, although there is a possibility that the game ball entering the through gate 35 enters the other ball entering portions 24a, 31 to 34, the general winning port 31, the special electric winning device 32, the first operation port 33, A game ball entered into the second operation port 34 or the out port 24a will not enter the through gate 35.例文帳に追加As a method of ending the input/output confirmation period before the input/output confirmation period expires, a game ball is inserted into a through gate 35 arranged upstream of the other ball entrance portions 24a, 31 to 34 in the flow direction of the game ball. By setting a maintenance method, it is prevented that the input/output confirmation period (10 seconds) ends at a timing unintended by the manager of the game hall before the expiration of the input/output confirmation period. .

Next, the invalidation process executed by the main MPU 82 will be described with reference to the flowchart of FIG. 259(a). As already explained, the invalidation process is executed in step SG905 of the timer interrupt process (FIG. 249) when the value of the confirmation timer counter 523a in the timer counter area 523 of the main RAM 84 is "0". be.

First, it is determined whether or not the input/output checking flag 524 of the main RAM 84 is set to "1" (step SH801). If the input/output checking flag 524 is not set to "1" (step SH801: If NO), the invalidation process is terminated. In step SH801, when the RAM clearing process (step SG620 or step SG701) is not executed after the supply of operating power to the pachinko machine 10 is started, or the value of the confirmation timer counter 523a is "0" during the input/output confirmation period. After that, if the processing of steps SH802 to SH810 in the invalidation processing (FIG. 259(a)) has already been executed, a negative determination is made. On the other hand, if the input/output confirmation flag 524 is set to "1" (step SH801: YES), that is, after the value of the confirmation timer counter 523a becomes "0" during the input/output confirmation period, If it is the time to execute the invalidation process (FIG. 259(a)), the processes of steps SH802 to SH810 are executed.

At steps SH802 to SH804, the same processes as steps SH413 to SH415 of the operation confirmation process (FIG. 255) already described are executed. Specifically, by executing closing processing of the special electric prize winning device 32, the output of the drive signal to the drive unit 32b for the special electric is stopped (step SH802). As a result, the special electric prize winning device 32 can be closed. After that, the output of the driving signal to the drive unit 34b for general electric use is stopped by executing the closing process of the general electric accessory 34a (step SH803). As a result, the general electrical accessory 34a can be brought into a closed state. After that, the operation check open flag 525 of the main RAM 84 is cleared to "0" (step SH804).

Thus, when the invalidation process (FIG. 259 (a)) is executed first after the value of the confirmation timer counter 523a becomes "0" in the input/output confirmation period, the special electric winning device 32 and The general electrical accessory 34a is in a closed state. As a result, after the end of the input/output confirmation period, even if the input/output confirmation period ends before 10 seconds have elapsed since the start of the input/output confirmation period, the special electric prize winning device 32 and the general electric role Object 34a may be in a closed state.

After that, the switching timer counter 523b in the timer counter area 523 is cleared to "0" (step SH805). Thereafter, the input/output checking flag 524 is cleared to "0" (step SH806). This enables the main MPU 82 to grasp that the input/output confirmation period has ended. After that, the input/output confirmation display device 521 is extinguished (step SH807). In the process of turning off the input/output confirmation display device 521, the output of the lighting signal to the input/output confirmation display device 521 is stopped so that the input/output confirmation display device 521 is turned off. As a result, the manager of the game hall can grasp that the input/output confirmation period has ended based on the fact that the input/output confirmation display device 521 has been turned off.

Thereafter, similar to step SH501 of the entering ball detection process (FIG. 256) already described, various flag clearing processes are executed (step SH808). In the various flag clearing process, the first winning confirmation flag 522a, the second winning confirmation flag 522b, the third winning confirmation flag 522c, the special electric winning confirmation flag 525d, the first operation winning confirmation flag 522e, the third The 2-operation winning confirmation flag 522f, the out confirmation flag 522g and the gate winning confirmation flag 522h are cleared to "0". By clearing the first winning confirmation flag 522a, the second winning confirmation flag 522b, and the third winning confirmation flag 522c to "0", based on the game ball entering the general winning opening 31 during the input/output confirmation period It is possible to prevent the game balls from being put out. By clearing the special electric prize winning flag 525d to "0", it is possible to prevent the game ball from being paid out based on the game ball entering the special electric prize winning device 32 during the input/output confirmation period. By clearing the gate winning confirmation flag 522h to "0", the game ball enters the through gate 35 during the input/output confirmation period. can be prevented from occurring. By clearing the first operation winning confirmation flag 522e and the second operation winning confirmation flag 522f to "0", it is confirmed that the game ball entered the first operation opening 33 or the second operation opening 34 during the input/output confirmation period. Based on this, it is possible to prevent the success/failure determination processing from being performed and the game ball from being paid out.

After that, the processing for clearing the winning ball counter is executed (step SH809). In the prize ball counter clear processing, the values of the 1 prize ball counter, the 10 prize ball counter, and the 15 prize ball counter in the main RAM 84 are cleared to "0". As a result, game balls are paid out based on the entry of game balls into the general winning hole 31, the special electric winning device 32, the first operating hole 33, the second operating hole 34, and the through gate 35 during the input/output confirmation period. You can prevent it from happening.

After that, the processing for setting the post-confirmation invalidation timer counter 523e is executed (step SH810). In the processing for setting the post-confirmation invalidation timer counter 523e, numerical information "250" corresponding to the post-confirmation invalidation period (specifically, 1 second) is stored in the timer counter area 523 of the main RAM 84. 523e. As a result, one second from the end of the input/output confirmation period can be set as the post-confirmation invalidation period.

Next, the post-confirmation invalidation period will be described. Figure 259 (b) is an explanatory diagram for explaining the post-confirmation invalidation period, the fluctuation display period of the special figure display units 37a and 37b, and the fluctuation period of the normal figure.

As already explained, the input/output confirmation process (FIG. 253) is a process executed when the RAM clear process (step SG620 or step SG701) is executed. When the RAM clear processing is executed, it becomes a normal game state which is a low probability mode and a low frequency support mode, and in the first special figure reservation area 111 and the second special figure reservation area 112 (FIG. 7) of the main side RAM 84 The number of pieces of pending information held in storage becomes "0", and the number of pieces of pending information stored in the normal drawing holding area 84c (FIG. 7) of the main side RAM 84 becomes "0". Further, as already explained, when the input/output confirmation process is executed, even after the supply of operating power to the pachinko machine 10 is started, the game is continued until the input/output confirmation period ends. is not executed. For this reason, when the input/output confirmation period has ended, it is a normal game state, and the reservation information retained and stored in the first special figure reservation area 111, the second special figure reservation area 112 and the general figure reservation area 84c The game is started when the number is "0".

As already described in the first embodiment, in the process of specifying the variable display period executed in step S815 of the special figure variation start process (FIG. 20), when it is in the normal game state and in the reach high frequency state , the table group for high reach frequency is referred to. Then, when a big hit result occurs in the current game round, by collating the numerical information of the fluctuation type counter CS at that time against the table corresponding to the reach in the table group for the high frequency of the reach, the reach display mode is displayed. Reads the information of the variable display period of Further, when the game is in the normal game state and not in the reach high frequency state, a table group for low frequency support is referred to. Then, when a jackpot result occurs in the current game turn, the numerical value information of the variation type counter CS at that time is collated with the table corresponding to the reach in the table group for supporting the hand frequency, thereby displaying the reach display mode. Reads the information of the variable display period of Reach correspondence tables in the table group for high frequency reach and reach correspondence tables in the table group for low frequency support have a period of 15 seconds, a period of 18 seconds and a period of 20 seconds as the variable display period of the reach display mode is set. As shown in FIG. 259(b), the shortest fluctuation display period of the reach display mode of the special figure display portions 37a and 37b in the normal game state is 15 seconds. The post-confirmation invalidation period is set to a period (specifically, one second) shorter than the shortest variable display period of the reach display mode. As a result, in a configuration in which the post-confirmation invalidation period is set at the end of the input/output confirmation period, the game ball enters the first operating hole 33 immediately after the end of the input/output confirmation period to generate a jackpot result, and the jackpot result is generated. When the game ball wins the special electric prize winning device 32 immediately after the start of the opening/closing execution mode corresponding to the result, the winning of the game ball is treated as valid, and the payout of the game ball is performed based on the winning of the game ball. can be done.

The post-confirmation invalidation period is set to 1 second, like the special electric monitoring delay period. The period of 1 second is, as already described, a period longer than or equal to the maximum period assumed as a period until the game ball entering the special electric prize winning device 32 in the open state is detected by the special electric detection sensor 234a. Further, as already explained, when the input/output confirmation period ends, the processing for closing the special electric prize winning device 32 is executed even if the input/output confirmation period ends in the middle. By setting a period of 1 second as a post-confirmation invalidation period at the end of the input/output confirmation period, it is confirmed that the special electric detection sensor 234a is in a state in which the game ball is normally detected during the input/output confirmation period. Therefore, the possibility that the game ball groomed by the special electric prize winning device 32 will be detected by the special electric detection sensor 234a after the post-confirmation invalidation period ends is reduced.

As already described in the first embodiment, when the normal pattern suitability determination process is executed, the variable display of the pattern is started in the normal pattern display section 38a. In this case, as the fluctuation period of the general pattern, which is the duration of the fluctuation display times in which the pattern is displayed in the general pattern display unit 38a, a long period (10 seconds) is set so that the period is relatively long or short. and a short period (1 second). As shown in Figure 259 (b), the fluctuation period of the general pattern in the low frequency support mode is 10 seconds, and the invalidation period after confirmation is a period shorter than the fluctuation period of the general pattern (specifically 1 second) is set to As a result, in the configuration in which the post-confirmation invalidation period is set at the end of the input/output confirmation period, the game ball enters the through gate 35 immediately after the end of the post-confirmation invalidation period, and the general electric role 34a is activated. When an open winning occurs and a game ball wins the second operating port 34 immediately after the opening period of the second operating port 34 based on the electric open winning is started, the winning of the game ball is considered valid. Based on the winning of the game ball, the winning judgment process and the game ball payout can be performed.

The post-confirmation invalidation period is set to 1 second, similar to the general power monitoring delay period. The period of 1 second, as already explained, is longer than the longest period assumed as the period until the game ball entering the second working opening 34 in the open state is detected by the second working opening detection sensor 236a. period. Further, as already explained, when the input/output confirmation period ends, the processing for closing the general electrical accessory 34a is executed even if the input/output confirmation period ends in the middle. By setting a period of 1 second as a post-confirmation invalidation period at the end of the input/output confirmation period, the game ball is normally detected by the second operation opening detection sensor 236a during the input/output confirmation period. Possibility that the game ball put into the second operation opening 34 to confirm is detected by the second operation opening detection sensor 236a after the post-confirmation invalidation period ends is reduced.

Next, how the tokuden ball error notification is executed will be described with reference to the time chart of FIG. Fig. 260(a) shows the execution period of special telephony error notification, Fig. 260(b) shows the invalidation period after confirmation, Fig. 260(c) shows the input/output confirmation period, Fig. 260(d) Shows the period when the special electric prize winning device 32 is in the open state, FIG. Shows the timing of the ball.

First, the case where the special telephone incoming ball error notification is executed will be described.

As shown in FIGS. 260(b) and 260(c), the timing of t1 is neither the post-confirmation invalidation period nor the input/output confirmation period. Also, although illustration is omitted, the timing of t1 is neither the opening period of the special electric prize winning device 32 nor the special electric monitoring delay period in the opening/closing execution mode. As shown in FIG. 260(d), the special electric winning device 32 is closed at the timing t1. At the timing of t1, when a game ball is detected by the special electric detection sensor 234a as shown in FIG. 260(e), a special electric ball error occurs, and a special electric ball error occurs as shown in FIG. Notification is performed.

In this way, the game ball is detected by the special electric detection sensor 234a in neither the opening period of the special electric winning device 32, the special electric monitoring delay period, the input/output confirmation period, nor the post-confirmation invalidation period in the opening/closing execution mode. Then, a special electric ball error is generated and a special electric ball error notification is executed. As a result, a fraudulent act of entering a game ball into the special electric prize winning device 32 in a situation where the occurrence of a ball entering the special electric prize winning device 32 is not assumed at the design stage, or a game in which a ball enters the special electric prize winning device 32 in such a situation When a fraudulent act of illegally manipulating the signal transmitted from the special electric detection sensor 234a to the main side MPU 82 as if the ball was detected is performed, the manager of the game hall can easily discover the fraudulent act. can.

Next, the case where the game ball is detected by the special electric detection sensor 234a during the post-confirmation invalidation period will be described.

As shown in FIGS. 260(c) and 260(d), the timing of t2 is the timing when the special electric prize winning device 32 is in the open state during the input/output confirmation period. At the timing of t2, the game ball enters the special electric winning device 32 as shown in FIG. 260(f). After that, at the timing of t3, the open state of the special electric prize winning device 32 ends as shown in FIG. 260(d), and the input/output confirmation period ends as shown in FIG. 260(c). Then, as shown in FIG. 260(b), the post-confirmation invalidation period is started. After that, at the timing of t4, the game ball is detected by the special electric detection sensor 234a as shown in FIG. 260(e). Since the timing t4 is the post-confirmation invalidation period as shown in FIG. 260(b), the special electric ball error notification is not executed as shown in FIG. 260(a).

In this way, by setting the post-confirmation invalidation period at the end of the input/output confirmation period, the game ball entering the special electric prize winning device 32 immediately before the end of the input/output confirmation period is confirmed during the post-confirmation invalidation period. When the special electric ball is detected by the special electric detection sensor 234a, it is possible to prevent the special electric ball error from occurring based on the detection of the game ball. Also, it is possible to prevent the game ball from being put out based on the detection of the game ball.

Next, the relationship between the timing at which a game ball entering the special electric winning device 32 or the second operation opening 34 is detected and the process executed based on the detection of the game ball will be described. FIG. 261(a) is an explanatory diagram for explaining the relationship between the timing at which a game ball that has landed in the special electric winning device 32 is detected, and the processing that is executed based on the detection of the game ball. 261(b) is an explanatory diagram for explaining the relationship between the timing at which the game ball entering the second operating hole 34 is detected and the processing executed based on the detection of the game ball. is.

As shown in FIG. 261(a), when a game ball is detected by the special electric detection sensor 234a during the opening period of the special electric winning device 32 in the opening/closing execution mode or during the special electric monitoring delay period, the game ball is 15 game balls are put out based on the detection. When a game ball is detected by the special electric detection sensor 234a during the input/output confirmation period, a special electric incoming ball notification sound is output without paying out the game ball. When the game ball is detected by the special electric detection sensor 234a during the post-confirmation invalidation period, neither the payout of the game ball nor the special electric incoming ball notification sound is output. If the game ball is detected by the special electric detection sensor 234a in a situation other than the opening period of the special electric winning device 32 in the opening and closing execution mode, the special electric monitoring delay period, the input/output confirmation period, and the post-confirmation invalidation period, the special electric A ball-entering error occurs, and the process for advancing the game is not executed, and special electric ball-entering error notification is executed.

In a configuration in which a special electric ball entering error occurs when a game ball is detected by the special electric detecting sensor 234a in a situation where the occurrence of a ball entering the special electric winning device 32 is not assumed at the design stage, the input/output confirmation period At the time of termination, a post-confirmation invalidation period that is not subject to the special telephone incoming error is set. Therefore, when a game ball that enters the special electric prize winning device 32 immediately before the end of the input/output confirmation period is detected by the special electric detection sensor 234a during the post-confirmation invalidation period, a special electric ball error occurs. can be prevented. As a result, it is possible to prevent an unnecessary special electric ball error from occurring immediately after the end of the input/output confirmation period.

Even if a game ball is detected by the special electric detection sensor 234a during the invalidation period after confirmation, the game ball is not paid out based on the detection of the game ball, so the input/output confirmation period ends. When the game ball that entered the special electric prize winning device 32 immediately before is detected by the special electric detection sensor 234a during the invalidation period after confirmation, the game ball is paid out based on the detection of the game ball. You can prevent it from being lost.

As shown in FIG. 261(b), when a game ball is detected by the second operation opening detection sensor 236a during the opening period of the second operation opening 34 based on the electric opening winning or during the normal electric monitoring delay period. 2, one game ball is paid out based on the detection of the game ball, and a winning/failure determination process is executed. When the game ball is detected by the second operation opening detection sensor 236a during the input/output confirmation period, the output of the second operation entry ball notification sound is performed without performing the game ball payout and winning/failure determination processing. will be When the game ball is detected by the second operation opening detection sensor 236a during the post-confirmation invalidation period, the game ball is not paid out, the winning/failure determination process and the output of the second operation entry ball notification sound are not performed. The game ball is detected by the second operation opening detection sensor 236a in situations other than the opening period of the second operation opening 34 based on these electric open winnings, the general electric monitoring delay period, the input/output confirmation period, and the post-confirmation invalidation period. When it is done, a normal electric ball entry error occurs, and the process for progressing the game is not executed, and a normal electric ball ball error notification is executed.

In a configuration in which a normal ball entry error occurs when a game ball is detected by the second operation opening detection sensor 236a in a situation where the occurrence of a ball entering the second operation opening 34 is not assumed in the design stage, At the end of the input/output confirmation period, a post-confirmation invalidation period, which is not subject to the normal electric bulb error, is set. Therefore, when the game ball entering the second operation opening 34 immediately before the end of the input/output confirmation period is detected by the second operation opening detection sensor 236a during the post-confirmation invalidation period, a normal electric ball error can be prevented from occurring. As a result, it is possible to prevent an unnecessary general-purpose incoming ball error from occurring immediately after the end of the input/output confirmation period.

Even if the game ball is detected by the second operation hole detection sensor 236a during the post-confirmation invalidation period, the payout of the game ball and the winning/failure determination process are not performed based on the detection of the game ball. , when the game ball entering the second operation opening 34 immediately before the end of the input/output confirmation period is detected by the second operation opening detection sensor 236a during the invalidation period after confirmation, the game ball is detected. Based on this, it is possible to prevent the payout of game balls and the success/failure determination process from being performed.

Next, the initialization notification executed by the pattern display device 41 when the RAM clearing process (step SG620 or step SG701) is executed will be described.

In the initialization notification, the light emission control of the display light emitting unit 64 is performed in a manner indicating that the RAM clear processing has been executed, and the initialization notification screen 526 is displayed on the pattern display device 41 . FIG. 262(a) is an explanatory diagram for explaining the contents of the initialization notification screen 526. FIG. As shown in FIG. 262(a), in the central part of the initialization notification screen 526, the text "RAM has been initialized" and the text "It is an input/output confirmation period" are displayed.

A confirmation period display area 526 a is provided in the lower right portion of the initialization notification screen 526 . The confirmation period display area 526a displays the remaining duration until the input/output confirmation period expires. By displaying the remaining duration of the input/output confirmation period in the confirmation period display area 526a, it is possible to prevent the manager of the game hall from entering the game ball after the input/output confirmation period ends. , it is possible to prevent the game ball that has entered the ball from being detected and the game ball from being put out.

On the initialization notification screen 526, below the confirmation period display area 526a, the text "Even if the ball enters the gate, the game can end." is displayed. As a result, the manager of the game hall can be notified of the method of ending the input/output confirmation period before the input/output confirmation period expires by causing the ball to enter the through gate 35 .

The input/output confirmation period ends during the execution period of the initialization notification. When the elapsed time from the start of the input/output confirmation period reaches 10 seconds and the input/output confirmation period ends, or the input/output confirmation period is in the middle based on the detection of the game ball in the gate detection sensor 238a When the confirmation period display area 526a of the initialization notification screen 526 has ended, the characters "Confirmation Period End" are displayed in place of the characters "Input/output confirmation period."

Next, the initialization notification process executed by the sound and light side MPU 93 will be described with reference to the flowchart of FIG. 262(b). The initialization notification process is repeatedly executed in a relatively short cycle (for example, 4 milliseconds).

First, it is determined whether or not the value of the initialization notification timer counter provided in the sound and light side RAM 95 is "0" (step SH901). The initialization notification timer counter is a timer counter that allows the sound and light side MPU 93 to grasp the execution period of the initialization notification. Numerical information "2750" corresponding to the execution period of the initialization notification (specifically, 11 seconds) is set in the initialization notification timer counter at the start of the initialization notification. The value of the initialization notification timer counter is updated by subtracting 1 every 4 milliseconds, and becomes "0" when 11 seconds have passed since the initialization notification was started.

If an affirmative determination is made in step SH901, that is, if the initialization notification is not executed, it is determined whether or not a return command for clearing or a return command for updating has been received from the main MPU 82. (Step SH902), and if neither the return command for clearing nor the return command for updating has been received, this initialization notification process is terminated. On the other hand, if the return command for clearing or the return command for updating is received (step SH902: YES), initialization notification start processing is executed (step SH903).

In the initialization notification start process (step SH903), the initialization notification table is read from the sound and light side ROM 94, and the display control and display of the pattern display device 41 are performed so that the initialization notification is performed according to the read initialization notification table. Light emission control of the light emission unit 64 is started. Thereafter, an initialization notification timer counter setting process is executed (step SH904). In the process of setting the initialization notification timer counter, the numerical value information "2750" corresponding to the execution period of the initialization notification (specifically, 11 seconds) is set in the initialization notification timer counter.

If a negative determination is made in step SH901, that is, if the initialization notification is being executed, an initialization notification execution process is executed (step SH905). In the initialization notification execution process, display control of the pattern display device 41 and light emission control of the display light emitting unit 64 are executed according to the initialization notification table read out in step SH903. By controlling the display of the pattern display device 41 in step SH905, the remaining duration of the input/output confirmation period displayed in the confirmation period display area 526a of the initialization notification screen 526 is updated. Further, when the elapsed time from the start of the input/output confirmation period reaches 10 seconds and the input/output confirmation period ends, the confirmation period display area 526a of the initialization notification screen 526 displays the characters "confirmation period end". displayed state.

Thereafter, "1" is subtracted from the value of the initialization notification timer counter (step SH906), and it is determined whether or not the value of the initialization notification timer counter after the subtraction of 1 has become "0" (step SH907). If a negative determination is made in step SH907, it is determined whether or not a gate entry notification command has been received from the main MPU 82 (step SH908), and if a gate entry notification command has been received (step SH908 : YES), an input/output confirmation period end notification process is executed (step SH909). In the input/output confirmation period end notification process, the display control of the pattern display device 41 is executed so that the confirmation period display area 526a of the initialization notification screen 526 displays the characters "confirmation period end". Thus, it is possible to inform the player that the input/output confirmation period has ended based on the display contents of the confirmation period display area 526a.

When the value of the initialization notification timer counter becomes "0" (step SH907: YES), that is, when the execution period of the initialization notification has ended, the end processing of the initialization notification is executed (step S610). In the termination processing of the initialization notification, the initialization notification table read out in step SH903 is cleared, and the initialization notification executed in the pattern display device 41 and the display light emitting section 64 is terminated.

Next, the special electric prize winning device 32 is used as an example for how the special electric prize winning device 32 is opened and closed, and how the general electric accessory 34a is opened and closed during the input/output confirmation period. will be described with reference to the time chart in FIG. FIG. 263(a) shows the timing when the special electric ball notification sound is output from the speaker unit 65, FIG. 263(b) shows the timing when the game ball enters the special electric winning device 32, and FIG. 263(d) shows a period in which the value of the confirmation timer counter 523a in the timer counter area 523 of the main side RAM 84 is 1 or more, and FIG. In step SG620 of the main process (Fig. 246) shows the timing at which the RAM clear process is executed, Fig. 263(f) shows the timing at which the supply of operating power to the pachinko machine 10 is started, Fig. 263(g) indicates the execution period of the initialization notification.

When the supply of operating power to the pachinko machine 10 is started at the timing t1 as shown in FIG. 263(f) while the reset button 142 is being pressed, as shown in FIG. RAM clear processing (step SG620) is executed at timing t2. Thereafter, as shown in FIG. 263(g), initialization notification is started in the pattern display device 41 and the display light emitting unit 64 at the timing of t3.

As already explained, in the input/output confirmation period (the period in which the value of the timer counter 523a for confirmation is 1 or more), the special electric prize winning device 32 has a confirmation open continuation state for 2 seconds and a confirmation closed continuation state for 2 seconds. are alternately repeated. Specifically, as shown in FIG. 263(c), two seconds from timing t4 to timing t5, two seconds from timing t6 to timing t9, and timing from t10 to t11. At 2 seconds, the special electric prize winning device 32 is in an open state. Also, as shown in FIG. 263(c), the special electric prize winning device 32 is closed during two seconds from timing t5 to timing t6 and two seconds from timing t9 to timing t10. The administrator of the game hall can grasp whether or not the opening/closing operation of the special electric prize winning device 32 is normally performed by confirming the operation mode of the special electric prize winning device 32 during the input/output confirmation period. Although illustration is omitted, in the input/output confirmation period, the general electric accessory 34a alternately repeats the confirmation open state for 2 seconds and the confirmation closed state for 2 seconds. The manager of the game hall can grasp whether or not the opening/closing operation of the general electrical role 34a is normally performed by confirming the operation mode of the general electrical role 34a during the input/output confirmation period. can.

When a game ball enters the special electric prize winning device 32 as shown in FIG. 263(b) at the timing of t7 when the special electric prize winning device 32 is in the open state, the speaker is activated at the timing of t8 as shown in FIG. 263(a). A special electric ball notification sound is output from the unit 65 . During the input/output confirmation period, the manager of the game hall makes the game ball enter the special electric prize winning device 32, and by confirming that the special electric ball notification sound is output from the speaker unit 65, the special electric detection sensor 234a is detected. It is possible to confirm that the game ball is being detected normally and that the signal line electrically connecting the special electric detection sensor 234a and the main side MPU 82 is not broken. . Although illustration is omitted, when a game ball enters the second operation opening 34 during the input/output confirmation period, the speaker section 65 outputs a second operation ball notification sound. During the input/output confirmation period, the manager of the game hall enters the game ball into the second operation opening 34, and by confirming that the second operation ball notification sound is output from the speaker unit 65, the second operation is performed. A state in which the detection of the game ball is normally performed by the second operation opening detection sensor 236a, and a disconnection occurs in the signal line that electrically connects the second operation opening detection sensor 236a and the main side MPU 82 You can be sure that it is not.

At timing t11 when 10 seconds have elapsed from timing t4, the value of the confirmation timer counter 523a becomes "0" as shown in FIG. 263(d). After that, at timing t12 when 11 seconds have passed since timing t3, the initialization notification in the pattern display device 41 and the display light emitting unit 64 ends as shown in FIG. 263(g). The timing of t11 when the input/output confirmation period ends is the timing before the timing of t12 when the initialization notification ends. As already explained, after the end of the input/output confirmation period, on the condition that the game stop flag of the main side RAM 84 is not set to "1", the game is started when the timer interrupt process (FIG. 249) is started. The process for progressing (steps SG911 to SG924) is executed. By structuring that the initialization notification is terminated when the input/output confirmation period is terminated, the initialization notification can be terminated after the state in which the processing for progressing the game is executed. Therefore, the manager of the game hall can grasp that the processing for progressing the game is being executed by confirming that the initialization notification has ended.

Next, a description will be given of how it is discovered that a game ball that has landed in the special electric prize winning device 32 is not normally detected.

The timing of t13 is the timing when the special electric prize winning device 32 is in the open state during the input/output confirmation period as shown in FIGS. 263(c) and 263(d). At the timing of t13, as shown in FIG. 263(b), the manager of the game hall entered the game ball into the special electric prize winning device 32, but as shown in FIG. 263(a), the speaker unit 65 does not output special electric ball notification sound. During the input/output confirmation period, the administrator of the game hall confirms that the special electric winning device 32 does not output the special electric winning ball notification sound even though the game ball has entered the special electric winning device 32. It can be grasped that the detection of the game ball that entered 32 is not normally executed in the main side MPU 82. When the supply of operating power to the pachinko machine 10 is started, at the timing before the timing of executing the processing (step SG911 to step SG924) for progressing the game, to the special electric winning device 32 By making it possible to grasp that the main MPU 82 is in a state where detection of a game ball that has entered is not normally executed, it is possible to reduce the possibility that a game will be played in that state.

Although illustration is omitted, if the detection of the game ball entering the second operating port 34 is not normally performed, the game ball is entered into the second operating port 34 during the input/output confirmation period. Even if the ball is thrown, the output of the second operation ball entry notification sound is not performed. During the input/output confirmation period, the manager of the game hall confirms that the second operation ball entry notification sound is not output even though the game ball is entered into the second operation opening 34, It can be understood that the main side MPU 82 cannot normally detect a game ball entering the second operation opening 34 . When the supply of the operating power to the pachinko machine 10 is started, the second operation opening 34 at the timing before the timing for executing the processing for advancing the game (steps SG911 to SG924). By making it possible to grasp that the main MPU 82 is not normally detecting a game ball that has landed, it is possible to reduce the possibility that a game will be played in that state.

Next, regarding the relationship between the post-confirmation invalidation period set at the end of the input/output confirmation period and the timing at which the game ball enters the special electric prize winning device 32 or the second operation opening 34 after the end of the input/output confirmation period. Description will be made with reference to the time chart in FIG. Figure 264 (a) shows the invalidation period after confirmation, Figure 264 (b) shows the variable display period of the first special figure display section 37a, Figure 264 (c) shows the execution period of the opening and closing execution mode, Figure 264(d) shows the timing at which the winning to the first operation port 33 occurs, FIG. 264(e) shows the fluctuation period of the general pattern, and FIG. FIG. 264(g) shows the timing at which winning to the through gate 35 occurs, and FIG. 264(h) shows the input/output confirmation period.

First, the relationship between the post-confirmation invalidation period and the timing at which the game ball enters the special electric winning device 32 after the end of the input/output confirmation period will be described.

At timing t1, when the input/output confirmation period ends as shown in FIG. 264(h), the post-confirmation invalidation period (specifically, 1 second) is set. At the timing of t2, which is immediately after the timing of t1 when the input/output confirmation period ends, as shown in FIG. The variable display of the 1 special figure display portion 37a is started. As already explained, the shortest fluctuation display period of the reach display mode of the special figure display portions 37a and 37b in the normal game state is 15 seconds. At the timing of t4 when 15 seconds have passed from the timing of t2, the variable display of the first special figure display section 37a ends as shown in FIG. 264(b). Then, in the case of a jackpot result, the opening effect of the opening/closing execution mode is executed after the timing of t4, and at the timing of t5 when the opening effect ends, the opening/closing execution mode is executed as shown in FIG. 264(c). is started.

As shown in Figure 264 (a) and Figure 264 (b), the timing of t3 when the post-confirmation invalidation period ends is the timing before the timing of t4 when the fluctuation display of the first special figure display section 37a ends is. Thus, the post-confirmation invalidation period ends before the opening and closing execution mode begins. As a result, when the game is started after the input/output confirmation period is over and a prize is awarded to the special electric prize winning device 32, the prize to the special electric prize prize device 32 is invalidated by setting the post-confirmation invalidation period. You can prevent it from slipping.

Next, the relationship between the post-confirmation invalidation period and the timing at which the game ball enters the second operation opening 34 after the input/output confirmation period ends will be described.

At the timing of t6, when the input/output confirmation period ends as shown in FIG. 264(h), the post-confirmation invalidation period is set for one second from the timing of t6 as shown in FIG. 264(a). . At the timing of t7, which is immediately after the timing of t6 when the input/output confirmation period has ended, as shown in FIG. The variable display of the portion 38a is started. As already explained, the fluctuation period of the normal map display section 38a in the low frequency support mode is 10 seconds. At the timing of t9 when 10 seconds have passed from the timing of t7, as shown in FIG. Then, in the case where the general electric role 34a is elected to the general electric open, at the timing t10 after the timing t9, the general electric role 34a is opened as shown in FIG. Become.

As shown in Figure 264 (a) and Figure 264 (e), the timing of t8 when the post-confirmation invalidation period ends is the timing before the timing of t9 when the fluctuation display of the normal diagram display unit 38a ends . Therefore, the post-confirmation invalidation period ends before the universal electrical accessory 34a becomes open. As a result, when the game is started after the input/output confirmation period is over and a prize is won in the second operating port 34, the winning in the second operating port 34 is invalidated by the setting of the post-confirmation invalidation period. You can prevent it from being done.

Next, after the input/output confirmation period is interrupted by stopping the supply of operating power, the interrupted input/output confirmation period is restarted by restarting the supply of operating power. Description will be made with reference to a time chart. FIG. 265(a) shows the input/output confirmation period, FIG. 265(b) shows the state of the power failure flag in the main RAM 84, and FIG. 265(d) shows the timing at which RAM clear processing is executed in step SG701 of the setting value update processing (FIG. 247), FIG. 265(e) shows the timing at which the setting value update processing is executed, FIG. 265(f) shows a period during which operating power is supplied to the pachinko machine 10. FIG.

In the state where the reset button 142 is pressed and the setting key insertion portion 143 is ON, that is, the setting change operation is being performed, the pachinko machine 10 is activated at the timing t1 as shown in FIG. 265(f). 265(e), the setting value update process is started at the timing t2 as shown in FIG. 265(e). RAM clear processing is executed as follows. After that, at the timing of t3, when the set value update process ends as shown in FIG. 265(e), the input/output confirmation period starts as shown in FIG. 265(a).

At timing t4 when 10 seconds have not passed since the start of the input/output confirmation period, when the supply of operating power is stopped as shown in FIG. By executing power failure processing in the side MPU 82, the power failure flag of the main side RAM 84 is set to "1" as shown in FIG. 265(b). Further, by stopping the operation of the main MPU 82, the input/output confirmation period is interrupted at the timing of t4 as shown in FIG. 265(a).

After that, as shown in FIG. 265(f), the supply of operating power is resumed at the timing of t5. As shown in FIG. 265(b), the power failure flag of the main RAM 84 is set to "1" at the timing t5. When the operation of pressing the reset button 142 and the ON operation of the setting key insertion unit 143 (that is, setting change operation) are not performed when the supply of operating power is restarted, the RAM clearing process (step SG620 or step SG701) is not executed. . Therefore, the information stored in the confirmation timer counter 523a of the main RAM 84 at the timing t4 when the input/output confirmation period is interrupted is maintained.

After that, when the process of step SG627 in the main process (FIG. 246) is executed at the timing of t6, the start-up processing in-progress flag in the main RAM 84 is cleared to "0", and as shown in FIG. The power failure flag in the main RAM 84 is cleared to "0". After that, at the timing of t7, in step SG631 of the main processing (FIG. 246), interrupt permission setting is performed to switch the timer interrupt processing (FIG. 249) from being prohibited to being permitted. As described above, since the RAM clearing process is not executed, the timer interrupt process (Fig. 249 ) is allowed to occur. As a result, as shown in FIG. 265(a), the input/output confirmation period interrupted at timing t4 is resumed at timing t7.

In this way, when the occurrence of a power failure is identified in the middle of the input/output confirmation period, the power failure monitoring process is executed and the power failure flag is set to "1". If the reset button 142 is not pressed and the setting key insertion unit 143 is not turned ON when the supply of operating power is resumed, the confirmation timer of the main RAM 84 is reset when the occurrence of the power failure is identified. The input/output confirmation period is restarted using the information stored in the counter 523a. As a result, when the input/output confirmation period is interrupted due to the occurrence of a power failure during the input/output confirmation period, the pressing operation of the reset button 142 and the setting key insertion portion are performed when the supply of operating power is resumed. The interrupted input/output confirmation period can be resumed while the ON operation of 143 is not required, and the processing (step SG911 to step SG924) for progressing the game after the restarted input/output confirmation period ends. It can be in a running state.

Although not shown, if a power failure is identified in the middle of the input/output confirmation period, and the reset button 142 is pressed and the setting key insertion portion 143 is turned ON when the supply of operating power is restarted, A new input/output confirmation period (10 seconds) occurs after the set value update process (FIG. 247) is executed. Thereby, when occurrence of a power failure is identified in the middle of the input/output confirmation period, the input/output confirmation period can be generated before the game becomes ready for play.

According to the embodiment detailed above, the following excellent effects are obtained.

During the input/output confirmation period, the special electric prize winning device 32 and the general electric accessory 34a are opened and closed. As a result, by confirming the operation mode of the special electric prize winning device 32 and the general electric accessory 34a during the input/output confirmation period, it is possible to determine whether the opening and closing operation of the special electric prize winning device 32 and the general electric accessory 34a is normally performed. It is possible to make it possible for the manager of the game hall to grasp whether. Therefore, it is possible to reduce the possibility that the game will be played in a state where the special electric prize winning device 32 and the general electric accessory 34a are not normally opened and closed.

During the input/output confirmation period, a ball entry notification sound indicating that a game ball that has entered the ball entry sections 24a, 31 to 34 or a game ball that has passed through the through gate 35 has been detected is output. During the input/output confirmation period, the manager of the game hall maintains the game balls in the ball entry sections 24a, 31 to 34 or the through gate 35 and enters the balls corresponding to the ball entry sections 24a, 31 to 34 or the through gate 35. By confirming that the notification sound is output, it can be understood that the detection of the game ball that has been put into the ball entering portion 24a, 31 to 34 or the through gate 35 is normally performed. In addition, the administrator of the game hall, during the input/output confirmation period, despite the fact that the game ball has been put into the ball entry sections 24a, 31 to 34 or the through gate 35, When the ball entry notification sound corresponding to is not output, the game ball entering the ball entry portion 24a, 31 to 34 or the game ball passing through the through gate 35 is not normally detected. can grasp what is going on.

When the supply of operating power to the pachinko machine 10 is started in a state where the value of the confirmation timer counter 523a is "0", RAM clear processing (step SG620 or step SG701) is executed at the start of supply of the operating power. If so, the input/output confirmation process is executed. On the other hand, if the RAM clear process is not executed when the supply of the operating power is started, the input/output confirmation process is not executed. As a result, when the supply of operating power to the pachinko machine 10 is started in a state where the value of the confirmation timer counter 523a is "0", the manager of the game hall determines whether or not to generate an input/output confirmation period. can be selected. When the supply of operating power to the pachinko machine 10 is started in a state where the value of the confirmation timer counter 523a is "0" and the RAM clearing process is not executed at the start of the supply of the operating power, the input/output confirmation process is performed. is not executed, the operation (RAM clear operation) for executing the RAM clear process (step SG620) or the setting value update process (Fig. 247) is executed when the supply of operating power to the pachinko machine 10 is started. When the operation (setting change operation) for causing the game to proceed is not performed, it is possible to enter a state in which the process for rapidly progressing the game is executed.

When the reset button 142 is pressed and the setting key inserting section 143 is turned ON at the start of supply of operating power to the pachinko machine 10, setting value update processing is executed. Input/output confirmation processing is executed. For this reason, the manager of the game hall continuously performs the operation of updating the setting value, the operation confirmation of the special electric prize winning device 32 and the general electric accessory 34a, and the confirmation of the detection state of the game ball by the detection sensors 231a to 238a. can be done.

When the set value update process is executed, the input/output confirmation period is started by performing an operation for ending the set value update process. For this reason, compared to the configuration that requires an operation for starting the input/output confirmation period in addition to the operation for terminating the setting value update process, the operation confirmation of the special electric prize winning device 32 and the general electric accessory 34a, In addition, it is possible to simplify the processing configuration for confirming the detection state of game balls by the detection sensors 231a to 238a.

The subroutine corresponding to the RAM clear process called at step SG701 of the set value update process (FIG. 247) is the same as the subroutine called at step SG620 of the main process (FIG. 246). Numerical information corresponding to the input/output confirmation period is set in the confirmation timer counter 523a in the RAM clearing process, so that the input/output operation is performed after the operation power supply start process (steps SG601 to SG627) is completed. Confirmation period. As a result, it is possible to simplify the processing configuration for generating the input/output confirmation period after the processing for starting supply of operating power ends.

After the operation power supply start process is executed, in the timer interrupt process, if the value of the confirmation timer counter 523a is equal to or greater than "1", the input/output confirmation process is executed. When the input/output confirmation process is executed in the timer interrupt process, the process for progressing the game is not executed. In a configuration in which a process for progressing a game is executed in a timer interrupt process and a process for input/output confirmation is executed in a case where the process and input/output are executed for progressing the game in one processing cycle. By preventing both of the confirmation processes from being executed, it is possible to prevent the processing load on the main side MPU 82 for executing the timer interrupt process from becoming too large.

By configuring the input/output confirmation process to be executed in the timer interrupt process, the value of the confirmation timer counter 523a used in the input/output confirmation process is periodically updated (specifically, at a cycle of 4 milliseconds). update) can be simplified.

The subroutine of the timer update process called in the process for progressing the game is also called in the input/output confirmation process. As a result, the data capacity of the program stored in the main ROM 83 for updating the timer counters 523a to 523g provided in the timer counter area 523 can be reduced.

When the input/output confirmation process is executed in the timer interrupt process, the input/output confirmation process is not executed in the timer interrupt process to advance the game. A part of the subroutines (a subroutine corresponding to the entering ball detection process and a subroutine corresponding to the timer update process) are called. As a result, it is possible to reduce the data capacity of the program stored in the main ROM 83 for executing the input/output confirmation process and the process for advancing the game.

In the situation where the processing for progressing the game is executed, the opening/closing operation of the special electric prize winning device 32 is performed independently of the opening/closing operation of the general electric accessory 34a. , the opening/closing operation of the special electric prize winning device 32 and the opening/closing operation of the general electric accessory 34a are performed. As a result, it is possible to simplify the configuration for grasping the timing of the opening/closing operation of the special electric prize winning device 32 and the opening/closing operation of the general electric accessory 34a during the input/output confirmation period.

Based on the value of one switching timer counter 523b, the timing for opening/closing operation of the special electric prize winning device 32 and the timing for opening/closing operation of the general electric accessory 34a are grasped. For this reason, a timer counter for grasping the timing for opening/closing operation of the general electric accessory 34a is provided as a separate timer counter from the timer counter provided for grasping the timing for opening/closing operation of the special electric prize winning device 32. Compared to the provided configuration, the configuration for enabling grasping of the timing of these opening/closing operations can be simplified.

The input/output confirmation period starts when the RAM clearing process (step SG620) or the set value update process (FIG. 247) ends, and ends when 10 seconds have passed since the start of the input/output confirmation period. Although it is necessary for the manager of the game hall to execute the RAM clearing process (step SG620) or the set value updating process (FIG. 247), the special electric prize winning device 32 and general electric accessory 34a are checked for operation, and the detection sensors 231a to 238a. If it is not necessary to confirm the detection state of the game ball by, by leaving the pachinko machine 10 as it is during the input/output confirmation period, the processing for advancing the game can be executed after a predetermined time. . As a result, the management burden on the manager of the game hall can be reduced.

A post-confirmation invalidation period (specifically, one second) is set at the end of the input/output confirmation period. If a game ball is detected by the special electric detection sensor 234a during the post-confirmation invalidation period, the payout of the game ball based on the detection of the game ball, the output of the special electric incoming ball notification sound, and the special electric incoming ball error notification Not done. As a result, when a game ball that entered the special electric prize winning device 32 just before the end of the input/output confirmation period is detected after the end of the input/output confirmation period, the game ball is paid out based on the detection of the game ball. , it is possible to prevent the output of the special electric ball notification sound and the special electric ball error notification.

The post-confirmation invalidation period is set to a period (specifically 1 second) shorter than the shortest fluctuation display period (specifically 15 seconds) of the reach display mode of the special figure display units 37a and 37b in the normal game state. ing. As a result, the game ball wins in the first operating port 33 immediately after the end of the input/output confirmation period, and the game round started with the winning as a trigger results in a big hit, and the opening and closing is started with the occurrence of the big win as a trigger. When a game ball wins in the special electric prize winning device 32 immediately after starting the execution mode, it is possible to prevent the prize from being treated as invalid.

When a game ball is detected by the special electric detection sensor 234a in a situation that does not correspond to any of the opening period of the special electric prize winning device 32, the special electric monitoring delay period, the input/output confirmation period, and the post-confirmation invalidation period in the open/close execution mode. In the configuration in which the special electric ball error notification is executed, the special electric ball error notification is not executed when the game ball is detected by the special electric detection sensor 234a during the post-confirmation invalidation period. As a result, when the game ball that entered the special electric prize winning device 32 immediately before the end of the input/output confirmation period is detected immediately after the end of the input/output confirmation period, the special electric call is received based on the detection of the game ball. It is possible to prevent execution of the ball error notification.

A post-confirmation invalidation period (specifically, one second) is set at the end of the input/output confirmation period. If the game ball is detected by the second operation opening detection sensor 236a during the post-confirmation invalidation period, the game ball is paid out based on the detection of the game ball, the second operation entry ball notification sound is output and normal Light bulb error notification is not performed. As a result, when the game ball that entered the second operation port 34 immediately before the end of the input/output confirmation period is detected after the end of the input/output confirmation period, the game ball based on the detection of the game ball is detected. It is possible to prevent the output of the payout, the output of the second operation incoming ball notification sound, and the normal incoming ball error notification.

The post-confirmation invalidation period is set to a period (specifically 1 second) shorter than the normal pattern fluctuation period (specifically 10 seconds) in the normal game state. As a result, the game ball wins the through gate 35 immediately after the end of the input/output confirmation period, and the general figure wins in the general figure propriety determination process executed with the winning as a trigger, and after the end of the general figure fluctuation period When the electronic part 34a is in an open state and the game ball wins the second operation opening 34, the winning can be prevented from being treated as invalid.

<Another Form of the 33rd Embodiment>
(1) Processing of clearing "0" information stored in the area to be initialized in the main RAM 84 in the RAM clearing process (FIG. 248) and initializing the area (steps SG801 to SG806). is stored in the area to be initialized in the main RAM 84 instead of executing the process (step SG807) of setting the numerical value information corresponding to the input/output confirmation period to the confirmation timer counter 523a after the execution of A configuration may be employed in which the processing of setting numerical information corresponding to the input/output confirmation period to the confirmation timer counter 523a is executed before executing the processing of clearing the information to "0" and initializing the area. In this configuration, the confirmation timer counter 523a is excluded from the area to be initialized. Further, as already explained, the input/output confirmation process is not executed until the process (steps SG601 to SG627) at the start of supply of operating power is completed. As a result, after numerical information corresponding to the input/output confirmation period is set in the confirmation timer counter 523a, the information stored in the area to be initialized in the main RAM 84 is cleared to "0" and the area is cleared. Even if the processing (step SG801 to step SG806) for initial setting is executed, input/output based on the value of the confirmation timer counter 523a being 1 or more after execution of the processing at the start of supply of operating power A confirmation process (step SG904) can be executed.

(2) In the input/output confirmation process, a subroutine corresponding to the port output process (step SG911) included in the process (steps SG911 to SG924) for advancing the game in the timer interrupt process (FIG. 249) is called. It may be configured to be In both the input/output confirmation period and the playable state, by sharing the program of processing for outputting signals to the special electric drive unit 32b and the general electric drive unit 34b, the special electric drive unit 32b and the normal electric drive unit 34b It is possible to simplify the processing configuration of the process of outputting a signal to the drive unit 34b for general electrics.

(3) In the stack pointer initialization process executed in step SG603 of the main process (FIG. 246), after setting the information of the last address in the stack area to the stack pointer, the stack area in the main RAM 84 is set to "0". ” may be configured to clear. Thereby, when the supply of operating power to the pachinko machine 10 is started, the stack area in the main side RAM 84 can be cleared to "0". In this configuration, the stack area in the main RAM 84 is excluded from the calculation of the checksum. This prevents the checksum of the main RAM 84 calculated after the restart from being judged to be inconsistent with the checksum stored before the operation was stopped.

<Thirty-fourth Embodiment>
In this embodiment, the open duration period of the special electric prize winning device 32 and the general electric role 34a in the input/output confirmation period and the closed duration of the special electric prize winning device 32 and the general electric role 34a are different from the above 33rd embodiment. are doing. The configuration different from that of the thirty-third embodiment will be described below. The description of the same configuration as that of the thirty-third embodiment is basically omitted.

FIG. 266 is an explanatory diagram for explaining the input/output confirmation period and the post-confirmation invalidation period in this embodiment. The input/output confirmation period is set to 10 seconds as in the thirty-third embodiment. As shown in FIG. 266, the duration of one opening of the special electric prize winning device 32 and the general electric accessory 34a during the input/output confirmation period is set to 1.9 seconds, and the special electric prize winning device 32 is opened during the input/output confirmation period. Also, the interval from the end of the open state of the general electrical accessory 34a to the start of the next open state is also set to 1.9 seconds. As already described in the thirty-third embodiment, in step SH407 of the operation confirmation process (FIG. 255), the switching timer counter 523b is set. The setting process of the switching timer counter 523b is performed when starting the open state of the special electric prize winning device 32 and the general electric role 34a in the input/output confirmation period, and when starting the closed state of the special electric prize winning device 32 and the general electric role 34a. is executed. In the setting process of the switching timer counter 523b in this embodiment, the numerical value information "475" corresponding to 1.9 seconds for continuing the open state or closed state of the special electric prize winning device 32 and the general electric accessory 34a is stored in the main side RAM 84. The switch timer counter 523b in the timer counter area 523 is set. As a result, in the input/output confirmation period, the special electric prize winning device 32 and the general electric accessory 34a are switched to the closed state after the open state of the special electric prize winning device 32 and the general electric accessory 34a continues for 1.9 seconds. In addition, after the closed state of the special electric prize winning device 32 and the general electric role 34a continues for 1.9 seconds, the special electric prize winning device 32 and the general electric role 34a are switched to the open state. can be

If the game ball is not detected by the gate detection sensor 238a before the elapsed time from the start of the input/output confirmation period reaches 9.5 seconds, the special electric winning device 32 is activated for 9.5 seconds during the input/output confirmation period. And the opening and closing operation of the general electrical accessory 34a is performed. After that, the closed state of the special electric prize winning device 32 and the general electric accessory 34a is continued for 0.5 seconds, and the input/output confirmation period ends. Then, at the end of the input/output confirmation period, a post-confirmation invalidation period of 0.5 seconds is set. On the other hand, if the game ball is detected by the gate detection sensor 238a before the elapsed time reaches 9.5 seconds from the start of the input/output confirmation period, the game ball is detected by the gate detection sensor 238a. The special electric prize winning device 32 and the general electric accessory 34a are closed at the timing, and the closed state of the special electric prize winning device 32 and the general electric accessory 34a is continued for 0.5 seconds. Then, when the 0.5 second has passed, the input/output confirmation period ends. As a result, in the configuration in which the input/output confirmation period ends after the closed state of the special electric prize winning device 32 and the general electric accessory 34a continues for 0.5 seconds, the elapsed time from the start of the input/output confirmation period The input/output confirmation period can be shortened to a period shorter than 10 seconds by the manager of the game hall performing an operation to maintain the game balls in the through gate 35 before reaching 9.5 seconds.

As shown in FIG. 266, the variation period of the normal pattern in the normal game state is 1 second, which is shorter than 10 seconds in the thirty-third embodiment. The shortest fluctuation display period of the reach display mode of the special figure display portions 37a and 37b in the normal game state is 15 seconds, as in the thirty-third embodiment.

Next, the entering-ball notification command transmission process executed by the main MPU 82 will be described with reference to the flowchart of FIG. As already described in the thirty-third embodiment, the incoming ball notification command transmission process is executed at line number "1004" of the input/output confirmation process (FIG. 253).

At steps SI101 to SI114, the same processes as steps SH701 to SH714 of the entering ball notification command transmission process (FIG. 258) in the thirty-third embodiment are executed. The processing contents of steps SI101 to SI114 are as already explained in the thirty-third embodiment. If a negative determination is made in step SI113 or if the process of step SI114 is carried out, steps SH715 to SH716 of the entering ball notification command transmission process (FIG. 258) in the thirty-third embodiment described above (FIG. 258) are performed in steps SI115 to SI116. Executes the same processing as Specifically, when the gate winning confirmation flag 522h in the confirmation flag group 522 is set to "1" (step SI115: YES), a gate entry notification command is transmitted to the sound and light side MPU 93 (step SI116). ).

Thereafter, it is determined whether or not the value of the confirmation timer counter 523a in the timer counter area 523 is equal to or greater than "125" corresponding to 0.5 seconds (step SI117). If 0.5 seconds or more remains until the input/output confirmation period ends (step SI117: YES), in steps SI118 to SI122, the special electric prize winning device 32 and the general electric accessory 34a are closed. At the same time, a process for continuing the closed state of the special electric prize winning device 32 and the general electric accessory 34a for 0.5 seconds is executed until the input/output confirmation period ends. At steps SI118 to SI120, the same processes as steps SH413 to SH415 of the operation confirmation process (FIG. 255) in the thirty-third embodiment are executed. Specifically, by executing closing processing of the special electric prize winning device 32, output of the drive signal to the special electric drive unit 32b is stopped, and the special electric prize winning device 32 is placed in a closed state (step SI118). After that, by executing the closing process of the general electric accessory 34a, the output of the drive signal to the drive unit 34b for general electric is stopped, and the general electric accessory 34a is brought into the closed state (step SI119). Thereafter, the operation check open flag 525 of the main RAM 84 is cleared to "0" (step SI120).

After that, the numerical value information "125" corresponding to 0.5 seconds to continue the closed state of the special electric prize winning device 32 and the general electric accessory 34a is set in the switching timer counter 523b in the timer counter area 523 (step SI121), Numerical information "125" corresponding to 0.5 seconds is set in the confirmation timer counter 523a in the timer counter area 523 (step SI122). As a result, the value of the confirmation timer counter 523a becomes "0" after the closed state of the special electric prize winning device 32 and the general electric accessory 34a continues for 0.5 seconds, and the input/output is confirmed. You can let the period expire.

If the remaining time of the input/output confirmation period is less than 0.5 seconds at the timing when the game ball is detected by the gate detection sensor 238a (step SI117: NO), the special electric prize winning device 32 and the general electric accessory 34a In addition to the closed state, processing (step SI118 to step SI122) for continuing the closed state of the special electric prize winning device 32 and the general electric accessory 34a for 0.5 seconds until the input/output confirmation period ends This entry notification command transmission process is terminated without execution. As already explained, if the game ball is not detected by the gate detection sensor 238a before the elapsed time from the start of the input/output confirmation period reaches 9.5 seconds, the input/output confirmation period lasts 9.5 seconds. After the special electric prize winning device 32 and the general electric accessory 34a are opened and closed, the closed state of the special electric prize winning device 32 and the general electric accessory 34a is continued for 0.5 seconds, and the input/output confirmation period ends. For this reason, when the elapsed time from the start of the input/output confirmation period has reached 9.5 seconds and the special electric prize winning device 32 and the general electric accessory 34a are already in the closed state, the game at the gate detection sensor 238a When the ball is detected, input/output confirmation is performed after the closed state of the special electric prize winning device 32 and the general electric accessory 34a continues for 0.5 seconds without executing the processing of steps SI118 to SI122. You can let the period expire.

As described above, even if the input/output confirmation period ends in the middle based on the detection of the game ball by the gate detection sensor 238a, the last open state of the special electric prize winning device 32 and the general electric accessory 34a ends. 0.5 seconds later, the input/output confirmation period ends. As a result, the last 0.5 seconds in the input/output confirmation period can be set to a state in which the game ball cannot enter the special electric prize winning device 32 and the second operation opening 34 .

Next, how the post-confirmation invalidation period is set will be described with reference to the time chart in FIG. FIG. 268(a) shows the post-confirmation invalidation period, FIG. 268(b) shows the period during which the general electric accessory 34a is in the open state, and FIG. 268(c) is the period in which the special electric winning device 32 is in the open state 268(d) shows the input/output confirmation period, and FIG. 268(e) shows the execution period of the initialization notification executed by the pattern display device 41 and the display light emitting unit 64. FIG.

As shown in FIG. 268(e), at the timing of t1, the symbol display device 41 and the display light emitting section 64 start the initialization notification. After that, at the timing of t2, the input/output confirmation period starts as shown in FIG. 268(d). As shown in FIGS. 268(b) and 268(c), during the input/output confirmation period, the special electric prize winning device 32 and the general electric accessory 34a start from the timing of t2 when the input/output confirmation period starts to the timing of t3. 1.9 seconds from t4 to t5, 1.9 seconds from t6 to t7, and 1.9 seconds from t3 to t4. 9 seconds and 1.9 seconds from timing t5 to timing t6. In this way, the opening/closing operation of the special electric prize winning device 32 and the general electric accessory 34a is performed during the period from the timing t2 when the input/output confirmation period starts to the timing t7 when 9.5 seconds elapse. The period from the timing t7 when the final open state of the special electric prize winning device 32 and the general electric accessory 34a in the input/output confirmation period ends to the timing t8 when the input/output confirmation period ends is 0.5 seconds.

At timing t8, when the input/output confirmation period ends as shown in FIG. 268(d), the post-confirmation invalidation period (specifically, 0.5 seconds) is set as shown in FIG. 268(a). . After that, as shown in FIG. 268(a), the post-confirmation invalidation period ends at the timing of t9. After that, as shown in FIG. 268(e), the initialization notification ends at the timing of t10.

In this way, during the input/output confirmation period, the special electric prize winning device 32 and the special electric prize winning device 32 are kept for 0.5 seconds from the end of the last open state of the special electric prize winning device 32 and the general electric accessory 34a to the end of the input/output confirmation period. And the general electrical accessory 34a is closed. Therefore, during the final 0.5 second of the input/output confirmation period, the game ball cannot enter the special electric prize winning device 32 and the second operation opening 34 . As a result, the game ball entering the special electric prize winning device 32 or the second operation opening 34 during the input/output confirmation period is detected by the special electric detection sensor 234a or the second operation opening detection sensor 236a after the end of the input/output confirmation period. Possibility can be reduced.

In the last 0.5 seconds of the input/output confirmation period, the general electrical accessory 34a is closed, and at the end of the input/output confirmation period, the post-confirmation invalidation period (specifically, 0.5 seconds) is set. As a result, as shown in FIG. 266, the period from the end of the final open state of the universal electrical accessory 34a in the input/output confirmation period to the end of the post-confirmation invalidation period can be set to 1 second. This reduces the possibility that a game ball entered into the second operating port 34 during the input/output confirmation period is detected after the post-confirmation invalidation period ends and a second operating port entrance ball detection error occurs. be able to.

By closing the special electric prize winning device 32 in the last 0.5 seconds of the input/output confirmation period and setting a post-confirmation invalidation period (specifically 0.5 seconds) at the end of the input/output confirmation period, As shown in FIG. 266, the period from the end of the last open state of the special electric prize winning device 32 in the input/output confirmation period to the end of the post-confirmation invalidation period can be set to 1 second. As a result, it is possible to reduce the possibility that the game ball entering the special electric prize winning device 32 during the input/output confirmation period is detected after the post-confirmation invalidation period ends, resulting in a special electric ball detection error.

By closing the general electric accessory 34a and the special electric prize winning device 32 in the last 0.5 seconds of the input/output confirmation period, the post-confirmation invalidation period set at the end of the input/output confirmation period is set to be longer than 1 second. The period from the end of the last open state in the input/output confirmation period to the end of the post-confirmation invalidation period can be set to 1 second while the period is set to 0.5 seconds, which is short. A period of 0.5 seconds, which is shorter than 1 second, is set as the post-confirmation invalidation period. By adopting a configuration in which a period of 1 second is secured as the period until the end, even in a configuration in which a short period of 1 second is set as the fluctuation period of the general pattern in the normal game state, during the input/output confirmation period. It is possible to prevent the game ball entering the second operation opening 34 from being detected by the second operation opening detection sensor 236a after the post-confirmation invalidation period ends.

<Another form of the thirty-fourth embodiment>
(1) In the thirty-fourth embodiment, only a period of 1 second is selected as the variation period of the normal pattern in the normal game state. There may be a plurality of periods that can be selected as the fluctuation period of, and the lottery for selecting the fluctuation period of the normal figure may be executed. Specifically, there are a period of 1 second and a period of 10 seconds as a period of variation of normal patterns that can be selected in the normal game state. When the result of the general pattern right or wrong determination process becomes the electric role open election, the general pattern side fluctuation period lottery process for selecting the fluctuation period of the general pattern is executed. In the normal pattern side fluctuation period lottery process, a fluctuation period of 1 second is selected with a probability of 1/5, and a fluctuation period of 10 seconds is selected with a probability of 4/5. As already described in the thirty-fourth embodiment, a period of 1 second is secured as a period from the end of the final open state of the general electrical accessory 34a in the input/output confirmation period to the end of the post-confirmation invalidation period. By adopting such a configuration, even in a configuration in which a short period of 1 second can be selected as the variation period of the normal figure in the normal game state, the game ball entered into the second operation opening 34 during the input/output confirmation period is It is possible to prevent detection by the second operation opening detection sensor 236a after the end of the post-confirmation invalidation period.

<Thirty-Fifth Embodiment>
In this embodiment, the configuration of the game area PA provided on the game board 24 is different from that of the thirty-third embodiment. The configuration different from that of the thirty-third embodiment will be described below. The description of the same configuration as that of the thirty-third embodiment is basically omitted.

FIG. 269 is a front view of the game board 24 for explaining the configuration of the game area PA in this embodiment.

An inner rail portion 25 and an outer rail portion 26 are attached to the game board 24 so as to partition a part of the outer edge of the game area PA. The guide rail is configured as A game ball shot from a game ball shooting mechanism 27 (see FIG. 2) is guided to the upper part of the game area PA by a guide rail.

The game board 24 includes a general prize winning port 31, a special electric prize winning device 32, a first operation port 33, a through gate 35, a variable display unit 36, a special figure unit 37, and a general figure unit 38, as in the first embodiment. is provided. Also, a special winning device 151 is provided in place of the second operating port 34 in the first embodiment. Furthermore, a V winning device 531 is provided in this embodiment.

Even if a ball enters the through gate 35, no game ball is put out. On the other hand, when a ball enters any one of the general winning port 31, the special electric winning device 32, the first operating port 33, the special winning device 151 and the V winning device 531, the number of game media usable by the player is increased. A predetermined number of game balls are put out in order to make the game possible. Specifically, when a ball enters the general winning hole 31, 10 game balls are paid out, and when a ball enters the special electric winning device 32, 15 balls are paid out. game balls are put out, and when a ball enters the first operating port 33, three game balls are put out, and when a ball enters the special winning device 151, One game ball is put out, and when a ball enters the V winning device 531, 15 game balls are put out.

As will be described later, the V winning device 531 is provided with a discharge passage area 535b and a V winning passage area 535c. However, the same number (specifically 15) of game balls will be paid out regardless of whether the game balls pass through either the discharge passage area 535b or the V winning passage area 535c. . In addition, the number of prize balls is arbitrary. It may be more or less than the number of prize balls.

In addition, an out port 24a is provided at the bottom of the game board 24, and game balls that do not enter various winning ports are discharged from the game area PA through the out port 24a. Further, the game board 24 is provided with a large number of nails 24b for properly dispersing and adjusting the falling direction of the game balls, as well as various members such as windmills.

A variable display unit 36 is provided so as to include the central portion of the game area PA. Due to the peripheral portion of the variable display unit 36 protruding forward of the pachinko machine 10 from the surface of the game board 24, an area in which the game balls shot to the game area PA can flow down is defined. Specifically, an upper area PA1, which is an area above a predetermined height position of the variable display unit 36 in the game area PA, and a lower area continuous with the upper area PA1 and higher than the variable display unit 36. A left area PA2 which is an area on the left, a right area PA3 which is an area continuous below the upper area PA1 and to the right of the variable display unit 36, and a left area PA2 and a right area PA3. On the other hand, it is divided into a lower area PA4 which is a continuous area below the variable display unit 36 .

When the player operates the shooting operation device 28 with the amount of rotation in the first range which is less than the reference amount of rotation as the first shooting operation, the game ball is shot to the left of the center position in the horizontal direction in the upper area PA1. flow down. In this case, the game balls flow down in the order of upper area PA1→left area PA2→lower area PA4. On the other hand, when the player operates the shooting operation device 28 with a rotation amount in a second range that is equal to or larger than the reference rotation amount as a second shooting operation, the shooting operation device 28 is moved to the right of the lateral center position in the upper area PA1. A game ball begins to flow down. In this case, the game balls flow down in the order of upper area PA1→right area PA3→lower area PA4. In other words, the player can adjust the rotation operation amount of the shooting operation device 28 so that the game ball can flow down the left side area PA2 of the left side area PA2 and the right side area PA3. A game can be played so that game balls flow down PA3. Incidentally, when the shooting operation device 28 is operated with the maximum amount of rotation, the game ball flows down in the order of the upper area PA1→right area PA3→lower area PA4.

The first operation port 33 is installed in the lower area PA4. The first operating port 33 is open upward, and a member such as an opening/closing member for preventing the game ball from entering the first operating port 33 is not provided. Then, in a situation where the game balls are shot in the same mode, the winning probability to the first operation opening 33 is constant regardless of the game state. In other words, the first operation port 33 is always capable of entering the game ball flowing down the game area PA toward the first operation port 33 . In addition, the first operating port 33 is arranged directly below the stage portion 36b formed in the variable display unit 36, and a game ball flowing into the stage portion 36b through the guide passage formed in the variable display unit 36 A game ball ejected outside the variable display unit 36 from the lateral center of the stage portion 36b easily enters the first operation opening 33. As shown in FIG.

As described above, the first operating port 33 is provided in the lower area PA4, but on the upstream side of the first operating port 33 toward the right side area PA3, the game ball that has flowed down the right side area PA3 is the first A control nail 24c is provided so as to make it impossible to reach the 1 operation port 33. As shown in FIG. Further, the entrance of the guide passage to the stage portion 36b is provided for the left area PA2 and not provided for the right area PA3. With these configurations, when the shooting operation device 28 is operated so that the game ball flows down the left side area PA2, it is possible to win the first operation opening 33, but the game ball flows down the right side area PA3. When the shooting operation device 28 is operated so as to do so, winning to the first operation port 33 is disabled. However, it is not limited to this, and the game ball flows down in the right area PA3 by not providing the control nail 24c or providing the entrance of the guide passage to the stage part 36b in the right area PA3. As described above, the configuration may be such that even when the firing operation device 28 is being operated, the winning to the first operation opening 33 is possible.

The special winning device 151 is installed in the right area PA3. That is, the special winning device 151 cannot win a prize when the shooting operation device 28 is operated so that the game ball flows down the left area PA2, and the shooting operation device makes the game ball flow down the right area PA3. 28 is operated, winning is possible.

The configuration of the special winning device 151 is the same as that of the sixth embodiment. As already described with reference to FIGS. 45(a) and 45(b) in the sixth embodiment, the special winning device 151 discharges the game balls that have flowed in from the game area PA to the rear of the game board 24. and a guide unit 152 for guiding the game balls flowing down the game area PA to the discharge passage 153. An entrance portion 153a of the discharge passage 153 has an opening area equal to or larger than one game ball, and is open toward the front of the pachinko machine 10.例文帳に追加A detection sensor 154 is provided on the exit portion 153b side of the discharge passage 153, and the game ball that has won the special winning device 151 is detected by the detection sensor 154. FIG. Guidance unit 152 receives from below the game ball flowing down the front area of the entrance portion 153a in the game area PA, guide member 155 for guiding the received game ball into the discharge passage 153, into the discharge passage 153 A situation in which the guide drive unit 156 for displacing the guide member 155 between the initial position that disables the guidance of the game ball and the guidance position that allows the guidance, and the guide member 155 is arranged at the initial position is placed in a blocking position that blocks the inflow of game balls into the discharge passage 153, and in a situation where the guide member 155 is arranged in the guiding position, it is placed in a non-blocking position that does not block the inflow of game balls into the discharge passage 153. and a blocking member 157 . When the guide driving section 156 is in the non-driving state, the special winning device 151 is in the closed state, and when the guide driving section 156 is in the driving state, the special winning device 151 is in the open state. In the closed state, game balls flowing down the area in front of the inlet 153a of the discharge passage 153 in the game area PA do not enter the special winning device 151 and flow downward in the game area PA. On the other hand, in the open state, game balls flowing down the area in front of the entrance portion 153 a in the game area PA enter the special winning device 151 .

As shown in FIG. 269, a through gate 35 is provided above the special winning device 151 in the right area PA3. That is, the through gate 35 cannot win a prize when the shooting operation device 28 is operated so that the game ball flows down the left side area PA2, and the shooting operation device 28 is operated so that the game ball flows down the right side area PA3. Winning is possible when is operated. The through gate 35 has a through hole extending vertically. In addition, a special winning device 151 is provided at a position vertically below the through gate 35, and a special electric winning device 32 and a V winning device 531 are provided downstream of the special winning device 151 in the right area PA3. ing. Therefore, the game ball that has won the through gate 35 can win the special winning device 151 , the special electric winning device 32 or the V winning device 531 .

The right side area PA3 in which the special winning device 151 and the through gate 35 are collectively arranged is defined by a side wall 36f of the variable display unit 36 which bulges out in front of the pachinko machine 10 from the board surface of the game board 24 on the left side. , and the right side is defined by a regulation wall provided on the resin base 21 of the inner frame 13 and projecting forward of the pachinko machine 10 from the board surface of the game board 24 . The right side area PA3 is set to have a lateral dimension narrower than that of the lower side area PA4, and the lateral dimension is such that it is impossible to arrange the game ball entry devices in the lateral direction at the same height position. It has become. As a result, it becomes possible to limit the flow path of the game ball flowing down the right area PA3 to a predetermined range, and the game ball is likely to enter the special prize winning device 151 and the through gate 35 .

The arrangement mode of the plurality of nails 24b on the upstream side of the through gate 35 in the right area PA3 is set so as to guide the game balls flowing down the right area PA3 to the through gate 35.例文帳に追加As a result, a game ball flowing down the right area PA3 can easily enter the through gate 35, and the ball can easily enter the special winning device 151 as the ball easily enters the through gate 35.例文帳に追加

By switching the induction unit 152 of the special winning device 151 from the non-guiding state to the guiding state based on the winning of the through gate 35, the special winning device 151 changes from the closed state to the open state. Concretely, with winning a prize to thru gate 35 as a trigger, general figure propriety determination processing is performed, and general figure unit 38 provided in the lower left corner, which is an area through which the game ball does not pass, in game area PA Variation display of the pattern is performed in the figure display section 38a. Then, when the result of the general pattern correctness determination process is the electric role open election and the stop result corresponding to the result is displayed and the variable display of the general pattern display unit 38a is ended, the state is shifted to the general electric open state. In the general electric open state, the induction unit 152 is in the induction state in a predetermined manner, so that the special winning device 151 is in the open state in a predetermined manner.

Based on the fact that the winning to the first operating port 33 or the special winning device 151 has occurred, the win/loss determination process is performed. Then, the result of the propriety determination process is clearly shown through the display effect in the special figure unit 37 and the symbol display device 41 of the variable display unit 36. The special figure unit 37 is provided with a first special figure display portion 37a and a second special figure display portion 37b as in the first embodiment. In the first special figure display unit 37a, the variable display of the pattern is performed by performing the winning judgment processing on the first reservation information acquired by the occurrence of the winning to the first operation port 33. Then, a stop result corresponding to the determination result of the success/failure determination process is displayed. In this case, there are a big hit result and a loss result as the determination result of the success/failure determination process, but the contents of the stop result of the first special figure display section 37a are different between the big win result and the loss result. In addition, the time saving result in the said 1st Embodiment is not included in the determination result of the right or wrong determination process in this embodiment.

The display of the stop result in the first special figure display portion 37a is maintained until the next game round is started and the first special figure display portion 37a starts the variable display of a new pattern. In addition, in the second special figure display unit 37b, the variable display of the pattern is performed by performing the winning judgment processing on the second reservation information acquired by the occurrence of the winning to the special winning device 151. Then, a result corresponding to the determination result of the success/failure determination process is displayed. In this case, there are a big hit result and a missing result as the determination result of the win/fail determination process. The contents of the stop result of the second special figure display portion 37b are different between the jackpot result and the off result. The display of the stop result in the second special figure display portion 37b is maintained until the next game cycle is started and the second special figure display portion 37b starts the variable display of a new pattern.

In the special figure unit 37, a first special figure reservation display part 37c and a second special figure reservation display part 37d are provided at positions adjacent to the first special figure display part 37a and the second special figure display part 37b. . The number of game balls winning the first operation port 33 is reserved up to four, and the reserved number is displayed by lighting of the first special figure reservation display section 37c. In addition, the number of winning game balls in the special winning device 151 is reserved up to four, and the reserved number is displayed by lighting the second special figure reservation display section 37d.

The display ranges of the first special figure display portion 37a and the second special figure display portion 37b are narrower than the display surface of the symbol display device 41. Further, the entire display range of the first special figure display portion 37a, the second special figure display portion 37b and the first special figure reservation display portion 37c is also narrower than the display surface of the symbol display device 41. Thereby, it is possible to increase the degree of attention of the player to the symbol display device 41 more than the first special figure display portion 37a, the second special figure display portion 37b and the first special figure reservation display portion 37c.

When the first special figure display portion 37a or the second special figure display portion 37b performs the variable display of the pattern, that is, when the game round is being executed, the symbol display device 41 performs the display effect accordingly. When the game-turn effect is executed on the symbol display device 41, the symbol rows Z1 to Z3, the first reserved display area 42a and the second reserved display area 42b are set in the same manner as in the first embodiment. In addition, the symbol display device 41 performs not only the display effect for the game cycle, but also the display effect during the opening/closing execution mode that shifts after the result of a big hit, and the like. Note that in the present embodiment, setting of the state suggestion region 43 in the first embodiment is not performed.

When a big winning result is selected in the win/fail judgment processing executed based on the winning to the first operation port 33 or the special winning device 151, the opening/closing execution mode is shifted to after the game round corresponding to the big winning result is finished. When a normal round game, which will be described later, is executed in the opening/closing execution mode, it is possible to win a prize to the special electric prize winning device 32 . As shown in FIG. 269, the special electric winning device 32 is provided below the special winning device 151 and above the V winning device 531 in the right area PA3. That is, the special electric prize winning device 32 cannot win a prize when the shooting operation device 28 is operated so that the game ball flows down the left side area PA2, and the shooting operation device 32 makes the game ball flow down the right side area PA3. 28 is operated, winning is possible.

The special electric prize winning device 32 has a large prize winning opening (not shown) leading to the back side of the game board 24, and has an opening/closing door 32a for opening and closing the big winning opening. The opening/closing door 32a is arranged in either a closed state or an open state. Specifically, the opening/closing door 32a is normally in a closed state in which game balls cannot win, and when a big hit result is selected in the success/failure determination process, the opening/closing door 32a is switched to an open state in which game balls can win. ing. It should be noted that although it is not impossible to win a prize in the closed state, it may be configured to be in a state in which it is more difficult to win a prize than in the open state.

When a V-round game, which will be described later, is executed in the opening/closing execution mode, winning to the V-winning device 531 is possible. The V winning device 531 is provided below the special winning device 151 in the right area PA3, as shown in FIG. That is, the V winning device 531 cannot win a prize when the shooting operation device 28 is operated so that the game ball flows down the left area PA2, and the shooting operation device 531 makes the game ball flow down the right area PA3. 28 is operated, winning is possible.

The configuration of the V winning device 531 will be described with reference to FIG. 270 in addition to FIG. FIG. 270 is a longitudinal sectional view for explaining the internal configuration of the V winning device 531. FIG.

As shown in FIG. 269, the V winning device 531 is provided with a device entrance 531a having a size through which game balls can pass. It has a V winning side opening/closing member 532 that switches between the open state and the possible open state. The V winning side opening/closing member 532 is opened by being driven through a link mechanism (not shown) by the drive unit 533 for the V entrance.

A game ball that has won the device entrance 531a is led out to a branch passage 535 formed in a base body 534 of the V winning device 531, as shown in FIG. The branch passage 535 includes an upstream passage region 535a, which is set so that the passage direction slopes downward in the horizontal direction from the entrance portion of the branch passage 535 to the middle position of the branch passage 535, and the upstream passage region 535a. and a discharge passage area 535b set so that the passage direction is vertically downward, and a side different from the discharge passage area 535b provided by branching from the middle position of the discharge passage area 535b. It has a V winning path area 535c for guiding the ball. In this case, the upstream passage area 535a has a dimension in the direction perpendicular to the passage direction that is equal to or more than one game ball and less than two game balls, so that the direction perpendicular to the passage direction A game ball is blocked from passing through the upstream passage area 535a in a state in which a plurality of game balls are lined up. Therefore, it is prevented that a plurality of game balls simultaneously reach the branch position to the V winning path area 535c in the discharge path area 535b.

A switching piece 536 for guiding the game ball that has flowed into the discharge path area 535b to the V winning path area 535c is provided at the branch point of the discharge path area 535b to the V winning path area 535c. The switching piece 536 is rotatably supported in a region opposite to the V winning passage region 535c with respect to the discharge passage region 535b in the base body 534, and is entirely retracted outside the discharge passage region 535b. and a V-guide position projecting into the discharge passage area 535b.

A driving force of a switching driving portion 537 is transmitted to the switching piece 536 through a transmission unit (not shown). The switching drive unit 537 is a stepping motor. The switching drive unit 537 is electrically connected to the main MPU 82 . The main MPU 82 outputs a guidance pulse signal for rotating the switching piece 536 toward the V guidance position and a retraction pulse signal for rotating the switching piece 536 toward the retraction position. The switching piece 536 rotates at a predetermined rotation angle in the direction from the retracted position to the V-guided position each time the switching driving portion 537 receives the induction pulse signal. Further, the switching piece 536 rotates at a predetermined rotation angle in the direction from the V-lead position to the retracted position each time the switching driving portion 537 receives the retraction pulse signal. The number of induction pulse signals output by the main-side MPU 82 in order to arrange the switching piece 536 arranged at the retracted position at the V-lead position is "50", and the switching piece 536 arranged at the V-lead position is switched to the V-lead position. The number of retraction pulse signals output by the main MPU 82 for placement at the retraction position is also "50".

The base body 534 is provided with a return detection sensor 541 capable of detecting the switching piece 536 arranged at the retracted position. The return detection sensor 541 is electrically connected to the input side of the main MPU 82 . The detection signal output from the return detection sensor 541 to the main MPU 82 becomes HI level when the switching piece 536 is positioned closer to the V-lead position than the retracted position, and the switching piece 536 is at the retracted position. It becomes LOW level when it is arranged. By confirming that the detection signal input from the return detection sensor 541 is at the LOW level, the main MPU 82 can recognize that the switching piece 536 is in the retracted position. Based on the state in which the switching piece 536 is arranged at the retracted position, the main MPU 82 outputs the induction pulse signal 50 times from that state, and the switching piece 536 is arranged in the induction position. recognize that there is The state in which the switching piece 536 is arranged at the retracted position can also be said to be the state in which the switching piece 536 has returned to the origin.

When the switching piece 536 is arranged at the retracted position, the game ball flowing into the branch passage 535 flows down the discharge passage region 535b without being guided to the V prize passage region 535c. Then, the game ball is discharged to the rear of the game board 24 after being detected by a count detection sensor 538 provided downstream of the branch position of the switching piece 536 in the discharge passage area 535b. On the other hand, when the switching piece 536 is arranged at the V guiding position, the game ball flowing into the branch passage 535 is received by the switching piece 536 from below. The upper surface of the switching piece 536 in the state of being arranged at the V guide position slopes downward toward the V winning path area 535c. As a result, the game ball received from below by the switching piece 536 flows into the V winning path area 535c due to its own weight, and flows down the V winning path area 535c. Then, the game ball is discharged to the rear of the game board 24 after being detected by the V-winning detection sensor 539 provided in the V-winning path area 535c.

As already described in the thirty-third embodiment, when the RAM clearing process (step SG620 or step SG701) is executed, an input/output confirmation period is set. In this embodiment, retraction position return (original return) is executed to return the switching piece 536 to the retraction position at the start of the input/output confirmation period. As a result, when the RAM clearing process (step SG620 or step SG701) is executed, the switching piece 536 can return to the retracted position.

The base body 534 is made of a transparent or semi-transparent material, and when the V winning device 531 fixed to the game board 24 is viewed obliquely from above, the V winning device 531 can be seen through the window panel 62 and the base body 534. A switching piece 536 provided inside can be visually recognized. The manager of the game hall can grasp whether or not the return of the switching piece 536 to the retracted position has been performed normally by visually checking the state of the switching piece 536 during the input/output confirmation period.

The switching piece 536 operates only during the execution period of the retreat position return and the execution period of the V winning round game. Further, as described above, the switching piece 536 is visible from the outside. Therefore, when the switching piece 536 is operated during a period other than these periods, the manager of the game hall can grasp that the switching piece 536 is illegally operated. there is

In this embodiment, a normal round game and a V winning round game are provided as round games executed in the opening/closing execution mode. In the normal round game, similarly to the round game in the first embodiment, a predetermined open continuation period (for example, 30 seconds) elapses, and a predetermined upper limit number of game balls It is a game in which the open state of the special electric prize winning device 32 continues until one of the conditions for winning is satisfied. The V winning round game is a game in which the device entrance 531a of the V winning device 531 is in an open state, and the game ball can pass through the discharge passage region 535b or the V winning passage region 535c of the V winning device 531. This V winning round game ends when a predetermined time (for example, 30 seconds) elapses after the device entrance 531a of the V winning device 531 is opened. The V winning round game is also terminated when the total number of game balls detected by the count detection sensor 538 or the V winning detection sensor 539 of the V winning device 531 reaches the upper limit number (for example, 10). .

As shown in FIG. 269, an input/output confirmation display device 521 is provided below the pattern display device 41 . The input/output confirmation display device 521 is a dedicated display device for notifying that it is the input/output confirmation period, as in the thirty-third embodiment. The input/output confirmation display device 521 includes a light-emitting portion 521a (for example, an LED), which is lit during the input/output confirmation period. The manager of the game hall can grasp whether or not it is the input/output confirmation period by confirming the input/output confirmation display device 521 .

FIG. 271 is an explanatory diagram for explaining the electrical configuration of the pachinko machine 10. FIG.

As in the 33rd embodiment, on the output side of the main MPU 82, there are a special electric drive unit 32b driven and controlled to open and close the special electric prize winning device 32, and an input/output confirmation display device 521. It is connected (see Figure 271). Further, as shown in FIG. 271, on the output side of the main MPU 82, a guide driving section 156 driven and controlled for opening and closing the special winning device 151 and opening and closing operation of the device entrance 531a in the V winning device 531 are provided. and a switching drive unit 537 controlled to rotate a switching piece 536 in the V winning device 531 are connected.

The input side of the main MPU 82 is connected with the count detection sensor 538, the V prize detection sensor 539 and the return detection sensor 541 in the V prize winning device 531. FIG. Also, on the input side of the main MPU 82, there are a first winning opening detection sensor 551, a second winning opening detecting sensor 552, a third winning opening detecting sensor 553, a special electric detecting sensor 554, a first working opening detecting sensor 555, and a special winning opening. A detection sensor 556, an outlet detection sensor 557 and a gate detection sensor 558 are connected. As shown in FIG. 269, the game board 24 is provided with three general winning holes 31 . A game ball entering the general winning hole 31 is detected by one of the first to third winning hole detection sensors 551 to 553 . A game ball entering the special electric prize winning device 32 is detected by the special electric detection sensor 554, and a game ball entering the first operation opening detection sensor 555 is detected by the first operation opening detection sensor 555 and enters the special prize winning device 151. A game ball hit is detected by a special winning detection sensor 556, and a game ball entering the out port 24a is detected by an out port detection sensor 557. - 特許庁A game ball that is detected by any one of the various detection sensors 551 to 557 does not become a detection target of the other detection sensors 551 to 557 . A game ball passing through the through gate 35 on the way down the game area PA is detected by the gate detection sensor 558 . When the detection sensors 538, 539, 541, 551 to 558 do not detect the passage of the game ball, they output a LOW level signal indicating non-detection as a detection signal to detect the passage of the game ball. When it is detected, it outputs a HI level signal indicating that it is being detected as a detection signal. However, the relationship between the LOW level and the HI level may be reversed.

FIG. 272 is an explanatory diagram for explaining the structure of the main RAM 84. As shown in FIG. A confirmation flag group 522 is provided in the main RAM 84 as in the thirty-third embodiment. As in the thirty-third embodiment, the confirmation flag group 522 includes a first winning confirmation flag 522a, a second winning confirmation flag 522b, a third winning confirmation flag 522c, a special electric winning confirmation flag 522d, and a first operation winning confirmation flag. 522e, an out confirmation flag 522g, and a gate win confirmation flag 522h are provided. 272, the confirmation flag group 522 includes a special winning confirmation flag 522i, a count winning confirmation flag 522j and a V winning confirmation flag 522k.

The special winning confirmation flag 522i is a flag that allows the main side MPU 82 to grasp that the game ball entering the special winning device 151 has been detected by the special winning detection sensor 556 . In addition, the count winning confirmation flag 522j is a flag that enables the main side MPU 82 to grasp that the game ball that entered the V winning device 531 and was guided to the discharge passage area 535b by the count detection sensor 538 was detected. At the same time, the V winning confirmation flag 522k indicates that the main MPU 82 detects that the V winning detection sensor 539 has detected the game ball that has entered the V winning device 531 and is guided to the V winning path area 535c. flag to enable.

The main RAM 84 is provided with a timer counter area 523 in which timer counters 523a to 523i to be updated in the timer update process (FIG. 254) are collected. In the timer counter area 523, as in the thirty-third embodiment, a confirmation timer counter 523a, a switching timer counter 523b, a special figure side timer counter 523c, a general figure side timer counter 523d, a post-confirmation invalidation timer counter 523e, A special electrical monitoring delay timer counter 523f and a general electrical monitoring delay timer counter 523g are provided. Further, in the timer counter area 523, as shown in FIG. 272, a V winning invalidation timer counter 523h and a V winning monitoring delay timer counter 523i are provided. Confirmation timer counter 523a, switching timer counter 523b, special figure side timer counter 523c, general figure side timer counter 523d, V winning invalidation timer counter 523h and V winning monitoring delay timer counter 523i each consists of 2 bytes , post-confirmation invalidation timer counter 523e, special electrical monitoring delay timer counter 523f, and general electrical monitoring delay timer counter 523g each consist of 1 byte. The timer counter area 523 is a storage area of 15 bytes in total.

As already described in the thirty-third embodiment, the post-confirmation invalidation timer counter 523e is a timer counter that enables the main MPU 82 to grasp the post-confirmation invalidation period set at the end of the input/output confirmation period. . In the post-confirmation invalidation period in the present embodiment, even if a game ball is detected by detecting the rise from the LOW level of the detection signal input to the main side MPU 82 from the special electric detection sensor 554 to the HI level, In addition to the period in which the detection of the game ball is treated as invalid, the game ball is detected by detecting the rising from the LOW level of the detection signal input from the special winning detection sensor 556 to the main side MPU 82 to the HI level. It is a period during which the detection of the game ball is treated as invalid even if it is detected. The invalidation period after confirmation is the longest period assumed as the period until the game ball that entered the special electric prize winning device 32 in the open state is detected by the special electric prize detection sensor 554, and the special prize winning device 151 in the open state It is a period longer than the longest period assumed as a period until the entering game ball is detected by the special winning detection sensor 556, and is specifically set to 1 second.

By setting the post-confirmation invalidation period at the end of the input/output confirmation period, the game ball entering the special electric prize winning device 32 immediately before the end of the input/output confirmation period is detected by the special electric detection sensor 554 during the post-confirmation invalidation period. When the game ball is detected, it is possible to prevent the game ball from being put out based on the detection of the game ball, and to prevent the execution of the special electric incoming ball error notification. In addition, when a game ball entering the special winning device 151 immediately before the end of the input/output confirmation period is detected by the special winning detection sensor 556 during the post-confirmation invalidation period, the game ball is detected. Based on the fact that the game ball is put out and the game ball is detected, the win/loss determination process (step S805 of the special figure fluctuation start process (FIG. 20) already described in the first embodiment) can be prevented from being executed and the special ball entry error notification to be described later can be prevented from being executed.

As already described in the thirty-third embodiment, the general electric monitoring delay timer counter 523g is a timer counter that enables the main MPU 82 to recognize that it is the general electric monitoring delay period. In the general electric monitoring delay period in this embodiment, the detection of the game ball by the special winning detection sensor 556 provided in the special winning device 151 is effective even after the special winning device 151 in the open state is closed. This period is treated as The general electric monitoring delay period is set as a period longer than the maximum period assumed as a period until the game ball that has won the special winning device 151 in the open state is detected by the special winning detection sensor 556. Specifically, Typically set to 1 second. By setting a normal electric monitoring delay period at the end of the opening period of the special prize winning device 151 based on the electric win open winning, the game ball entering the special prize winning device 151 immediately before the end of the opening period is monitored for the general electric. When detected by the special winning detection sensor 556 during the delay period, the detection of the game ball can be treated as valid.

The V winning invalidation timer counter 523h is a timer counter that enables the main MPU 82 to grasp whether or not it is the V winning invalidation period set at the end of the execution period of the input/output confirmation process. In the V winning invalidation period, the game ball is detected by the V winning detection sensor 539 or the count detection sensor 538 in a situation where none of the V winning round game execution period, the V winning monitoring delay period, and the input/output confirmation period. In this case, the detection of the game ball is invalidated, but the V winning ball entry error notification based on the detection of the game ball is not executed.

The V winning monitoring delay timer counter 523i keeps the V winning detection sensor 539 and the count detection sensor 538 provided in the V winning device 531 even after the open V winning device 531 is closed. This counter is used by the main MPU 82 to specify the V winning monitoring delay period, which is the period during which the detection is treated as valid.

The V winning disable period and the V winning monitoring delay period are assumed to be periods until the game ball that has won the V winning device 531 in the open state is detected by the count detection sensor 538 or the V winning detection sensor 539. It is set as a period longer than or equal to the maximum period. As already explained, the V winning device 531 has a configuration in which the branch passage 535 branches into the discharge passage area 535b and the V winning passage area 535c. For this reason, the longest period assumed as the period until the game ball that entered the V winning device 531 is detected by the count detection sensor 538 or the V winning detection sensor 539 is the game ball that entered the special electric winning device 32 is longer than the longest period assumed until is detected by the special electric detection sensor 554 and the longest period assumed until the game ball entering the special winning device 151 is detected by the special winning detection sensor 556. The invalidation period for V winning and the monitoring delay period for V winning are longer than the invalidation period after confirmation (1 second), the monitoring delay period for special electrics (1 second) and the monitoring delay period for general electrics (1 second). It is set to 5 seconds.

Nine timer counters 523a to 523i provided in the timer counter area 523 are confirmation timer counter 523a → switching timer counter 523b → special figure side timer counter 523c → general figure side timer counter 523d → V winning invalidation timer counter 523h→V prize monitoring delay timer counter 523i→post-confirmation invalidation timer counter 523e→special electrics monitoring delay timer counter 523f→general electrics monitoring delay timer counter 523g. It is set in a continuous address range of "0101H" to "010FH" so that the target timer counter to be set is updated.

The values of the V winning invalidation timer counter 523h and the V winning monitoring delay timer counter 523i are updated in the timer updating process (FIG. 254). When the timer update process (FIG. 254) is executed in a state where the value of the V winning invalidation timer counter 523h is 1 or more, the value of the V winning invalidation timer counter 523h is decreased by 1 and the V winning invalidation timer counter 523h When the timer update process (FIG. 254) is executed while the value of the invalidation timer counter 523h is "0", this state is maintained. Further, when the timer update process (FIG. 254) is executed in a state in which the value of the V winning monitoring delay timer counter 523i is 1 or more, the value of the V winning monitoring delay timer counter 523i decreases by 1 and V When the timer update process (FIG. 254) is executed in a state where the value of the winning monitor delay timer counter 523i is "0", this state is maintained.

As shown in FIG. 272, the main RAM 84 is provided with a switching control counter 542 and a V winning timer counter 543 . The switching control counter 542 is a counter that enables the main MPU 82 to grasp the state of the switching piece 536 . The switching control counter 542 is set with numerical value information from "0" to "3". A state in which the value of the switching control counter 542 is "0" is a state in which the switching piece 536 is maintained at the retracted position and has returned to the origin. A state in which the value of the switching control counter 542 is "1" is a state in which the switching piece 536 is rotating from the retracted position toward the guiding position, and the value of the switching control counter 542 is "2". The state is a state in which the switching piece 536 is maintained at the induced position, and the state in which the value of the switching control counter 542 is "3" indicates that the switching piece 536 is rotating from the induced position toward the retracted position. state. The V winning timer counter 543 determines the time during which the induction pulse signal is output to the switching drive section 537 and the time during which the retraction pulse signal is output to the switching drive section 537. , and the time during which the induction pulse signal and the retraction pulse signal are not output to the switching driving unit 537 are set.

<Electrical configuration for performing various lotteries in the main MPU 82>
As already described in the first embodiment, the various counter areas 84b of the main RAM 84 include a winning random number counter C1, a type random number counter C2, a reach random number counter C3, a random number initial value counter CINI, a variation type counter CS and a normal counter. A random number counter C4 is provided.

As already explained in the first embodiment, the general electric random number counter C4 is configured to be incremented by 1 in order within the range of 0 to 250, and return to "0" after reaching the maximum value. . The general electric random number counter C4 is periodically updated, and is stored in the general drawing reservation area 84c at the timing when the game ball wins the through gate 35.例文帳に追加Then, at a predetermined timing, a general/universal pattern correctness determination process for determining whether or not to control the general/universal electric accessory 34a to the open state is performed based on the stored value of the general/universal electric random number counter C4.

FIG. 273(a) is an explanatory diagram for explaining the contents of the support mode. In the support mode, the frequency of the special prize winning device 151 being in the open state per unit time is relatively high or low when compared with the situation where the shooting of game balls is continued in the same manner to the game area PA. A high-frequency support mode and a low-frequency support mode are set so that

As a determination mode in the case where the general-purpose winning judgment processing for determining by lottery whether or not the special winning device 151 is in the open state, the probability of winning the electric role open is relative. There is a high probability mode on the general map side and a low probability mode on the general map side so that it is high and low. In the low-probability mode of the general map side, the probability of being elected to open the electric role in one general pattern correctness determination process is 1/2, whereas in the high-probability mode of the general map side, the general pattern correctness judgment is performed once. In the process, the probability of winning the electric role open is 4/5.

When the normal pattern suitability determination process is executed, the variable display of the pattern is started in the normal pattern display section 38a. In this case, as the fluctuation period of the general pattern, which is the duration of the fluctuation display times in which the pattern is displayed in the general pattern display unit 38a, a long period (10 seconds) is set so that the period is relatively long or short. and a short period (1 second). The fluctuation period of the normal map in the low frequency support mode is 10 seconds, and the fluctuation period of the normal map in the high frequency support mode is 1 second.

When the variable display time of the normal pattern display unit 38a ends, the normal map display unit 38a displays the stop result corresponding to the determination result of the normal pattern correctness determination process that triggered the execution of the variable display time. . In this case, when the determination result of the general/universal pattern correctness determination process is a result of deviation, the stop result corresponding to the result is displayed on the general/universal pattern display unit 38a, and the transition to the general/universal power open state does not occur. When the reservation information on the side of the general pattern is stored in the general pattern reservation area 84c, the reservation information on the side of the general pattern is newly subjected to the general pattern propriety determination process, and is newly displayed in the general pattern display unit 38a. A variable display time is started. On the other hand, if the determination result of the general pattern correctness determination process is the result corresponding to the electric role open winning, the stop result corresponding to the winning result is displayed on the general pattern display unit 38a, and the transition to the general electric open state is performed. Occur.

As execution modes in the electric power open state, there are a high expectation mode and a low expectation mode so that the degree of expectation of game balls entering the special winning device 151 is relatively high and low. In the low expectation mode, the short opening of the special winning device 151 occurs once. The duration of the short opening is 0.7 seconds. As already explained, since the shooting cycle of the game ball is 0.6 seconds, when the special winning device 151 is opened once for a short time, the game ball enters the special winning device 151 basically. Even if it occurs without doing so, the number of hit balls is about one. The normal electric open state ends when the number of game balls entered into the special prize winning device 151 reaches 10, which is the upper limit number of the electric electric side. As described above, even if a game ball enters the special winning device 151, it is about one, so the special winning device 151 is not hit with the maximum number of game balls on the electric power side.

In the high expectation mode, the long opening of the special winning device 151 occurs three times. The duration of the long open is 2 seconds. As already explained, since the game ball shooting cycle is 0.6 seconds, when the special winning device 151 is opened once for a long time, about 3 game balls can enter the special winning device 151 . Then, in the general electric open state of the high expectation mode, the long opening occurs three times with an interval period (specifically, 1 second) on the general electric side in which the special winning device 151 is in the closed state. Therefore, when the high-expectation mode general electric open state occurs, about nine game balls can enter. In addition, as described above, the general electric open state ends when the number of game balls entering the special winning device 151 reaches 10, which is the upper limit number of the general electric side. When the state occurs, the event that the general electric open state ends can occur when the upper limit number of game balls on the general electric side enter the special winning device 151 .

As described above, in the configuration in which the determination mode of the general pattern validity determination process, the execution mode of the general pattern fluctuation period and the general electrical open state in the general pattern display unit 38a are set, in the low frequency support mode, the general pattern validity determination process The determination mode of is a low probability mode on the general map side, the fluctuation period of the general pattern is a long period (10 seconds), and the execution mode of the general electric open state is a low expectation mode in which short opening occurs once. In addition, in the high frequency support mode, the judgment mode of the general pattern correctness determination process is the high probability mode on the general pattern side, the fluctuation period of the general pattern is short (1 second), and the execution mode of the general pattern open state is long open 3 It becomes a high expectation mode in which times occur. Therefore, when game balls continue to be shot in the same manner so as to generate a prize through the through gate 35, the degree of expectation for the rate at which the special prize winning device 151 is in the open state per unit time is high. Support mode is higher than low frequency support mode. In addition, in the low frequency support mode, since the execution mode of the general electric open state becomes the low expectation mode, in the case of the low frequency support mode, almost no game balls enter the special winning device 151. Therefore, in the high-frequency support mode, the execution mode of the general electric open state becomes the high-expectation mode, so in the case of the high-frequency support mode, the entry of the game ball to the special winning device 151 is the second special figure reservation area It can be expected that more than the upper limit number of the second pending information in 112 will occur.

As already explained in the first embodiment, the winning random number counter C1 is configured to be incremented by 1 in order within the range of 0 to 9999, and return to "0" after reaching the maximum value. In particular, when the winning random number counter C1 completes one cycle, the value of the random number initial value counter CINI at that time is read as the initial value of the winning random number counter C1. The random number initial value counter CINI is a loop counter similar to the winning random number counter C1 (value=0 to 9999). The hit random number counter C1 is periodically updated, stored in the first special figure reservation area 111 at the timing when the game ball that has won the first operation port 33 is detected, and the game ball that has won the special prize winning device 151 is detected. It is stored in the second special figure reservation area 112 at the timing. Then, using the stored numerical value information of the hit random number counter C1, the win/fail determination process is performed.

The values of random numbers to be won in the winning/failure determination process are stored in the main ROM 83 as a winning/failure table. As in the first embodiment, there are a high-probability mode and a low-probability mode in which the probability of a big win result is relatively high or low as the win-or-fail lottery mode of the win-or-fail determination process. A low-probability success/failure table 561 is provided as a success/failure table referenced in the success/failure determination process in the low-probability mode. Further, a high-probability success/failure table 562 is provided as a success/failure table referred to in the success/failure determination process in the high-probability mode. FIG. 273(b) is an explanatory diagram for explaining the success/failure table 561 for the low probability, and FIG. 273(c) is an explanatory diagram for explaining the success/failure table 562 for the high probability.

As shown in FIGS. 273(b) and 273(c), as a result of the success/failure determination process, there are a big win result and a losing result. The jackpot result is a winning/failing result that can serve as a trigger for shifting to the opening/closing execution mode in which a plurality of round games are executed, as well as a trigger for shifting to the win/fail lottery mode and the support mode. The deviation result is a win/fail result that does not trigger a shift to the opening/closing execution mode, and does not trigger a shift to the win/fail lottery mode and the support mode.

As in the first embodiment, the pachinko machine 10 has "setting 1" to "setting 6" as setting values for determining the advantage per unit time. As shown in FIG. 273(b), the success/failure table 561 at the time of low probability is set such that the higher the set value, the higher the probability of a big win result, and the higher the set value, the lower the probability of a misrepresentation result.

Specifically, 50 pieces are set as the number of numerical information of the winning random number counter C1 that results in a big win in the "setting 1" which is the lowest setting value, and the numerical information of the winning random number counter C1 that results in a losing result is set. is set to 9950. In addition, 52 pieces are set as the number of numerical information of the winning random number counter C1 that results in a big win in the "setting 2", which is a set value one step higher than the "setting 1", and the winning random number counter that results in a losing result. 9948 pieces are set as the number of numerical information of C1. "Setting 3", which is one step higher than "Setting 2", is set to 54 as the number of numerical information of the winning random number counter C1 that results in a big win, and the winning random number counter that results in a loss. 9946 is set as the number of numerical information of C1. "Setting 4", which is a set value one step higher than "Setting 3", is set to 56 as the number of numerical information of the winning random number counter C1 that results in a big win, and a winning random number counter that results in a loss. 9944 pieces are set as the number of numerical information of C1. In addition, 58 pieces are set as the number of numerical information of the winning random number counter C1 that results in a big win in "setting 5", which is a set value one step higher than "setting 4", and the winning random number counter that results in a loss. 9942 pieces are set as the number of numerical information of C1. In addition, 60 is set as the number of numerical information of the winning random number counter C1 that results in a big win in "setting 6", which is the highest setting value, and 60 is set as the number of numerical information of the winning random number counter C1 that results in a loss. 9940 are set. As described above, the probability of a time-saving result in the low-probability mode is higher than the probability of a jackpot result, regardless of the set value.

The success/failure table 561 at the time of low probability is a low-probability mode when the success/failure determination process is executed for the first reservation information, and when the success/failure determination process is performed for the second reservation information in the low-probability mode. is referenced. Therefore, the probability that the jackpot result is selected when the propriety determination is performed for the first pending information in the low probability mode is the jackpot when the propriety determination is performed for the second pending information in the low probability mode It is the same as the probability that an outcome is selected.

In addition, it is not limited to this, as the probability that the jackpot result is selected in the success judgment process, the case where the success judgment is executed for the second reservation information is the success or failure for the first reservation information It may be a configuration in which a higher probability is set than when the determination is performed, and the case where the validity determination is performed for the first reservation information is performed for the second reservation information. A configuration in which a probability higher than the case is set may be used.

As shown in FIG. 273(c), in the success/failure table 562 at the time of high probability, 500 pieces are set as the number of numerical information of the winning random number counter C1 that results in a big win in "setting 1" to "setting 6". , 9500 is set as the number of numerical information of the hit random number counter C1 that results in a loss.

The success/failure table 562 at the time of high probability is a high-probability mode when the success/failure determination process is executed for the first reservation information, and when the success/failure determination process is performed for the second reservation information in the high-probability mode. is referenced. With this, the correctness table corresponding to each of the case where the correctness determination process is executed for the first reservation information in the high probability mode and the case where the correctness determination process is executed for the second reservation information in the high probability mode is provided, it is possible to reduce the storage capacity of the main ROM 83 required for storing the right/wrong table 562 .

In the low probability mode, the probability of a jackpot result in "setting 1" is 1/200, the probability of a jackpot result in "setting 2" is about 1/192, and the jackpot result in "setting 3" The probability of becoming a big hit is about 1/185, the probability of getting a big win at “setting 4” is about 1/179, the probability of getting a big win at “setting 5” is about 1/172, and the probability of getting a big win at “setting 6” is about 1/179. , the probability of a jackpot outcome is about 1/167. Also, in the high-probability mode, the probability of a big win result in "setting 1" to "setting 6" is 1/20. In this way, the probability of a big win result is higher in the high-probability mode than in the low-probability mode, regardless of any of "setting 1" to "setting 6".

As described above, the higher the setting value, the higher the probability that the result will be a big hit, regardless of whether the first reservation information is the trigger or the second reservation information is the trigger. The higher the value, the more advantageous it is for the player. In addition, the open/close execution mode is a period during which the amount of increase in the number of balls possessed by the player per unit time is the largest. It is possible to increase the player's attention to the set value.

When the combination of the set value and the success/failure lottery mode is the same, the probability of a big hit result is the same when triggered by the first pending information and when triggered by the second pending information. there is As a result, it is possible to prevent a difference in the probability of occurrence of the big winning result between the case triggered by the first reservation information and the case triggered by the second reservation information.

As already described in the first embodiment, the type random number counter C2 is configured to be incremented by 1 in order within the range of 0 to 29, and return to "0" after reaching the maximum value. The type random number counter C2 is periodically updated, stored in the first special figure reservation area 111 at the timing when the game ball that has won the first operation port 33 is detected, and the game ball that has won the special prize winning device 151 is detected. It is stored in the second special figure reservation area 112 at the timing.

Also in this embodiment, a plurality of jackpot results can be obtained by providing differences in the three conditions of the number of executions of the round game in the opening/closing execution mode, the success/failure lottery mode after the opening/closing execution mode ends, and the support mode after the opening/closing execution mode ends. is set. Jackpot distribution table 563 for the first special figure as a jackpot distribution table to be referred to in the jackpot distribution determination processing when the jackpot result is selected in the success/failure determination processing for the first reservation information (Fig. 274 ( a) see) is provided. In addition, a jackpot distribution table 564 for the second special figure as a jackpot distribution table that is referred to in the jackpot distribution determination processing when the jackpot result is selected in the success/failure determination processing for the second reservation information (Fig. 274(b)) is provided.

Here, the game state after the opening/closing execution mode ends will be described. The game state is a normal game state that is a low probability mode and a low frequency support mode, a high probability state that is a high probability mode and a high frequency support mode, and a low probability mode and a high frequency support mode. A short time state is set. In the high-probability state and the time-saving state, the average period required for completing one game round is shorter than in the normal game state.

Figure 274 (a) is an explanatory diagram for explaining the jackpot distribution table 563 for the first special figure, Figure 274 (b) is an explanation for explaining the jackpot distribution table 564 for the second special figure It is a diagram. As shown in FIG. 274 (a), the jackpot distribution table 563 for the first special figure is set with 5R normal result, 5R probability variation result and 16R probability variation result as types of jackpot results, and FIG. 274 ( As shown in b), 5R probability variation result and 16R probability variation result are set in the second special figure jackpot distribution table 564 as types of jackpot results.

FIG. 274(c) is an explanatory diagram for explaining the contents of the 5R normal result, the 5R probability variation result and the 16R probability variation result. As already explained, the 5R normal result is generated by selecting a jackpot result in the win/fail judgment process and selecting it in the jackpot distribution judgment process. As shown in FIG. 274(c), the 5R normal result is a jackpot result in which the normal round game is executed five times in the open/close execution mode. When the opening/closing execution mode based on the occurrence of the 5R normal result ends, the win/fail lottery mode becomes the low-probability mode, and the support mode becomes the high-frequency support mode. That is, the game state becomes the time saving state. The low probability mode in this case continues at least until the next open/close execution mode occurs. Further, the high-frequency support mode ends when 100 game rounds are completed without any new open/close execution mode. When 100 games have been completed, the support mode becomes the low-frequency support mode. That is, after the opening and closing execution mode based on the occurrence of the 5R normal result ends and becomes a time saving state, when 100 game times are digested without the opening and closing execution mode newly occurring, the time saving state is completed, the normal game state is entered.

The 5R probability variation result is generated by being selected in the distribution determination process for the big hit as a jackpot result in the winning/failing determination process as already described. As shown in FIG. 274(c), the 5R variable probability result is a jackpot result in which 4 normal round games and 1 V winning round game are executed in the open/close execution mode. The V winning round game is executed as the final (fifth) round game among the round games executed a total of five times. In the open/close execution mode, the V winning round game is not limited to being executed as the last round game. For example, the V winning round game may be executed as the first (first) round game. , V winning round game may be executed as the third round game.

When the game ball is detected by the V winning detection sensor 539 in the opening and closing execution mode based on the occurrence of the 5R probability variation result, after the opening and closing execution mode ends, the winning lottery mode becomes the high probability mode and the support mode. is the high-frequency support mode. That is, the game state becomes a high probability state. The high-probability state continues until the next open/close execution mode occurs. On the other hand, when the game ball is not detected by the V winning detection sensor 539 in the opening/closing execution mode based on the occurrence of the 5R probability variation result, the winning/failure lottery mode becomes the low probability mode after the opening/closing execution mode ends. Together with this, the support mode becomes the high-frequency support mode. That is, the game state becomes the time saving state. The low probability mode in this case continues at least until the next open/close execution mode occurs. Further, the high-frequency support mode ends when 100 game rounds are completed without any new open/close execution mode. When 100 games have been completed, the support mode becomes the low-frequency support mode. That is, after the opening and closing execution mode based on the occurrence of the 5R probability variation result ends and becomes a time saving state, when 100 game rounds are digested without the opening and closing execution mode newly occurring, the time saving state is completed, the normal game state is entered.

The 16R probability variation result is generated by being selected in the distribution determination process for the big hit as a big hit result in the success/failure determination process as already described. As shown in FIG. 274(c), the 16R variable probability result is a jackpot result in which 15 normal round games and 1 V winning round game are executed in the open/close execution mode. The V winning round game is executed as the final (16th) round game among the round games executed a total of 16 times. In the open/close execution mode, the V winning round game is not limited to being executed as the last round game. For example, the V winning round game may be executed as the first (first) round game. , the V winning round game may be executed as the eighth round game.

When the game ball is detected by the V winning detection sensor 539 in the opening and closing execution mode based on the occurrence of the 16R probability variation result, after the opening and closing execution mode ends, the winning lottery mode becomes the high probability mode and the support mode. is the high-frequency support mode. That is, the game state becomes a high probability state. The high-probability state continues until the next open/close execution mode occurs. On the other hand, when the game ball is not detected by the V winning detection sensor 539 in the opening/closing execution mode based on the occurrence of the 16R probability variation result, the winning/failure lottery mode becomes the low probability mode after the opening/closing execution mode ends. Together with this, the support mode becomes the high-frequency support mode. That is, the game state becomes the time saving state. The low probability mode in this case continues at least until the next open/close execution mode occurs. Further, the high-frequency support mode ends when 100 game rounds are completed without any new open/close execution mode. When 100 games have been completed, the support mode becomes the low-frequency support mode. That is, after the opening and closing execution mode based on the occurrence of the 16R probability variation result ends and becomes a time saving state, when 100 game rounds are digested without the opening and closing execution mode newly occurring, the time saving state is completed, the normal game state is entered.

As shown in FIG. 274(a), the jackpot distribution table 563 for the first special figure is set with 5R normal result, 5R probability variation result and 16R probability variation result as the types of jackpot results to be distributed. . In the jackpot distribution table 563 for the first special figure, the type random number counter C2 of "0 to 14" corresponds to the 5R normal result, and the type random number counter C2 of "15 to 22" corresponds to the 5R probability variation result. , and the type random number counter C2 of "23 to 29" corresponds to the 16R probability variation result. On the other hand, as shown in FIG. 274(b), 5R probability variation results and 16R probability variation results are set in the second special figure jackpot distribution table 564 as the types of jackpot results to be distributed. In the jackpot distribution table 564 for the second special figure, the type random number counter C2 of "0 to 14" corresponds to the 5R probability variation result, and the type random number counter C2 of "15 to 29" corresponds to the 16R probability variation result. ing.

The probability that the opening/closing execution mode including the V winning round game is executed is higher in the jackpot distribution table 564 for the second special figure than in the jackpot distribution table 563 for the first special figure. In addition, the average number of executions of the round game is also larger in the jackpot distribution table 564 for the second special figure than in the jackpot distribution table 563 for the first special figure. Therefore, as the type of jackpot result that can be selected when the jackpot is won, winning to the special prize winning device 151 occurs rather than the case where the win to the first operation port 33 occurs and the winning/failure determination process is performed. It is more advantageous for the player to perform the win/fail determination process.

As already described in the first embodiment, the reach random number counter C3 is configured to be incremented by 1 in sequence within the range of 0 to 238, for example, and return to "0" after reaching the maximum value. The ready-to-win display is executed regardless of the value of the ready-to-win random number counter C3 in game rounds in which the same combination of symbols is finally stopped and displayed. Also, in the game cycle corresponding to the result of the loss, the reach table stored in the main ROM 83 is referred to, and the reach display is executed when the reach random number counter C3 corresponds to the generation of the reach display.

As already explained in the first embodiment, the fluctuation type counter CS is configured to be incremented by 1 in order within the range of 0 to 198, for example, and return to "0" after reaching the maximum value. The variation type counter CS is used to determine the variation display period in the special figure display units 37a and 37b and the variation display period of the symbol in the symbol display device 41 in the main side MPU82. The variation type counter CS is repeatedly updated, and is acquired when determining the variation pattern at the start of the variation display in the special figure display units 37a and 37b and at the start of variation in the design by the design display device 41.

<Special special train control processing>
Next, the special figure special electric control processing executed by the main side MPU 82 will be described with reference to the flowchart of FIG. As already described in the thirty-third embodiment, the special figure special electric control process is executed in step SG917 of the timer interrupt process (FIG. 249).

First, a hold information acquisition process is executed (step SI201). In the pending information acquisition process, winning to the first operation port 33 has occurred, and the number of first pending information stored in the first special figure pending area 111 is less than the upper limit storage number (specifically less than "4"), a process for acquiring the first pending information is executed. In the process for acquiring the first pending information, the number of unprocessed first pending information stored in the first special figure pending area 111 is provided in the main side RAM 84 in order to grasp the number of unprocessed first pending information in the main side MPU 82 Add 1 to the value of the first special figure reservation counter. The display contents of the first special figure reservation display section 37c in the special figure unit 37 are adjusted according to the value of the first special figure reservation counter. As a result, the display content of the first special figure reservation display portion 37 c corresponds to the number of first reservation information stored in the first special figure reservation area 111 . After that, the values of the hit random number counter C1, the type random number counter C2, and the reach random number counter C3 are set to 1 based on the winning to the first storage area of the first special figure reservation area 111, that is, the first operation port 33 this time. Store in the storage area corresponding to the added reserved storage number. After that, the first hold command is transmitted to the sound and light side MPU 93 . Thereby, the display side MPU 103 controls the display of the pattern display device 41 so that the display content of the first reserved display area 42a of the pattern display device 41 becomes the display content corresponding to the increase of the first reserved information.

In the pending information acquisition process, a prize to the special winning device 151 has occurred, and the number of second pending information stored in the second special figure pending area 112 is less than the upper limit storage number (specifically, " 4"), the process for acquiring the second pending information is executed. In the process for acquiring the second pending information, the number of unprocessed second pending information stored in the second special figure pending area 112 is provided in the main side RAM 84 in order to grasp the number of unprocessed second pending information in the main side MPU 82 Add 1 to the value of the second special figure reservation counter. The display contents of the second special figure reservation display section 37d in the special figure unit 37 are adjusted according to the value of the second special figure reservation counter. As a result, the display content of the second special figure reservation display section 37 d corresponds to the number of second reservation information stored in the second special figure reservation area 112 . After that, each value of the hit random number counter C1, the type random number counter C2 and the reach random number counter C3 is added to the first storage area of the second special figure reservation area 112, that is, based on the winning to the special winning device 151 this time Stored in the storage area corresponding to the reserved storage number. After that, it transmits the second hold command to the sound and light side MPU 93 . Thus, the display side MPU 103 controls the display of the pattern display device 41 so that the display content of the second reserved display area 42b of the pattern display device 41 becomes the display content corresponding to the increase of the second reserved information.

After executing the pending information acquisition process in step SI201, the numerical information of the special special electric counter provided in the main side RAM84 is read (step SI202), and the special special electric address table provided in the main side ROM83 is read. Read out (step SI203). Then, the start address corresponding to the numerical information of the special special electric counter is acquired from the special special electric address table (step SI204), and the process indicated by the acquired start address is jumped to (step SI205).

The special figure special electric counter is a counter for the main side MPU 82 to grasp which of the processes of steps SI206 to SI212 in the special figure special electric control process should be executed. , the start address in the program for executing each process of steps SI206 to SI212 is set in correspondence with the numerical information of the special special electric counter. When the value of the special figure special electric counter is "0", it jumps to the special figure fluctuation start processing of step SI206, and when the value of the special figure special electric counter is "1", it jumps to the special figure fluctuation process of step SI207. When the value of the special special electric counter is "2", it jumps to the processing during special special electric confirmation of step SI208, and when the value of the special special electric counter is "3", the round of step SI209 Jump to start processing, if the value of the special special electric counter is "4", jump to the round open processing of step SI210, if the value of the special special electric counter is "5", step SI211 If the value of the special special electric counter is "6", jump to round end processing of step SI212. Each process from step SI206 to step SI212 will be individually described below.

<Special figure fluctuation start processing>
First, the special figure fluctuation start processing of step SI206 will be described with reference to the flowchart of FIG. It should be noted that the special figure fluctuation start process is not executed in the situation where the game round has already been executed and in the situation where the opening and closing execution mode is being executed.

In steps SI301 to SI304, the same processes as steps S801 to S804 of the special figure variation start process (FIG. 20) in the first embodiment are executed. Specifically, when the second reservation information is not stored in the second special figure reservation area 112 and the first reservation information is stored in the first special figure reservation area 111 (step SI301: YES, step SI302: NO), the first data setting process is executed (step SI303). The contents of the first data setting process are already explained in the first embodiment. On the other hand, if the second reservation information is stored in the second special figure reservation area 112 (step SI301 and step SI302: YES), the first reservation information acquired earlier than the second reservation information is the first Even if it is stored in the 1 special figure reservation area 111, the second data setting process is executed (step SI304). The contents of the second data setting process are already explained in the first embodiment. When the second reservation information is stored, even if the first reservation information acquired earlier than the second reservation information is stored, the second reservation information is shifted to the execution area 113 for the special figure. Be eligible. As a result, the second pending information is digested with priority over the first pending information as a game start target.

When the process of step SI303 or the process of step SI304 is executed, the suitability determination process is executed (step SI305). In the success/failure determination process, if the success/failure lottery mode is a low-probability mode, the start target of the game cycle is either the first reservation information or the second reservation information, but the success/failure table 561 at the time of the low probability (see FIG. 273(b)) ) is read from the main ROM 83 to the main RAM 84, and if the win/loss lottery mode is the high probability mode, the win/fail table at the time of the high probability regardless of whether the start target of the game round is the first hold information or the second hold information. 562 (see FIG. 273(c)) is read from the main ROM 83 to the main RAM 84 . After reading the success/failure tables 561 and 562, from the hold information stored in the execution area 113 for the special figure, read out the information for success/failure determination, that is, the numerical information obtained from the random number counter C1, and the read numerical information is Then, it is determined whether or not the data group corresponding to the setting value of the current usage object in the read success/failure tables 561 and 562 matches with any of the numerical information set as the result of the big win.

If the result of the success/failure determination process is a jackpot result (step SI306: YES), a distribution determination process for jackpot is executed (step SI307). In the jackpot distribution determination process, if the start target of the game cycle is the first reservation information, the jackpot distribution table 563 for the first special figure (see FIG. 274(a)) is transferred from the main ROM 83 to the main RAM 84. Read out, if the start target of the game round is the second reservation information, the big hit distribution table 564 for the second special figure (see FIG. 274 (b)) is read from the main side ROM 83 to the main side RAM 84. After reading the jackpot distribution tables 563 and 564, from the reservation information stored in the execution area 113 for special figures, read the information for distribution determination, that is, the numerical information obtained from the type random number counter C2, and the jackpot swing. By referring to the minute tables 563 and 564, it is specified which type of jackpot result the read numerical information corresponds to.

After executing the distribution determination process for the big win, the flag of the main side RAM 84 corresponding to the type of the result of the big win specified in the distribution determination process for the big win is set to "1" (step SI308). Thereafter, a stop result setting process for the jackpot result is executed (step SI309). Specifically, information on the stop mode of the pattern to be finally stopped and displayed on the special figure display units 37a and 37b, which are the targets for starting the game round this time, is stored in the main ROM 83 in advance. It is specified from the result table, and the specified information is stored in the main side RAM 84 . In the stop result table for the jackpot results, the types of stop modes of the symbols stopped and displayed in the first special figure display section 37a or the second special figure display section 37b are set differently for each type of jackpot result. At step SI309, the main side RAM 84 stores information on the pattern stop mode corresponding to the type of the jackpot result specified at step SI308. The pattern stop mode may be set in a one-to-one correspondence with each jackpot result, or a plurality of types of pattern stop modes may be set for at least some of the jackpot results. Any method can be used to select a stop result for a jackpot result in which a plurality of types of pattern stop modes are set.

If the result of the success/failure determination process is not a jackpot result (step SI306: NO), a stop result setting process for the loss result is executed (step SI310). Specifically, information on the form of the pattern to be finally stopped and displayed on the first special figure display unit 37a or the second special figure display unit 37b in this game round is stored in the main side ROM 83 in advance. The specified information is stored in the main side RAM 84 . The information of the pattern mode selected in this case is different from the information of the pattern mode selected in the case of the jackpot result and the information of the pattern mode selected in the case of the time saving result, and furthermore, the first feature There is one common type in the figure display portion 37a and the second special figure display portion 37b.

When the process of step SI309 or the process of step SI310 is performed, the process of specifying the variable display period is performed (step SI311). In the variable display period specifying process, first, it is determined whether or not the high probability flag of the main RAM 84 is set to "1". As already described in the first embodiment, the high-probability flag is a flag for the main MPU 82 to specify whether the winning lottery mode is the high-probability mode. When the high-probability flag is set to "1", that is, when the lottery mode is the high-probability mode, the high-probability tables are read from the main ROM 83 to the main RAM 84 . In the situation where the selection process of the variable display period is executed with reference to the table group for high probability, if a big hit result occurs in the current game round, or if the result of the win/fail judgment process is a wrong result, the execution target Numerical information corresponding to the reach random number counter C3 in the hold information corresponds to the occurrence of the out-reach display, and if the out-reach display occurs in this game round, the numerical information of the fluctuation type counter CS at that time is checked against the table corresponding to the reach in the table group for high probability, the information of the variable display period of the reach display mode is read. As the variable display period of the reach display mode, there are a period of 15 seconds, a period of 18 seconds, and a period of 20 seconds. The variable display period of these reach display modes is longer than the variable display period when the reach display does not occur.

When no big hit result occurs in the current game round and no out-reach display occurs, the second reservation information is the execution target of the game round and two or more second If it is a game round started in a situation where the hold information is stored, the information of the shortest period (specifically 3 seconds) on the special figure side is read as the variable display period of the current game round. As a result, it is possible to increase the efficiency of digesting the game times triggered by the second suspension information in the high probability mode.

On the other hand, in the current game round, when no big hit result occurs and no out-reach display occurs, the second reserve information is the execution target of the game round and one second reserve is placed in the second special figure reserve area 112. When the game round is started in the state where the information is stored, or when the big win result does not occur in the current game round and the winning reach display does not occur, the first hold information is the execution object of the game round. If it is, read the information of the middle period (specifically 10 seconds) on the special figure side as the variable display period of this game round. Thereby, it becomes possible to secure a situation in which the second reservation information is acquired in the high probability mode.

If the high probability flag of the main RAM 84 is not set to "1", it is determined whether or not the high frequency flag of the main RAM 84 is set to "1". The high frequency flag is a flag that enables the main MPU 82 to recognize that the support mode is the high frequency support mode. If the high frequency flag is set to "1", that is, if the winning lottery mode is a low probability mode and the support mode is a high frequency support mode (if the game state is a time saving state), high frequency A support table group is read from the main ROM 83 to the main RAM 84 . In the situation where the variable display period selection process is executed with reference to the table group for high-frequency support, if a big hit result occurs in the current game round, or if the result of the win/fail judgment process is a wrong result, it will be executed. If the numerical value information corresponding to the reach random number counter C3 in the pending information in question corresponds to the occurrence of the loss reach display and the loss reach display occurs in the current game round, the value of the fluctuation type counter CS at that time By collating the information with the table corresponding to reach in the table group for high-frequency support, the information of the variable display period of the reach display mode is read. In this case, the selection mode of the variable display period of the reach display mode is different from when the table group for high probability is referred to. Specifically, when the table group for high probability is referred to, the frequency is higher. A longer variable display period is more likely to be selected than when a supporting table group is referenced. However, this relationship may be reversed.

If no big win result occurs in the current game round and no out-reach display occurs, the second reservation information is the execution target of the game round and there are two or more second pieces in the second special figure reservation area 112 If it is a game round started in a situation where the hold information is stored, the information of the shortest period (specifically 3 seconds) on the special figure side is read as the variable display period of the current game round. As a result, it is possible to increase the efficiency of digestion of game times triggered by the second hold information in the high-frequency support mode.

On the other hand, in the current game round, when no big hit result occurs and no out-reach display occurs, the second reserve information is the execution target of the game round and one second reserve is placed in the second special figure reserve area 112. When the game round is started in the state where the information is stored, or when the big win result does not occur in the current game round and the winning reach display does not occur, the first hold information is the execution object of the game round. If it is, read the information of the middle period (specifically 10 seconds) on the special figure side as the variable display period of this game round. This makes it possible to secure the situation in which the second hold information is acquired in the high-frequency support mode.

When the high frequency flag is not set to "1", that is, when the win/fail lottery mode is the low probability mode and the support mode is the low frequency support mode in the normal game state, the table group for the low frequency support. is read from the main ROM 83 to the main RAM 84 . If a big hit result occurs in the current game round, or if the result of the winning/failure determination process is a loss result, the numerical information corresponding to the reach random number counter C3 in the hold information that is the object of execution corresponds to the occurrence of a loss reach display If the out-of-range reach display occurs in this game round, the reach display mode is obtained by collating the numerical information of the fluctuation type counter CS at that time against the reach-compatible table in the low-frequency support table group. Reads the information of the variable display period of In the reach correspondence table in the low-frequency support table group, a period of 15 seconds, a period of 18 seconds, and a period of 20 seconds are set as variable display periods of the reach display mode. The shortest fluctuation display period of the reach display mode of the special figure display units 37a and 37b in the case of low probability mode and low frequency support mode is 15 seconds.

When no big hit result occurs in the current game round and no out-reach display occurs, the first reservation information is the execution target of the game round and three or more first If it is a game round started in a situation where the hold information is stored, the information of the shortest period (specifically 3 seconds) on the special figure side is read as the variable display period of the current game round. As a result, it is possible to increase the efficiency of digestion of game times triggered by the first suspension information in the low-frequency support mode.

On the other hand, in the current game round, when no big hit result occurs and no out-reach display occurs, the first reservation information is the execution target of the game round, and one or two numbers are displayed in the first special figure reservation area 111. If the game round is started in a state where the 1 pending information is stored, or if the second pending information is the execution target of the game round, the numerical information of the fluctuation type counter CS at that time is used for low frequency support. Information on the variable display period corresponding to the complete failure result is read out by collating against the table corresponding to the complete failure result in the table group. Multiple types of information are set for the variable display period for the complete deviation result. and the variable display period corresponding to the occurrence of the reach display. Specifically, 5 seconds, 6 seconds, 7 seconds, and 8 seconds are set as the fluctuation display periods corresponding to the complete deviation result, and the period corresponding to the value of the fluctuation type counter CS acquired among these is this time It is selected as the variable display period of the game round.

When the high-probability table group, the high-frequency support table group, or the low-frequency support table group is read, the read table group is referred to and the variable display period selection process is executed. The contents of the selection processing are as already explained. Then, the information of the variable display period selected by the selection process of the variable display period is set to the special figure side timer counter 523c in the timer counter area 523 of the main side RAM84. The update of the numerical value information set in the special figure side timer counter 523c is executed in the timer update process (Fig. 254).

After executing the variable display period specifying process in step SI311, a variable command and a type command corresponding to the game round to be started this time are transmitted to the sound and light side MPU 93 (step SI312). The variation command includes information on the variation display period specified in step SI311, and the game round to be started is either the first special figure display portion 37a or the second special figure display portion 37b. Contains information indicating whether it is supported. In addition, the type command includes information as to whether or not the game round to be started this time corresponds to the jackpot result, and if it corresponds to the jackpot result, which type of jackpot result is included. It contains information indicating whether the

After that, the variable display of the pattern is started in the display part which is the start target of the current game cycle out of the first special figure display part 37a and the second special figure display part 37b (step SI313). Then, 1 is added to the value of the special figure special electric counter (step SI314). As a result, the value of the special figure special electric counter becomes "1" corresponding to the special figure fluctuation process (step SI207).

In addition, when the sound and light side MPU 93 receives the command for variation and the type command, it executes processing for determining the execution contents of the game round effect corresponding to those commands. Then, light emission control of the display light emitting unit 64 and sound output control of the speaker unit 65 are executed according to the table corresponding to the processing result. As a result, the light emission effect in the display light emitting unit 64 and the sound output effect in the speaker unit 65 are executed over the variable display period of the current game round. Further, the sound/light side MPU 93 transmits a command corresponding to the content of execution of the game round effect determined this time to the display side MPU 103 . By receiving the command, the display side MPU 103 executes display control of the pattern display device 41 according to the table corresponding to the command. As a result, the display effect on the symbol display device 41 is executed over the variable display period of the current game round.

<Process during special figure fluctuation>
Next, the processing during special figure fluctuation executed in step SI207 of the special figure special electric control processing (FIG. 275) will be described.

If the value of the special figure side timer counter 523c is 1 or more and the fluctuation display period of the current game round has not passed, the special figure display units 37a and 37b that are the execution targets of the current game round When it is the update timing of the display contents, data setting for updating the display contents of the special figure display portions 37a and 37b is performed. Thereby, the display contents of the pattern in the special figure display portions 37a and 37b to be controlled are updated to the display contents of the next order.

Aspect at the start of the variation display of the pattern in the special figure display unit 37a, 37b, and the update aspect of the variation display of the pattern are performed in a constant manner regardless of the result of the judgment result and the distribution judgment result, and the pattern display device It is carried out in a fixed manner regardless of the content of the presentation for the game round in 41 . For example, when a predetermined update timing occurs a plurality of times, the display content of the pattern rotates once, and a display pattern in which the display order is in a fixed order is repeatedly performed, and when the variable display period has passed, the display pattern The stop result determined at the start of the game round is displayed regardless of the order of display. Thereby, it is possible to simplify the processing configuration for controlling the display of the special figure display units 37a and 37b.

On the other hand, when the value of the special figure side timer counter 523c is "0", that is, when the variable display period has elapsed, the final stop command is transmitted to the sound and light side MPU 93. After that, at the start of the game cycle, the information of the pattern stop mode of the special figure display portions 37a and 37b stored in the main side RAM 84 at step SI309 or step SI310 in the special figure fluctuation start process (FIG. 276) is read. As a result, the variable display of the pattern is stopped in a state in which the pattern corresponding to the game result of the current game round is displayed in the special figure display units 37a and 37b to be controlled. After that, the information of the final stop period (specifically 0.5 sec) is set to the special figure side timer counter 523c. Thereby, the measurement of the final stop period is started. After that, add 1 to the value of the special special electric counter. As a result, the value of the special figure special electric counter becomes "2" corresponding to the special figure confirmation process (step SI208).

When receiving the final stop command, the sound and light side MPU 93 transmits a corresponding command to the display side MPU 103 . When the display side MPU 103 receives the command, the combination of symbols corresponding to the stop result of the current round of the game is fixedly displayed on the symbol display device 41 over the final stop period.

<Processing during special figure confirmation>
Next, the processing during special figure determination executed in step SI208 of the special figure special electric control processing (FIG. 275) will be described.

In the processing during special figure determination, if the value of the special figure side timer counter 523c is "0" and the final stop period has passed, the time saving provided in the main side RAM 84 on the condition that the game state is the time saving state Decrease the value of the state counter by one. The time saving state counter is a counter that enables the main side MPU 82 to grasp the number of remaining game times that can be executed in the time saving state. As already explained, in the opening and closing execution mode triggered by the 5R probability variation result or the 16R probability variation result, the opening and closing execution mode ends without the occurrence of V winning, resulting in a time saving state, but the jackpot result is new in the time saving state. When the number of games executed without occurrence of 100 times, which is the number of times of time saving state continuation, is normal game state (low probability mode and low frequency support mode) even if the jackpot result does not occur becomes. When the value of the time saving state counter after subtraction of 1 is "0", the high frequency flag of the main side RAM 84 is cleared to "0" to set the low frequency support mode. As a result, the game state becomes the normal game state.

If the value of the special figure side timer counter 523c is "0" and the final stop period has passed, the opening period (specifically 5 seconds ) corresponding information ("1250") is set to the special figure side timer counter 523c, and an opening command is transmitted to the sound and light side MPU 93. When receiving the opening command, the sound and light side MPU 93 causes the pattern display device 41, the display light emitting portion 64 and the speaker portion 65 to perform an effect corresponding to the opening period. After that, add 1 to the value of the special special electric counter. As a result, the value of the special figure special electric counter becomes "3" corresponding to the round start process (step SI209). On the other hand, if the game result of the current game round is not a jackpot result, the special figure special electric counter is cleared to "0". As a result, the value of the special figure special electric counter becomes "0" corresponding to the special figure variation start process (step SI206).

<Round start processing>
Next, the round start processing executed in step SI209 of the special figure special electric control processing (FIG. 275) will be described with reference to the flowchart of FIG.

First, it is determined whether or not the opening period has passed (step SI401). In step SI401, when the value of the special figure side timer counter 523c in the timer counter area 523 of the main side RAM84 is "0", an affirmative determination is made. If the opening period has passed and the current game result is the 5R normal result or the 5R probability variable result (step SI401: YES, step SI402: YES), set "5" to the round counter of the main side RAM 84 ( step SI403). In addition, when the opening period has passed and the current game result is a 16R probability variable result (step SI401: YES, step SI402: NO), "16" is set in the round counter of the main RAM 84 (step SI404). ). The round counter is a counter for specifying the number of remaining round games in the opening/closing execution mode by the main MPU 82 .

If the processing of step SI403 or step SI404 has been performed, processing for setting the open duration is executed (step SI405). As already explained, the first (first) round game in the open/close execution mode is a normal round game in any case where the current game result is the 5R normal result, the 5R probability variable result, or the 16R probability variable result. In the setting process of the open duration (step SI405), numerical information "7500" corresponding to the open duration of the normal round game (specifically 30 seconds) is set in the special figure side timer counter 523c.

After that, drive signal output processing for the special train is executed (step SI406). In the special electric drive signal output process, the special electric drive unit 32b is driven and the special electric winning device 32 is opened by outputting a drive signal to the special electric drive unit 32b. After that, "1" is set to the special electric open state flag of the main side RAM 84 (step SI407). Thereby, it is possible for the main MPU 82 to grasp that it is the opening period of the special electric winning device 32 in the normal round game. After that, 1 is added to the value of the special figure special electric counter (step SI408). As a result, the value of the special figure special electric counter becomes "4" corresponding to the round open process (step SI210).

<Processing during opening for round>
Next, the open processing for the round executed at step SI210 of the special figure special electric control processing (FIG. 275) will be described with reference to the flowchart of FIG.

If "1" is not set to the special electric winning confirmation flag 522d in the confirmation flag group 522 of the main RAM 84 (step SI501: NO), whether "1" is set to the V winning confirmation flag 522k of the main RAM 84 (step SI502), and if the V winning confirmation flag 522k is not set to "1" (step SI502: NO), the count winning confirmation flag 522j of the main side RAM 84 is set to "1". It is determined whether or not there is (step SI503). When "1" is set in the special electric prize confirmation flag 522d in the confirmation flag group 522 of the main RAM 84 (step SI501: YES), when "1" is set in the V prize confirmation flag 522k of the main RAM 84 (Step SI502: YES), or if "1" is set in the count winning confirmation flag 522j of the main RAM 84 (Step SI503: YES), the value of the winning counter of the main RAM 84 is subtracted by "1". (Step SI504), it is determined whether or not the value of the winning counter after subtracting 1 is "0" (step SI505).

As already explained, in the situation where the normal round game is being executed, it is possible to enter the ball into the special electric winning device 32 and it is impossible to enter into the V winning device 531 . Of the special electric winning confirmation flag 522d, the V winning confirmation flag 522k, and the count winning confirmation flag 522j, only the special electric winning confirmation flag 522d can be set to "1" when the normal round game is being executed. The number of game balls entering the special electric prize winning device 32 in the normal round game is grasped based on the number of times the special electric prize winning confirmation flag 522d is set to "1".

When the V winning round game is being executed, the ball can enter the V winning device 531 and cannot enter the special electric winning device 32 . Between the normal round game and the V winning round game, an interval period (3 seconds) longer than the special electric monitoring delay period (1 second) set at the end of the normal round game is set. Therefore, among the special electric winning confirmation flag 522d, the V winning confirmation flag 522k, and the count winning confirmation flag 522j, the flags that can be set to "1" in the situation where the V winning round game is being executed are the V winning confirmation flag 522k and the count winning confirmation flag. There is only a confirmation flag 522j. During the execution period of the V winning round game, the rotation control of the switching piece 536 is executed, and the game ball entering the V winning device 531 is guided to the discharge passage area 535b or enters the V winning device 531. A state is created in which the played game ball is guided to the V winning path area 535c. The situation in which the round opening process (FIG. 278) is executed during the execution period of the V winning round game is the situation in which either the V winning confirmation flag 522k or the count winning confirmation flag 522j is set to "1" or This is a situation in which neither the V winning confirmation flag 522k nor the count winning confirmation flag 522j is set to "1". The number of game balls entering the V winning device 531 in the V winning round game is grasped based on the number of times the V winning confirmation flag 522k or the count winning confirmation flag 522j is set to "1".

If a negative determination is made in step SI503, or if a negative determination is made in step SI505, it is determined whether or not the open continuation period has elapsed (step SI506). In step SI506, when the value of the special figure side timer counter 523c in the timer counter area 523 of the main side RAM84 is "0", an affirmative determination is made.

If an affirmative determination is made in step SI505, or if an affirmative determination is made in step SI506, it is determined whether or not the V prize open state flag of the main side RAM 84 is set to "1" (step SI507). The V winning open state flag is a flag that enables the main side MPU 82 to grasp that the V winning device 531 is in the open state in the V winning round game.

If the V prize open state flag is not set to "1" (step SI507: NO), that is, if the special electric prize winning device 32 is in the open state, the closing processing of the special electric prize winning device 32 is executed (step SI508). . In the closing processing of the special electric prize winning device 32, the special electric prize driving unit 32b is put into a non-driving state and the special electric prize winning device 32 is closed by stopping the output of the drive signal to the special electric prize driving unit 32b. After that, the special electric monitoring delay timer counter 523f in the timer counter area 523 of the main RAM 84 is set to the special electric monitoring delay period (1 second) information (step SI509). "250") is set (step SI510). Thereby, when a game ball entering the special electric prize winning device 32 immediately before the end of the normal round game is detected by the special electric detection sensor 554 during the special electric monitoring delay period, the detection of the game ball is validated. can be done.

When an affirmative determination is made in step SI507, that is, when the V winning device 531 is in the open state, closing processing of the V winning device 531 is executed (step SI511). In the closing process of the V winning device 531, by stopping the output of the driving signal to the driving portion 533 for the V entrance, the driving portion 533 for the V entrance is brought into a non-driving state and the V winning device 531 is closed. . After that, the V prize open state flag is cleared to "0" (step SI512). Thereby, it is possible for the main side MPU 82 to grasp that the V winning device 531 is in the closed state. After that, the V winning monitoring delay period (1.5 seconds) information ("375") is set in the V winning monitoring delay timer counter 523i in the timer counter area 523 of the main RAM 84 (step SI513). As a result, when a game ball entering the V winning device 531 immediately before the end of the V winning round game is detected by the count detection sensor 538 or the V winning detection sensor 539 during the monitoring delay period for V winning, Ball detection can be enabled.

When the processing of step SI510 or step SI513 is performed, the value of the round counter in the main RAM 84 is subtracted by "1" (step SI514), and if the value of the round counter after the subtraction of 1 is 1 or more (step SI515: NO), an interval period setting process is executed (step SI516). In the setting process, the interval period (3 seconds) information ("750") is set to the special figure side timer counter 523c. After that, 1 is added to the value of the special figure special electric counter (step SI517). As a result, the value of the special figure special electric counter becomes "5" corresponding to the closed process for the round (step SI211). On the other hand, if the value of the round counter after subtracting 1 in step SI514 is "0" (step SI515: YES), the ending period is set (step SI518). In the setting process, the information of the ending period (specifically 5 seconds) is set to the special figure side timer counter 523c. After that, an ending command is transmitted to the sound and light side MPU 93 (step SI519), and 2 is added to the value of the special figure special electric counter (step SI520). As a result, the value of the special figure special electric counter becomes "6" corresponding to the round end processing (step SI212). When receiving the ending command, the sound and light side MPU 93 causes the pattern display device 41, the display light-emitting portion 64 and the speaker portion 65 to perform an effect corresponding to the ending period.

When a negative determination is made in step SI506, it is determined whether or not the V winning open state flag of the main side RAM 84 is set to "1" (step SI521). If the V prize open state flag is not set to "1" (step SI521: NO), that is, if the special electric prize winning device 32 is in the open state, step SI406 of the already explained round start process (FIG. 277) and Similarly, drive signal output processing for the special train is executed (step SI522). In the special electric drive signal output process, a drive signal is output to the special electric drive unit 32b. In this way, during the execution period of the normal round game, a drive signal is output to the drive unit 32b for the special electric every time the open process for the round is executed. Thereby, the open state of the special electric prize winning device 32 can be continued.

On the other hand, if the V winning open state flag is set to "1" (step SI521: YES), that is, if the V winning device 531 is in the open state, the drive signal output process for V winning is executed ( step SI523). In the V winning drive signal output process, a drive signal is output to the V entrance driving section 533 to drive the V entrance driving section 533 and to open the V winning device 531. . Thus, during the execution period of the V winning round game, the driving signal is output to the driving section 533 for V winning every time the open process for round is executed. As a result, the open state of the V winning device 531 can be continued.

After that, a switching process for controlling the switching piece 536 in the V winning device 531 is executed by a CALL command (step SI524). When the switching process (step SI524) is executed, a subroutine program corresponding to the switching process is executed. When the subroutine program is executed, the return after the switching process (step SI524) is executed. Information for specifying an address is written to the stack area by a push instruction. Then, when the switching process (step SI524) is completed, information for specifying the return address is read by the pop instruction, and the program indicated by the return address is returned to. When the switching process in step SI524 ends, the open process for this round ends. The content of the switching process (step SI524) will be described later in detail.

<Closed process for round>
Next, the processing during closing for the round executed at step SI211 of the special figure special electric control processing (FIG. 275) will be described with reference to the flowchart of FIG.

First, it is determined whether or not the interval period has passed (step SI601). In step SI601, when the value of the special figure side timer counter 523c in the timer counter area 523 of the main side RAM84 is "0", an affirmative determination is made. If the interval period has passed (step SI601: YES), the open duration period setting process is executed (step SI602). In the setting process, the information ("7500") of the open continuation period of the round game (specifically 30 seconds) is set to the special figure side timer counter 523c. After that, "10" is set in the winning counter of the main side RAM 84 (step SI603).

After that, if the current game result is either the 5R probability variation result or the 16R probability variation result (step SI604: YES), it is determined whether the value of the round counter in the main side RAM 84 is "1" ( step SI605). When the value of the round counter is 2 or more (step SI605: NO), that is, when it is time to start the normal round game, a drive signal output process for a special train is executed (step SI606). In the special electric drive signal output process, the special electric drive unit 32b is driven and the special electric winning device 32 is opened by outputting a drive signal to the special electric drive unit 32b. After that, "1" is set to the special electric open state flag of the main side RAM 84 (step SI607). Thereby, it is possible for the main MPU 82 to grasp that the special electric prize winning device 32 is in the open state in the normal round game.

When the value of the round counter is "1" (step SI605: YES), that is, when it is the start timing of the last round game (V winning round game) in the opening and closing execution mode corresponding to the 5R probability variation result or the 16R probability variation result executes drive signal output processing for V winning (step SI608). In the V winning driving signal output process, the V entrance driving unit 533 is driven and the V winning device 531 is opened by outputting a driving signal to the driving unit 533 for the V entrance. . After that, the V prize open state flag in the main side RAM 84 is set to "1" (step SI609). Thereby, it is possible for the main MPU 82 to grasp that it is the execution period of the V winning round game.

After that, similar to step SI524 of the already-explained round open process (FIG. 278), a switching process is executed by a CALL instruction (step SI610). The content of the switching process (step SI610) will be described later in detail.

When a negative determination is made in step SI604, when the processing of step SI607 is performed, or when the processing of step SI610 is performed, 1 is subtracted from the value of the special special electric counter (step SI611). As a result, the value of the special figure special electric counter becomes "4" corresponding to the round open process (step SI210).

Next, the switching process executed by the main MPU 82 will be described with reference to the flowchart of FIG. As already explained, the switching process is executed in step SI524 of the round open process (FIG. 278) and step SI610 of the round closed process (FIG. 279).

When the V winning open state flag of the main RAM 84 is set to "1" (step SI701: YES), that is, when it is the execution period of the V winning round game, processing for controlling the switching piece 536 is executed. (Steps SI702 to SI720) are executed. The processing for controlling the switching piece 536 is executed only during the execution period of the V winning round game.

Specifically, in the processing for controlling the switching piece 536, first, it is determined whether or not the value of the V winning timer counter 543 in the main RAM 84 is "0" (step SI702), and the V winning timer counter is activated. If the value of 543 is not "0" (step SI702: NO), 1 is subtracted from the value of the V winning timer counter 543 (step SI703). On the other hand, if the value of the V winning timer counter 543 is "0" (step SI702: YES), the process proceeds to step SI704 without executing the process of step SI703. As a result, every time the switching process (FIG. 280) is executed during the execution period of the V winning round game, the value of the V winning timer counter 543 is set to 1 in such a manner that the value of the V winning timer counter 543 does not fall below "0". It can be decremented and updated. The V winning timer counter 543 is not updated in the timer update process (FIG. 254). As a result, it is possible to prevent the value of the V winning timer counter 543 from being updated during the period in which the process for controlling the switching piece 536 is not executed.

If an affirmative determination is made in step SI702, or if the processing of step SI703 is performed, it is determined whether or not the value of the switching control counter 542 in the main RAM 84 is "0" (step SI704). When the value of the switching control counter 542 is "0" (step SI704: YES), that is, when the switching piece 536 is maintained at the retracted position, the value of the V winning timer counter 543 is "0". It is determined whether or not there is (step SI705). When the value of the V winning timer counter 543 is "0" (step SI705: YES), that is, when the period for maintaining the switching piece 536 at the retracted position has ended, the switching control counter 542 is set to "1". (Step SI706). As a result, the switching piece 536 can be turned from the retracted position to the guided position. After that, numerical value information of "50" corresponding to the number of times the induction pulse signal is output to the switching driving section 537 is set in the V winning timer counter 543 (step SI707). As a result, the induction pulse signal can be output 50 times.

When the value of the switching control counter 542 is "1" (step SI704: NO, step SI708: YES), that is, when the switching piece 536 is being rotated from the retracted position toward the guiding position, An induction pulse signal output process is executed (step SI709). In the induction pulse signal output process, the switching piece 536 is rotated toward the induction position by outputting the induction pulse signal to the switching drive unit 537 . After that, if the value of the V winning timer counter 543 is "0" (step SI710: YES), that is, if it is the end timing of the period for rotating the switching piece 536 from the retracted position toward the guiding position, switching is performed. "2" is set in the control counter 542 (step SI711). As a result, the switching piece 536 can be maintained at the guiding position. After that, numerical value information "1000" corresponding to the time (specifically, four seconds) for which the switching piece 536 is maintained at the guiding position is set in the V winning timer counter 543 (step SI712). As a result, the state in which the switching piece 536 is arranged at the guidance position can be continued for four seconds.

When the value of the switching control counter 542 is "2" (step SI704: NO, step SI708: NO, step SI713: YES), that is, when the switching piece 536 is maintained at the guiding position in the V winning device 531 Then, it is determined whether or not the value of the V winning timer counter 543 is "0" (step SI714). When the value of the V winning timer counter 543 is "0" (step SI714: YES), that is, when the period for maintaining the switching piece 536 at the guiding position has ended, the switching control counter 542 is set to "3". (Step SI715). As a result, the switching piece 536 can be turned from the guiding position toward the retracted position. After that, numerical value information "50" corresponding to the number of times the retraction pulse signal is output to the switching driving section 537 is set in the V winning timer counter 543 (step SI716). As a result, the retraction pulse signal can be output 50 times.

As already explained, the switching control counter 542 is set with numerical value information from "0" to "3". If the value of the switching control counter 542 is neither "0" to "2" (step SI704: NO, step SI708: NO, step SI713: NO), that is, the value of the switching control counter 542 is "3", In the state where the switching piece 536 is rotated from the guidance position toward the retraction position, output processing of the retraction pulse signal is executed (step SI717). In the process of outputting the retraction pulse signal, the switching piece 536 is rotated toward the retraction position by outputting the retraction pulse signal to the switching drive unit 537 . After that, when the value of the V winning timer counter 543 is "0" (step SI718: YES), that is, when it is time to end the period of rotating the switching piece 536 from the guidance position toward the retracted position, the switching The value of the control counter 542 is cleared to "0" (step SI719). As a result, the switching piece 536 can be maintained at the retracted position. After that, numerical value information "1400" corresponding to the time (specifically, 5.6 seconds) for which the switching piece 536 is maintained at the retracted position is set in the V winning timer counter 543 (step SI720). As a result, the state in which the switching piece 536 is arranged at the retracted position can be continued for 5.6 seconds.

<Round end processing>
Next, the round end processing executed in step SI212 of the special figure special electric control processing (FIG. 275) will be described with reference to the flowchart of FIG.

First, it is determined whether or not the ending period has passed (step SI801). In step SI801, affirmative determination is made when the value of the special figure side timer counter 523c is "0". When the ending period has passed and the game result that triggered the opening and closing execution mode this time is either the 5R probability variable result or the 16R probability variable result (step SI801: YES, step SI802: YES), the main side RAM 84 The high frequency support mode is set by setting the high frequency flag to "1" (step SI803).

After that, it is determined whether or not the V winning generation flag provided in the main RAM 84 is set to "1" (step SI804). The V winning occurrence flag indicates that one or more game balls have been detected by the V winning detection sensor 539 during the execution period of the V winning round game or during the V winning monitoring delay period described later, that is, the V winning has occurred. It is a flag that enables the master side MPU 82 to grasp that. If the V winning occurrence flag is set to "1" (step SI804: YES), that is, if the V winning occurs in the current opening/closing execution mode, the high probability flag of the main side RAM 84 is set to "1". By doing so, the high probability mode is set (step SI805). Thereby, a game state can be made into a high probability state. After that, the V winning occurrence flag is cleared to "0" (step SI806).

If a negative determination is made in step SI804, that is, if the game result that triggered the opening/closing execution mode this time is the 5R probability variable result or the 16R probability variable result, and no V winning occurs in the opening/closing execution mode this time. , the high-probability flag of the main RAM 84 is cleared to "0" to set the low-probability mode (step SI807). Thereby, a game state can be made into a time saving state. After that, "100", which is the number of times the time saving state continues, is set to the time saving state counter in the main RAM 84 (step SI808). As already explained, the time saving state counter is a counter that enables the main side MPU 82 to grasp the number of remaining game times that can be executed in the time saving state. As already explained, in the opening and closing execution mode triggered by the 5R probability variation result or the 16R probability variation result, the opening and closing execution mode ends without the occurrence of V winning, resulting in a time saving state, but the jackpot result is new in the time saving state. When the number of games executed without occurrence of 100 times, which is the number of times of time saving state continuation, is normal game state (low probability mode and low frequency support mode) even if the jackpot result does not occur becomes.

If the game result that triggered the opening/closing execution mode this time is the 5R normal result (step SI802: NO), the high probability flag of the main side RAM 84 is cleared to "0" to set the low probability mode. (Step SI809), the low frequency support mode is set by clearing the high frequency flag of the main side RAM 84 to "0" (step SI810). As a result, the game state becomes the normal game state.

If the process of step SI806, step SI808 or step SI810 has been performed, a state designation command transmission process is executed (step SI811). In the transmission processing, a state designation command corresponding to the state of the pachinko machine 10 determined by the processing of steps SI802 to SI810 is transmitted to the sound and light side MPU93. The sound and light side MPU 93 executes a process for causing the pattern display device 41, the display light emitting section 64 and the speaker section 65 to execute an effect corresponding to the content of the received state designation command. After that, the special figure special electric counter is cleared to "0" (step SI812). As a result, the value of the special figure special electric counter becomes "0" corresponding to the special figure variation start process (step SI206).

Next, the operation confirmation process executed by the main MPU 82 will be described with reference to the flowchart of FIG. As already described in the thirty-third embodiment, the operation confirmation process is executed at line number "1005" of the input/output confirmation process (FIG. 253).

At steps SI901 to SI903, the same processes as steps SH401 to SH403 of the operation confirmation process (FIG. 255) in the thirty-third embodiment are executed. Specifically, first, lighting processing of the input/output confirmation display device 521 is executed (step SI901). In the lighting process of the input/output confirmation display device 521 , a lighting signal is output to the input/output confirmation display device 521 . During the input/output confirmation period, the lighting signal is output each time the operation confirmation process is executed. As a result, the lighting state of the input/output confirmation display device 521 can be continued during the input/output confirmation period.

After that, if "1" is not set in the input/output checking flag 524 of the main side RAM 84 (step SI902: NO), that is, after the supply of the operating power to the pachinko machine 10 is started, the first operation checking process is executed, in steps SI903 to SI908, a process for opening the special electric winning device 32, the special winning device 151 and the V winning device 531 is executed. Specifically, first, a special electric drive signal output process is executed (step SI903). In the special electric drive signal output process, the special electric drive unit 32b is driven and the special electric winning device 32 is opened by outputting a drive signal to the special electric drive unit 32b. Thereafter, drive signal output processing for guidance is executed (step SI904). In the drive signal output process for guide, a drive signal is output to the guide drive section 156 of the special prize winning device 151 to put the guide drive section 156 into a drive state. As a result, the guide member 155 is arranged at the guiding position and the blocking member 157 is arranged at the non-blocking position, so that the special winning device 151 can be opened. Thereafter, drive signal output processing for V winning is executed (step SI905). In the V winning driving signal output process, the V entrance driving unit 533 is driven and the V winning device 531 is opened by outputting a driving signal to the driving unit 533 for the V entrance. . After that, "1" is set to the operation check open flag 525 of the main RAM 84 (step SI906). The operation check opening flag 525 is a flag that allows the main MPU 82 to grasp that the special electric prize winning device 32, the special prize winning device 151 and the V prize winning device 531 should be in the open state during the input/output confirmation period. . Thereafter, "1" is set in the input/output checking flag 524 of the main RAM 84 (step SI907). Thereby, it is possible for the main MPU 82 to grasp that it is the input/output confirmation period.

After that, the setting processing of the switching timer counter 523b is executed (step SI908). The switching timer counter 523b setting process (step SI908) is performed when the special electric winning device 32, the special winning device 151 and the V winning device 531 are opened during the input/output confirmation period. This is executed when the V winning device 531 is closed. In the process of setting the switching timer counter 523b (step SI908), numerical information "500" corresponding to 2 seconds for which the special electric winning device 32, the special winning device 151 and the V winning device 531 are kept open or closed is set to the switching timer. Set the counter 523b.

If an affirmative determination is made in step SI902, that is, if the operation confirmation process has already been executed once or more during the input/output confirmation period, it is determined whether or not the value of the switching timer counter 523b is "0". It is determined (step SI909), and if the value of the switching timer counter 523b is not "0" (step SI909: NO), it is determined whether "1" is set to the operation checking open flag 525 of the main side RAM 84. is determined (step SI910). If "1" is not set in the operation check open flag 525 (step SI910: NO), that is, the special electric winning device 32, the special winning device 151, and the V winning device 531 are closed, and the closed state continues. If it is in a state where it is required, the process proceeds to step SI919 without executing the processing of steps SI911 to SI913. As a result, the special electric winning device 32, the special winning device 151 and the V winning device 531 are kept closed.

On the other hand, if "1" is set in the operation check opening flag 525 (step SI910: YES), that is, the special electric winning device 32, the special winning device 151 and the V winning device 531 are in the open state, and the open state is to be continued, processing for continuing the open state of the special electric winning device 32, the special winning device 151 and the V winning device 531 (steps SI911 to SI913) is executed. Specifically, as in step SI903 described above, a special electric drive signal output process is executed (step SI911), and as in step SI904 described above, a drive signal output process for guidance is executed (step SI912). , similar to step SI905 described above, drive signal output processing for V winning is executed (step SI913). In this way, in the situation where the special electric prize winning device 32, the special prize winning device 151 and the V prize winning device 531 are kept open during the input/output confirmation period, the special electric driving unit 32b, A driving signal is output to the guide driving portion 156 and the driving portion 533 for the V entrance. Thereby, the open state of the special electric winning device 32, the special winning device 151 and the V winning device 531 can be continued.

When an affirmative determination is made in step SI909, it is determined whether or not "1" is set in the operation check opening flag 525 of the main RAM 84 (step SI914). If "1" is set in the operation check open flag 525 (step SI914: YES), the special electric winning device 32, the special winning device 151 and the V winning device 531 are activated in steps SI915 to SI918 and step SI908. Execute processing for switching from the open state to the closed state.

Specifically, first, closing processing of the special electric prize winning device 32 is executed (step SI915). In the process of closing the special electric prize winning device 32, the special electric prize winning device 32 is brought into a closed state by stopping the output of the driving signal to the driving section 32b for the special electric prize. Thereafter, closing processing of the special winning device 151 is executed (step SI916). In the process of closing the special winning device 151, the special winning device 151 is closed by stopping the output of the drive signal to the guide driving section 156. FIG. Thereafter, closing processing of the V winning device 531 is executed (step SI917). In the closing process of the V winning device 531, the V winning device 531 is closed by stopping the output of the drive signal to the drive unit 533 for the V entrance. After that, the value of the operation check open flag 525 of the main RAM 84 is cleared to "0" (step SI918). Thereby, it is possible for the main side MPU 82 to grasp that the special electric winning device 32, the special winning device 151 and the V winning device 531 are closed. After that, the process advances to step SI908 to execute setting processing of the switching timer counter 525e. In the process of setting the switching timer counter 525e, as described above, the numerical value "500" corresponding to the time (specifically, two seconds) during which the special electric winning device 32, the special winning device 151, and the V winning device 531 are kept closed is set. Information is set in the switching timer counter 525e.

On the other hand, if a negative determination is made in step SI914, the process proceeds to step SI903, and in steps SI903 to SI908, processing for opening the special electric winning device 32, the special winning device 151 and the V winning device 531 is performed. Execute. The contents of the processing from step SI903 to step SI908 have already been explained.

Thus, when the input/output confirmation period is started, the special electric prize winning device 32, the special electric prize winning device 151 and the V prize winning device 531 are kept open for 2 seconds, and the special electric prize winning device 32, A closed continuation state in which the special winning device 151 and the V winning device 531 are closed for two seconds is alternately repeated. The manager of the game hall confirms that it is the input/output confirmation period by confirming that the input/output confirmation display device 521 is lit. By confirming the operation mode of the device 151 and the V winning device 531, it is possible to grasp whether or not the opening and closing operations of the special electric winning device 32, the special winning device 151 and the V winning device 531 are normally performed. . As a result, it is possible to reduce the possibility that the game will be played in a state where the special electric prize winning device 32, the special prize winning device 151 and the V prize winning device 531 are not normally opened and closed.

When the process of step SI908 is performed, when a negative determination is made in step SI910, or when the process of step SI913 is performed, "1" is set in the evacuation position return completed flag provided in the main RAM 84. (step SI919). The retracted position returned flag is a flag that allows the main MPU 82 to grasp that the switching piece 536 in the V winning device 531 has already returned to the retracted position during the input/output confirmation period. If the retracted position return completion flag is not set to "1" (step SI919: NO), that is, if the retracted position return of the switching piece 536 has not been completed, the switching piece 536 is returned to the retracted position. A retreat position return process is executed (step SI920). On the other hand, if the retracted position returned flag is set to "1" (step SI919: YES), that is, if the retracted position return of the switching piece 536 has been completed, this operation confirmation process ends. .

Next, the evacuation position return processing executed in step SI920 of the operation confirmation processing (FIG. 282) will be described with reference to the flowchart of FIG.

First, it is determined whether "1" is set in the evacuation position returning flag provided in the main RAM 84 (step SJ101). The retracted position returning flag is a flag that enables the main MPU 82 to recognize that the switching piece 536 is being returned to the retracted position. If the retracted position returning flag is not set to "1" (step SJ101: NO), that is, if it is time to start the return operation of the switching piece 536 to the retracted position, the retracted position returning flag is set. "1" is set (step SJ102). As a result, the main MPU 82 can recognize that the switching piece 536 is being returned to the retracted position.

Thereafter, "3" is set in the switching control counter 542 in the main RAM 84 (step SJ103). As already explained, the state in which the value of the switching control counter 542 is "0" is the state in which the switching piece 536 is maintained at the retracted position, and the state in which the value of the switching control counter 542 is "1" is A state in which the switching piece 536 is rotated from the retracted position toward the guided position and the value of the switching control counter 542 is "2" is a state in which the switching piece 536 is maintained at the guided position. When the value of the switching control counter 542 is "3", the switching piece 536 is rotating from the guiding position toward the retracted position. By setting "3" to the switching control counter 542 in step SJ103, the main MPU 82 can grasp that the switching piece 536 is rotating from the guidance position toward the retracted position.

After that, "55" is set to the V winning timer counter 543 in the main RAM 84 (step SJ104). As already explained, the V winning timer counter 543 outputs the time for which the induction pulse signal is output to the switching driving section 537 and the withdrawal pulse signal to the switching driving section 537. The time to continue the state and the time to continue the state in which the induction pulse signal and the retraction pulse signal are not output to the switching driving section 537 are set.

As already explained, the number of retraction pulse signal outputs required to retract the switching piece 536 arranged at the guidance position to the retraction position is "50". On the other hand, in step SJ104, numerical information of "55" exceeding the "50" is set. As a result, it is possible to avoid a situation in which the switching piece 536 does not return to the retracted position when the switching piece 536 returns to the retracted position.

If an affirmative determination is made in step SJ101, or if the processing of step SJ104 is performed, it is determined whether or not the switching piece 536 has returned to the retracted position (step SJ105). In step SJ105, it is determined that the switching piece 536 has returned to the retracted position when the rise of the detection signal input from the return detection sensor 541 to the main MPU 82 from the LOW level to the HI level is detected.

When the switching piece 536 returns to the retracted position (step SJ105: YES), the value of the switching control counter 542 is cleared to "0" (step SJ106). As already explained, the state in which the value of the switching control counter 542 is "0" corresponds to the state in which the switching piece 536 is maintained at the retracted position and the state in which the switching piece 536 has returned to the origin. ing. In the state where the switching piece 536 is arranged at the guiding position, if the V winning device 531 is fraudulently opened, the game ball entering the V winning device 531 flows down the V winning path region 535c. Then, a state detected by the V winning detection sensor 539 occurs. On the other hand, when the RAM clear processing is executed, the switching piece 536 is returned to the retracted position, and the state in which the switching piece 536 is arranged at the retracted position is continued until the V winning round game is started. Thus, it is possible to prevent the game ball entering the V winning device 531 from being detected by the V winning detection sensor 539 even if the V winning device 531 is fraudulently opened.

After that, the value of the V winning timer counter 543 is cleared to "0" (step SJ107). As already explained, when the values of the switching control counter 542 and the V winning timer counter 543 are "0", an affirmative determination is made at steps SI704 and SI705 of the switching process (FIG. 280). Then, "1" is set to the switching control counter 542 at step SI706, and "50" is set to the V winning timer counter 543 at step SI707. By clearing the values of the switching control counter 542 and the V winning timer counter 543 to "0" when the switching piece 536 finishes returning to the retracted position, the first V winning round game is started after the switching piece 536 finishes returning to the retracted position. When started, the switching piece 536 can start rotating from the retracted position to the guided position.

After that, the evacuation position returning flag is cleared to "0" (step SJ108), and the evacuation position returning flag is set to "1" (step SJ109). As a result, the main MPU 82 can recognize that the switching piece 536 has returned to the retracted position.

If a negative determination is made in step SJ105, the value of the V winning timer counter 543 is subtracted by 1 (step SJ110). As a result, the value of the V winning timer counter 543 can be updated at a period of 4 milliseconds during the return operation of the switching piece 536 to the retracted position. Thereafter, it is determined whether or not the value of the V winning timer counter 543 after subtracting 1 in step SJ110 is "0" (step SJ111). If the value of the V winning timer counter 543 is not "0" (step SJ111: NO), output processing of a retreat pulse signal is executed (step SJ112). In the process of outputting the retraction pulse signal, the retraction pulse signal is output to the switching driving section 537 . As a result, the switching piece 536 can be rotated toward the retracted position.

On the other hand, if the value of the V winning timer counter 543 is "0" (step SJ111: YES), that is, the switching piece 536 If the return to the retracted position is not confirmed, a switching piece control error command is sent to the sound and light side MPU 93 (step SJ113). The switching piece control error command is a command for making the sound/light side MPU 93 recognize that a switching piece control error has occurred in which the control of the switching piece 536 is not normally executed. When the sound and light side MPU 93 receives the switching piece control error command, it controls the display of the pattern display device 41, the light emission control of the display light emitting unit 64, and the sound output control of the speaker unit 65 so that the switching piece control error notification is performed. Execute. In the switching piece control error notification, the sound and light side MPU 93 causes the display light emitting unit 64 to emit light in a manner corresponding to the occurrence of the switching piece control error, and causes the speaker unit 65 to output a voice saying "switching piece control error occurred". In addition, the character image "switching piece control error occurred" is displayed on the pattern display device 41. FIG. The switching piece control error notification is maintained until the supply of operating power to the pachinko machine 10 is stopped, and is terminated when the supply of operating power to the pachinko machine 10 is stopped.

After that, the game stop flag of the main side RAM 84 is set to "1" (step SJ114). As a result, even if the timer interrupt process (FIG. 249) is activated, the process (steps SG911 to SG924) for advancing the game can be brought into a state in which it is not executed. After that, external output processing at the time of abnormality is executed (step SJ115) in the same manner as step SG626 of the main processing (FIG. 246) in the thirty-third embodiment. In the abnormal external output process, a process for externally outputting an abnormal signal to the management computer of the game hall is executed. In this case, the signal output of the abnormal signal is performed over a predetermined period (for example, 100 milliseconds).

When the retracted position return of the switching piece 536 is not performed normally, a switching piece control error notification is performed. It can be grasped that the evacuation position return was not performed normally. As a result, it is possible to reduce the possibility that the state in which the switching piece 536 does not operate normally is overlooked and the game is played.

Next, the ball entry detection handling process executed by the main MPU 82 will be described with reference to the flowchart of FIG. As already explained in the thirty-third embodiment, the ball-entering detection handling process is executed in step SH518 of the ball-entering detection process (FIG. 256).

At steps SJ201 to SJ210, the same processes as steps SH601 to SH610 of the entering ball detection handling process (FIG. 257) in the thirty-third embodiment are executed. Specifically, when the rising from the LOW level to the HI level of the detection signal input from the special electric detection sensor 554 to the main MPU 82 is detected (step SJ201: YES), the special electric open state flag of the main RAM 84 is set to "1" (step SJ202), and if "1" is not set to the special electric open state flag (step SJ202: NO), the timer counter area 523 of the main side RAM 84 is equal to or greater than "1" (step SJ203).

If it is the opening period of the special electric prize winning device 32 in the opening/closing execution mode (step SJ202: YES) or if it is the special electric monitoring delay period (step SJ203: YES), 15 prize balls provided in the main side RAM 84 1 is added to the value of the counter (step SJ204). As already explained in the thirty-third embodiment, when the value of the 15 prize ball counter is 1 or more, the 15 prize ball command is issued in the payout output process of step SG921 in the timer interrupt process (Fig. 249). When the 15 prize ball command is output once, the value of the 15 prize ball counter is decremented by one. When the payout control device 77 receives the 15 prize ball command, it drives and controls the payout device 76 so that 15 game balls are paid out.

If a negative determination is made in step SJ203, it is determined whether or not "1" is set in the input/output checking flag 524 of the main RAM 84 (step SJ205). When the processing of step SJ204 is performed, or when the affirmative determination is performed in step SJ205, "1" is set to the special electric winning confirmation flag 522d in the confirmation flag group 522 of the main RAM 84 (step SJ206). Thereby, it is possible for the main side MPU 82 to grasp that one game ball has entered the special electric winning device 32 .

When a negative determination is made in step SJ205, it is determined whether or not the value of the post-confirmation invalidation timer counter 523e in the main RAM 84 is "1" or more (step SJ207). If a negative determination is made in step SJ207, that is, the special electric is detected in a situation that does not correspond to any of the opening period of the special electric prize winning device 32 in the opening/closing execution mode, the special electric monitoring delay period, the input/output confirmation period, and the post-confirmation invalidation period. When the game ball is detected by the sensor 554, a special electric ball error command is transmitted to the sound and light side MPU 93 (step SJ208). By receiving the special electric ball error command, the sound and light side MPU 93 causes the symbol display device 41, the display light emitting unit 64 and the speaker unit 65 to notify the special electric ball error. Specifically, the display light emitting unit 64 is caused to emit light in a manner corresponding to the occurrence of the special electric ball error, and the speaker unit 65 is caused to output a voice saying "Special electric ball error has occurred". Also, the symbol display device 41 is made to display a character image of "Special electric ball error occurred". The special electric ball error notification is maintained until the supply of operating power to the pachinko machine 10 is stopped, and is terminated when the supply of operating power to the pachinko machine 10 is stopped.

After that, the game stop flag of the main side RAM 84 is set to "1" (step SJ209). As a result, even if the timer interrupt process (FIG. 249) is activated, the process (steps SG911 to SG924) for advancing the game can be brought into a state where it is not executed. After that, as in step SG626 of the main process (FIG. 246), an external output process at the time of abnormality is executed (step SJ210). In the abnormal external output process, a process for externally outputting an abnormal signal to the management computer of the game hall is executed. In this case, the signal output of the abnormal signal is performed over a predetermined period (for example, 100 milliseconds).

In this way, the game ball is detected by the special electric detection sensor 554 in neither the opening period of the special electric winning device 32, the special electric monitoring delay period, the input/output confirmation period, nor the post-confirmation invalidation period in the opening/closing execution mode. In this case, if a game ball is detected by the special electric ball detection sensor 554 during the post-confirmation invalidation period, a special electric ball error will occur. excluded from occurring. This prevents a special electric ball error from occurring when a game ball that enters the special electric prize winning device 32 immediately before the end of the input/output confirmation period is detected by the special electric detection sensor 554 during the post-confirmation invalidation period. can be prevented. Therefore, it is possible to prevent the occurrence of a special electric ball error due to the game ball that has been handled by the special electric winning device 32 during the input/output confirmation period.

When a negative determination is made in step SJ201, when the process of step SJ206 is performed, or when an affirmative determination is made in step SJ207, the detection signal input from the special winning detection sensor 556 to the main side MPU 82 It is determined whether or not a rise from the LOW level to the HI level has been detected (step SJ211), and if the rise of the detection signal has been detected (step SJ211: YES), the general electric open state flag of the main side RAM 84 is set to "1" (step SJ212). The electric power open state flag is a flag that enables the main side MPU 82 to grasp that it is an open period of the special prize winning device 151 based on electric power open winning. If a negative determination is made in step SJ212, it is determined whether or not the value of the general electric monitoring delay timer counter 523g of the main side RAM 84 is "1" or more, that is, whether or not it is the general electric monitoring delay period. is determined (step SJ213).

In the case of the opening period of the special winning device 151 based on the electric role open winning (step SJ212: YES) or in the case of the general electric monitoring delay period (step SJ213: YES), the main side RAM 84 for one prize ball The counter value is incremented by 1 (step SJ214). On the other hand, if it is neither the opening period of the special winning device 151 nor the monitoring delay period for general electrics based on the electric open winning (step SJ212: NO, step SJ213: NO), the input/output checking flag of the main side RAM 84 524 is set to "1" (step SJ215).

When the processing of step SJ214 is performed, or when the affirmative determination is made in step SJ215, "1" is set to the special winning confirmation flag 522i provided in the main RAM 84 (step SJ216). Thereby, it is possible for the main side MPU 82 to grasp that the ball entering the special winning device 151 has been detected.

If a negative determination is made in step SJ215, it is determined whether or not the value of the post-confirmation invalidation timer counter 523e in the timer counter area 523 of the main RAM 84 is 1 or more (step SJ217). If the value of the activation timer counter 523e is 1 or more (step SJ217: YES), that is, if it is the post-confirmation invalidation period, the processing of steps SJ214, steps SJ216 to SJ218, steps SJ209 and SJ210 is executed. Without it, the process proceeds to step SJ219. When a game ball entering the special winning device 151 immediately before the end of the input/output confirmation period is detected by the special winning detection sensor 556 during the invalidation period after confirmation, the game ball is not paid out. , the process of setting "1" to the special winning confirmation flag 522i is not performed either. Also, no special entry error notification is performed.

If a negative determination is made in step SJ217, that is, if none of the opening period of the special prize winning device 151 based on the electric open winning, the general electric monitoring delay period, the input/output confirmation period, and the post-confirmation invalidation period , a special ball entry error command is transmitted to the sound and light side MPU 93 (step SJ218). The special winning ball error command is sent to the special winning detection sensor 556 in a situation that is neither the opening period of the special winning device 151 based on the electric open winning, the general electric monitoring delay period, the input/output confirmation period, nor the post-confirmation invalidation period. This is a command for making the sound and light side MPU 93 recognize that a special ball entry error has occurred in which a game ball is detected. When the sound and light side MPU 93 receives the special ball entry error command, the symbol display device 41, the display light emitting part 64 and the speaker part 65 are made to notify the special ball entry error. Specifically, the display light emitting unit 64 is caused to emit light in a manner corresponding to the occurrence of the special entry error, and the speaker unit 65 is caused to output a voice saying "special entry error". Also, the symbol display device 41 is made to display a character image of "special ball entry error occurred". The special ball entry error notification is maintained until the supply of operating power to the pachinko machine 10 is stopped, and is terminated when the supply of operating power to the pachinko machine 10 is stopped.

After that, the process proceeds to step SJ209. As already explained, in step SJ209, the game stop flag of the main side RAM 84 is set to "1". As a result, even if the timer interrupt process (FIG. 249) is activated, the process (steps SG911 to SG924) for advancing the game can be brought into a state where it is not executed. After that, an external output process at the time of abnormality is executed (step SJ210). In the abnormal external output process, a process for externally outputting an abnormal signal to the management computer of the game hall is executed. In this case, the signal output of the abnormal signal is performed over a predetermined period (for example, 100 milliseconds).

In this way, the game ball detected by the special winning detection sensor 556 is not in any of the opening period of the special winning device 151 based on the electric open winning, the general electric monitoring delay period, the input/output confirmation period, and the post-confirmation invalidation period. is detected, a special ball entry error occurs and the processing for progressing the game is not executed. It is excluded from cases where special entry errors occur. As a result, when a game ball entering the special winning device 151 immediately before the end of the input/output confirmation period is detected by the special winning detection sensor 556 during the post-confirmation invalidation period, a special winning error occurs. can be prevented. Therefore, it is possible to prevent the occurrence of a special ball entry error caused by the game ball that has been handled by the special prize winning device 151 during the input/output confirmation period.

If step SJ210 is processed, if a negative determination is made in step SJ211, if step SJ216 is processed, or if affirmative determination is made in step SJ217, processing corresponding to V winning ball entry detection is executed (step SJ219). FIG. 285 is a flow chart showing the V winning ball entry detection corresponding process.

In the V winning ball entry detection corresponding process, the detection signal input from the V winning detection sensor 539 to the main side MPU 82 rises from LOW level to the HI level, or the detection signal input to the main side MPU 82 from the count detection sensor 538 rises. When a rise from the LOW level to the HI level is detected (step SJ301: YES), it is determined whether or not the V prize open state flag of the main RAM 84 is set to "1" (step SJ302). If the V winning open state flag is not set to "1" (step SJ302: NO), that is, if it is not the execution period of the V winning round game, the monitoring delay for V winning in the timer counter area 523 of the main side RAM 84 It is determined whether or not the value of the timer counter 523i is greater than or equal to "1" (step SJ303). As already explained, the V winning monitoring delay timer counter 523i keeps the V winning detection sensor 539 and the count detection sensor provided in the V winning device 531 even after the V winning device 531 in the open state is closed. It is a counter used to specify the V winning monitoring delay period, which is the period during which the game ball detection at 538 is treated as valid, in the main side MPU 82 . The V winning monitoring delay period is a period longer than or equal to the maximum period assumed as the period until the winning game ball of the V winning device 531 in the open state is detected by the V winning detection sensor 539 or the count detection sensor 538. Specifically, it is set to 1.5 seconds.

When an affirmative determination is made in step SJ302 or step SJ303, 1 is added to the value of the 15 prize ball counter provided in the main side RAM 84 (step SJ304). As already explained, when the value of the 15 prize ball counter is 1 or more, the 15 prize ball command is output to the payout control device 77 in the payout output process of step SG921 in the timer interrupt process (Fig. 249). When the 15 prize ball command is output once, the value of the 15 prize ball counter is decremented by one. When the payout control device 77 receives the 15 prize ball command, it drives and controls the payout device 76 so that 15 game balls are paid out.

If a negative determination is made in step SJ303, it is determined whether "1" is set in the input/output checking flag 524 of the main RAM 84 (step SJ305). If the processing of step SJ304 is performed or if the determination of step SJ305 is affirmative, the signal that the rise is detected in step SJ301 is the detection signal that is input from the V winning detection sensor 539 to the main side MPU 82. (step SJ306). When the rise of the detection signal input from the V winning detection sensor 539 to the main MPU 82 is detected (step SJ306: YES), the V winning confirmation flag 522k in the confirmation flag group 522 of the main RAM 84 is set to "1". is set (step SJ307). As a result, the value of the round counter in the main RAM 84 can be decremented by 1 during the V winning round game execution period or the V winning monitoring delay period, and during the input/output confirmation period, the V input A ball notification sound can be output from the speaker unit 65 . After that, "1" is set to the V winning occurrence flag of the main side RAM 84 (step SJ308). Thereby, it is possible for the main MPU 82 to grasp that the V winning has occurred in the opening/closing execution mode.

When the signal whose rise is detected in step SJ301 is the detection signal input from the count detection sensor 538 to the main side MPU 82 (step SJ306: NO), the count winning confirmation in the confirmation flag group 522 of the main side RAM 84 The flag 522j is set to "1" (step SJ309). As a result, the value of the round counter in the main RAM 84 can be decremented by 1 during the V winning round game execution period or the V winning monitoring delay period, and the count can be entered during the input/output confirmation period. A ball notification sound can be output from the speaker unit 65 .

When a negative determination is made in step SJ305, it is determined whether or not the value of the V winning invalidation timer counter 523h in the main RAM 84 is "1" or more (step SJ310). As already explained, the V winning invalidation timer counter 523h enables the main MPU 82 to grasp whether or not it is the V winning invalidation period set at the end of the execution period of the input/output confirmation process. It is a timer counter. Further, as already explained, the V winning invalidation period is the V winning round game execution period, the V winning monitoring delay period, and the input/output confirmation period. When a game ball is detected in , the detection of the game ball is invalidated, but the ball entry error notification for V winning based on the detection of the game ball is not executed. By setting the invalidation period for V winning at the end of the input/output confirmation period, the game ball entering the special electric winning device 32 immediately before the end of the input/output confirmation period is detected during the invalidation period for V winning. When the sensor 539 or the count detection sensor 538 detects the game ball, it is possible to prevent the game ball from being put out based on the detection of the game ball, and the V winning ball entry error notification is executed. You can prevent it from being done.

If a negative determination is made in step SJ310, that is, at a timing that does not correspond to any of the V winning round game execution period, the V winning monitoring delay period, the input/output confirmation period, and the V winning invalidation period, the V winning device 531 When the ball entering the ball is detected, a ball entering error command for V winning is transmitted to the sound and light side MPU 93 (step SJ311). The V winning ball error command is a V winning in which a ball entering the special electric winning device 32 is detected in neither the opening/closing execution mode, the special electric monitoring delay period, the input/output confirmation period, nor the V winning invalidation period. This is a command for making the sound and light side MPU 93 recognize that a ball entry error has occurred. When the sound and light side MPU 93 receives the V winning ball entry error command, the display control of the symbol display device 41, the light emission control of the display light emitting unit 64, and the speaker unit 65 are performed so that the V winning ball entry error notification is performed. sound output control. In the V-winning ball-entering error notification, the sound and light side MPU 93 causes the display light emitting unit 64 to emit light in a manner corresponding to the occurrence of the V-winning ball-entering error, and also outputs "V winning ball-entering error occurred" from the speaker unit 65. output a sound. Also, the symbol display device 41 is made to display a character image of "Error occurred for entering a ball for V winning". The ball entry error notification for V winning is maintained until the supply of operating power to the pachinko machine 10 is stopped, and is terminated when the supply of operating power to the pachinko machine 10 is stopped.

After that, the game stop flag of the main side RAM 84 is set to "1" (step SJ312). As a result, even if the timer interrupt process (FIG. 249) is activated, the process (steps SG911 to SG924) for advancing the game can be brought into a state in which it is not executed. After that, as in step SG626 of the main process (FIG. 246), an external output process at the time of abnormality is executed (step SJ313). In the abnormal external output process, a process for externally outputting an abnormal signal to the management computer of the game hall is executed. In this case, the signal output of the abnormal signal is performed over a predetermined period (for example, 100 milliseconds).

In this way, when a ball entering the V winning device 531 is detected in a situation that is not during the execution period of the V winning round game, the V winning monitoring delay period, the input/output confirmation period, or the V winning invalidation period. In the configuration in which a V winning ball entry error occurs and the processing for progressing the game is not executed, the game ball is detected by the V winning detection sensor 539 or the count detection sensor 538 during the V winning invalidation period This case is excluded from the cases where the V winning ball winning error occurs. As a result, when the game ball entering the V winning device 531 immediately before the end of the input/output confirmation period is detected by the V winning detection sensor 539 or the count detection sensor 538 immediately after the end of the input/output confirmation period, the V winning It is possible to reduce the possibility that a ball entry error will occur. Therefore, it is possible to reduce the possibility that a game ball entering the V winning device 531 during the input/output confirmation period causes a ball entering error for V winning.

Next, the entering-ball notification command transmission process executed by the main MPU 82 will be described with reference to the flowchart of FIG. As already described in the thirty-third embodiment, the incoming ball notification command transmission process is executed at line number "1004" of the input/output confirmation process (FIG. 253). The entering-ball notification command transmission process is executed during the input/output confirmation period, but is not executed during the playable state.

At steps SJ401 to SJ410, the same processes as steps SH701 to SH710 of the entering-ball notification command transmission process (FIG. 258) in the thirty-third embodiment are executed. Specifically, when the first winning confirmation flag 522a in the confirmation flag group 522 of the main side RAM 84 is set to "1" (step SJ401: YES), the common ball entry notification command is sent to the sound and light side MPU 93. Send (step SJ402). The common entry notification command is transmitted in steps SJ402, SJ404, SJ406 and SJ410. When the sound and light side MPU 93 receives the common ball entry notification command, it reads out the common ball entry notification sound table from the sound and light side ROM 94, and performs common entry notification for 0.6 seconds according to the read common ball entry notification sound table. Sound output control of the speaker unit 65 is executed so that sound is output.

When the second winning confirmation flag 522b in the confirmation flag group 522 is set to "1" (step SJ403: YES), a common ball entry notification command is transmitted to the sound and light side MPU 93 (step SJ404). As a result, the second ball entry notification sound can be output from the speaker unit 65 for 0.6 seconds. Further, when the third winning confirmation flag 522c in the confirmation flag group 522 is set to "1" (step SJ405: YES), a common ball entry notification command is transmitted to the sound and light side MPU 93 (step SJ406). As a result, the third ball entry notification sound can be output from the speaker unit 65 for 0.6 seconds.

When the special electric winning confirmation flag 522d in the confirmation flag group 522 is set to "1" (step SJ407: YES), a special electric ball notification command is transmitted to the sound and light side MPU 93 (step SJ408). When the sound and light side MPU 93 receives the special electric landing ball notification command, it reads out the special electric landing ball notification sound table from the sound and light side ROM 94, and notifies the special electric landing ball notification sound for 0.6 seconds according to the read special electric landing ball notification sound table. Sound output control of the speaker unit 65 is executed so that sound is output.

When "1" is set to the first operation winning confirmation flag 522e in the confirmation flag group 522 (step SJ409: YES), a common ball entry notification command is transmitted to the sound and light side MPU 93 (step SJ410). As a result, the common ball entry notification sound can be output from the speaker unit 65 for 0.6 seconds.

When the special winning confirmation flag 522i in the confirmation flag group 522 is set to "1" (step SJ411: YES), a special ball entry notification command is transmitted to the sound and light side MPU 93 (step SJ412). The special ball entry notification command is to output from the speaker unit 65 a special ball entry notification sound for notifying that the game ball entering the special winning device 151 has been detected by the special winning detection sensor 556 during the input/output confirmation period. is a command for making the sound and light side MPU 93 recognize the . When the sound and light side MPU 93 receives the special entry notification command, it reads out the special entry notification sound table from the sound and light side ROM 94 and notifies the special entry for 0.6 seconds according to the read special entry notification sound table. Sound output control of the speaker unit 65 is executed so that sound is output.

When the V winning confirmation flag 522k in the confirmation flag group 522 is set to "1" (step SJ413: YES), a V incoming ball notification command is transmitted to the sound and light side MPU 93 (step SJ414). The V ball entry notification command is to output from the speaker unit 65 a V ball entry notification sound for notifying that the game ball that has entered the V winning device 531 has been detected by the V winning detection sensor 539 during the input/output confirmation period. is a command for making the sound and light side MPU 93 recognize the . When the sound and light side MPU 93 receives the V entry notification command, it reads the V entry notification sound table from the sound and light side ROM 94, and performs the V entry notification sound table for 0.6 seconds according to the read V entry notification sound table. Sound output control of the speaker unit 65 is executed so that sound is output.

If the count winning confirmation flag 522j in the confirmation flag group 522 is set to "1" (step SJ415: YES), a count incoming ball notification command is transmitted to the sound and light side MPU 93 (step SJ416). The count ball entry notification command indicates that the speaker unit 65 should output a count ball entry notification sound for notifying that the game ball that has entered the V winning device 531 has been detected by the count detection sensor 538 during the input/output confirmation period. This is a command for making the sound and light side MPU 93 recognize it. When the sound and light side MPU 93 receives the count entry notification command, it reads the count entry notification sound table from the sound and light side ROM 94, and performs the count entry notification for 0.6 seconds according to the read count entry notification sound table. Sound output control of the speaker unit 65 is executed so that sound is output.

If a negative determination is made in step SJ415 or if the process of step SJ416 is carried out, in steps SJ417 to SJ420, steps SH713 to SH713 to SH713 to SH713 to SJ420 of the entering ball notification command transmission process (FIG. 258) in the thirty-third embodiment. A process similar to that of step SH716 is executed. Specifically, when the out confirmation flag 522g in the confirmation flag group 522 is set to "1" (step SJ417: YES), an out notification command is transmitted to the sound/light side MPU 93 (step SJ418). When the sound and light side MPU 93 receives the out-ball notification command, it reads out the out-ball entry notification sound table from the sound and light side ROM 94, and performs the out-ball notification for 0.6 seconds according to the read out-ball entry notification sound table. Sound output control of the speaker unit 65 is executed so that sound is output.

When the gate winning confirmation flag 522h in the confirmation flag group 522 is set to "1" (step SJ419: YES), a gate entry notification command is transmitted to the sound and light side MPU 93 (step SJ420). When the sound and light side MPU 93 receives the gate entry notification command, it reads the gate entry notification sound table from the sound and light side ROM 94, and performs the gate entry notification for 0.6 seconds according to the read gate entry notification sound table. Sound output control of the speaker unit 65 is executed so that sound is output.

The sound and light side MPU 93 is any one of a common ball entry notification sound, a special entry ball notification sound, a special entry ball notification sound, an out ball entry notification sound, a gate entry notification sound, a count entry ball notification sound, and a V entry notification sound. During the output of , any of the common entry notification command, special light entry notification command, second operation entry notification command, out entry notification command, gate entry notification command, count entry notification command, and V entry notification command are received, the sound output control of the speaker unit 65 is executed so that the entering ball notification sounds corresponding to these entering ball notification commands are output from the speaker unit 65 in the order in which they are received.

After transmitting the gate entry notification command in step SJ420, it is determined whether or not the evacuation position returned flag in the main RAM 84 is set to "1" (step SJ421). 1" is set (step SJ421: YES), the value of the confirmation timer counter 523a in the timer counter area 523 of the main RAM 84 is cleared to "0" (step SJ422). As a result, in the next timer interrupt process (FIG. 249), a negative determination is made in step SG903, and the processes after step SG905 are executed. Details will be described later, but when the invalidation process (FIG. 287(a)) is executed first after the value of the confirmation timer counter 523a is cleared to "0" in step SJ422, the special electric prize winning device 32, A process for closing the special winning device 151 and the V winning device 531 is executed, and the input/output confirmation period ends. For this reason, even if the input/output confirmation period ends before the elapsed time from the start of the input/output confirmation period reaches 10 seconds, after the end of the input/output confirmation period, the special electric winning device 32, the special winning device 151, and The V winning device 531 can be closed.

In the timer interrupt processing (FIG. 249), input/output confirmation processing is performed under the conditions that the start-up processing flag in the main RAM 84 is not set to "1" and the value of the confirmation timer counter 523a is 1 or more. In the configuration in which the process (step SG904) is executed, the entry command transmission process (Fig. 286 ) is only the process of clearing the confirmation timer counter 523a to "0". This makes it possible to simplify the processing configuration for ending the input/output confirmation period in the middle.

If "1" is not set in the retracted position return completion flag (step SJ421: NO), this entering ball notification command transmission process is terminated without executing the process of step SJ422. As a result, even if a ball entering the through gate 35 is detected during the input/output confirmation period, if the return of the switching piece 536 to the retracted position is not completed, the process for ending the input/output confirmation period in the middle is performed. You can prevent it from running. By preventing the input/output confirmation period from ending while the switching piece 536 is rotating from the induction position toward the retracted position during the input/output confirmation period, the switching piece 536 returns to the retracted position. The input/output confirmation period can be terminated while the

Next, the invalidation process executed by the main MPU 82 will be described with reference to the flowchart of FIG. 287(a). As already explained in the thirty-third embodiment, the invalidation process is executed in step SG905 of the timer interrupt process (FIG. 249).

If the input/output checking flag 524 of the main RAM 84 is set to "1" (step SJ501: YES), the processing of steps SJ502 to SJ513 is executed. The processes of steps SJ502 to SJ513 are executed only when the invalidation process is first executed after the value of the confirmation timer counter 523a becomes "0" during the input/output confirmation period. In steps SJ502 and SJ505, the same processes as steps SI915 and SI918 of the operation confirmation process (FIG. 282) already described are executed. Specifically, first, by executing closing processing of the special electric prize winning device 32, the output of the drive signal to the drive unit 32b for the special electric prize is stopped to put the special electric prize winning device 32 in the closed state (step SJ502). After that, by executing closing processing of the special winning device 151, the output of the drive signal to the guide driving section 156 is stopped to bring the special winning device 151 into the closed state (step SJ503). After that, by executing the closing process of the V winning device 531, the output of the drive signal to the drive unit 533 for the V entrance is stopped, and the V winning device 531 is closed (step SJ504). After that, the value of the operation check open flag 525 of the main RAM 84 is cleared to "0" (step SJ505). Thereby, it is possible for the main side MPU 82 to grasp that the special electric prize winning device 32, the special prize winning device 151 and the V prize winning device 531 are in the closed state.

Thus, when the invalidation process (FIG. 287(a)) is executed first after the value of the confirmation timer counter 523a becomes "0" in the input/output confirmation period, the special electric winning device 32, A process for closing the special winning device 151 and the V winning device 531 is executed. As a result, after the input/output confirmation period ends, the special electric winning device 32, the special winning device 151 and the V winning device 531 can be closed.

After that, the value of the switching timer counter 523b in the main RAM 84 is cleared to "0" (step SJ506), and the input/output checking flag 524 is cleared to "0" (step SJ507). This enables the main MPU 82 to grasp that the input/output confirmation period has ended. After that, the evacuation position returned flag of the main RAM 84 is cleared to "0" (step SJ508).

After that, in steps SJ509 to SJ512, the same processing as steps SH807 to SH810 of the invalidation processing (FIG. 259(a)) in the thirty-third embodiment is executed. Specifically, first, the input/output confirmation display device 521 is turned off (step SJ509). In the process of turning off the input/output confirmation display device 521, the output of the lighting signal to the input/output confirmation display device 521 is stopped, thereby switching the input/output confirmation display device 521 from the lighting state to the light-off state. The manager of the game hall can grasp that the input/output confirmation period has ended by confirming that the input/output confirmation display device 521 has turned off.

Thereafter, various flag clearing processes are executed (step SJ510). In the various flag clearing process, the first winning confirmation flag 522a, second winning confirmation flag 522b, third winning confirmation flag 522c, special electric winning flag 525d, first operation winning confirmation flag 522e, out The confirmation flag 522g, the gate winning confirmation flag 522h, the special winning confirmation flag 522i, the count winning confirmation flag 522j and the V winning confirmation flag 522k are cleared to "0", and the V winning occurrence flag of the main side RAM 84 is cleared to "0". By clearing the first winning confirmation flag 522a, the second winning confirmation flag 522b, and the third winning confirmation flag 522c to "0", based on the game ball entering the general winning opening 31 during the input/output confirmation period It is possible to prevent the game balls from being put out. By clearing the gate winning confirmation flag 522h to "0", it is possible to prevent normal game winning/losing determination processing from being performed based on the game ball entering the through gate 35 during the input/output confirmation period. By clearing the first operation winning confirmation flag 522e and the special winning confirmation flag 522i to "0", winning or not based on the game ball entering the first operation opening 33 or the special winning device 151 during the input/output confirmation period It is possible to prevent the determination process from being performed and to prevent the game ball from being put out. By clearing the count winning confirmation flag 522j and the V winning confirmation flag 522k to "0", the game balls are paid out based on the game balls entering the V winning device 531 during the input/output confirmation period. can be prevented. By clearing the V winning generation flag to "0", it is possible to prevent the V winning state from occurring due to the game ball entering the V winning device 531 during the input/output confirmation period.

After that, the processing for clearing the winning ball counter is executed (step SJ511). In the processing for clearing the prize ball counter, the values of the 1 prize ball counter, the 10 prize ball counter and the 15 prize ball counter in the main RAM 84 are cleared to "0". As a result, game balls are paid out based on the entry of game balls into the general winning hole 31, the special electric winning device 32, the first operating hole 33, the special winning device 151, and the V winning device 531 during the input/output confirmation period. You can prevent it from happening.

After that, setting processing of the post-confirmation invalidation timer counter 523e is executed (step SJ512). In the processing for setting the post-confirmation invalidation timer counter 523e, numerical information "250" corresponding to the post-confirmation invalidation period (specifically, 1 second) is stored in the timer counter area 523 of the main RAM 84. 523e. After that, the setting processing of the V winning invalidation timer counter 523h is executed (step SJ513). In the process of setting the V winning invalidation timer counter 523h, numerical value information "375" corresponding to the V winning invalidation period (specifically 1.5 seconds) is stored in the V winning in the timer counter area 523 of the main RAM 84. set to the invalidation timer counter 523h. Thus, at the end of the input/output confirmation period, the post-confirmation invalidation period and the V winning invalidation period are set.

Next, the post-confirmation invalidation period and the V winning invalidation period will be described. FIG. 287(b) is an explanatory diagram for explaining the invalidation period after confirmation, the invalidation period for V winning, the variable display period of the special figure display portions 37a and 37b, and the variable period of the normal figure.

As already described in the thirty-third embodiment, the input/output confirmation process (FIG. 253(a)) is executed after the RAM clear process (step SG620 or step SG701) is executed after the supply of operating power to the pachinko machine 10 is started. is executed if When the RAM clear processing is executed, it becomes a normal game state which is a low probability mode and a low frequency support mode, and the suspension stored in the first special figure reservation area 111 and the second special figure reservation area 112 The number of pieces of information becomes "0", and the number of pieces of reserved information reserved and stored in the normal drawing reserved area 84c becomes "0". Further, as already explained, when the input/output confirmation process is executed, even after the supply of operating power to the pachinko machine 10 is started, the game is continued until the input/output confirmation period ends. is not executed. For this reason, when the input/output confirmation period has ended, it is a normal game state, and the reservation information retained and stored in the first special figure reservation area 111, the second special figure reservation area 112 and the general figure reservation area 84c The game is started when the number is "0".

As already explained, the shortest fluctuation display period of the reach display mode of the special figure display portions 37a and 37b in the normal game state is 15 seconds. As shown in FIG. 287(b), the invalidation period after confirmation (specifically 1 second) and the invalidation period for V winning (specifically 1.5 seconds) are the shortest fluctuation display of the reach display mode. It is set to a period shorter than the period. In a configuration in which the post-confirmation invalidation period is set at the end of the input/output confirmation period by setting the post-confirmation invalidation period to a period shorter than the variable period, the game ball immediately after the end of the input/output confirmation period enters the first operation port 33 to generate a jackpot result, and when the game ball wins the special electric prize winning device 32 immediately after starting the opening/closing execution mode corresponding to the jackpot result, the winning of the game ball is validated. As such, the game ball can be paid out based on the winning of the game ball.

As already explained, the V winning round game is started after 4 or 15 normal round games are completed. On the other hand, the invalidation period for V winning that is set at the end of the input/output confirmation period ends before the timing at which the normal round game is started. For this reason, the detection of the game ball by the count detection sensor 538 or the V prize detection sensor 539 during the execution period of the V prize round game is caused by the fact that the V prize invalidation period is set at the end of the input/output confirmation period. This prevents invalidation of the detection of the game ball when it occurs.

As already explained, the variation period of the general pattern in the normal game state is 10 seconds. As shown in FIG. 259(c), the post-confirmation invalidation period is set to a period (specifically, 1 second) shorter than the fluctuation period of the general pattern in the normal game state. As a result, in a configuration in which the post-confirmation invalidation period is set at the end of the input/output confirmation period, the game ball enters the through gate 35 immediately after the end of the post-confirmation invalidation period, and the electric role open winning occurs. When the game ball wins the special winning device 151 immediately after the opening period of the special winning device 151 based on the electric win is started, the winning of the game ball is treated as valid, and the game is played. Winning/rejection determination processing and game ball payout can be performed based on winning of the ball.

Next, how the switching piece 536 is controlled will be described with reference to the time chart of FIG. 288(a) shows the period during which the switching piece 536 is returned to the retracted position, FIG. 288(b) shows the period during which the V winning device 531 is open, and FIG. 288(d) shows the input/output confirmation period, FIG. 288(e) shows the timing at which RAM clear processing (step SG620) is executed in the main processing (FIG. 246), FIG. 288(f) shows the execution period of the V winning round game, and FIG.

First, how the switching piece 536 is returned to the retracted position during the input/output confirmation period will be described.

As shown in FIG. 288(g), supply of operating power to the pachinko machine 10 is started at the timing of t1. As shown in FIG. 288(c), the value of the switching control counter 542 is "1" at the timing t1. If the reset button 142 has been pressed at the start of supply of operating power, RAM clear processing (step SG620) is executed at t2, as shown in FIG. 288(e). As a result, the value of the switching control counter 542 is cleared to "0" as shown in FIG. 288(c).

After that, as shown in FIG. 288(d), an input/output confirmation period lasts 10 seconds from timing t3 to timing t9. At the timing of t3 when the input/output confirmation period is started, as shown in FIG. 288(b), the device inlet 531a of the V winning device 531 is opened, thereby opening the V winning device 531. FIG. The V winning device 531 is open for two seconds from timing t3 to timing t5, closed for two seconds from timing t5 to timing t6, and is closed from timing t6 to timing t7. is open for 2 seconds, closed for 2 seconds from timing t7 to timing t8, and open for 2 seconds from timing t8 to timing t9. Thus, in the input/output confirmation period, a period of 2 seconds in which the V winning device 531 is open and a period of 2 seconds in which the V winning device 531 is closed are alternately repeated. The manager of the game hall confirms whether or not the opening/closing operation of the device entrance 531a is normally performed during the input/output confirmation period, thereby confirming whether the opening/closing operation of the V winning device 531 is normally performed. can grasp.

At the timing t3 when the input/output confirmation period starts, "3" is set in the switching control counter 542 as shown in FIG. Recovery is started. After that, at the timing t4, the switching piece 536 is placed at the retracted position, and the return of the switching piece 536 to the retracted position is completed as shown in FIG. 288(a). The state in which the switching piece 536 is arranged at the retracted position is continued until the V winning round game is started.

As already described in the thirty-third embodiment, the input/output confirmation process is a process executed when the RAM clear process is executed. As described above, the switch piece 536 is returned to the retracted position at the start of the input/output confirmation period. As a result, when the RAM clearing process is executed, it is possible to enter a playable state in which the process for advancing the game is executed in a state where the switching piece 536 is returned to the retracted position.

Next, how the switching piece 536 is controlled in the V winning round game will be described.

As shown in FIG. 288(f), the V winning round game is executed for 30 seconds from timing t10 to timing t15. At the timing t10 when the V winning round game is started, the V winning device 531 is opened by opening the device entrance 531a of the V winning device 531 as shown in FIG. 288(b). The open state of the V winning device 531 is continued until the V winning round game ends, and the V winning device 531 becomes the closed state at the timing of t15 when the V winning round game ends.

At the timing t10 when the V winning round game is started, the value of the switching control counter 542 is updated from "0" to "1" as shown in FIG. Then, an induction pulse signal is output. As a result, the switching piece 536 rotates from the retracted position toward the guided position.

After that, at the timing of t11, the switching piece 536 is placed at the guidance position, and the value of the switching control counter 542 is updated to "2" as shown in FIG. 288(c). The state in which the value of the switching control counter 542 is "2" continues for four seconds from the timing of t11 to the timing of t12, and the switching piece 536 is arranged at the guiding position for the four seconds. As a result, the game ball entering the V winning device 531 is guided to the V winning path area 535 c and detected by the V winning detection sensor 539 .

After that, as shown in FIG. 288(c), the value of the switching control counter 542 is updated to "3" at the timing of t12, and the retraction pulse signal is output from the timing of t12 to the timing of t13. . As a result, the switching piece 536 rotates from the guiding position toward the retracted position.

After that, as shown in FIG. 288(c), the value of the switching control counter 542 is updated to "0" at the timing of t13, and the switching piece 536 is turned off for 5.6 seconds from the timing of t13 to the timing of t14. maintained in the retracted position. As a result, the game ball entering the V winning device 531 is guided to the discharge passage area 535b and detected by the count detection sensor 538. FIG. After that, at the timing of t14, the value of the switching control counter 542 is updated to "1", and the induction pulse signal is output.

In the V winning round game, the first period of 0.2 seconds during which the switching piece 536 arranged at the retracted position rotates toward the guiding position, and the second period of 4 seconds during which the switching piece 536 is maintained at the guiding position. a third period of 0.2 seconds during which the switching piece 536 rotates toward the retracted position; and a fourth period of 5.6 seconds during which the switching piece 536 is maintained at the retracted position. Opening and closing operations are repeated for a second. When the V winning round game is executed for 30 seconds, the opening/closing operation for a total of 10 seconds composed of the first to fourth periods is repeated three times. The value of the switching control counter 542 and the value of the V winning timer counter 543 at the timing when the V winning round game ends are stored and held until the next V winning round game is executed. Then, the next V winning round game is started using the stored value of the switching control counter 542 and the value of the V winning counter.

If the V winning round game is started from the state where the switching piece 536 is always arranged at the retracted position, it becomes necessary to return the switching piece 536 to the retracted position after the V winning round game ends. Then, the operation of the switching piece 536 is performed even after the V winning round game is finished. On the other hand, the operation of the switching piece 536 is interrupted at the end of the V winning round game, and the operation of the switching piece 536 is resumed from the state in which the operation of the switching piece 536 was interrupted in the next V winning round game. By doing so, it is possible to prevent the operation of the switching piece 536 from being performed even after the end of the V winning round game. By configuring the switching piece 536 to operate only during the execution period of the withdrawal position return of the switching piece 536 during the input/output confirmation period and the execution period of the V winning round game, the switching piece 536 can be operated during periods other than these periods. When it is confirmed, the manager of the game hall can grasp that the act of illegally operating the switching piece 536 has been performed.

After the switching piece 536 is placed at the retracted position during the input/output confirmation period, the state in which the switching piece 536 is placed at the retracted position is the first V winning round after the input/output confirmation period ends. It continues until the game starts. As a result, when the RAM clearing process is executed, the V winning round game executed first after the RAM clearing process is executed in the state where the switching piece 536 is arranged at the retracted position is started. can do.

According to the embodiment detailed above, the following excellent effects can be obtained.

When the input/output confirmation period is started, the special electric prize winning device 32, the special prize winning device 151 and the V prize winning device 531 are kept open for 2 seconds, and the special electric prize winning device 32 and the special prize winning device 151 and a closed continuation state in which the V winning device 531 is in a closed state for 2 seconds are alternately repeated. The manager of the game hall confirms that it is the input/output confirmation period by confirming that the input/output confirmation display device 521 is lit. By confirming the operation mode of the device 151 and the V winning device 531, it is possible to grasp whether or not the opening and closing operations of the special electric winning device 32, the special winning device 151 and the V winning device 531 are normally performed. . As a result, it is possible to reduce the possibility that the game will be played in a state where the special electric prize winning device 32, the special prize winning device 151 and the V prize winning device 531 are not normally opened and closed.

If the switching piece 536 is not normally returned to the retracted position during the input/output confirmation period, a switching piece control error notification is provided to notify that the switching piece 536 was not normally returned to the retracted position. . As a result, it is possible to reduce the possibility that the state in which the switching piece 536 does not operate normally is overlooked and the game is played.

If the game ball is detected by the special electric detection sensor 554 in a situation that is neither the opening period of the special electric winning device 32 in the opening/closing execution mode, the special electric monitoring delay period, the input/output confirmation period, nor the post-confirmation invalidation period, the special electric In a configuration in which processing for progressing the game is not executed due to a ball entry error, if a game ball is detected by the special electric detection sensor 554 during the post-confirmation invalidation period, a special electric ball entry error will occur. Excluded. This prevents a special electric ball error from occurring when a game ball that enters the special electric prize winning device 32 immediately before the end of the input/output confirmation period is detected by the special electric detection sensor 554 during the post-confirmation invalidation period. can be prevented. Therefore, it is possible to prevent a special electric ball entering error caused by a game ball entering the special electric winning device 32 during the input/output confirmation period.

A game ball is detected by the special winning detection sensor 556 in a situation where none of the opening period of the special winning device 151 based on the electric open winning, the monitoring delay period for general electric use, the input/output confirmation period, and the post-confirmation invalidation period. If a game ball is detected by the special winning detection sensor 556 during the post-confirmation invalidation period, a special winning error occurs. are excluded from occurring. As a result, when a game ball entering the special winning device 151 immediately before the end of the input/output confirmation period is detected by the special winning detection sensor 556 during the post-confirmation invalidation period, a special winning error will occur. can be prevented. Therefore, it is possible to prevent the occurrence of a special ball entry error caused by a game ball that has entered the special prize winning device 151 during the input/output confirmation period.

If a ball entering the V winning device 531 is detected in a situation that is not during the V winning round game execution period, the V winning monitoring delay period, the input/output confirmation period, or the V winning invalidation period, it is for V winning. In a configuration in which a ball-entering error occurs and processing for progressing the game is not executed, if a game ball is detected by the V-winning detection sensor 539 or the count detection sensor 538 during the V-winning invalidation period, V It is excluded from the case where the winning ball error occurs. Thus, when a game ball entering the V winning device 531 immediately before the end of the input/output confirmation period is detected by the V winning detection sensor 539 or the count detection sensor 538 immediately after the end of the input/output confirmation period, the V winning It is possible to reduce the possibility that a ball entry error will occur. Therefore, it is possible to reduce the possibility that a game ball entering the V winning device 531 during the input/output confirmation period causes a ball entering error for V winning.

<Another form of the thirty-fifth embodiment>
(1) In the thirty-fifth embodiment, instead of executing the processing for returning the switching piece 536 to the retracted position in the operation confirmation processing, the operation confirmation of the switching piece 536 is performed in the operation confirmation processing. It is also possible to adopt a configuration in which operation confirmation processing of the switching piece 536 that enables this is executed. As already described in the thirty-third embodiment, the operation confirmation process is a process executed at line number "1005" of the input/output confirmation process (FIG. 253). If the RAM clearing process is executed after the start of supply, it will be executed. If the RAM clearing process is not executed, it will not be executed. The base body 534 of the V winning device 531 is provided with a return detection sensor 541 capable of detecting the switching piece 536 arranged at the retracted position, and capable of detecting the switching piece 536 arranged at the V guidance position. A V-inductive sensing sensor is provided. The main side RAM 84 stores a V lead detection completion flag that enables the main side MPU 82 to grasp that the switching piece 536 has been detected by the V lead detection sensor during the input/output confirmation period, and a return detection sensor during the input/output confirmation period. A return detection completed flag is provided to allow the main MPU 82 to grasp that the detection of the switching piece 536 in 541 has occurred. In the operation confirmation processing of the switching piece 536, if the V-lead detection completion flag provided in the main RAM 84 is not set to "1", it is checked whether or not the switching piece 536 has been detected by the V-lead detection sensor. If it is determined that the switching piece 536 has not been detected by the V-lead detection sensor, a process of outputting a V-lead pulse signal to the switching driving section 537 is executed. On the other hand, when the switching piece 536 is detected by the V-lead detection sensor, the V-lead detection completion flag is set to "1". In addition, in the operation confirmation processing of the switching piece 536, if the V-lead detection completion flag is set to "1" and the return detection completion flag is not set to "1", the switching piece 536 in the return detection sensor 541 is detected, and if the return detection sensor 541 does not detect the switching piece 536, a process of outputting a retraction pulse signal to the switching drive unit 537 is executed. On the other hand, when the switch piece 536 is detected by the return detection sensor 541, the return detected flag is set to "1". In the invalidation process executed in step SG905 of the timer interrupt process (FIG. 249) at the end of the input/output confirmation period, "1" is set to both the V-lead detected flag and return detected flag in the main RAM 84. If not, the symbol display device 41, the display light emitting unit 64 and the speaker unit 65 are made to notify the operation error of the switching piece 536. FIG. As a result, the manager of the game hall understands that at least one of the operation of rotating the switching piece 536 to the V guidance position and the operation of rotating the switching piece 536 to the retracted position is not performed normally. can be made possible. Therefore, it is possible to reduce the possibility that a game will be played in this state.

<Thirty-sixth embodiment>
This embodiment differs from the thirty-fifth embodiment in that a confirmation operation is performed during the input/output confirmation period to enable confirmation as to whether or not the switching piece 536 is in a state of normal operation. The configuration different from that of the thirty-fifth embodiment will be described below. The description of the same configuration as that of the thirty-fifth embodiment is basically omitted.

FIG. 289(a) is a front view of the game board 24 in this embodiment.

As shown in FIG. 289( a ), a confirmed display device 544 is provided below the pattern display device 41 . The confirmed display device 544 is arranged side by side with the input/output confirmation display device 521 already described in the thirty-fifth embodiment. The confirmed display device 544 is a display for performing confirmed notification to notify that a game ball has been detected by both the count detection sensor 538 and the V winning detection sensor 539 in the V winning device 531 during the input/output confirmation period. It is a device. The confirmed display device 544 has a light emitting part 542a (for example, an LED), and is turned on when a game ball is detected by both the count detection sensor 538 and the V winning detection sensor 539 during the input/output confirmation period. .

As already described in the thirty-fifth embodiment, a game ball entering the V winning device 531 is detected by either the count detection sensor 538 or the V winning detection sensor 539 . Therefore, in order to know that the game balls are normally detected by both the count detection sensor 538 and the V winning detection sensor 539, two or more game balls must be detected during the input/output confirmation period. The V winning device 531 needs to be serviced. When the game balls put into the V winning device 531 are continuously detected by one of the count detection sensor 538 and the V winning detection sensor 539, three or more game balls are put into the V winning device 531. The Rukoto. As a result, the manager of the game hall needs to prepare the V winning device 531 for the next game ball while memorizing the already output notification sound among the V ball entry notification sound and the counted ball entry notification sound. On the other hand, there is provided a confirmed display device 544 which turns on when the game ball is detected by both the count detection sensor 538 and the V winning detection sensor 539 during the input/output confirmation period. Based on the fact that the confirmed display device 544 is lit even if it is not known whether the V-ball entry notification sound has already been output and whether the count-ball entry notification sound has already been output. Both the count detection sensor 538 and the V winning detection sensor 539 can be able to grasp that the detection of the game ball is normally performed.

During the input/output confirmation period, the manager of the game hall puts a plurality of game balls in the V winning device 531, confirms that the confirmed display device 544 is lit, and visually checks the operation of the switching piece 536. , it can be grasped that the switching piece 536 has been switched from the retracted position to the guiding position in the V winning device 531 without directly confirming it.

FIG. 289(b) is an explanatory diagram for explaining the configuration of the main RAM 84. As shown in FIG. As shown in FIG. 289(b), the main RAM 84 is provided with a count entry confirmed flag 545, a V entry confirmed flag 546, and a confirmed informing flag 547. FIG. The count ball entry confirmation flag 545 is a flag that enables the main side MPU 82 to grasp that one or more game balls have been detected by the count detection sensor 538 during the input/output confirmation period, and is a V ball entry confirmation flag. Done flag 546 is a flag that allows the main side MPU 82 to grasp that one or more game balls have been detected by the V winning detection sensor 539 during the input/output confirmation period. In addition, the confirmed notification flag 547 is a flag that enables the main MPU 82 to grasp that the confirmed notification is being performed.

Next, the operation confirmation process executed by the main MPU 82 will be described with reference to the flowchart of FIG. As already described in the thirty-third embodiment, the operation confirmation process is executed at line number "1005" of the input/output confirmation process (FIG. 253).

In steps SJ601 to SJ618, the same processes as steps SI901 to SI918 of the operation confirmation process (FIG. 282) in the thirty-fifth embodiment are executed. The processing contents of steps SJ601 to SJ618 are already explained in the thirty-fifth embodiment. When the process of step SJ608 is performed, when a negative determination is made in step SJ610, or when the process of step SJ613 is performed, "1" is set in the evacuation position return completed flag provided in the main RAM 84. (step SJ619). If the retracted position return completion flag is not set to "1" (step SJ619: NO), that is, if the retracted position return of the switching piece 536 is not completed, the switching piece 536 is returned to the retracted position. A retreat position return process is executed (step SJ620). The contents of the retreat position return processing have already been described with reference to the flowchart of FIG. 283 in the thirty-fifth embodiment. On the other hand, if the retracted position returned flag is set to "1" (step SJ619: YES), that is, if the retracted position return of the switching piece 536 is completed, the switching process is executed by the CALL command. (Step SJ621).

Next, the switching process executed by the main MPU 82 will be described with reference to the flowchart of FIG. As described above, the switching process is executed in step SJ621 of the operation confirmation process (FIG. 290). In addition, as already described in the thirty-fifth embodiment, the switching process is also executed in step SI524 of the round open process (FIG. 278) and step SI610 of the round closed process (FIG. 279).

If the V winning open state flag of the main RAM 84 is not set to "1" (step SJ701: NO), that is, if it is not during the V winning round game execution period, the input/output checking flag 524 of the main RAM 84 is set to "1" (step SJ702). If the situation does not correspond to either the execution period of the V winning round game or the input/output confirmation period (step SJ701: NO, step SJ702: NO), processing for controlling the switching piece 536 (steps SJ703 to This switching process ends without executing step SJ721). In this way, the processing for controlling the switching piece 536 (steps SJ703 to SJ721) is executed when the switching piece 536 returns to the retracted position during the execution period of the V winning round game or during the input/output confirmation period. is executed if

If it is the execution period of the V winning round game (step SJ701: YES) or if the return of the switching piece 536 to the retracted position is completed during the input/output confirmation period (operation confirmation processing (step SJ621 of FIG. 290: YES, step In step SJ701: NO, step SJ702: YES), similar to steps SI702 to SI720 of the switching processing (FIG. 280) in the thirty-fifth embodiment, processing for controlling the switching piece 536 (steps SJ703 to Step SJ721) is executed The content of the processing for controlling the switching piece 536 has already been explained in the thirty-fifth embodiment.

As described above, the switching process (Fig. 291) consists of step SI524 of the round open process (Fig. 278), step SI610 of the round closed process (Fig. 279), and step SJ621 of the operation confirmation process (Fig. 290). is executed in The processing for controlling the switching piece 536 during the input/output confirmation period is the same processing as the processing for controlling the switching piece 536 during the execution period of the V winning round game. As a result, the data capacity of the program stored in the main ROM 83 for controlling the switching piece 536 can be reduced.

When the return of the switching piece 536 to the retracted position is completed during the input/output confirmation period, the processing for controlling the switching piece 536 (steps SJ703 to SJ721) is executed in the same manner as in the execution period of the V winning round game. be. As a result, the switching piece 536 arranged at the retracted position rotates toward the guiding position, and the switching piece 536 stays at the guiding position for four seconds. After that, the switching piece 536 rotates from the induction position toward the retracted position, and the state in which the switching piece 536 is arranged at the retracted position is continued until the input/output confirmation period ends.

As already explained in the thirty-fifth embodiment, the operation of the switching piece 536 can be visually recognized from the outside. The manager of the game hall confirms from the outside that the operation of the switching piece 536 is being performed normally during the input/output confirmation period, thereby grasping that the rotation control of the switching piece 536 is being performed normally. can do.

Next, the entering-ball notification command transmission process executed by the main MPU 82 will be described with reference to the flowchart of FIG. As already described in the thirty-third embodiment, the incoming ball notification command transmission process is executed at line number "1004" of the input/output confirmation process (FIG. 253). The entry notification command transmission process is executed during the input/output confirmation period, but is not executed during the playable state.

In steps SJ801 to SJ812, the same processes as steps SJ401 to SJ412 of the entering ball notification command transmission process (FIG. 286) in the thirty-fifth embodiment are executed. The processing contents of steps SJ801 to SJ812 are already explained in the thirty-fifth embodiment. If a negative determination is made in step SJ811 or if the process of step SJ812 is carried out, then in steps SJ813 to SJ814, steps SJ417 to SJ417 of the entering ball notification command transmission process (FIG. 286) in the thirty-fifth embodiment. A process similar to that of step SJ418 is executed. Specifically, when the out confirmation flag 522g in the confirmation flag group 522 is set to "1" (step SJ813: YES), an out notification command is transmitted to the sound/light side MPU 93 (step SJ814). When the sound and light side MPU 93 receives the out-ball notification command, it reads the out-ball entry notification sound table from the sound and light side ROM 94, and performs the out-ball notification for 0.6 seconds according to the read out-ball entry notification sound table. Sound output control of the speaker unit 65 is executed so that sound is output.

If a negative determination is made in step SJ813 or if the process of step SJ814 is carried out, then in steps SJ815 to SJ816, steps SJ419 to SJ419 of the entering ball notification command transmission process (FIG. 286) in the thirty-fifth embodiment. A process similar to that of step SJ420 is executed. Specifically, when the gate winning confirmation flag 522h in the confirmation flag group 522 is set to "1" (step SJ815: YES), a gate entry notification command is transmitted to the sound and light side MPU 93 (step SJ816). ). When the sound and light side MPU 93 receives the gate entry notification command, it reads the gate entry notification sound table from the sound and light side ROM 94, and performs the gate entry notification for 0.6 seconds according to the read gate entry notification sound table. Sound output control of the speaker unit 65 is executed so that sound is output.

If a negative determination is made in step SJ815, or if the process of step SJ816 is carried out, a confirmation notification process for V winning is executed (step SJ817). FIG. 293 is a flow chart showing the V winning confirmation notification process.

At steps SJ901 and SJ902, the same processes as steps SJ413 and S414 of the entering ball notification command transmission process (FIG. 286) in the thirty-fifth embodiment are executed. Specifically, in the V winning confirmation notification process, when the V winning confirmation flag 522k in the confirmation flag group 522 is set to "1" (step SJ901: YES), the V winning notification command is issued with sound and light. It is transmitted to the side MPU 93 (step SJ902). The V ball entry notification command is to output from the speaker unit 65 a V ball entry notification sound for notifying that the game ball that has entered the V winning device 531 has been detected by the V winning detection sensor 539 during the input/output confirmation period. is a command for making the sound and light side MPU 93 recognize the . When the sound and light side MPU 93 receives the V entry notification command, it reads the V entry notification sound table from the sound and light side ROM 94, and performs the V entry notification sound table for 0.6 seconds according to the read V entry notification sound table. Sound output control of the speaker unit 65 is executed so that sound is output.

After that, it is determined whether or not the flag 547 (FIG. 272) provided in the main RAM 84 is set to "1" (step SJ903). The confirmed notification flag 547 informs the main MPU 82 that the confirmed notification has been made based on the detection of the game ball by both the V winning detection sensor 539 and the count detection sensor 538 during the input/output confirmation period. It is a flag that can be grasped by If "1" is not set in the confirmed informing flag 547 (step SJ903: NO), "1" is set in the V-entered ball confirmed flag 546 in the main RAM 84 (step SJ904). In step SJ904, if the V-entered ball confirmed flag 546 is already set to "1", the state is maintained.

If a negative determination is made in step SJ901, if an affirmative determination is made in step SJ903, or if the process of step SJ904 is performed, in steps SJ905 and SJ906, the ball entry notification in the thirty-fifth embodiment. The same processing as steps SJ415 to S416 of the command transmission processing (FIG. 286) is executed. Specifically, it is determined whether or not the count winning confirmation flag 522j in the confirmation flag group 522 is set to "1" (step SJ905). When "1" is set in the count winning confirmation flag 522j (step SJ905: YES), a count incoming ball notification command is transmitted to the sound and light side MPU 93 (step SJ906). The count ball entry notification command indicates that the speaker unit 65 should output a count ball entry notification sound for notifying that the game ball that has entered the V winning device 531 has been detected by the count detection sensor 538 during the input/output confirmation period. This is a command for making the sound and light side MPU 93 recognize it. When the sound and light side MPU 93 receives the count entry notification command, it reads the count entry notification sound table from the sound and light side ROM 94, and performs the count entry notification for 0.6 seconds according to the read count entry notification sound table. Sound output control of the speaker unit 65 is executed so that sound is output.

After that, if "1" is not set in the confirmed informing flag 547 of the main side RAM 84 (step SJ907: NO), "1" is set to the counted incoming ball confirmed flag 545 in the main side RAM 84 ( step SJ908). In step SJ908, if the counted-ball-confirmed flag 545 is already set to "1", the state is maintained.

When a negative determination is made in step SJ905, when an affirmative determination is made in step SJ907, or when the processing of step SJ908 is performed, "1" is set in the confirmed notification flag 547 of the main RAM 84. It is determined whether or not it is set (step SJ909). When "1" is not set in the confirmed notification flag 547 (step SJ909: NO), both the V-entered ball confirmed flag 546 and the count-entered ball confirmed flag 545 in the main RAM 84 are "1". is set (step SJ910: YES, step SJ911: YES), the processing (step SJ912 to step SJ915) for executing the confirmation notification is executed.

Specifically, first, the V entry confirmed flag 546 in the main RAM 84 is cleared to "0" (step SJ912), and the count entry confirmed flag 545 in the main RAM 84 is cleared to "0" (step SJ913). After that, "1" is set in the confirmed informing flag 547 (step SJ914). Thereby, it is possible for the main MPU 82 to grasp that the confirmed display device 544 is in the lighting state. After that, lighting processing of the confirmed display device 544 is executed (step SJ915). In the lighting process, a lighting signal is output to turn on the confirmed display device 544 (FIG. 289). During the input/output confirmation period, the manager of the game hall confirms that the confirmed display device 544 has turned on, thereby detecting the game ball that has entered the V winning device 531 through the count detection sensor 538 and the V winning. Both detection sensors 539 can be found to be in a normal state. Also, if an affirmative determination is made in step SJ909, that is, if the confirmed notification has already been made, the process proceeds to step SJ915, and the lighting process of the confirmed display device 544 is executed. Thus, when the flag 547 for confirmed notification is set to "1", a lighting signal is output to the confirmed display device 544 each time the V winning confirmation notification process is executed. Thereby, the lighting state of the confirmed display device 544 can be continued.

The input/output confirmation period in this embodiment continues until the input/output confirmation period (10 seconds) expires, except when the supply of operating power is stopped. As a result, it is possible to prevent the input/output confirmation period from ending while the switching piece 536 is being returned to the retracted position.

Next, the manner in which confirmation notification is performed will be described with reference to the time chart of FIG. FIG. 294(a) shows the execution period of the confirmed notification, FIG. FIG. 294(d) shows the state of the confirmed informing flag 547 of the main side RAM 84, and FIG. FIG. 294(f) shows the timing at which the game ball is detected by the V winning detection sensor 539, FIG. 294(g) shows the period during which the switching piece 536 returns to the retreat position, (h) indicates an input/output confirmation period.

As shown in FIG. 294(h), when the input/output confirmation period starts at the timing t1, the switching piece 536 is retracted from the timing t1 to the timing t2 as shown in FIG. 294(g). A position return is performed. After that, when the game ball entering the V winning device 531 is detected by the count detection sensor 538 at the timing of t3, as shown in FIG. 1" is set. Further, as shown in FIG. 294(b), the counted-ball notification sound is output from the speaker section 65 from the timing of t3 to the timing of t4. As a result, the manager of the game hall can grasp that the game ball entering the V winning device 531 and guided to the discharge passage area 535b is normally detected by the count detection sensor 538. .

After that, at the timing of t5, as shown in FIG. 294(f), when the game ball entering the V winning device 531 is detected by the V winning detection sensor 539, as shown in FIG. From the timing of t6 to the timing of t6, the V-ball notification sound is output from the speaker unit 65 . As a result, the manager of the game hall can understand that the game ball entering the V winning device 531 and guided to the V winning passage area 535c is normally detected by the V winning detection sensor 539. can be done. In addition, at the timing of t5, as shown in FIG. 294(e), the counted-ball-confirmed flag 545 is cleared to "0", and as shown in FIG. 1" is set. Then, as shown in FIG. 294(a), confirmation notice is started. As already explained, in the confirmed notification, the confirmed display device 544 is lit. After that, at timing t7, when the input/output confirmation period ends as shown in FIG. Confirmed notification ends as shown in (a).

During the input/output confirmation period, the manager of the game hall puts a plurality of game balls into the V winning device 531 and confirms that the confirmed display device 544 is lit. It is possible to grasp that the detection of the game ball is normally performed in both winning detection sensors 539, and the switching piece 536 is arranged at the retracted position without directly recognizing the operation of the switching piece 536 from the outside. It can be understood that the state is normally switched from the state of being placed to the state of being placed at the guidance position.

<Another Form of the 36th Embodiment>
(1) In the thirty-sixth embodiment, the processing for returning the switching piece 536 to the origin and the processing for controlling the rotation of the switching piece 536 are executed when the RAM clear processing is executed. The switch piece 536 is moved to the retracted position based on the fact that the return-to-origin button provided on the main control board 81 is operated when the supply of operating power to the main MPU 82 is started. A configuration may also be adopted in which an origin return process for returning to the home position is executed, and when the origin return process is executed, an input/output confirmation process is executed. To execute origin return processing regardless of whether or not RAM clear processing is executed by configuring origin return processing to be executed based on operation of an origin return button. can be done. As a result, even when the RAM clearing process is not executed, the manager of the game hall can operate the return-to-origin button to return the switching piece 536 to the retracted position. The return-to-origin process is executed before the start of the remaining process (steps SG628 to SG631) in the main process (FIG. 246). The main MPU 82 sets numerical information ("2500") corresponding to the input/output confirmation period (10 seconds) in the confirmation timer counter 523a at the end of the origin return process. As a result, when the return-to-origin process is executed, the input/output confirmation process is executed after the start-up processing flag value is cleared to "0" in step SG627 of the main process (FIG. 246). input/output confirmation period to occur. During the input/output confirmation period, a process for controlling the rotation of the switching piece 536 is executed. The manager of the game hall can grasp whether or not the rotation control of the switching piece 536 is normally performed by visually confirming the operation mode of the switching piece 536 during the input/output confirmation period. . As a result, it is possible to reduce the possibility that the game will be executed in a state where the rotation control of the switching piece 536 is not normally performed.

<Thirty-seventh Embodiment>
This embodiment differs from the thirty-third embodiment in the processing configuration of the main MPU 82 . The configuration different from that of the thirty-third embodiment will be described below. The description of the same configuration as that of the thirty-third embodiment is basically omitted.

FIG. 295 is an explanatory diagram for explaining the configuration of the main controller 71 in this embodiment, and FIG. 296 is an explanatory diagram for explaining the configuration of the main side RAM 84. As shown in FIG.

Various controls executed using programs in the main MPU 82 are classified into specific control and non-specific control, as in the thirteenth embodiment. Specifically, the control related to the management of the game history and the operation confirmation during the input/output confirmation period is the non-specific control, and the control other than the non-specific control including the control for progressing the game based on the game operation by the player. It is considered as specific control. Specifically, the control by the main process (FIG. 246) executed when the supply of operating power to the main MPU 82 is started is included in the specific control. In addition, in the timer interrupt processing (FIG. 300) that is periodically interrupted and started, all processing other than input/output confirmation processing (step SK404) and management processing (step SK424) described later are included in specific control. Input/output confirmation processing (step SK404) and management processing (step SK424) are included in non-specific control.

As in the thirteenth embodiment, the control executed by the main MPU 82 is classified into specific control and non-specific control. Addresses of areas in which control data, programs for non-specific control, and data for non-specific control are stored are clearly distinguished.

Specifically, as already described with reference to FIG. 76 in the thirteenth embodiment, a specific control program is stored in each continuous address area within the range of address X(1) to address X(k+2). are collectively stored. Further, addresses X(k+3) to X(k+5) consecutive to addresses X(1) to X(k+2) are addresses of unused areas in which data is not stored. Data for specific control are collectively stored in areas of consecutive addresses within the range from X(k+6) to address X(m+2). Further, addresses X(m+3) to X(m+5) consecutive to addresses X(k+6) to X(m+2) are addresses of unused areas in which data is not stored. Programs for non-specific control are collectively stored in areas of consecutive addresses within the range from X(m+6) to address X(n+2). Further, addresses X(n+3) to X(n+5) consecutive to addresses X(m+6) to X(n+2) are addresses of unused areas in which data is not stored. Non-specific control data are collectively stored in areas of consecutive addresses within the range from X(n+6) to address X(p+2). The relationship between programs and data and addresses as described above is set in both physical addresses in the main ROM 83 and logical addresses on the memory map recognized by the main MPU 82 .

As described above, the specific control program and specific control data, and the non-specific control program and non-specific control data, regardless of the execution order of the processes for executing the corresponding controls, When only the specific control program and specific control data are to be checked, the address ranges in which the specific control program and specific control data are stored are stored in different address areas. If only the non-specific control program and non-specific control data are to be checked, the address range in which the non-specific control program and non-specific control data are stored Just check the area. Therefore, it is possible to efficiently perform work when checking programs and data by distinguishing between specific control and non-specific control. In addition, along with this, it is possible to efficiently perform the work for correcting programs and data by distinguishing between specific control and non-specific control.

No data is stored between the address range of the area in which the specific control program and specific control data are stored and the address range of the area in which the non-specific control program and non-specific control data are stored. By setting the address range of the unused area, it becomes easier to grasp the boundary between the address range for specific control and the address range for non-specific control in checking work.

In each of the address range for specific control and the address range for non-specific control, programs and data are stored in areas of different ranges of addresses, regardless of the execution order of processes for executing the corresponding control. By doing so, it becomes possible to efficiently perform work when checking programs and data separately. In addition, since the address range of an unused area in which no data is stored is set between the address range of the area in which the program is stored and the address range of the area in which the data is stored, the program This makes it easier to grasp the boundary between the address range and the data address range during the checking work.

As shown in FIG. 296, the main RAM 84 is provided with a work area 211 for specific control, a stack area 212 for specific control, a work area 213 for non-specific control, and a stack area 214 for non-specific control. there is As in the thirteenth embodiment, the control executed by using the program in the main MPU 82 is distinguished between specific control and non-specific control. The address range of the work area 211 for control and the stack area 212 for specific control is clearly distinguished from the address range of the work area 213 for non-specific control and the stack area 214 for non-specific control.

Specifically, as already described with reference to FIG. 77 in the thirteenth embodiment, areas of consecutive addresses within the range of address Y(1) to address Y(r+2) are designated as work areas for specific control. It is set as area 211 . In addition, addresses Y(r+3) to Y(r+5) that are continuous with addresses Y(1) to Y(r+2) are addresses of unused areas. An area of consecutive addresses within the range of Y(s+2) is set as a stack area 212 for specific control. In addition, addresses Y (s+3) to Y (s+5) consecutive to addresses Y (r+6) to Y (s+2) are addresses of unused areas. An area of consecutive addresses within the range of Y(t+2) is set as a work area 213 for non-specific control. In addition, addresses Y(t+3) to Y(t+5) that are continuous with addresses Y(s+6) to Y(t+2) are addresses of unused areas. An area of consecutive addresses within the range of Y(u+2) is set as a stack area 214 for non-specific control. The relationship between each area and the address as described above is set in both the physical address in the main side RAM 84 and the logical address on the memory map recognized in the main side MPU 82 .

Since the work area 211 for specific control and the work area 213 for non-specific control are separately set as described above, when the main MPU 82 executes the specific control and when the non-specific control is executed, Therefore, different areas of the main RAM 84 are used when executing various calculations. As a result, when one of the specific control and the non-specific control is executed, it is possible to make it difficult to cause an event in which necessary information in the main RAM 84 is erased in the other. Incidentally, when writing information to the work areas 211 and 213 and reading information from the work areas 211 and 213, the main MPU 82 executes a load instruction.

Since the stack area 212 for specific control and the stack area 214 for non-specific control are set separately, the main MPU 82 can determine whether the main MPU 82 executes the specific control or the non-specific control. Different areas of the main side RAM 84 are used when saving information stored in the register of the side MPU 82 and when storing return address information on the program. As a result, when one of the specific control and non-specific control is executed, when saving the information stored in the register of the main side MPU 82 and when storing the information of the return address on the program, it can be used in the other It is possible to make it difficult to cause an event such as the information to be deleted to be erased. Incidentally, when writing information to the stack areas 212 and 214, the main MPU 82 executes a push instruction, and when reading information from the stack areas 212 and 214, the main MPU 82 executes a pop instruction. When reading information from each of the stack areas 212 and 214, the information written later in the stack area 212 and 214 is read first.

Here, when the main MPU 82 executes processing corresponding to specific control, the main MPU 82 can write information to the work area 211 for specific control and the stack area 212 for specific control, Information can be read from the work area 211 for specific control and the stack area 212 for specific control. On the other hand, when the main MPU 82 executes processing corresponding to specific control, the main MPU 82 can read information from the work area 213 for non-specific control and the stack area 214 for non-specific control. , the work area 213 for non-specific control and the stack area 214 for non-specific control cannot be written. This makes it possible to prevent the information used in the process corresponding to the non-specific control from being erroneously deleted while the process corresponding to the specific control is being executed.

When the main MPU 82 executes processing corresponding to non-specific control, the main MPU 82 can write information to the work area 213 for non-specific control and the stack area 214 for non-specific control. In addition, information can be read from the work area 213 for non-specific control and the stack area 214 for non-specific control. On the other hand, when the main MPU 82 executes processing corresponding to non-specific control, although the main MPU 82 can read information from the work area 211 for specific control and the stack area 212 for specific control, Information cannot be written to the work area 211 for specific control and the stack area 212 for specific control. This makes it possible to prevent the information used in the process corresponding to the specific control from being erroneously deleted in a situation where the process corresponding to the non-specific control is being executed.

Although backup power is supplied to the main RAM 84 even after the pachinko machine 10 is powered off, the backup power includes the work area 211 for specific control, the stack area 212 for specific control, and the non-specific control. and the stack area 214 for non-specific control. As a result, the information stored in the work area 211 for specific control, the stack area 212 for specific control, the work area 213 for non-specific control, and the stack area 214 for non-specific control is stored in the power supply of the pachinko machine 10. Even afterward, the memory is retained while the backup power is being supplied.

As already described in the thirty-third embodiment, the input side of the main MPU 82 includes the first winning opening detection sensor 231a, the second winning opening detection sensor 232a, the third winning opening detection sensor 233a, the special electric detection sensor 234a, A first working opening detection sensor 235a, a second working opening detection sensor 236a, an out opening detection sensor 237a, and a gate detection sensor 238a are connected.

In this embodiment, in the playable state in which the processes of steps SK411 to SK423 of the timer interrupt process (FIG. 300) are executed, the ball detection process (step SK413 of the timer interrupt process (FIG. 300)), which will be described later, is mainly performed. The side MPU 82 identifies whether or not the rising of the detection signals input from the detection sensors 231a to 238a from the LOW level to the HI level has been detected, and during the input/output confirmation period, a ball entry notification process ( 302), the main MPU 82 determines whether or not the rise of the detection signals input from these detection sensors 231a to 238a from the LOW level to the HI level is detected. The ball entry detection process (step SK413) is included in the specific control process, and the ball entry notification process (FIG. 302) is included in the nonspecific control process. As shown in FIG. 296, the work area 211 for specific control is provided with a first detection signal storage area 571 used in the ball entry detection process (step SK413), and the work area for non-specific control. 213 is provided with a second detection signal storage area 572 that is used in the incoming ball notification process (FIG. 302).

297(a) is an explanatory diagram for explaining the configuration of the first detection signal storage area 571, and FIG. 297(b) is an explanatory diagram for explaining the configuration of the second detection signal storage area 572. FIG. As shown in FIG. 297(a), the first detection signal storage area 571 is a 1-byte area having 0th to 7th bits 571a to 571h. In the ball entry detection process (step SK413), the data corresponding to the detection signal input from the first winning opening detection sensor 231a is stored in the 0th bit 571a, and the detection input from the second winning opening detection sensor 232a is stored. Data corresponding to the signal is stored in the first bit 571b, and data corresponding to the detection signal input from the third winning opening detection sensor 233a is stored in the second bit 571c and input from the special electric detection sensor 234a. Data corresponding to the detection signal is stored in the third bit 571d, data corresponding to the detection signal input from the first working opening detection sensor 235a is stored in the fourth bit 571e, and data from the second working opening detection sensor 236a is stored. Data corresponding to the input detection signal is stored in the fifth bit 571f, data corresponding to the detection signal input from the outlet detection sensor 237a is stored in the sixth bit 571g, and is input from the gate detection sensor 238a. Data corresponding to the detection signal being detected is stored in the seventh bit 571h. The data stored in the 0th to 7th bits 571a to 571h are data "0" corresponding to the LOW level detection signal or data "1" corresponding to the HI level detection signal. In the ball entry detection process (step SK413), the data stored in the bits 571a to 571h of the first detection signal storage area 571 in the previous process and the detection signals currently input from the detection sensors 231a to 238a are used. , and whether or not the rise of the detection signal from the LOW level to the HI level has been detected.

As shown in FIG. 297(b), the second detection signal storage area 572 is a 1-byte area having 0th to 7th bits 572a to 572h. In the ball entry notification process (FIG. 302), data corresponding to the detection signal input from the first winning hole detection sensor 231a is stored in the 0th bit 572a and is input from the second winning hole detection sensor 232a. Data corresponding to the detection signal is stored in the first bit 572b, data corresponding to the detection signal input from the third winning opening detection sensor 233a is stored in the second bit 572c, and is input from the special electric detection sensor 234a. Data corresponding to the detection signal input from the first working opening detection sensor 235a is stored in the third bit 572d, data corresponding to the detection signal input from the first working opening detection sensor 235a is stored in the fourth bit 572e, and data corresponding to the detection signal input from the second opening detection sensor 236a is stored in the fourth bit 572e. Data corresponding to the detection signal input from the gate detection sensor 238a is stored in the fifth bit 572f, data corresponding to the detection signal input from the outlet detection sensor 237a is stored in the sixth bit 572g, and data corresponding to the detection signal input from the gate detection sensor 238a is stored in the fifth bit 572f. Data corresponding to the input detection signal is stored in the seventh bit 572h. The data stored in the 0th to 7th bits 572a to 572h are data "0" corresponding to the LOW level detection signal or data "1" corresponding to the HI level detection signal. In the incoming ball notification process (FIG. 302), the data stored in the bits 572a to 572h of the second detection signal storage area 572 in the previous process and the detection currently input from the detection sensors 231a to 238a are used. Based on the state of the signal, it is determined whether or not the rise of the detection signal from LOW level to HI level has been detected.

By providing the second detection signal storage area 572 in the work area 213 for non-specific control, detection sensors 231a to 238a can It is possible to detect the rise of the input detection signal. By eliminating the execution of the entering ball detection process (step SK413) included in the specific control process during the execution of the input/output confirmation process (Fig. 301) included in the non-specific control process, Transition from a state in which non-specific control processing is being performed to a state in which specific control processing is being performed, and from a state in which specific control processing is being performed to a state in which non-specific control processing is being performed , the processing load for executing the input/output confirmation process (FIG. 301) can be reduced.

As shown in FIG. 296, the non-specific control work area 213 includes a confirmation timer counter 573 used in the input/output confirmation process (step SK404), an operation confirmation open flag 574, an input/output confirmation end flag 575 and switching timer counter 576 are provided. The confirmation timer counter 573 is a timer counter that enables the main MPU 82 to grasp the remaining duration of the input/output confirmation period. The operation check open flag 574 is a flag that enables the main side MPU 82 to grasp that the special electric prize winning device 32 and the general electric accessory 34a are open during the input/output check period, and the input/output check end flag 575 is a flag that enables the main MPU 82 to recognize that the input/output confirmation period has ended. As with the switching timer counter 523b in the thirty-third embodiment, the switching timer counter 576 determines the timing of switching the special electric prize winning device 32 and the general electric accessory 34a from the open state to the closed state, and the special electric prize winning device during the input/output confirmation period. It is a timer counter that enables the main side MPU 82 to grasp the timing of switching the device 32 and the general electrical accessory 34a from the closed state to the open state.

As in the thirteenth embodiment, the main MPU 82 is provided with a specific control processor 221, a non-specific control processor 222 and a register area 223 (see FIG. 295). The specific control processing unit 221 is provided as a function of executing specific control processing using a specific control program and specific control data stored in the main ROM 83, and the non-specific control processing unit 222 It is provided as a function of executing non-specific control processing using a non-specific control program and non-specific control data stored in the main ROM 83 . Regardless of whether the specific control processing unit 221 executes the specific control processing or the non-specific control processing unit 222 executes the non-specific control processing, the registers provided in the main MPU 82 Information is read from the area 223 and written to the register area 223 .

As in the thirteenth embodiment, the register area 223 is provided with a general-purpose register area 223a and a command transmission buffer 223b (see FIG. 295). The general-purpose register area 223a includes flag registers, various general-purpose registers, auxiliary registers, index registers, and the like. A WA register, a BC register, a DE register, a HL register, an IX register and an IY register are provided as various general purpose registers, auxiliary registers and index registers. The command transmission buffer 223b needs to transmit a predetermined command to the sound and light side MPU 93 provided on the sound light emission control board 92 of the sound light emission control device 91 when the specific control processing is executed by the specific control processing unit 221. is stored. Further, the command transmission buffer 223b stores a specific command to be transmitted when it becomes necessary to transmit a specific command to the sound and light side MPU 93 due to execution of non-specific control processing in the non-specific control processing unit 222. command is stored. The command transmission buffer 223b is provided as a ring buffer having a plurality of unit storage areas capable of storing one type of command. The command to be transmitted is written in the unit storage area corresponding to the information of the write pointer provided in the main MPU 82 . In this case, the unit storage areas to be written are sequentially switched according to a predetermined order, and after the last order unit storage area is the write target, the first order unit storage area is the write target.

As already described in the thirteenth embodiment, commands written in each unit storage area of the command transmission buffer 223b are transmitted to the sound and light side MPU 93 by the command transmission circuit 224 provided in the main side MPU 82. The command transmission circuit 224 is provided with a read pointer, and transmits the command stored in the unit storage area corresponding to the information of the read pointer to the sound and light side MPU 93 . In this case, the unit storage areas to be read are sequentially switched according to a specific order, and after the last unit storage area is read, the first unit storage area is to be read. The command transmission circuit 224 does not involve execution of processing using programs in the specific control processing unit 221 and non-specific control processing unit 222 of the main MPU 82, that is, without intervening execution of processing using programs. A command is read from the read target unit storage area of the command transmission buffer 223b, and the read command is transmitted. Therefore, even when the command transmission circuit 224 is transmitting commands to the sound and light side MPU 93, the specific control processing unit 221 can execute the specific control process, and the non-specific control processing unit 222 A non-specific control process may be performed. Furthermore, even if the command stored in the command transmission buffer 223b is being transmitted by the command transmission circuit 224 due to the execution of the specific control processing by the specific control processing unit 221, the specific control processing unit 221 Not only can the specific control processing be executed in the non-specific control processing unit 222, but also the non-specific control processing can be executed in the non-specific control processing unit 222. As a result, even when the command stored in the command transmission buffer 223b is being transmitted by the command transmission circuit 224, the non-specific control processing unit 222 can execute the non-specific control processing as well as the specific control processing. It is a configuration in which the processing of specific control can be executed in the unit 221 . Note that the command transmission speed of the command transmission circuit 224 to the sound and light side MPU 93 is such that when a new command is stored in the command transmission buffer 223b, the untransmitted command stored in the command transmission buffer 223b is overwritten. It is set to a speed that does not overwhelm you.

As shown in FIG. 295, the register area 223 is provided with an output register 223d. The output register 223d is a 1-byte register having 0th to 7th bits. Whether the specific control processing is executed by the specific control processing unit 221 or the non-specific control processing is executed by the non-specific control processing unit 222, the information from the output register 223d Information is written to the reading and output register 223d.

FIG. 297(c) is an explanatory diagram for explaining the role of each bit in the output register 223d. As shown in FIG. 297(c), the 0th bit of the output register 223d is an area in which the data "0" or "1" specifying the output state of the signal to the drive unit 32b for the special electric train is set. , the first bit of the output register 223d is an area in which data of "0" or "1" specifying the output state of the signal to the general electric drive unit 34b is set. A bit is an area in which data "0" or "1" specifying the output state of a signal to the input/output confirmation display device 521 is set. The third to seventh bits of the output register 223d are unused areas.

As shown in FIG. 295, the main side MPU 82 is provided with a port setting circuit 577 . The port setting circuit 577 is hardware that executes control for signal output based on the data set in the output register 223 d without going through the control by the process executed by the main MPU 82 . When the value of the 0th bit of the output register 223d is "1", the port setting circuit 577 outputs a drive signal to the special electric drive unit 32b to set the special electric drive unit 32b to the driving state. At the same time, the special electric prize winning device 32 is opened. In addition, the port setting circuit 577 disables the special electric drive section 32b by not outputting the drive signal to the special electric drive section 32b when the value of the 0th bit is "0". It is set to a non-driving state and the special electric prize winning device 32 is set to a closed state. When the value of the first bit of the output register 223d is "1", the port setting circuit 577 outputs a drive signal to the general electric drive section 34b, thereby turning the general electric drive section 34b on. In addition to the drive state, the general electric accessory 34a is set to the open state. Further, when the value of the first bit is "0", the port setting circuit 577 does not output a drive signal to the drive section 34b for general electric power. 34b is brought into a non-driving state, and the universal electrical accessory 34a is brought into a closed state. The port setting circuit 577 outputs a lighting signal to the input/output confirmation display device 521 when the value of the second bit of the output register 223d is "1", thereby turning the input/output confirmation display device 521 into the lighting state. and Further, the port setting circuit 577 disables the input/output confirmation display device 521 by not outputting the lighting signal to the input/output confirmation display device 521 when the value of the second bit is "0". Turn off the light.

Based on the data set in the output register 223d, the port setting circuit 577 outputs a drive signal to the drive unit 32b for special electric power, a drive signal to the drive unit 34b for ordinary electric power, or lights the input/output confirmation display device 521. The operation of outputting the signal is performed at a predetermined cycle (for example, a cycle of 2 milliseconds). Therefore, when the 0th bit of the output register 223d is set to "1", the driving state of the drive unit 32b for the special electric is continued until the 0th bit is cleared to "0". The open state of the special electric prize winning device 32 is continued. Further, when "1" is set to the first bit of the output register 223d, the driving state of the drive unit 34b for general electricity is continued until the first bit is cleared to "0". The open state of the general electrical accessory 34a is continued. Furthermore, when the second bit of the output register 223d is set to "1", the lighting state of the input/output confirmation display device 521 is continued until the second bit is cleared to "0".

Next, the RAM clear processing executed by the main MPU 82 will be described with reference to the flowchart of FIG. 297(d). As already described in the thirty-third embodiment, the RAM clearing process is executed in step SG620 of the main process (FIG. 246) and step SG701 of the set value update process (FIG. 247).

First, clear processing of the work area 211 for specific control is executed (step SK101). In the clear processing of the work area 211 for specific control, the area of address Y(5) to address Y(r+2) is cleared to "0" and the area of address Y(5) to address Y(r+2) is initialized. I do. The address Y(5) is the address of the area included in the work area 211 for specific control in the main RAM 84, and is the top address Y(1) and the second address Y(1) in the main RAM 84 and the work area 211 for specific control. These addresses are set in the following order with respect to the address Y(2) to the fourth address Y(4). The area corresponding to the leading address Y(1) is a setting reference area in which information on setting values to be used is stored. Also, the area corresponding to the second address Y(2) to the third address Y(3) is a ceiling counter 131. FIG. Furthermore, an area corresponding to the fourth address Y(4) is provided with a startup processing flag. In the RAM clearing process (FIG. 297(d)), the clearing process is executed for the area corresponding to the address after the fifth address Y(5). The area corresponding to Y(2) to the fourth address Y(4) is not cleared. This prevents the RAM clear processing (FIG. 297(d)) from erasing the information on the set values to be used, the information stored in the ceiling counter 131, and the information set in the start-up processing flag. It becomes possible to

By executing the clearing process (step SK101) of the work area 211 for specific control, the area indicating whether the winning lottery mode is the high probability mode is cleared to "0", so that the pachinko machine 10 Regardless of the win/loss lottery mode immediately before the supply of operating power is stopped, the win/loss lottery mode becomes the low-probability mode. In addition, the game round is not executed, the open/close execution mode is not executed, and the normal diagram display section 38a is not displayed in a variable manner, and the general electric accessory 34a is in the closed state. situation. In addition, since the special figure reservation area 84a and the normal diagram reservation area 84c are also cleared to "0", the first reservation information, the second reservation information and the reservation information on the normal diagram side are erased. Also, the setting updating flag, the setting checking flag, and the setting update area are cleared to "0". Furthermore, the game stop flag is cleared to "0". Also, the timer counters 523a to 523g in the timer counter area 523 are cleared to "0".

After that, the process of clearing the stack area 212 for specific control is executed (step SK102). In the process of clearing the stack area 212 for specific control, the area from address Y(r+6) to address Y(s+1) is cleared to "0" and the area from address Y(r+6) to address Y(s+1) is initialized. I do.

After that, a partial clear process for non-specific control is executed by a CALLI instruction (step SK103). The work area 213 for non-specific control is provided with an area in which information for calculating the role ratio is stored. excluded from the scope of This makes it possible to prevent the information for calculating the role ratio from being erased by the RAM clearing process (FIG. 297(d)). Partial clear processing for non-specific control is included in non-specific control processing. In other words, when the state in which the specific control process is being executed in the main process (FIG. 246) changes to the situation in which the non-specific control process is to be executed, the non-specific control process is called using the CALLI instruction.

When the partial clear processing for non-specific control is executed by the CALLI instruction, first, the information in the flag register of the main MPU 82 is saved in the stack area 212 for specific control. The flag register includes a carry flag, a zero flag, a P/V flag, a sign flag, a half carry flag, and the like, and the information in the flag register changes according to the execution results of arithmetic instructions, rotate instructions, input/output instructions, and the like. By saving the information of the flag register before the program of the partial clear processing for the non-specific control which is the processing of the non-specific control is started, the partial clear processing for the non-specific control can be called or After the start of the non-specific control partial clear processing, it is possible to save the information of the flag register in the state before the change in the stack area 212 for specific control.

When partial clear processing for non-specific control is executed by the CALLI instruction, after the information in the flag register is saved in the stack area 212 for specific control, the timer interrupt processing (FIG. 300) is disabled. be. As a result, it is possible to prevent the timer interrupt processing (FIG. 300), which is the processing of the specific control, from being interrupted and started during the execution of the partial clear processing for the non-specific control, which is the processing of the non-specific control. It becomes possible.

FIG. 298 is a flow chart showing partial clear processing for non-specific control. The processing of steps SK201 to SK216 in the partial clearing process for non-specific control is performed by the non-specific control processing unit 222 of the main MPU 82 using a program for non-specific control and data for non-specific control. executed.

First, as "LD (_SPBUF), SP", the stack pointer information of the main side MPU 82 is saved in the SP buffer set in the work area 213 for non-specific control by a load instruction (step SK201). The stack pointer is an area in which address information is set for the main MPU 82 to specify a storage area to which information is to be written by a push instruction in the stack areas 212 and 214 . Each time a push instruction is performed, the stack pointer information is updated to the address information of the storage area to be written in the next order, and each time a pop instruction is performed, the stack pointer information is updated to the previous order to be written is updated to the information of the address of the storage area. By saving the information of the stack pointer of the main MPU 82 in the SP buffer in step SK201, the information of the stack pointer corresponding to the specific control immediately before the process corresponding to the non-specific control is started can be used as the work for the non-specific control. It will be saved in area 213 .

Thereafter, as "LD SP, Y(u+2)", Y(u+2) is set in the stack pointer of the main MPU 82 as a fixed address at the start of non-specific control by a load instruction (step SK202). When the stack area 214 for non-specific control is used, the information to be stored is stored from the storage area of the last address in the stack area 214 for non-specific control. The storage area of the storage destination is changed toward the first address side in the stack area 214 for specific control. Therefore, in step SK202, the information of the last address in stack area 214 for non-specific control is set in the stack pointer. The fact that information is stored from the storage area of the last address to the storage area of the first address in this manner is the same for the stack area 212 for specific control.

Incidentally, in both the stack area 212 for specific control and the stack area 214 for non-specific control, if a push instruction is additionally executed even though information is set in all storage areas, All areas of the main side RAM 84 are cleared to "0" assuming that an abnormality has occurred in the storage process. As a result, it is possible to prevent the game from proceeding despite the occurrence of an abnormality in the memory processing.

Thereafter, as "LD (_WABUF), WA", the information in the WA register of the main side MPU 82 is saved in the WA buffer set in the work area 213 for non-specific control by the load instruction (step SK203). Also, as "LD (_BCBUF), BC", the information in the BC register of the main MPU 82 is saved in the BC buffer set in the non-specific control work area 213 by the load instruction (step SK204). Also, as "LD (_DEBUF), DE", the information in the DE register of the main side MPU 82 is saved in the DE buffer set in the non-specific control work area 213 by the load instruction (step SK205). Also, as "LD (_HLBUF), HL", the information in the HL register of the main MPU 82 is saved in the HL buffer set in the non-specific control work area 213 by the load instruction (step SK206). Also, as "LD (_IXBUF), IX", the information in the IX register of the main MPU 82 is saved in the IX buffer set in the non-specific control work area 213 by the load instruction (step SK207). Also, as "LD (_IYBUF), IY", the information in the IY register of the main side MPU 82 is saved in the IY buffer set in the non-specific control work area 213 by the load instruction (step SK208).

In the general-purpose register area 223a in the register area 223 of the main MPU 82, there are various general-purpose registers, auxiliary registers and index registers in addition to the flag registers already described. In this case, in steps SK203 to SK208, each information of the WA register, BC register, DE register, HL register, IX register and IY register, which are some of these various general-purpose registers, auxiliary registers and index registers is saved in the corresponding buffer in the work area 213 for non-specific control. The information amount of each of the WA register, BC register, DE register, HL register, IX register and IY register is 2 bytes.

These WA register, BC register, DE register, HL register, IX register and IY register are registers used in the confirmation clear process (step SK209) which is the process corresponding to non-specific control. By saving the information set in such registers to the work area 213 for non-specific control prior to execution of the confirmation clear processing (step SK209), the information of these registers used for specific control can be saved to non-specific control. It becomes possible to save before the specific control is started. Therefore, even if these registers are overwritten during the non-specific control, the information saved in the work area 213 for non-specific control is returned to these registers when the non-specific control is terminated. can be returned to the state corresponding to the specific control before the non-specific control is executed.

In addition, instead of saving all the information of various general-purpose registers, auxiliary registers, and index registers to the work area 213 for non-specific control, the data is stored in the confirmation clear processing (step SK209), which is processing corresponding to non-specific control. By selectively saving the information of the WA register, BC register, DE register, HL register, IX register and IY register to be used in the work area 213 for non-specific control, the work area 213 for non-specific control It is possible to suppress the capacity to be secured for saving the information of the register in . Therefore, it is possible to save the above register information while securing a large capacity of the work area 213 for non-specific control that can be used in the confirmation clear process (step SK209).

Of course, among various general-purpose registers, auxiliary registers, and index registers in the main MPU 82, registers other than the WA register, BC register, DE register, HL register, IX register, and IY register support non-specific control. The information set before the start of the processing to be performed is stored and retained until the processing corresponding to the non-specific control ends and the processing corresponding to the specific control is restarted.

In addition, by saving register information in the work area 213 for non-specific control instead of saving it in the stack area 214 for non-specific control, the capacity of the stack area 214 for non-specific control can be reduced accordingly. It becomes possible. Also, when using the stack area 214 for non-specific control, as already explained, information is written in the order of writing and is read out first. Otherwise, all subsequent read order information will be returned to different registers. The probability of occurrence of such an event increases as the amount of information saved in the stack area 214 for non-specific control increases. On the other hand, by saving the register information to the non-specific control work area 213, it is possible to prevent the occurrence of the above event even when there is a large amount of information to be saved. .

After executing the processing of steps SK203 to SK208, a confirmation clear processing (step SK209) is executed by a CALL command. When executing the confirmation clear process (step SK209), a subroutine program corresponding to the confirmation clear process (step SK209) set in the non-specific control program is executed. When executing the program, information for specifying the return address of the partial clear processing for non-specific control after execution of the confirmation clear processing (step SK209) is written in the stack area 214 for non-specific control by a push instruction. . Then, when the confirmation clear processing (step SK209) is completed, information for specifying the return address is read out by a pop command, and the program of the partial clear processing for non-specific control indicated by the return address is executed. return. Details of the confirmation clear processing (step SK209) will be described later.

After executing the confirmation clear processing (step SK209), the information saved in the WA buffer of the non-specific control work area 213 by the load instruction is transferred to the WA buffer of the main MPU 82 as "LD WA, (_WABUF)" Overwrite the register (step SK210). Also, as "LD BC, (_BCBUF)", the BC register of the main MPU 82 is overwritten with the information saved in the BC buffer of the non-specific control work area 213 by the load instruction (step SK211). Also, as "LD DE, (_DEBUF)", the DE register of the main MPU 82 is overwritten with the information saved in the DE buffer of the non-specific control work area 213 by the load instruction (step SK212). Also, as "LD HL, (_HLBUF)", the HL register of the main MPU 82 is overwritten with the information saved in the HL buffer of the non-specific control work area 213 by the load instruction (step SK213). Also, as "LD IX, (_IXBUF)", the IX register of the main MPU 82 is overwritten with the information saved in the IX buffer of the non-specific control work area 213 by the load instruction (step SK214). Also, as "LD IY, (_IYBUF)", the information saved in the IY buffer of the non-specific control work area 213 by the load instruction is overwritten in the IY register of the main MPU 82 (step SK215). By executing the processing of steps SK210 to SK215, the information of the WA register, BC register, DE register, HL register, IX register and IY register of the main MPU 82 is processed for non-specific control. It is possible to restore the information corresponding to the specific control immediately before the control.

Thereafter, as "LD SP, (_SPBUF)", the stack pointer of the main MPU 82 is overwritten with the information saved in the SP buffer of the non-specific control work area 213 by the load instruction (step SK216). As a result, the information of the stack pointer of the main MPU 82 is restored to the information corresponding to the specific control immediately before the process corresponding to the non-specific control is started.

As already explained, the RAM clearing process may be executed in step SG620 of the main process (FIG. 246) or may be executed in step SG701 of the set value update process (FIG. 247). Therefore, the information of the stack pointer corresponding to the specific control immediately before the process corresponding to the non-specific control is started may fluctuate. On the other hand, the information of the stack pointer corresponding to the specific control immediately before the process corresponding to the non-specific control is started is saved in the work area 213 for non-specific control. As a result, even if the information of the stack pointer corresponding to the specific control immediately before the process corresponding to the non-specific control is started may fluctuate, the process corresponding to the non-specific control ends and the specific control starts. When returning to the corresponding process, it is possible to return the information of the stack pointer of the main MPU 82 to the information corresponding to the specific control immediately before the process corresponding to the non-specific control is started.

After executing the process of step SK216, the RETI instruction returns to the main process (FIG. 246) or set value update process (FIG. 247) included in the specific control process. By executing the RETI instruction, the information of the flag register saved in the stack area 212 for specific control before execution of the partial clear processing for non-specific control is restored to the flag register of the main MPU 82, The state in which the generation of timer interrupt processing (FIG. 300) is prohibited is switched to the state in which it is permitted. As a result, the information in the flag register of the main MPU 82 is restored to the information for executing the specific control, and new execution of the timer interrupt process becomes possible.

Information stored in the flag register and various registers of the main MPU 82 when the non-specific control process is executed is not saved in the main RAM 84 when the specific control process is restarted. This eliminates the need to secure a storage area for saving the above information in the work area 211 for specific control and the stack area 212 for specific control.

Further, the information stored in the flag register and various registers of the main MPU 82 when the non-specific control process is executed is stored when the non-specific control process is restarted after returning to the specific control process. Information that is not used. In other words, information necessary for a plurality of times of non-specific control processing executed with specific control processing intervening is stored in the work area 213 for non-specific control or the stack area 214 for non-specific control. It is not stored in the flag register and various registers of the main MPU 82. Therefore, even if the information stored in the flag register and various registers of the main MPU 82 is not saved in the main RAM 84 when the non-specific control process is executed, a problem arises in executing the non-specific control process. do not have.

FIG. 299 is a flow chart showing the confirmation clear processing executed in step SK209 of the non-specific control partial clear processing (FIG. 298). The processing of steps SK301 to SK305 in the confirmation clear processing is executed by the non-specific control processing unit 222 of the main MPU 82 using the non-specific control program and non-specific control data. be done.

In steps SK301 to SK304, a process of clearing to "0" the area used in the input/output confirmation process (FIG. 301) among the areas provided in the non-specific control work area 213 is executed. Specifically, the confirmation timer counter 573 in the non-specific control work area 213 is cleared to "0" (step SK301), and the operation confirmation opening flag 574 is cleared to "0" (step SK302). Thereafter, the input/output confirmation end flag 575 is cleared to "0" (step SK303), and the switching timer counter 576 is cleared to "0" (step SK304).

After that, the command "LDW (KAKUTIM), 2500" is executed (step SK305). "LDW" is a 16-bit transfer command, "KAKUTIM" is the confirmation timer counter 573 in the non-specific control work area 213, and "2500" corresponds to the input/output confirmation period set to 10 seconds. It is numerical information that By executing the instruction "LDW (KAKUTIM), 2500" at step SK305, numerical information "2500" is set in the timer counter 573 for confirmation. As a result, the input/output confirmation period is set to 10 seconds. Numerical information "2500" corresponding to the input/output confirmation period is set in the confirmation timer counter 573. As a result, the processing (steps SG601 to SG627) at the start of supply of operating power in the main processing (FIG. 246) is performed. After termination, the I/O confirmation period can be initiated when the timer interrupt process (Fig. 300) is activated.

When the RAM clear process (step SG620 or step SG701) is executed, the input/output confirmation period is started after the process (step SG601 to step SG627) at the start of supply of operating power is completed. When the process is executed, the area used in the input/output confirmation process (FIG. 301) among the areas provided in the non-specific control work area 213 is cleared to "0". As a result, the input/output confirmation process is executed in a state where the area used in the input/output confirmation process among the areas provided in the work area 213 for non-specific control is cleared to "0". can do.

Next, the timer interrupt processing executed by the main MPU 82 will be described with reference to the flowchart of FIG. Of the processes of steps SK401 to SK424 in the timer interrupt process, processes other than the input/output confirmation process called and executed at step SK404 and the management process called at step SK424 are executed by a specific control program. and data for specific control are executed by the specific control processing unit 221 of the main MPU 82, and the input/output confirmation process and management process use the program for non-specific control and the data for non-specific control. is executed by the non-specific control processing unit 222 of the main MPU 82.

In step SK401, a power failure monitoring process is executed in the same manner as in step SG901 of the timer interrupt process (FIG. 249) in the thirty-third embodiment. Thereafter, it is determined whether or not "1" is set in the start-up processing flag in the work area 211 for specific control (step SK402), and if "1" is not set in the start-up processing flag ( At step SK402: NO), it is determined whether or not the value of the confirmation timer counter 573 in the non-specific control work area 213 is equal to or greater than "1" (step SK403). When the value of the confirmation timer counter 573 is "1" or more (step SK403: YES), the input/output confirmation process is executed by the CALLI instruction (step SK404). When the input/output confirmation process is executed by the CALLI instruction, first, information in the flag register of the main MPU 82 is saved in the stack area 212 for specific control. As a result, it becomes possible to save the information of the flag register in the state before it changes after the input/output confirmation process is called or the input/output confirmation process is started, in the stack area 212 for specific control. . Also, when the input/output confirmation process is executed by the CALLI instruction, the interrupt of the timer interrupt process (FIG. 300) is prohibited after the information of the flag register is saved in the stack area 212 for specific control. This makes it possible to prevent the timer interrupt processing (FIG. 300), which is the specific control processing, from being interrupted and started while the input/output confirmation processing, which is the non-specific control processing, is being executed. The input/output confirmation process will be described later in detail.

When the value of the confirmation timer counter 573 is "0" (step SK403: NO), the invalidation process is executed (step SK405). Invalidation processing will be described later in detail. If an affirmative determination is made in step SK402 or if the process of step SK405 is carried out, the process proceeds to step SK406. At steps SK406 to SK423, the same processes as steps SG906 to SG923 of the timer interrupt process (FIG. 249) in the thirty-third embodiment are executed. Specifically, first, random number update processing for lottery is executed (step SK406). Thereafter, in step SK407, random number initial value update processing is executed in the same manner as in step SG629 of the main processing (FIG. 246), and in step SK408, variation counter update processing is executed in the same manner as in step SG630 of the main processing (FIG. 246). .

After that, fraud detection processing is executed to monitor whether or not a predetermined event set as a monitoring target for fraud has occurred (step SK409). In the fraud detection process, the game stop flag provided in the main side RAM 84 is set to "1" by monitoring the occurrence of a plurality of types of events and confirming that a predetermined event has occurred.

Thereafter, it is determined whether or not "1" is set to either the game stop flag or the start-up processing flag of the main RAM 84 (step SK410). When "1" is set to either the game stop flag or the start-up processing flag (step SK410: YES), the game history is managed in step SK424 without executing the processing of steps SK411 to SK423. Proceed to processing for (management processing). As a result, in a situation where the startup processing flag is set to "1", power failure monitoring processing (step SG901), updating of various counters, fraud monitoring and game history processing in the timer interrupt processing (Fig. 300) While the processing for executing management (steps SK406 to SK409 and step SK424) is executed, the invalidation processing (step SK405) and the processing for advancing the game (step SK411 to step SK423) are not executed. It becomes possible to In addition, in the situation where the game stop flag is set to "1", power failure monitoring processing (step SG901), invalidation period setting, updating of various counters, fraud monitoring and While executing processing for managing the game history (step SK405, steps SK406 to SK409 and step SK424), the processing for progressing the game (step SK411 to step SK423) is not executed. becomes possible.

When neither the game stop flag nor the start-up processing flag is set to "1" (step SK410: NO), the process for progressing the game in steps SK411 to SK423 is executed. Specifically, first, port output processing is executed (step SK411). In the port output process, when the switching setting of the output information is performed in the previous timer interrupt process, the process for performing the output corresponding to the setting to the various driving units 32b and 34b is executed. For example, when the information to switch the special electric prize winning device 32 to the open state is set, by setting the 0th bit of the output register 223d to "1", the drive signal to the drive unit 32b for the special electric is sent. When the information to switch to the closed state is set while the output is started, the output of the drive signal is stopped by clearing the 0th bit of the output register 223d to "0". make it In addition, when the information to switch the general electrical function 34a of the second operation port 34 to the open state is set, by setting "1" to the first bit of the output register 223d, the general electrical When the information to switch to the closed state is set, the driving is started by clearing the first bit of the output register 223d to "0". Causes the signal output to stop. Thereafter, read processing is executed (step SK412). In the reading process, signals other than the power failure signal and the winning signal are read, and the read information is stored for use in future processing.

After that, the command "CALL SWREAD2" is executed (step SK413). "SWREAD2" is an entering ball detection process. At step SK413, ball entry detection processing is executed by a CALL command. When executing the ball entry detection process (step SK413), a subroutine program corresponding to the ball entry detection process is executed. When executing the subroutine program, the ball entry detection process (step SK413) is executed. Information for specifying the return address later is written in the stack area 212 for specific control by the push instruction. Then, when the entering ball detection process (step SK413) is completed, information for specifying the return address is read by the pop instruction, and the program indicated by the return address is returned to. As already explained, in the ball entry detection process, the data stored in the bits 571a to 571h of the first detection signal storage area 571 in the work area 211 for specific control in the previous process and the detection sensors 231a to 238a are stored. Based on the state of the detection signal received from the general winning opening 31, the special electric winning device 32, the first operation opening 33, the second operation opening 34, the out opening 24a, and the presence or absence of the ball entering the through gate 35 Execute the specified process. When the program of the subroutine called at step SK413 is terminated, the process proceeds to step SK414 of timer interrupt processing (FIG. 300).

At step SK414, the command "CALL TIMER" is executed. "TIMER" is timer update processing. At step SK414, timer update processing is executed by a CALL instruction. When the timer update process (step SK414) is executed, a subroutine program corresponding to the timer update process is executed. When the subroutine program is executed, the return after the timer update process (step SK414) is executed. Information for specifying an address is written in the stack area 212 for specific control by a push instruction. Then, when the timer update process (step SK414) is completed, information for specifying the return address is read by the pop instruction, and the program indicated by the return address is returned to. In the timer update process, numerical information of a plurality of types of timer counters provided in the work area 211 for specific control in the main RAM 84 is collectively updated. Specifically, the numerical information of the special figure side timer counter 523c, the general figure side timer counter 523d, the post-confirmation invalidation timer counter 523e, the special electric monitoring delay timer counter 523f, and the general electric monitoring delay timer counter 523g are updated collectively. do. On the other hand, the confirmation timer counter 573 and the switching timer counter 576 provided in the work area 213 for non-specific control are excluded from updating targets in the timer updating process (step SK414). When the program of the subroutine called at step SK414 is terminated, the process proceeds to step SK415 of timer interrupt processing (FIG. 300).

At steps SK415 to SK423, the same processes as steps SG915 to SG923 of the timer interrupt process (FIG. 249) in the thirty-third embodiment are executed. The processing contents of steps SK415 to SK423 are already explained in the thirty-third embodiment. If an affirmative determination is made at step SK410 or if the process of step SK423 is carried out, management processing is executed by a CALLI command (step SK424). In the management process, as in the thirty-third embodiment, a process for storing the game history for calculating the role ratio, a process for calculating the role ratio using the stored game history, And the processing for displaying the calculated role ratio on the notification display device 141 is executed.

As described above, when the value of the confirmation timer counter 573 is 1 or more, an affirmative determination is made in step SK403, and after the input/output confirmation process (step SK404) is executed, steps SK405 to SK424 are executed. This timer interrupt process (FIG. 300) ends without executing the process of . When the timer interrupt processing is started during the input/output confirmation period, by not executing the processing for displaying the role ratio on the notification display device 141, the notification display device is activated during the input/output confirmation period. 141 can be turned off. Therefore, the manager of the gaming hall who performs the operation to update the setting value while looking at the notification display device 141 confirms that the notification display device 141 has turned off after the operation to update the setting value. By doing so, it is possible to grasp that the input/output confirmation period has come.

During the input/output confirmation period, even if the timer interrupt process (Fig. 300) is activated, the processes of steps SK405 to SK424 in the timer interrupt process are not executed, thereby reducing the processing of the main MPU 82 during the input/output confirmation period. load can be reduced.

Next, the input/output confirmation process executed in step SK404 of the timer interrupt process (FIG. 300) will be described with reference to the flowchart of FIG. The processes of steps SK501 to SK516 in the input/output confirmation process are executed by the non-specific control processing unit 222 of the main MPU 82 using a non-specific control program and non-specific control data.

First, as in step SK202 of the already explained partial clearing process for non-specific control (FIG. 298), as "LD SP, Y(u+2)", the stack pointer of the main MPU 82 is loaded with the non-specific control. Y(u+2), which is the last address in the stack area 214 for non-specific control, is set as the fixed address at the start (step SK501). As a result, the storage area corresponding to the last address in the stack area 214 for non-specific control can be set as a write target.

After that, in steps SK502 to SK507, the same processes as steps SK203 to SK208 of the already explained partial clearing process for non-specific control (FIG. 298) are executed. As a result, the information of the WA register, BC register, DE register, HL register, IX register and IY register of the main MPU 82 is stored in the WA buffer, BC buffer, DE buffer and HL buffer set in the work area 213 for non-specific control. , IX buffer and IY buffer.

After that, the CALL command executes the incoming ball notification process (step SK508), and the CALL command executes the operation confirmation process (step SK509). Details of the entering ball notification process (step SK508) and the operation confirmation process (step SK509) will be described later.

After that, as "LD SP, Y(r+e)", the stack pointer of the main side MPU 82 is set to the stack area for the specific control as a fixed address at the time of returning to the specific control after the completion of the input/output confirmation process by the load instruction. Y(r+e) set as an address between Y(r+8) and Y(s) in 212 is set (step SK510). Thereby, the information of the stack pointer can be restored to the information immediately before the process corresponding to the non-specific control is started.

After that, in steps SK511 to SK516, by executing the same processing as steps SK710 to SK715 of the already explained partial clear processing for non-specific control (FIG. 298), the work area 213 for non-specific control is cleared. Overwrite the WA register, BC register, DE register, HL register, IX register and IY register of the main MPU 82 with the information saved in the WA buffer, BC buffer, DE buffer, HL buffer, IX buffer and IY buffer. As a result, each information of the WA register, BC register, DE register, HL register, IX register and IY register of the main MPU 82 is restored to the information corresponding to the specific control immediately before the processing corresponding to the non-specific control is started. It is possible to

After that, the RETI instruction returns to the timer interrupt processing (FIG. 300) included in the specific control processing. As already explained, by executing the RETI instruction, the information in the flag register of the main MPU 82 is restored to the information for executing the specific control, and the timer interrupt processing can be newly executed.

Next, the entering ball notification process executed in step SK508 of the input/output confirmation process (FIG. 301) will be described with reference to the flowchart of FIG. While the incoming ball notification process is executed during the input/output confirmation period, when the input/output confirmation period ends, it is not executed even if the timer interrupt process is started. It should be noted that the processing of steps SK601 to SK625 in the ball entry notification processing is executed by the non-specific control processing section 222 of the main side MPU 82 using the program for non-specific control and the data for non-specific control.

First, signal comparison processing of the first winning hole detection sensor 231a is executed (step SK601). In the signal comparison process, the data stored in the 0th bit 572a of the second detection signal storage area 572 in the non-specific control work area 213 in the previous process and the main Based on the detection signal input to the side MPU 82, it is determined whether or not the rise of the detection signal from the LOW level to the HI level has been detected. After that, when the detection signal input from the first winning opening detection sensor 231a is at LOW level, the 0th bit 572a is cleared to "0" and the detection signal input from the first winning opening detection sensor 231a is cleared. In the case of HI level, "1" is set to the 0th bit 572a.

After that, when the rise of the detection signal is detected at step SK601 (step SK602: YES), the common ball entry notification command is stored in the command transmission buffer 223b of the register area 223 (step SK603). The common entry notification command is stored in the command transmission buffer 223b at steps SK603, SK606, SK609 and SK615. By storing the common incoming ball notification command in the command transmission buffer 223 b , the command transmission circuit 224 operates to transmit the common incoming ball notification command to the sound and light side MPU 93 . When the sound and light side MPU 93 receives the common ball entry notification command, it reads out the common ball entry notification sound table from the sound and light side ROM 94, and performs common entry notification for 0.6 seconds according to the read common ball entry notification sound table. Sound output control of the speaker unit 65 is executed so that sound is output.

A ball entry notification sound that is output when a ball enters the general winning holes 31 provided on the game board 24, and an input ball that is output when a ball enters the first operation hole 33. Since the ball notification sound is shared, the data capacity of the ball entry notification sound table stored in the sound and light side ROM 94 is suppressed, and the number of types of ball entry notification sounds becomes too large. is prevented.

When a negative determination is made in step SK602, or when the processing of step SK603 is performed, signal comparison processing of the second winning opening detection sensor 232a is executed (step SK604). In the signal comparison process, the data stored in the first bit 572b of the second detection signal storage area 572 in the previous process and the detection signal currently input from the second winning hole detection sensor 232a to the main side MPU 82 are used. , it is determined whether or not the rise of the detection signal from the LOW level to the HI level has been detected. After that, when the detection signal input from the second winning opening detection sensor 232a is LOW level, the first bit 572b is cleared to "0" and the detection signal input from the second winning opening detection sensor 232a is cleared. In the case of HI level, "1" is set to the first bit 572b.

After that, when the rise of the detection signal is detected in step SK604 (step SK605: YES), the common entry notification command is stored in the command transmission buffer 223b (step SK606). As a result, the common ball entry notification sound can be output from the speaker unit 65 for 0.6 seconds.

When a negative determination is made in step SK605, or when the processing of step SK606 is performed, signal comparison processing of the third winning opening detection sensor 233a is executed (step SK607). In the signal comparison process, the data stored in the second bit 572c of the second detection signal storage area 572 in the previous process and the detection signal currently input from the third winning hole detection sensor 233a to the main side MPU 82 are used. , it is determined whether or not the rise of the detection signal from the LOW level to the HI level has been detected. After that, when the detection signal input from the third winning opening detection sensor 233a is LOW level, the second bit 572c is cleared to "0" and the detection signal input from the third winning opening detection sensor 233a is cleared. In the case of HI level, "1" is set to the second bit 572c.

After that, when the rise of the detection signal is detected at step SK607 (step SK608: YES), the common entry notification command is stored in the command transmission buffer 223b (step SK609). As a result, the common ball entry notification sound can be output from the speaker unit 65 for 0.6 seconds.

When a negative determination is made in step SK608, or when the processing of step SK609 is performed, signal comparison processing of the special electric detection sensor 234a is executed (step SK610). In the signal comparison processing, based on the data stored in the third bit 572d of the second detection signal storage area 572 in the previous processing and the detection signal currently input from the special electric detection sensor 234a to the main side MPU 82 Then, it is determined whether or not the rise of the detection signal from the LOW level to the HI level has been detected. After that, when the detection signal input from the special electric detection sensor 234a is LOW level, the third bit 572d is cleared to "0", and when the detection signal input from the special electric detection sensor 234a is HI level, A "1" is set in the third bit 572d.

After that, when the rise of the detection signal is detected in step SK610 (step SK611: YES), the special electric incoming ball notification command is stored in the command transmission buffer 223b (step SK612). By storing the special electric ball notification command in the command transmission buffer 223b, the command transmission circuit 224 operates to transmit the special electric ball notification command to the sound and light side MPU 93. When the sound and light side MPU 93 receives the special electric landing ball notification command, it reads out the special electric landing ball notification sound table from the sound and light side ROM 94, and notifies the special electric landing ball notification sound for 0.6 seconds according to the read special electric landing ball notification sound table. Sound output control of the speaker unit 65 is executed so that sound is output. The manager of the game hall maintains the game ball in the special electric prize winning device 32 which is performing the opening and closing operation during the input/output confirmation period, and confirms whether or not the special electric ball notification sound is output. It is possible to grasp whether or not the detection of a game ball that has entered the device 32 is normally performed.

When a negative determination is made in step SK611, or when the processing of step SK612 is performed, signal comparison processing of the first working opening detection sensor 235a is executed (step SK613). In the signal comparison processing, the data stored in the fourth bit 572e of the second detection signal storage area 572 in the previous processing and the detection signal currently input from the first working opening detection sensor 235a to the main side MPU 82 are used. , it is determined whether or not the rising of the detection signal from LOW level to HI level has been detected. Thereafter, when the detection signal input from the first working opening detection sensor 235a is at LOW level, the fourth bit 572e is cleared to "0" and the detection signal input from the first working opening detection sensor 235a is cleared. In the case of HI level, "1" is set to the fourth bit 572e.

After that, when the rise of the detection signal is detected in step SK613 (step SK614: YES), the common entry notification command is stored in the command transmission buffer 223b (step SK615). As a result, the common ball entry notification sound can be output from the speaker unit 65 for 0.6 seconds.

When a negative determination is made in step SK614, or when the processing of step SK615 is performed, signal comparison processing of the second working port detection sensor 236a is executed (step SK616). In the signal comparison processing, the data stored in the fifth bit 572f of the second detection signal storage area 572 in the previous processing and the detection signal currently input from the second operation opening detection sensor 236a to the main side MPU 82 are used. , it is determined whether or not the rise of the detection signal from the LOW level to the HI level has been detected. Thereafter, when the detection signal input from the second working opening detection sensor 236a is at LOW level, the fifth bit 572f is cleared to "0" and the detection signal input from the second working opening detection sensor 236a is cleared. In the case of HI level, the fifth bit 572f is set to "1".

After that, when the rise of the detection signal is detected at step SK616 (step SK617: YES), the second operation entering ball notification command is stored in the command transmission buffer 223b (step SK618). By storing the second operation entry notification command in the command transmission buffer 223 b , the command transmission circuit 224 operates to transmit the second operation entry notification command to the sound and light side MPU 93 . When the sound and light side MPU 93 receives the second operation entrance ball notification command, it reads the second operation entrance ball notification sound table from the sound and light side ROM 94, and according to the read second operation entrance ball notification sound table, in 0.6 seconds The sound output control of the speaker unit 65 is executed so that the second operation ball entry notification sound is output over the entire period. The manager of the game hall puts a game ball in the second operation port 34, which is switched between the open state and the closed state by the opening and closing operation of the general electric accessory 34a during the input/output confirmation period, and enters the second operation. By confirming whether or not the ball notification sound is output, it is possible to grasp whether or not the detection of the game ball entering the second operation opening 34 is normally performed.

When a negative determination is made in step SK617, or when the processing of step SK618 is performed, signal comparison processing of the outlet detection sensor 237a is executed (step SK619). In the signal comparison process, the data stored in the sixth bit 572g of the second detection signal storage area 572 in the previous process and the detection signal currently input from the outlet detection sensor 237a to the main side MPU 82 are compared. Based on this, it is determined whether or not the rise of the detection signal from the LOW level to the HI level has been detected. After that, when the detection signal input from the outlet detection sensor 237a is LOW level, the sixth bit 572g is cleared to "0", and when the detection signal input from the outlet detection sensor 237a is HI level. , the sixth bit 572g is set to "1".

After that, when the rise of the detection signal is detected in step SK619 (step SK620: YES), the out-ball notification command is stored in the command transmission buffer 223b (step SK621). By storing the out-ball notification command in the command transmission buffer 223 b , the command transmission circuit 224 operates to transmit the out-ball notification command to the sound/light side MPU 93 . When the sound and light side MPU 93 receives the out-ball notification command, it reads out the out-ball entry notification sound table from the sound and light side ROM 94, and performs the out-ball notification for 0.6 seconds according to the read out-ball entry notification sound table. Sound output control of the speaker unit 65 is executed so that sound is output.

If a negative determination is made in step SK620, or if the processing of step SK621 is performed, signal comparison processing of the gate detection sensor 238a is executed (step SK622). In the signal comparison processing, based on the data stored in the seventh bit 572h of the second detection signal storage area 572 in the previous processing and the detection signal currently input from the gate detection sensor 238a to the main side MPU 82. Then, it is determined whether or not the rise of the detection signal from the LOW level to the HI level has been detected. After that, when the detection signal input from the gate detection sensor 238a is LOW level, the seventh bit 572h is cleared to "0", and when the detection signal input from the gate detection sensor 238a is HI level, Set the seventh bit 572h to "1".

After that, when the rise of the detection signal is detected in step SK622 (step SK623: YES), the gate entry notification command is stored in the command transmission buffer 223b (step SK624). By storing the gate entry notification command in the command transmission buffer 223 b , the command transmission circuit 224 operates to transmit the gate entry notification command to the sound and light side MPU 93 . When the sound and light side MPU 93 receives the gate entry notification command, it reads the gate entry notification sound table from the sound and light side ROM 94, and performs the gate entry notification for 0.6 seconds according to the read gate entry notification sound table. Sound output control of the speaker unit 65 is executed so that sound is output.

The sound/light-side MPU 93 issues a common entry ball notification command while outputting any one of the common entry ball notification sound, the special electric entry ball notification sound, the second operation entry ball notification sound, the out ball entry notification sound, and the gate entry ball notification sound. , a special electric ball entry notification command, a second operation entry notification command, an out-ball entry notification command, or a gate entry notification command, an entry notification corresponding to these entry notification commands in the order in which they are received. Sound output control of the speaker section 65 is executed so that sound is output from the speaker section 65 .

Thereafter, "1" is set to the confirmation timer counter 573 in the work area 213 for non-specific control (step SK625). As a result, the value of the confirmation timer counter 573 becomes "0" by executing the operation confirmation process (FIG. 303), which will be described later, and the input/output confirmation period ends. Thus, when the game ball is detected by the gate detection sensor 238a during the input/output confirmation period, the input/output period ends regardless of the remaining duration of the input/output confirmation period. The manager of the game hall can end the input/output confirmation period early by letting the game ball enter the through gate 35. - 特許庁

Thus, during the input/output period, when a game ball entering the general winning opening 31, the special electric winning device 32, the first operating opening 33, the second operating opening 34, or the out opening 24a is detected, the speaker unit 65 outputs a ball entry notification sound. Also, when a game ball passing through the through gate 35 is detected during the input/output confirmation period, a ball entry notification sound is output. The manager of the game hall checks that the ball entry sections 24a, 31 to 34 and the through gate 35 are put into the ball entry sections 24a, 31 to 34 and the through gate 35, and that the ball entry notification sound is output. ~ 34 or the detection sensor 231a ~ 238a corresponding to the through gate 35 can be grasped that the detection of the game ball is normally performed, It can be ascertained that no disconnection has occurred in the signal line electrically connecting the corresponding detection sensors 231a to 238a and the main side MPU . In addition, the manager of the game hall checks the ball entry sections 24a, 31 to 34 or the through gate 35 and discovers that the ball entry notification sound is not output, thereby 31 to 34 or the detection sensors 231a to 238a corresponding to the through gate 35 can be grasped that the detection of the game ball is not normally performed, and the ball entering portion 24a, 31 to 34 or the through gate 35 It is possible to grasp the possibility that the signal line electrically connecting the corresponding detection sensors 231a to 238a and the main side MPU 82 is broken.

The input/output confirmation period ends when 10 seconds have passed since the start of the input/output confirmation period, or when the game ball entering the through gate 35 is detected by the gate detection sensor 238a. The manager of the game hall completes the input/output confirmation period without waiting for the expiration of the input/output confirmation period by entering the game ball into the through gate 35 in the middle of the input/output confirmation period set to 10 seconds. can be terminated. As a result, even when the RAM clearing process (step SG620 or step SG701) is executed, it is possible to shorten the period from the start of supply of operating power to the pachinko machine 10 to the state in which the game can proceed. can do.

As already explained, when the RAM clearing process (step SG620 or step SG701) is executed after the supply of operating power to the pachinko machine 10 is started, the process (step SG601 to step SG627) at the time of starting supply of operating power is executed. After the completion of the input/output confirmation period, the game progresses on the condition that the game stop flag of the main RAM 84 is not set to "1" after the input/output confirmation period ends (steps SK411 to SK423). ) is executed to enter a playable state. When the supply of the operating power to the pachinko machine 10 is started, each detection sensor 231a before the game ready state is reached by executing the input/output confirmation processing at the timing before the game ready state. 238a, it can be made possible to confirm whether or not the game ball is normally detected. As a result, it is possible to reduce the possibility that the game is played while the game balls are not normally detected by the detection sensors 231a to 238a.

As shown in FIG. 243, on the game board 24, the through gate 35 is upstream of the general prize winning port 31, the special electric prize winning device 32, the first operating port 33, the second operating port 34 and the out port 24a in the flow direction of the game ball. placed on the side. Therefore, although there is a possibility that the game ball entering the through gate 35 enters the other ball entering portions 24a, 31 to 34, the general winning port 31, the special electric winning device 32, the first operation port 33, A game ball entered into the second operation port 34 or the out port 24a will not enter the through gate 35.例文帳に追加As a method of ending the input/output confirmation period before the input/output confirmation period expires, a game ball is inserted into a through gate 35 arranged upstream of the other ball entry portions 24a, 31 to 34 in the flow direction of the game ball. By setting a maintenance method, it is prevented that the input/output confirmation period (10 seconds) ends at a timing unintended by the manager of the game hall before the expiration of the input/output confirmation period. .

Next, the operation confirmation process executed in step SK509 of the input/output confirmation process (FIG. 301) will be described with reference to the flowchart of FIG. The processing of steps SK701 to SK719 in the operation confirmation process is executed by the non-specific control processing unit 222 of the main MPU 82 using the non-specific control program and non-specific control data.

First, the value of the confirmation timer counter 573 in the non-specific control work area 213 is decremented by 1 (step SK701), and it is determined whether or not the value of the confirmation timer counter 573 after the decrement of 1 is "0". (Step SK702). If the value of the confirmation timer counter 573 is 1 or more (step SK702: NO), it is determined whether or not it is time to start the input/output confirmation period (step SK703). At step SK703, an affirmative determination is made when the value of the confirmation timer counter 573 is "2499" obtained by subtracting 1 from the initial value ("2500"). If it is the start timing of the input/output confirmation period (step SK703: YES), the lighting setting process of the input/output confirmation display device 521 is executed (step SK704). In the lighting setting processing of the input/output confirmation display device 521, "1" is set to the second bit of the output register 223d. As a result, output of a lighting signal to the input/output confirmation display device 521 is started by the operation of the port setting circuit 577, and the lighting state of the input/output confirmation display device 521 is started. The manager of the game hall can grasp that it is the input/output confirmation period based on the fact that the input/output confirmation display device 521 is lit.

After that, an open setting process for the special electric prize winning device 32 is executed (step SK705). In the open setting process of the special electric winning device 32, the 0th bit of the output register 223d is set to "1". As a result, the operation of the port setting circuit 577 starts the output of the drive signal to the driving section 32b for the special electric, and the special electric prize winning device 32 is put into the open state. After that, the open setting process of the universal electrical accessory 34a is executed (step SK706). In the open setting process of the universal electrical accessory 34a, "1" is set to the first bit of the output register 223d. As a result, the port setting circuit 577 operates to start outputting a drive signal to the general electric drive unit 34b, and the general electric accessory 34a is opened. After that, "1" is set to the operation check open flag 574 of the main RAM 84 (step SK707). Thereby, it is possible for the main side MPU 82 to grasp that the special electric prize winning device 32 and the general electric accessory 34a are open during the input/output confirmation period.

After that, the setting processing of the switching timer counter 576 is executed (step SK708). The setting processing of the switching timer counter 576 (step SK708) is performed when the special electric prize winning device 32 and the general electric role 34a are opened and when the special electric prize device 32 and the general electric role 34a are closed during the input/output confirmation period. Executed when In the process of setting the switching timer counter 576 (step SK708), the numerical value information "500" corresponding to 2 seconds for continuing the open state or closed state of the special electric prize winning device 32 and the general electric utility 34a is used as a workpiece for non-specific control. A switch timer counter 576 in area 213 is set.

If it is not the start timing of the input/output confirmation period (step SK703: NO), 1 is subtracted from the value of the switching timer counter 576 in the work area 213 for non-specific control (step SK709), and the switching timer after the subtraction of 1 It is determined whether or not the value of the counter 576 is "0" (step SK710). If the value of the switching timer counter 576 is not "0" (step SK710: NO), the operation confirmation process is terminated. As a result, when the special electric prize winning device 32 and the general electric accessory 34a are in the open state, the open state is continued, and when the special electric prize winning device 32 and the general electric accessory 34a are in the closed state, the closing state continues.

When the value of the switching timer counter 576 is "0" (step SK710: YES), it is determined whether "1" is set to the operation check open flag 574 in the work area 213 for non-specific control. Then (step SK711), if "1" is set in the operation check open flag 574 (step SK711: YES), to switch the special electric prize winning device 32 and the general electric accessory 34a from the open state to the closed state (steps SK712 to SK714 and step SK708). Specifically, a closing setting process for the special electric winning device 32 is executed (step SK712). In the closing setting process of the special electric winning device 32, the value of the 0th bit of the output register 223d is cleared to "0". As a result, the operation of the port setting circuit 577 stops the output of the drive signal to the driving section 32b for the special electric, and the special electric winning device 32 is switched from the open state to the closed state.

After that, the closing setting process of the universal electrical accessory 34a is executed (step SK713). In the closing setting process of the general electrical accessory 34a, the value of the first bit of the output register 223d is cleared to "0". As a result, the port setting circuit 577 is operated to stop the output of the drive signal to the general electric drive unit 34b, and the general electric accessory 34a is switched from the open state to the closed state.

Thereafter, the operation check open flag 574 in the work area 213 for non-specific control is cleared to "0" (step SK714). As a result, the main side MPU 82 can grasp that the special electric prize winning device 32 and the general electric accessory 34a are closed. After that, the process proceeds to step SK708, which has already been described, and the setting process of the switching timer counter 576 is executed (step SK708). In the process of setting the switching timer counter 576 (step SK708), the switching timer counter 576 is set with numerical value information "500" corresponding to 2 seconds for continuing the closed state of the special electric prize winning device 32 and the general electric utility 34a.

If the operation check opening flag 574 is not set to "1" (step SK711: NO), the process advances to step SK705, and the processing of steps SK705 to SK708 already described is executed. By executing the processing of steps SK705 to SK708, the special electric prize winning device 32 and the electric utility 34a are switched from the closed state to the open state.

In this way, when the operation check of the special electric prize winning device 32 and the general electric accessory 34a is started during the input/output confirmation period, the special electric prize winning device 32 and the general electric accessory 34a are open for 2 seconds. A confirmed open continuation state and a confirmed closed continuation state in which the special electric prize winning device 32 and the general electric accessory 34a are in a closed state for two seconds are alternately repeated. The manager of the game hall confirms the operation mode of the special electric prize winning device 32 and the general electric role 34a during the input/output confirmation period, so that the opening and closing operations of the special electric prize winning device 32 and the general electric role 34a are performed normally. It is possible to check whether or not As a result, it is possible to reduce the possibility that the game will be played in a state in which the special electric prize winning device 32 and the general electric accessory 34a are not normally opened and closed.

If the value of the confirmation timer counter 573 is "0" (step SK702: YES), that is, if it is time to end the input/output confirmation period, processing for ending the input/output confirmation period (steps SK715 to SK719) is executed. At steps SK715 to SK717, the same processing as at steps SK712 to SK714 is executed. Specifically, a closing setting process for the special electric winning device 32 is executed (step SK715). In the closing setting process of the special electric winning device 32, the value of the 0th bit of the output register 223d is cleared to "0". As a result, the operation of the port setting circuit 577 stops the output of the drive signal to the driving section 32b for the special electric, and the special electric winning device 32 is switched from the open state to the closed state. After that, the closing setting process of the universal electrical accessory 34a is executed (step SK716). In the closing setting process of the general electrical accessory 34a, the value of the first bit of the output register 223d is cleared to "0". As a result, the port setting circuit 577 operates to stop the output of the drive signal to the general electric drive unit 34b, and the general electric accessory 34a is switched from the open state to the closed state. Thereafter, the operation check open flag 574 in the work area 213 for non-specific control is cleared to "0" (step SK717). As a result, the main side MPU 82 can grasp that the special electric prize winning device 32 and the general electric accessory 34a are not open during the input/output confirmation period.

Thereafter, the input/output confirmation end flag 575 in the non-specific control work area 213 is set to "1" (step SK718). The input/output confirmation end flag 575 is a flag that enables the main side MPU 82 to grasp that the input/output confirmation period has been set and that the input/output confirmation period has already ended. By setting the input/output confirmation end flag 575 to "1" at step SK718, the post-confirmation invalidation period and the post-confirmation invalidation period are set in the invalidation process (FIG. 304) described later. can be

After that, the input/output confirmation display device 521 extinguishing setting process is executed (step SK719), and this operation confirmation process ends. In the turn-off setting process (step SK719) of the input/output confirmation display device 521, the second bit of the output register 223d is cleared to "0". As a result, the output of the lighting signal to the input/output confirmation display device 521 is stopped by the operation of the port setting circuit 577, and the input/output confirmation display device 521 is switched from the lighting state to the non-lighting state. The manager of the game hall can grasp that the input/output confirmation period has ended by confirming that the input/output confirmation display device 521 has switched from the lit state to the extinguished state.

Next, the invalidation process executed at step SK405 of the timer interrupt process (FIG. 300) will be described. FIG. 304 is a flowchart showing invalidation processing. The processing of steps SK801 to SK804 in the invalidation process is executed by the specific control processing unit 221 of the main MPU 82 using the specific control program and specific control data.

First, it is determined whether or not the input/output confirmed flag provided in the work area 211 for specific control is set to "1" (step SK801). The input/output confirmed flag is a flag that allows the main MPU 82 to grasp that the post-confirmation invalidation period has already been set when the input/output confirmation period ends. If the input/output confirmed flag is not set to "1" (step SK801: NO), whether or not the input/output confirmation end flag 575 in the work area 213 for non-specific control is set to "1" is determined (step SK802). When affirmative determination is made in step SK802, that is, at the timing at which the invalidation process (FIG. 304) is executed for the first time after the value of the confirmation timer counter 523a becomes "0" during the input/output confirmation period. If there is, the post-confirmation invalidation timer counter 523e provided in the work area 211 for specific control is set (step SK803). The post-confirmation invalidation timer counter 523e is a timer counter that enables the main side MPU 82 to grasp that it is the post-confirmation invalidation period, as in the thirty-third embodiment. The value of the post-confirmation invalidation timer counter 523e is updated by the timer update processing in step SK414 of the timer interrupt processing (FIG. 300). In the process of setting the post-confirmation invalidation timer counter 523e, the numerical value information "250" corresponding to the post-confirmation invalidation period (1 second) is set in the post-confirmation invalidation timer counter 523e. Thereafter, the input/output confirmed flag in the work area 211 for specific control is set to "1" (step SK804). As a result, it is possible to prevent the processing of steps SK802 to SK804 from being executed by making an affirmative determination in step SK801 in subsequent processings of the invalidation processing (FIG. 304).

According to this embodiment detailed above, the following excellent effects are obtained.

By executing the input/output confirmation process as a non-specific control process, an input/output confirmation period can be provided while suppressing an increase in the data capacity of the program for executing the specific control process. .

In a configuration in which the setting values are displayed on the notification display device 141 while the setting value update processing is being executed, the notification display device 141 is displayed during the input/output confirmation period started after the setting value update processing is completed. remains off. Then, when the input/output confirmation period has ended, the management result of the game history is displayed on the notification display device 141 . For this reason, the manager of the game hall should understand that it is the input/output confirmation period based on the fact that the notification display device 141 is in the off state while the operating power is being supplied to the pachinko machine 10. can be done.

During the input/output confirmation period, even if the timer interrupt process (Fig. 300) is activated, the processes of steps SK405 to SK424 in the timer interrupt process are not executed, thereby reducing the processing of the main MPU 82 during the input/output confirmation period. load can be reduced.

<Thirty-Eighth Embodiment>
This embodiment differs from the thirty-seventh embodiment in the processing configuration of the input/output confirmation process. The configuration different from that of the thirty-seventh embodiment will be described below. The description of the same configuration as that of the thirty-seventh embodiment is basically omitted.

FIG. 305(a) is an explanatory diagram for explaining the configuration of the work area 211 for specific control in this embodiment.

A confirmation timer counter 581 is provided in the specific control work area 211 . The confirmation timer counter 581 is a timer counter that enables the main MPU 82 to grasp the remaining duration of the input/output confirmation period, like the confirmation timer counter 523a in the thirty-third embodiment. The confirmation timer counter 581 consists of 2 bytes. The numerical information set in the confirmation timer counter 581 is updated by the timer executed at line number "1102" of the input/output confirmation process (FIG. 306(a)) and step SK414 of the timer interrupt process (FIG. 300). Executed in the update process.

FIG. 305(b) is a flow chart showing RAM clear processing executed by the main MPU 82. FIG. As already described in the thirty-third embodiment, the RAM clearing process is executed in step SG620 of the main process (FIG. 246) and step SG701 of the set value update process (FIG. 247). The processing of steps SK901 to SK903 in the RAM clearing process is executed by the specific control processing section 221 of the main side MPU 82 using a specific control program and specific control data.

At steps SK901 and SK902, the same processing as steps SK101 and SK102 of the RAM clear processing (FIG. 297(d)) in the thirty-seventh embodiment is executed. Specifically, first, the work area 211 for specific control is cleared (step SK901). In the clear processing of the work area 211 for specific control, the area of address Y(5) to address Y(r+2) is cleared to "0" and the area of address Y(5) to address Y(r+2) is initialized. I do. After that, clear processing of stack area 212 for specific control is executed (step SK902). In the clearing process of the stack area 212 for specific control, the area from address Y(r+6) to address Y(s+1) is cleared to "0" and the area from address Y(r+6) to address Y(s+1) is initialized. I do.

After that, the command "LDW (KAKUTIM), 2500" is executed (step SK903). "LDW" is a 16-bit transfer command, "KAKUTIM" is the confirmation timer counter 581 in the specific control work area 211, and "2500" is numerical information corresponding to the input/output confirmation period (10 seconds). be. By executing the instruction "LDW (KAKUTIM), 2500" at step SK903, the numerical value information "2500" corresponding to the input/output confirmation period of 10 seconds is set to the confirmation timer in the work area 211 for specific control. A counter 581 is set. As a result, when the timer interrupt process (FIG. 300) is activated after the process (steps SG601 to SG627) at the start of supply of operating power in the main process (FIG. 246) is completed, the input/output confirmation period is started. can be made

As described above, the confirmation timer counter 581 is provided in the work area 211 for specific control. Therefore, in the RAM clearing process (FIG. 305(b)) executed as the specific control process, numerical information corresponding to the input/output confirmation period is stored in the confirmation timer counter 581 without executing the non-specific control process. Can be set to cause the I/O confirmation period to begin. This makes it possible to simplify the processing configuration for setting the input/output confirmation period.

Next, timer interrupt processing executed by the main MPU 82 will be described. The timer interrupt processing in this embodiment differs from the timer interrupt processing in the thirty-seventh embodiment (FIG. 300) in that the input/output confirmation processing is executed by the CALL instruction instead of the CALLI instruction in step SK404. The input/output confirmation process in this embodiment is executed as a specific control process.

Next, the program contents of the input/output confirmation process executed in step SK404 of the timer interrupt process (FIG. 300) will be described with reference to the explanatory diagram of FIG. 306(a). As shown in FIG. 306(a), "1101" to "1104" are set as line numbers in this program. Program instructions are executed in ascending order of line number, except when a call or jump instruction is executed. It should be noted that among the processes of line number "1102" to line number "1104" in the input/output confirmation process, the processes other than the input/output confirmation execution process called and executed at line number "1103" are Using the program and data for specific control, the specific control processing unit 221 of the main MPU 82 executes input/output confirmation execution processing using the program for non-specific control and data for non-specific control. It is executed by the non-specific control processing unit 222 of the MPU 82 .

As shown in FIG. 306(a), "KAKUSYORI20" is set to the line number of "1101". This is not an instruction but data referred to when the developer of the pachinko machine 10 checks the program. Therefore, at line number "1101", the process proceeds to the next line number "1102" without executing any instruction.

At the line number "1102", a command "CALL TIMER" is set, as in step SK414 of the timer interrupt process (FIG. 300). As already explained in the thirty-seventh embodiment, "TIMER" is timer update processing. At line number "1102", timer update processing is executed by a CALL instruction. In the timer update process, 1 is subtracted from the value of the timer counter provided in the specific control work area 211 including the confirmation timer counter 581 to update the value of the timer counter. In the timer update process, when the value of the timer counter after subtracting 1 is less than "0", the timer counter is cleared to "0". When the timer update process is completed, the process proceeds to line number "1103" which is set next to line number "1102".

The command "CALLI NSKNJ" is set at the line number "1103". "NSKNJ" is input/output confirmation execution processing. At line number "1103", input/output confirmation execution processing, which will be described later, is executed by the CALLI instruction. Input/output confirmation execution processing is included in non-specific control processing. In other words, in the input/output confirmation process (FIG. 306(a)), when the situation changes from the specific control process to the non-specific control process, the non-specific control process executes the CALLI instruction. called using. When the input/output confirmation execution process is executed by the CALLI instruction, the interrupt of the timer interrupt process (FIG. 300) is prohibited after the information of the flag register is saved in the stack area 212 for specific control. This makes it possible to prevent the timer interrupt processing (FIG. 300), which is the specific control processing, from being interrupted and started during the execution of the input/output confirmation execution processing, which is the non-specific control processing. When the input/output confirmation execution process is executed at the line number "1103", the process proceeds to the line number "1104".

A command "RET" is set at the line number "1104". As described above, the input/output confirmation process is a subroutine called at step SK404 of the timer interrupt process (FIG. 300). Further, as already explained in the thirty-seventh embodiment, in the timer interrupt processing (FIG. 300), when the processing of step SK404 is completed, the timer interrupt processing (FIG. 300) is terminated. Therefore, by executing the command "RET", the input/output confirmation process is terminated, and the timer interrupt process (Fig. 300) ends.

Next, the input/output confirmation execution process executed at line number "1103" in the input/output confirmation process (FIG. 306(a)) will be described with reference to the flowchart of FIG. 306(b). The processes of steps SL101 to SL116 in the input/output confirmation execution process are executed by the non-specific control processing section 222 of the main side MPU 82 using the non-specific control program and non-specific control data.

At steps SL101 to SL107, the same processes as steps SK501 to SK507 of the input/output confirmation process (FIG. 301) in the thirty-seventh embodiment are executed. As a result, the storage area corresponding to the last address in the stack area 214 for non-specific control becomes the write target. Also, the information of the WA register, BC register, DE register, HL register, IX register and IY register of the main side MPU 82 is set in the work area 213 for non-specific control, the WA buffer, BC buffer, DE buffer, HL buffer, It can be saved in the IX buffer and the IY buffer.

After that, the CALL command executes the incoming ball notification processing (step SL108), and the CALL command executes the operation confirmation processing (step SL109). The content of the incoming ball notification process (step SL108) is the same as step SK508 of the input/output confirmation process (FIG. 301) in the thirty-seventh embodiment. Details of the operation confirmation process (step SL109) will be described later.

After that, as "LD SP, Y(r+f)", the stack pointer of the main side MPU 82 is set to the stack area for the specific control as a fixed address at the time of returning to the specific control after the completion of the input/output confirmation processing by the load instruction. Y(r+f) set as an address between Y(r+8) and Y(s) in 212 is set (step SL110). As a result, the information of the stack pointer can be restored to the information immediately before the process corresponding to non-specific control is started.

Thereafter, in steps SL111 to SL116, the same processes as steps SK511 to SK516 of the input/output confirmation process (FIG. 301) in the thirty-seventh embodiment are executed. As a result, each information of the WA register, BC register, DE register, HL register, IX register and IY register of the main MPU 82 is restored to the information corresponding to the specific control immediately before the process corresponding to the non-specific control is started. It is possible to

After executing the processing of steps SL111 to SL116, the RETI instruction returns to the input/output confirmation processing (FIG. 306(a)) included in the specific control processing. As already explained, by executing the RETI instruction, the information in the flag register of the main MPU 82 is restored to the information for executing the specific control, and the timer interrupt processing can be newly executed.

Next, the operation confirmation process executed in step SL109 of the input/output confirmation execution process (FIG. 306(b)) will be described. FIG. 307 is a flowchart showing operation confirmation processing. The processes of steps SL201 to SL219 in the operation confirmation process are executed by the non-specific control processing unit 222 of the main MPU 82 using a program for non-specific control and data for non-specific control.

When the value of the confirmation timer counter 581 in the specific control work area 211 is 1 or more (step SL201: NO), it is determined whether or not it is time to start the input/output confirmation period (step SL202). At step SL202, an affirmative determination is made when the value of the confirmation timer counter 581 is "2499" obtained by subtracting 1 from the initial value ("2500"). If it is time to start the input/output confirmation period (step SL202: YES), the input/output confirmation end flag 575 in the non-specific control work area 213 is cleared to "0" (step SL203). As already explained in the thirty-seventh embodiment, the input/output confirmation end flag 575 enables the main MPU 82 to grasp that the input/output confirmation period has been set and that the input/output confirmation period has already ended. is a flag. By clearing the input/output confirmation end flag 575 to "0" at step SL203, the supply of operating power to the pachinko machine 10 is started in the state where the input/output confirmation end flag 575 is set to "1". , the input/output confirmation end flag 575 may not be set to "1" until the input/output confirmation period ends.

As already explained in the thirty-seventh embodiment, the input/output confirmation end flag 575 is provided in the work area 213 for non-specific control. Therefore, if the input/output confirmation end flag 575 is cleared to "0" in the RAM clearing process (FIG. 305(b)), which is the process of the specific control, the non-specific control can be performed in a situation where the process of the specific control is being executed. The processing configuration of the RAM clear processing becomes complicated because it is necessary to execute the processing. On the other hand, in the input/output confirmation period, the input/output confirmation end flag 575 is cleared to "0" at the time when the operation confirmation process (FIG. 307) included in the non-specific control process is first executed. With this configuration, the processing configuration for clearing the input/output confirmation end flag 575 to "0" can be simplified.

After the input/output confirmation end flag 575 is cleared to "0" at step SL203, at steps SL204 to step SL208, steps SK704 to SK708 of the operation confirmation process (FIG. 303) in the thirty-seventh embodiment are performed. Execute the process. Specifically, first, a lighting setting process for the input/output confirmation display device 521 is executed (step SL204). In the lighting setting processing of the input/output confirmation display device 521, "1" is set to the second bit of the output register 223d. As a result, a lighting signal is output to the input/output confirmation display device 521 by the operation of the port setting circuit 577, and the lighting state of the input/output confirmation display device 521 is started. The manager of the game hall can grasp that it is the input/output confirmation period by confirming that the input/output confirmation display device 521 has turned on.

Thereafter, an open setting process for the special electric prize winning device 32 is executed (step SL205). In the open setting process of the special electric winning device 32, the 0th bit of the output register 223d is set to "1". As a result, the port setting circuit 577 operates to output a drive signal to the drive section 32b for the special electric, and the special electric prize winning device 32 is put into an open state. After that, the open setting process of the universal electrical accessory 34a is executed (step SL206). In the open setting process of the universal electrical accessory 34a, "1" is set to the first bit of the output register 223d. As a result, the port setting circuit 577 operates to output a drive signal to the general electric drive unit 34b, thereby opening the general electric accessory 34a. After that, "1" is set to the operation check open flag 574 of the main RAM 84 (step SL207). Thereby, it is possible for the main side MPU 82 to grasp that the special electric prize winning device 32 and the general electric accessory 34a are open during the input/output confirmation period.

After that, a setting process for switching timer counter 576 is executed (step SL208). The setting process (step SL208) of the switching timer counter 576 is performed when the special electric prize winning device 32 and the general electric role 34a are set to the open state during the input/output confirmation period, and when the special electric prize winning device 32 and the general electric role 34a are closed. Executed when In the process of setting the switching timer counter 576 (step SL208), numerical information "500" corresponding to 2 seconds for continuing the open state or closed state of the special electric prize winning device 32 and the general electric utility 34a is stored in the work area for specific control. A switch timer counter 576 at 211 is set.

If a negative determination is made in step SL202, the same processes as steps SK709 to SK714 of the operation confirmation process (FIG. 303) in the thirty-seventh embodiment are executed in steps SL209 to SL214. Specifically, first, 1 is subtracted from the value of switching timer counter 576 in work area 213 for non-specific control (step SL209), and whether or not the value of switching timer counter 576 after the subtraction of 1 is "0". is determined (step SL210). If the value of the switching timer counter 576 is not "0" (step SL210: NO), the operation confirmation process is terminated. As a result, when the special electric prize winning device 32 and the general electric accessory 34a are in the open state, the open state is continued, and when the special electric prize winning device 32 and the general electric accessory 34a are in the closed state, the closing state continues.

If the value of the switching timer counter 576 is "0" (step SL210: YES), it is determined whether "1" is set to the operation check open flag 574 in the work area 213 for non-specific control. Then (step SL211), if "1" is set in the operation check open flag 574 (step SL211: YES), to switch the special electric prize winning device 32 and the general electric accessory 34a from the open state to the closed state (step SL212 to step SL214 and step SL208). Specifically, a closing setting process for the special electric prize winning device 32 is executed (step SL212). In the closing setting process of the special electric winning device 32, the value of the 0th bit of the output register 223d is cleared to "0". As a result, the operation of the port setting circuit 577 stops the output of the drive signal to the driving section 32b for the special electric, and the special electric winning device 32 is switched from the open state to the closed state.

After that, the closing setting process of the universal electrical accessory 34a is executed (step SL213). In the closing setting process of the general electrical accessory 34a, the value of the first bit of the output register 223d is cleared to "0". As a result, the port setting circuit 577 is operated to stop the output of the drive signal to the general electric drive unit 34b, and the general electric accessory 34a is switched from the open state to the closed state.

After that, the operation check opening flag 574 in the work area 213 for non-specific control is cleared to "0" (step SL214). As a result, the main side MPU 82 can grasp that the special electric prize winning device 32 and the general electric accessory 34a are closed. After that, the process proceeds to step SL208, which has already been described, and the setting process of the switching timer counter 576 is executed (step SL208). In the process of setting the switching timer counter 576 (step SL208), the switching timer counter 576 is set with numerical value information "500" corresponding to 2 seconds for continuing the closed state of the special electric prize winning device 32 and the electric utility 34a.

If "1" is not set in the operation check opening flag 574 (step SL211: NO), the process proceeds to step SL205, and the processing of steps SL205 to SL208 already described is executed. By executing the processing of step SL205 to step SL208, the special electric prize winning device 32 and the general electric accessory 34a are switched from the closed state to the open state.

In this way, when the operation check of the special electric prize winning device 32 and the general electric accessory 34a is started during the input/output confirmation period, the special electric prize winning device 32 and the general electric accessory 34a are open for 2 seconds. A confirmed open continuation state and a confirmed closed continuation state in which the special electric prize winning device 32 and the general electric accessory 34a are in a closed state for two seconds are alternately repeated. The manager of the game hall confirms the operation mode of the special electric prize winning device 32 and the general electric role 34a during the input/output confirmation period, so that the opening and closing operations of the special electric prize winning device 32 and the general electric role 34a are performed normally. It is possible to check whether or not As a result, it is possible to reduce the possibility that the game will be played in a state in which the special electric prize winning device 32 and the general electric accessory 34a are not normally opened and closed.

When the value of the confirmation timer counter 581 is "0" (step SL201: YES), that is, when it is the end timing of the input/output confirmation period, in steps SL215 to SL219, the operation confirmation timer in the thirty-seventh embodiment is executed. The same processing as steps SK715 to SK719 of the processing (FIG. 303) is executed. Specifically, a closing setting process for the special electric winning device 32 is executed (step SL215). In the closing setting process of the special electric winning device 32, the value of the 0th bit of the output register 223d is cleared to "0". As a result, the operation of the port setting circuit 577 stops the output of the drive signal to the driving section 32b for the special electric, and the special electric winning device 32 is switched from the open state to the closed state. After that, the closing setting process of the universal electrical accessory 34a is executed (step SL216). In the closing setting process of the general electrical accessory 34a, the value of the first bit of the output register 223d is cleared to "0". As a result, the port setting circuit 577 operates to stop the output of the drive signal to the general electric drive unit 34b, and the general electric accessory 34a is switched from the open state to the closed state. Thereafter, the operation check open flag 574 in the work area 213 for non-specific control is cleared to "0" (step SL217). As a result, the main side MPU 82 can grasp that the special electric prize winning device 32 and the general electric accessory 34a are not open during the input/output confirmation period.

Thereafter, the input/output confirmation end flag 575 in the non-specific control work area 213 is set to "1" (step SL218). The input/output confirmation end flag 575 is a flag that enables the main side MPU 82 to grasp that the input/output confirmation period has been set and that the input/output confirmation period has already ended. By setting the input/output confirmation end flag 575 to "1" at step SL218, the post-confirmation invalidation period can be set in the invalidation process (FIG. 304) described later.

After that, the input/output confirmation display device 521 extinguishing setting process is executed (step SL219), and the operation confirmation process ends. In the turn-off setting process (step SL219) of the input/output confirmation display device 521, the second bit of the output register 223d is cleared to "0". As a result, the output of the lighting signal to the input/output confirmation display device 521 is stopped by the operation of the port setting circuit 577, and the input/output confirmation display device 521 is switched from the lighting state to the non-lighting state. The manager of the game hall can grasp that the input/output confirmation period has ended by confirming that the input/output confirmation display device 521 has switched from the lit state to the extinguished state.

As described above, in the input/output confirmation process, the timer update process is executed as the specific control process, and the input/output confirmation execution process is executed as the non-specific control process. Also, in the input/output confirmation execution process, a ball entry notification process and an operation confirmation process are executed as non-specific control processes. Of the timer update processing, ball entry notification processing, and operation confirmation processing executed by the main MPU 82 during the input/output confirmation period, the ball entry notification processing and operation confirmation processing are non-specific control processing, It is possible to reduce the data capacity of the program stored in the main ROM 83 in order to execute the specific control process.

A confirmation timer counter 581 is provided in the work area 211 for specific control, and the confirmation timer counter 581 is updated by timer update processing, which is processing for specific control. Processing for updating timer counters including 581 can be aggregated into timer update processing. This simplifies the processing configuration for updating the value of the timer counter compared to a configuration in which the processing for updating the timer counter is provided for both the specific control processing and the non-specific control processing. can be

<Thirty-ninth Embodiment>
This embodiment differs from the thirty-eighth embodiment in the processing configuration of the input/output confirmation process. The configuration different from the thirty-eighth embodiment will be described below. The description of the same configuration as that of the thirty-eighth embodiment is basically omitted.

FIG. 308(a) is an explanatory diagram for explaining the program contents of the input/output confirmation process executed by the main MPU 82 in this embodiment. As already explained in the thirty-eighth embodiment, the input/output confirmation process is executed at step SK404 of the timer interrupt process (FIG. 300). As shown in FIG. 308(a), "1201" to "1205" are set as line numbers in this program. Program instructions are executed in ascending order of line number, except when a call or jump instruction is executed. It should be noted that among the processes of line number "1202" to line number "1205" in the input/output confirmation process, the processes other than the input/output confirmation execution process called and executed at line number "1204" are Using the program and data for specific control, the specific control processing unit 221 of the main MPU 82 executes input/output confirmation execution processing using the program for non-specific control and data for non-specific control. It is executed by the non-specific control processing unit 222 of the MPU 82 .

As shown in FIG. 308(a), "KAKUSYORI30" is set to the line number of "1201". This is not an instruction but data referred to when the developer of the pachinko machine 10 checks the program. Therefore, at line number "1201", the process proceeds to the next line number "1202" without executing any instruction.

At the line number "1202", the command "CALL TIMER" is set as in step SK414 of the timer interrupt processing (FIG. 300). As already explained in the thirty-seventh embodiment, "TIMER" is timer update processing. At line number "1202", timer update processing is executed by a CALL instruction. In the timer update process, the timer counter provided in the specific control work area 211 including the confirmation timer counter 581 is updated. When the timer update process is executed in a state where the value of the timer counter to be updated is 1 or more, the value of the timer counter to be updated is decremented by one. Further, when the timer update process is executed in a state where the value of the timer counter to be updated is "0", the state is maintained. When the timer update process is completed, the process proceeds to line number "1203" which is set next to line number "1202".

At the line number "1203", a command "CALL SWREAD2" is set, as in step SK413 of the timer interrupt process (FIG. 300). As already described in the thirty-seventh embodiment, "SWREAD2" is the ball entry detection process. At line number "1203", a ball entry detection process is executed by a CALL command. When the ball-entering detection process is finished, the process proceeds to the line number "1204" which is set next to the line number "1203". The content of the entering ball detection processing at line number "1203" is the same as step SG913 of the timer interrupt processing (FIG. 249) in the thirty-third embodiment.

The command "CALLI NSKNJ" is set at the line number "1204". As already explained in the thirty-eighth embodiment, "NSKNJ" is input/output confirmation execution processing. At line number "1204", input/output confirmation execution processing, which will be described later, is executed by the CALLI instruction. The input/output confirmation execution process is included in the non-specific control process. In other words, in the input/output confirmation process (FIG. 308(a)), when the situation changes from the specific control process to the non-specific control process, the non-specific control process executes the CALLI instruction. called using. When the input/output confirmation execution process is executed by the CALLI instruction, the interrupt of the timer interrupt process (FIG. 300) is prohibited after the information of the flag register is saved in the stack area 212 for specific control. This makes it possible to prevent the timer interrupt processing (FIG. 300), which is the specific control processing, from being interrupted and started during the execution of the input/output confirmation execution processing, which is the non-specific control processing. When the input/output confirmation execution process is executed at the line number "1204", the process proceeds to the line number "1205".

A command "RET" is set at the line number "1205". As already described in the thirty-sixth embodiment, the input/output confirmation process is a subroutine called at step SK404 of the timer interrupt process (FIG. 300). Further, as already explained in the thirty-sixth embodiment, in the timer interrupt processing (FIG. 300), when the processing of step SK404 is finished, the timer interrupt processing (FIG. 300) is finished. Therefore, by executing the command "RET", the input/output confirmation process is terminated, and the timer interrupt process (Fig. 300) ends.

Next, the input/output confirmation execution process executed at line number "1204" of the input/output confirmation process (FIG. 308(a)) will be described with reference to the flowchart of FIG. 308(b). The processes of steps SL301 to SL316 in the operation confirmation process are executed by the non-specific control processing unit 222 of the main MPU 82 using a program for non-specific control and data for non-specific control.

At steps SL301 to SL307, the same processes as steps SL101 to SL107 of the input/output confirmation execution process (FIG. 306(b)) in the thirty-eighth embodiment are executed. As a result, the storage area corresponding to the last address in the stack area 214 for non-specific control becomes the write target. Also, the information of the WA register, BC register, DE register, HL register, IX register and IY register of the main side MPU 82 is set in the work area 213 for non-specific control, the WA buffer, BC buffer, DE buffer, HL buffer, It can be saved in the IX buffer and the IY buffer.

After that, a CALL command is used to execute a process for transmitting an incoming ball notification command (step SL308), and a CALL command is used to execute an operation confirmation process (step SL309). The content of the operation confirmation process (step SL309) is the same as step SL109 of the input/output confirmation execution process (FIG. 306(b)) in the thirty-eighth embodiment. The details of the entering-ball notification command transmission process (step SL308) will be described later.

After that, as "LD SP, Y(r+g)", Y(r+g) is set in the stack pointer of the main side MPU 82 as a fixed address at the time of returning to the specific control after the end of the input/output confirmation process by the load instruction. (Step SL310). The address of Y(r+g) is set as an address between Y(r+8) and Y(s) in the stack area 212 for specific control.

Thereafter, in steps SL311 to SL316, the same processes as steps SL111 to SL116 of the input/output confirmation execution process (FIG. 306(b)) in the thirty-eighth embodiment are executed. As a result, each information of the WA register, BC register, DE register, HL register, IX register and IY register of the main MPU 82 is restored to the information corresponding to the specific control immediately before the process corresponding to the non-specific control is started. It is possible to

Thereafter, the RETI instruction returns to the input/output confirmation process (FIG. 308(a)) included in the specific control process. As already explained, by executing the RETI instruction, the information in the flag register of the main MPU 82 is restored to the information for executing the specific control, and the timer interrupt processing can be newly executed.

Next, prior to the description of the process for transmitting the entering-ball notification command executed in step SL308 of the process for confirming the operation (Fig. 308(b)), the specific control referred to in the process for transmitting the entering-ball notification command The configuration of the work area 211 for is described.

FIG. 309(a) is an explanatory diagram for explaining the configuration of the work area 211 for specific control. A confirmation flag group 522 is provided in the work area 211 for specific control. As already described with reference to FIG. 245 in the thirty-third embodiment, the confirmation flag group 522 includes a first winning confirmation flag 522a, a second winning confirmation flag 522b, a third winning confirmation flag 522c, and a special electric winning confirmation flag. 522d, a first operation winning confirmation flag 522e, a second operation winning confirmation flag 522f, an out confirmation flag 522g and a gate winning confirmation flag 522h are provided.

Next, the entering-ball notification command transmission process executed in step SL308 of the operation confirmation process (FIG. 308(b)) will be described with reference to the flowchart of FIG. 309(b). The processing of steps SL401 to SL416 in the process for transmitting the entering notification command is executed by the non-specific control processing unit 222 of the main side MPU 82 using a program for non-specific control and data for non-specific control. be.

When the first winning confirmation flag 522a in the confirmation flag group 522 is set to "1" (step SL401: YES), the common ball entry notification command is stored in the command transmission buffer 223b in the register area 223 of the main side MPU 82. (step SL402). The common entry notification command is stored in the command transmission buffer 223b at steps SL402, SL404, SL406 and SL410. By storing the first incoming ball notification command in the command transmission buffer 223 b , the command transmission circuit 224 operates to transmit the first incoming ball notification command to the sound and light side MPU 93 . When the sound and light side MPU 93 receives the first ball entry notification command, the sound and light side MPU 93 reads out the first ball entry notification sound table from the sound and light side ROM 94 and emits the first ball entry notification sound table for 0.6 seconds according to the read first ball entry notification sound table. The sound output control of the speaker unit 65 is executed so that the one-ball notification sound is output.

A ball entry notification sound that is output when a ball enters the general winning holes 31 provided on the game board 24, and an input ball that is output when a ball enters the first operation hole 33. Since the ball notification sound is shared, the data capacity of the ball entry notification sound table stored in the sound and light side ROM 94 is suppressed, and the number of types of ball entry notification sounds becomes too large. is prevented.

When the second winning confirmation flag 522b in the confirmation flag group 522 is set to "1" (step SL403: YES), the common ball entry notification command is stored in the command transmission buffer 223b in the register area 223 of the main MPU 82. (step SL404). As a result, the common ball entry notification sound can be output from the speaker unit 65 for 0.6 seconds. Further, when the third winning confirmation flag 522c in the confirmation flag group 522 is set to "1" (step SL405: YES), the common ball entry notification command is sent to the command transmission buffer 223b in the register area 223 of the main MPU 82. (step SL406). As a result, the common ball entry notification sound can be output from the speaker unit 65 for 0.6 seconds.

When the special electric winning confirmation flag 522d in the confirmation flag group 522 is set to "1" (step SL407: YES), the special electric winning ball notification command is stored in the command transmission buffer 223b in the register area 223 of the main side MPU 82. (Step SL408). By storing the special electric ball notification command in the command transmission buffer 223b, the command transmission circuit 224 operates to transmit the special electric ball notification command to the sound and light side MPU 93. When the sound and light side MPU 93 receives the special electric landing ball notification command, it reads out the special electric landing ball notification sound table from the sound and light side ROM 94, and notifies the special electric landing ball notification sound for 0.6 seconds according to the read special electric landing ball notification sound table. Sound output control of the speaker unit 65 is executed so that sound is output. The manager of the game hall maintains the game ball in the special electric prize winning device 32 which is performing the opening and closing operation during the input/output confirmation period, and confirms whether or not the special electric ball notification sound is output. It is possible to grasp whether or not the detection of the game ball entering the device 32 is normally performed.

When the first operation winning confirmation flag 522e in the confirmation flag group 522 is set to "1" (step SL409: YES), the common ball entry notification command is sent to the command transmission buffer 223b in the register area 223 of the main MPU 82. Store (step SL410). As a result, the common ball entry notification sound can be output from the speaker unit 65 for 0.6 seconds.

When the second operation winning confirmation flag 522f in the confirmation flag group 522 is set to "1" (step SL411: YES), the second operation entry notification command is sent to the command transmission buffer in the register area 223 of the main side MPU 82. 223b (step SL412). By storing the second operation entry notification command in the command transmission buffer 223 b , the command transmission circuit 224 operates to transmit the second operation entry notification command to the sound and light side MPU 93 . When the sound and light side MPU 93 receives the second operation entrance ball notification command, it reads the second operation entrance ball notification sound table from the sound and light side ROM 94, and according to the read second operation entrance ball notification sound table, in 0.6 seconds The sound output control of the speaker unit 65 is executed so that the second operation ball entry notification sound is output over the entire period. The manager of the game hall puts a game ball in the second operation port 34, which is switched between the open state and the closed state by the opening and closing operation of the general electric accessory 34a during the input/output confirmation period, and enters the second operation. By confirming whether or not the ball notification sound is output, it is possible to grasp whether or not the detection of the game ball entering the second operation opening 34 is normally performed.

When the out confirmation flag 522g in the confirmation flag group 522 is set to "1" (step SL413: YES), the out entry notification command is stored in the command transmission buffer 223b in the register area 223 of the main side MPU 82 ( step SL414). By storing the out-ball notification command in the command transmission buffer 223 b , the command transmission circuit 224 operates to transmit the out-ball notification command to the sound/light side MPU 93 . When the sound and light side MPU 93 receives the out-ball notification command, it reads out the out-ball entry notification sound table from the sound and light side ROM 94, and performs the out-ball notification for 0.6 seconds according to the read out-ball entry notification sound table. Sound output control of the speaker unit 65 is executed so that sound is output.

When the gate winning confirmation flag 522h in the confirmation flag group 522 is set to "1" (step SL415: YES), the gate entry notification command is stored in the command transmission buffer 223b in the register area 223 of the main side MPU 82. (Step SL416). By storing the gate entry notification command in the command transmission buffer 223 b , the command transmission circuit 224 operates to transmit the gate entry notification command to the sound and light side MPU 93 . When the sound and light side MPU 93 receives the gate entry notification command, it reads the gate entry notification sound table from the sound and light side ROM 94, and performs the gate entry notification for 0.6 seconds according to the read gate entry notification sound table. Sound output control of the speaker unit 65 is executed so that sound is output.

The sound/light-side MPU 93 issues a common entry ball notification command while outputting any one of the common entry ball notification sound, the special electric entry ball notification sound, the second operation entry ball notification sound, the out ball entry notification sound, and the gate entry ball notification sound. , a special electric ball entry notification command, a second operation entry notification command, an out-ball entry notification command, or a gate entry notification command, an entry notification corresponding to these entry notification commands in the order in which they are received. Sound output control of the speaker section 65 is executed so that sound is output from the speaker section 65 .

The first to third winning confirmation flags 522a to 522c, the special electric winning confirmation flag 522d, the first to second operation winning confirmation flags 522e to 522f, the out confirmation flag 522g and the gate winning confirmation flag 522h are the work area 211 for specific control. These flags are cleared in the entering ball detection process (step SK413 of the timer interrupt process (Fig. 300) and line number "1203" of the input/output confirmation process (Fig. 308(a))). executed. For this reason, even if the ball entry notification process is set to the non-specific control process and the ball entry notification process is executed as the non-specific control process, the game in which the ball is entered during the input/output confirmation period Even if the ball is detected, it is possible to prevent the game ball from being put out based on the detection of the game ball.

As described above, in the input/output confirmation process, the timer update process and the entering ball detection process are executed as specific control processes, and the input/output confirmation execution process is executed as non-specific control processes. In addition, in the input/output confirmation execution process, as non-specific control processes, a ball entry notification command transmission process and an operation confirmation process are executed. Of the timer update processing, ball entry detection processing, ball entry notification command transmission processing, and operation confirmation processing executed by the main MPU 82 during the input/output confirmation period, the entry notification command transmission processing and operation confirmation processing are not performed. By using the specific control process, the data volume of the program stored in the main ROM 83 for executing the specific control process can be reduced.

A confirmation timer counter 581 is provided in the work area 211 for specific control, and the confirmation timer counter 581 is updated by timer update processing, which is processing for specific control. Processing for updating timer counters including 581 can be aggregated into timer update processing. This simplifies the processing configuration for updating the value of the timer counter.

By using a subroutine called for executing ball entry detection processing in the processing for progressing the game (steps SK411 to SK423), the subroutine is called as a specific control processing even during the input/output confirmation period. Ball detection processing is executed. As a result, the program stored in the main ROM 83 is not required to be stored in the main ROM 83 for executing the processing for detecting the game ball that has entered the ball entry portion as the processing of the non-specific control. data capacity can be reduced.

<Fortieth Embodiment>
This embodiment differs from the thirty-third embodiment in the processing configuration of the main processing. The configuration different from that of the thirty-third embodiment will be described below. The description of the same configuration as that of the thirty-third embodiment is basically omitted.

FIG. 310(a) is an explanatory diagram for explaining the configuration of the main MPU 82 in this embodiment.

As shown in FIG. 310(a), the main MPU 82 has W register 591a, A register 591b, B register 592a, C register 592b, D register 593a and E register 593b as general purpose registers. Each of these six general purpose registers is a one byte register. These general-purpose registers can also be used as pair registers by combining two corresponding general-purpose registers. Specifically, the W register 591a and A register 591b can be combined to be used as a 2-byte WA register 591, and the B register 592a and C register 592b can be combined to be used as a 2-byte BC register 592. be able to. Also, the D register 593a and the E register 593b can be combined and used as a 2-byte DE register 593. FIG.

As shown in FIG. 310(a), the main MPU 82 has a zero flag ZF and a jump flag JF. The zero flag ZF consists of 1 bit. The zero flag ZF is a flag that becomes "1" when the content of the register after the operation is "0", and becomes "0" when the content of the register after the operation is not "0". The jump flag JF consists of 1 bit. Jump flag JF takes the same value as zero flag ZF when a DEC instruction, which is a decrement instruction, is executed. Specifically, when the DEC instruction executes an operation to subtract 1 from the value of the register and the value of the register after the operation becomes "0", the value of the zero flag ZF becomes "1" and the value of the jump flag becomes "1". The value of JF is "1" which is the same as the value of the zero flag ZF. Further, when the DEC instruction executes an operation to subtract 1 from the value of the register and the value of the register after the operation does not become "0", the value of the zero flag ZF becomes "0" and the value of the jump flag JF is "0", which is the same as the value of the zero flag ZF. The jump flag JF is referenced in a JRS instruction, which will be described later.

As shown in FIG. 310( a ), the main MPU 82 is provided with an output register 594 . The output register 594 is a 1-byte register and has 0th to 7th bits 594a to 594h. When the main MPU 82 executes various processes, information is read from and written to the output register 594 .

FIG. 310(b) is an explanatory diagram for explaining the role of each bit 594a to 594h in the output register 594. FIG. As shown in FIG. 310(b), the fifth bit 594f of the output register 594 is an area in which data "0" or "1" is set to designate the output state of the signal to the drive unit 32b for the special train. The sixth bit 594g of the output register 594 is an area in which data "0" or "1" is set to designate the output state of the signal to the drive unit 34b for general electric power. The 0th to 4th bits 594a to 594e and the 7th bit 594h of the output register 594 are unused areas.

As shown in FIG. 310( a ), the main MPU 82 is provided with a port setting circuit 595 . The port setting circuit 595 is hardware that controls signal output based on the data set in the output register 594 without being controlled by the process executed by the main MPU 82 . The port setting circuit 595 drives the special electric drive unit 32b by outputting a drive signal to the special electric drive unit 32b when the value of the fifth bit 594f of the output register 594 is "1". state, and the special electric prize winning device 32 is set in the open state. In addition, the port setting circuit 595 prevents the drive signal from being output to the special electric drive unit 32b when the value of the fifth bit 594f is "0". is set to a non-driving state, and the special electric prize winning device 32 is set to a closed state. When the value of the sixth bit 594g of the output register 594 is "1", the port setting circuit 595 outputs a drive signal to the general electric drive section 34b, thereby is in a driven state, and the general electric accessory 34a is in an open state. Further, when the value of the sixth bit 594g is "0", the port setting circuit 595 prevents the drive signal from being output to the driving section 34b for general electric power. The part 34b is put into a non-driving state, and the general electric accessory 34a is put into a closed state. The port setting circuit 595 causes these signals to be output at a predetermined cycle (for example, a cycle of 2 milliseconds). Therefore, when "1" is set to the fifth bit 594f of the output register 594, the driving state of the drive unit 32b for the special electric is continued until the fifth bit 594f is cleared to "0". At the same time, the open state of the special electric prize winning device 32 is continued. Further, when "1" is set to the sixth bit 594g of the output register 594, the driving state of the general electric drive section 34b is continued until the sixth bit 594g is cleared to "0". At the same time, the open state of the universal electrical accessory 34a is continued.

In this embodiment, after the supply of the operating power to the pachinko machine 10 is started, during the execution of the process (step SL501 to step SL528) at the time of starting the supply of operating power in the main process (FIG. 311), special electric winning device 32 and the port output confirmation process (step SL522) for confirming the operation of the universal electrical accessory 34a. In the port output confirmation process (step SL522), opening and closing operations of the special electric prize winning device 32 and the general electric accessory 34a are executed for about 10 seconds. In the opening and closing operation, the special electric prize winning device 32 and the general electric role 34a are opened for about 0.2 seconds, and the special electric prize winning device 32 and the general electric role 34a are opened for about 0.2 seconds. is alternately repeated. During the output confirmation period during which the port output confirmation process (step SL522) is executed, the manager of the gaming hall confirms the operation mode of the special electric prize winning device 32, thereby determining the state between the open state and the closed state of the special electric prize winning device 32. It is possible to confirm whether or not the switching is normally performed, and by confirming the operation mode of the general electrical function 34a, the switching between the open state and the closed state of the general electrical function 34a is possible. You can check whether it is in a normal state. As a result, it is possible to reduce the possibility that the game will be played in a state in which switching between the open state and the closed state of the special electric prize winning device 32 and the general electric accessory 34a is not performed normally. Although details will be described later, in the port output confirmation process (step SL522), the first output confirmation process (line number "1304" to line number "1316"), the second output confirmation process (line number "1304" to line number "1311"), the third output confirmation process (line number "1306" to line number "1309"), and the fourth output confirmation process (line number "1313" to line number "1314") are executed (Fig. 313 (a)). In addition, in the port output confirmation process (step SL522), the first output setting data for opening the special electric prize winning device 32 and the general electric role 34a or closing the special electric prize winning device 32 and the general electric role 34a The second output setting data for is set in the output register 594 .

FIG. 310(c) is an explanatory diagram for explaining the data stored in the A register 591b, B register 592a, C register 592b and DE register 593 in the port output confirmation process (step SL522). As shown in FIG. 310(c), in the port output confirmation process (step SL522), the A register 591b is used to store the first output setting data or the second output setting data to be set in the output register 594. be done. The B register 592a is used to store numerical information indicating the number of repetitions of the first output confirmation process, and the C register 592b is used to store numerical information indicating the number of repetitions of the second output confirmation process. used for Furthermore, the DE register 593 is used to store numerical information indicating the number of repetitions of the third output confirmation process.

FIG. 311 is a flow chart showing the main processing executed by the main MPU 82. FIG. The main process is executed when the supply of operating power to the pachinko machine 10 is started, as in the first embodiment.

At steps SL501 to SL521, the same processes as steps SG601 to SG621 of the main process (FIG. 246) in the thirty-third embodiment are executed. Specifically, power-on initialization processing is executed (step SL501), and internal function register setting processing is executed (step SL502). After that, initialization processing of the stack pointer in the main MPU 82 is executed (step SL503). As a result, the storage area to which information is written by the push instruction can be the storage area of the last address in the stack area.

After that, "1" is set in the start-up processing flag of the main RAM 84 (step SL504), and it is determined whether or not the power failure flag provided in the main RAM 84 is set to "1" (step SL505). . If the power failure flag is set to "1" (step SL505: YES), it is determined whether the checksum is normal (step SL506). Specifically, a checksum for the main RAM 84 is calculated, and it is determined whether or not it matches the checksum stored before the operation of the main MPU 82 is stopped. If the checksums match (step SL506: YES), it is determined whether the setting value corresponding to the information stored in the setting reference area of the main RAM 84 is within the normal range (step SL507).

If a positive determination is made in all of steps SL505 to SL507, it means that information abnormality has not occurred in the main RAM 84. FIG. In this case, it is determined whether or not the setting updating flag provided in the main RAM 84 is set to "1" (step SL508), and if the setting updating flag is not set to "1" (step SL508 : NO), it is determined whether or not the power ON operation of the pachinko machine 10 is performed in a state where the reset button 142 (see FIG. 244) is pressed and the supply of operating power to the main side MPU 82 is started. (step SL509). If the reset button 142 is not pressed (step SL509: NO), it is determined whether or not the game stop flag in the main RAM 84 is set to "1" (step SL510). If an affirmative determination is made in step SL510, the processing of steps SL526 and SL527, which will be described later, is executed.

If a negative determination is made at step SL510, it is determined whether or not the setting key insertion unit 143 (see FIG. 244) is turned on using the setting key (step SL511). If the setting key insertion unit 143 is turned on using the setting key (step SL511: YES), a setting confirmation process is executed (step SL513). Further, even if the setting key insertion unit 143 is not turned on using the setting key (step SL511: NO), the setting checking flag provided in the main RAM 84 is set to "1". If there is (step SL512: YES), a setting confirmation process is executed (step SL513). The content of the setting confirmation process has already been explained in the thirty-third embodiment.

When the setting key insertion unit 143 is not turned on using the setting key and the setting confirmation flag is not set to "1" (steps SL511 and SL512: NO), the gaming machine body 12 It is determined whether or not it is open (step SL514). When the gaming machine main body 12 is in an open state with respect to the outer frame 11 (step SL514: YES), the ceiling counter 131 of the main side RAM 84 is set with information of 500 times, which is the number of fixed ceilings (step SL515).

If a negative determination is made in step SL514 or if the process of step SL515 is executed, a normal return command is transmitted to the sound and light side MPU 93 (step SL516). On the other hand, if it is determined at step SL509 that the reset button 142 is pressed and the setting key insertion unit 143 is determined to be ON by using the setting key (step SL517: YES). Or, if it is determined at step SL508 that the setting updating flag is set to "1", the setting value updating process is executed by a CALL command (step SL518). The contents of the setting value update process are as already described with reference to the flowchart of FIG. 247 in the thirty-third embodiment.

If it is determined in step SL509 that the reset button 142 is pressed and the setting key insertion unit 143 determines that the setting key is not turned ON (step SL517: NO), the main It is determined whether or not the game stop flag of the side RAM 84 is set to "1" (step SL519). If the game stop flag is not set to "1" (step SL519: NO), similar to step SG701 of the set value update process (FIG. 247) already described in the thirty-third embodiment, the CALL command RAM clear processing is executed (step SL520).

The RAM clearing process is executed in step SG701 of the set value update process (FIG. 247) and step SL520 of the main process (FIG. 311). The contents of the RAM clear processing are basically as already described with reference to the flow chart of FIG. 248 in the thirty-third embodiment. However, the main RAM 84 is defective in the confirmation timer counter 523a in the thirty-third embodiment. is not executed. After the RAM clear processing is executed at step SL520, a return command for clearing is transmitted to the sound and light side MPU 93 (step SL521).

When the process of step SL518 is performed, or when the process of step SL521 is performed, the port output confirmation process is executed (step SL522). The port output confirmation process is executed when the set value update process (step SL518) or the RAM clear process (step SL520) is executed in the main process. This is a process that will not be executed if the process has not been executed. Since the RAM clear process is also executed when the set value update process is executed, the port output confirmation process can be said to be a process executed when the RAM clear process (step SL520 or step SG701) is executed. The port output confirmation process is executed using various registers of the main side MPU 82 without using the storage area of the main side RAM 84 . As a result, the main side RAM 84 It is possible to prevent new information from being stored in the Details of the port output confirmation process will be described later.

If a negative determination is made in any of steps SL505 to step SL507, that is, if the power failure flag is not set to "1", if the checksum does not match, or if the set value is abnormal, step SL523 ∼ Step SL527 performs the same processing as steps SG622 to SG626 of the main processing (FIG. 246) in the thirty-third embodiment. Specifically, first, the game stop flag of the main side RAM 84 is set to "1" (step SL523). As a result, if the power failure flag is not set to "1" because the power failure process was not properly performed at the time of the previous power failure, the storage state of the main RAM 84 has changed since the previous power failure. If the checksum does not match due to the fact that the player is in the game, or if the set value is abnormal, the process for advancing the game (steps SL607 to step SL620) will not be executed.

Thereafter, information of 500 times, which is the number of fixed ceilings, is set in the ceiling counter 131 of the main RAM 84 (step SL524). After that, it is determined whether or not the reset button 142 is pressed (step SL525). If the reset button 142 is not pressed (step SL525: NO), an abnormality command is transmitted to the sound and light side MPU 93 (step SL526). When the sound/light side MPU 93 receives the abnormality command, it performs display control of the pattern display device 41, light emission control of the display light emitting section 64, and sound output control of the speaker section 65 so that an abnormality notification is performed. In the abnormality notification, the sound and light side MPU 93 causes the display light emitting section 64 to emit light in a mode of notifying the abnormality, and causes the speaker section 65 to output a voice saying "Please change the setting." Also, the character image "Please change the setting" is displayed on the pattern display device 41. - 特許庁The anomaly notification is maintained until the supply of operating power to the pachinko machine 10 is stopped, and is terminated when the supply of operating power to the pachinko machine 10 is stopped. However, even if the supply of the operating power to the pachinko machine 10 is temporarily stopped, the above notification will not be issued until the setting value update process (step SL518) is executed when the supply of the operating power to the pachinko machine 10 is resumed. It will start again.

After that, external output processing at the time of abnormality is executed (step SL527). In the abnormal external output process, a process for externally outputting an abnormal signal to the management computer of the game hall is executed. In this case, the signal output of the abnormal signal is performed over a predetermined period (for example, 100 milliseconds). However, it is not limited to this, and in the situation where the game stop flag is set to "1", the signal output of the abnormal signal is continued, and the game stop flag is cleared to "0" to output the abnormal signal. A configuration in which signal output is stopped may be employed.

If the reset button 142 is pressed (step SL525: YES), it is determined whether or not the setting key insertion section 143 is turned ON using the setting key (step SL517). When the reset button 142 is pressed and the setting key insertion unit 143 is turned on by using the setting key (step SL525: YES, step SL517: YES), the setting value update process is executed by the CALL command. (Step SL518). The processing contents of the set value update processing are as already explained.

On the other hand, when the reset button 142 is pressed but the setting key insertion unit 143 is not turned on (step SL525: YES, step SL517: NO), the game stop flag of the main side RAM 84 is set to "1". It is determined whether or not there is (step SL519). In the processing of step SL519 after the game stop flag is set to "1" at step SL523, as a matter of course, the game stop flag is set to "1", so an affirmative determination is made at step SL519. In this case, an abnormality command is transmitted to the sound and light side MPU 93 at step SL526, and an abnormality signal is externally output at step SL527.

In other words, if an abnormality related to the power failure flag, checksum, and set value occurs and a negative determination is made in any of steps SL505 to SL507, the operation to the main MPU 82 is performed in the situation where the "RAM clear operation" is being performed. Even if the power supply is started, the RAM clear processing (step SL520) is not executed. In addition, when the game stop flag is set to "1" and the "RAM clearing operation" is being performed, the supply of operating power to the main MPU 82 is started. Step SL520) is not executed. As a result, even if the supply of operating power to the main MPU 82 is started while the "RAM clearing operation" is being performed, the state in which the game stop flag is set to "1" is not cleared. It becomes possible. On the other hand, if the "setting change operation" is performed, regardless of whether or not the game stop flag is set to "1", the setting value update process (step SL518) is executed and the setting The game stop flag is cleared to "0" in the value update process (step SL518). As a result, it becomes necessary to execute the set value update process (step SL518) in order to eliminate the state in which the game stop flag is set to "1". Therefore, when an information abnormality occurs in the main RAM 84, it is possible not only to initialize a part of the area of the main RAM 84 but also to reset the set values.

When the supply of operating power to the main side MPU 82 is started in a situation where the game stop flag is set to "1", the "setting change operation" is not performed, that is, the case of "no operation" Alternatively, if the "RAM clearing operation" or "setting confirmation operation" is performed, an affirmative determination is made at step SL510 or step SL519, so that an abnormal command is transmitted at step SL526 and an external Execute output processing. Thereby, when the game stop flag is set to "1", regardless of the processing results of steps SL505 to step SL507 in the subsequent main processing, unless the set value update processing (step SL518) is executed, the main side Every time the supply of operating power to the MPU 82 is started, an abnormality notification in the pachinko machine 10 and an external output at the time of abnormality to the outside of the pachinko machine 10 are performed. Therefore, it is possible to make the manager of the game hall recognize that the set value should be changed.

When the process of step SL513 is executed, when the process of step SL516 is executed, when the process of step SL522 is executed, or when the process of step SL527 is executed, the startup processing flag of the main RAM 84 is set to " 0” is cleared (step SL528). As a result, a negative determination can be made on the condition that the game stop flag of the main side RAM 84 is not set to "1" at step SL606 of the timer interrupt processing (FIG. 312) to be described later. At step SL528, the power failure flag of the main RAM 84 is also cleared to "0".

After that, the remaining processing of steps SL529 to SL532 is performed. At steps SL529 to SL532, the same processes as steps SG628 to SG631 of the main process (FIG. 246) in the thirty-third embodiment are executed. The processing contents of steps SL529 to SL532 are as already explained in the thirty-third embodiment.

Next, timer interrupt processing will be described with reference to the flowchart of FIG. As already explained in the first embodiment, the timer interrupt process is repeatedly started at a period of 4 msec.

At step SL601, a power failure monitoring process is executed (step SL601) in the same manner as at step SG901 of the timer interrupt process (FIG. 249) in the thirty-third embodiment. After that, in steps SL602 to SL605, the same processes as steps SG906 to SG909 of the timer interrupt process (FIG. 249) in the thirty-third embodiment are executed. Specifically, random number update processing for lottery is executed (step SL602), random number initial value update processing is executed in the same manner as step SL530 of the main processing (FIG. 311) (step SL603), and main processing (FIG. 311) is executed. In the same way as in step SL531 of step SL604, a variation counter update process is executed. After that, fraud detection processing is executed to monitor whether or not a predetermined event set as a monitoring target for fraud has occurred (step SL605). In the fraud detection process, the game stop flag provided in the main side RAM 84 is set to "1" by monitoring the occurrence of a plurality of types of events and confirming that a predetermined event has occurred.

After that, it is determined whether or not "1" is set to either the game stop flag or the start-up processing flag of the main RAM 84 (step SL606). If "1" is set to either the game stop flag or the start-up processing flag (step SL606: YES), this timer interrupt processing is terminated without executing the processing of steps SL607 to step SL620. Thereby, in the situation where "1" is set to the game stop flag or the start-up processing flag, power failure monitoring processing (step SL601) in the timer interrupt processing (Fig. 312), updating of various counters and fraud monitoring (step SL602 to step SL605) are executed, while the processing (step SL607 to step SL620) for progressing the game is not executed.

When neither the game stop flag nor the start-up processing flag is set to "1" (step SL606: NO), the process for advancing the game in steps SL607 to step SL620 is executed. At steps SL607 to SL620, the same processes as steps SG911 to SG924 of the timer interrupt process (FIG. 249) in the thirty-third embodiment are executed. The details of the processing of these steps SL607 to SL620 are already explained in the thirty-third embodiment.

Next, program contents of port output confirmation processing will be described with reference to explanatory diagrams of FIGS. 313(a) and 313(b). FIG. 313(a) is an explanatory diagram for explaining the program contents of the port output confirmation process executed by the main MPU 82. FIG. 313(b) shows the first output confirmation process, the second output confirmation process and the FIG. 10 is an explanatory diagram for explaining the number of repetitions of the 3-output confirmation process; As already explained, the port output confirmation process is executed at step SL522 of the main process (FIG. 311).

As shown in FIG. 313(a), "1301" to "1317" are set as line numbers in the port output confirmation processing program. As described above, the port output confirmation process includes the first output confirmation process at line numbers "1304" to "1316", the second output confirmation process at line numbers "1304" to "1311", and the line number " 1306” to line number “1309” and the fourth output confirmation processing in line number “1313” to line number “1314” are included. Prior to detailed description of the port output confirmation processing program, the contents of the first to fourth output confirmation processing will be described.

As already explained, as the data set in the output register 594, the first output setting data for opening the special electric prize winning device 32 and the general electric role 34a, the special electric prize winning device 32 and the general electric role 34a There is second output setting data for closing the . The first output setting data is numerical information "01100000B" ("60H"), and when the first output setting data is set in the output register 594, the fifth bit 594f and the sixth bit 594f of the output register 594 Bit 594g is set to "1". In this embodiment, "H" attached after the numerical value is a symbol indicating that the numerical value is expressed in hexadecimal, and "B" attached after the numerical value indicates that the numerical value is expressed in binary. This symbol indicates that As already explained, when the fifth bit 594f and the sixth bit 594g are set to "1", the operation of the port setting circuit 595 causes the drive signal for the special electric drive section 32b and the general electric drive section 34b to be output. It is possible to make the special electric prize winning device 32 and the general electric accessory 34a open by outputting. The second output setting data is numerical information "00000000B" ("00H"), and when the second output setting data is set in the output register 594, the fifth bit 594f and the sixth bit 594f of the output register 594 Bit 594g is set to '0'. As already explained, when the fifth bit 594f and the sixth bit 594g are set to "0", the operation of the port setting circuit 595 causes the drive signal for the special electric drive section 32b and the general electric drive section 34b to be output. The output can be stopped so that the special electric prize winning device 32 and the general electric accessory 34a are closed. Among the line numbers "1301" to "1317" set in the port output confirmation process (FIG. 313(a)), the process for setting the first output setting data or the second output setting data in the output register 594 is The set line number is "1307". The process of line number "1307" is included in the third output confirmation process.

As already described with reference to FIG. 310(c), in the port output confirmation process, the first output setting data or the second output setting data to be set in the output register 594 is stored in the A register 591b. Although the details will be described later, the processing of line number "1307" is the processing of setting the data (either the first output setting data or the second output setting data) set in the A register 591b to the output register 594. be. When the process of line number “1307” is executed with the first output setting data set in the A register 591 b , the first output setting data is set in the output register 594 . As a result, the port setting circuit 595 operates to output drive signals to the special electric drive unit 32b and the general electric drive unit 34b, so that the special electric prize winning device 32 and the general electric accessory 34a are opened. can do. Also, when the process of line number “1307” is executed with the second output setting data set in the A register 591 b , the second output setting data is set in the output register 594 . As a result, the operation of the port setting circuit 595 stops the output of the drive signal to the drive unit 32b for the special electric and the drive unit 34b for the general electric, so that the special electric prize winning device 32 and the general electric accessory 34a are closed. can do.

The third output confirmation process (line number "1306" to line number "1309") is a process for repeatedly executing the process of the line number "1307" 65535 times. As shown in FIG. 313(b), the third output confirmation process is executed 65535 times in one second output confirmation process. The data set in the A register 591b (either the first output setting data or the second output setting data) is not changed in the third output confirmation process. Therefore, when the third output confirmation process is started while the first output setting data is set in the A register 591b, the process of setting the first output setting data in the output register 594 is repeated 65535 times. is repeatedly executed over As a result, the special electric prize winning device 32 and the general electric accessory 34a can be kept open for a period (approximately 40 milliseconds) during which the process is repeatedly executed 65535 times. Further, when the third output confirmation process is started while the second output setting data is set in the A register 591b, the process of setting the second output setting data in the output register 594 is performed 65535 times. It is executed repeatedly over As a result, the special electric prize winning device 32 and the general electric accessory 34a can be closed for a period (approximately 40 milliseconds) during which the process is repeatedly executed 65535 times.

The second output confirmation process (line number "1304" to line number "1311") is a process for repeatedly executing the third output confirmation process five times. As shown in FIG. 313(b), the second output confirmation process is executed five times in one first output confirmation process. The data set in the A register 591b (either the first output setting data or the second output setting data) is not changed in the second output confirmation process. Therefore, when the second output confirmation process is started with the first output setting data set in the A register 591b, the process of setting the first output setting data in the output register 594 is repeated 327675 times. (5 times the 65535 mentioned above). As a result, during the output confirmation period in which the port output confirmation process (FIG. 313(a)) is executed, the time during which the special electric prize winning device 32 and the general electric accessory 34a are kept open is measured using the timer counter. The special electric prize winning device 32 and the general electric The accessory 34a can be opened. Further, when the second output confirmation process is started while the second output setting data is set in the A register 591b, the process of setting the second output setting data in the output register 594 is repeated 327675 times ( 5 times the above 65535 times). This eliminates the need for the process of measuring the time during which the special electric prize winning device 32 and the general electric accessory 34a continue to be closed during the output confirmation period using the timer counter, while outputting the second output setting data to the register for output. The special electric prize winning device 32 and the general electric accessory 34a can be closed for a period of about 0.2 seconds in which the processing (line number "1307") to be set to 594 is executed 327675 times.

The fourth output confirmation process (line number "1313" to line number "1314") is executed after the second output confirmation process is executed. The fourth output confirmation process is a process for switching between a state in which the first output setting data is set in the A register 591b and a state in which the second output setting data is set in the A register 591b. be. By executing the fourth output confirmation process while the first output setting data is set in the A register 591b, the second output setting data is set in the A register 591b. By executing the fourth output confirmation process while the second output setting data is set, the first output setting data is set in the A register 591b.

The first output confirmation process (line number "1304" to line number "1316") is a process for repeatedly executing the above-described second output confirmation process and fourth output confirmation process 50 times. In the first output confirmation process, "the second output confirmation process and the fourth output confirmation process in the state where the first output setting data is set in the A register 591b"→"the second output setting data is set in the A register 591b" second output confirmation process and fourth output confirmation process in a state where the A register 591b is set"→"second output confirmation process and fourth output confirmation process in a state where the first output setting data is set in the A register 591b"→...→" Second output confirmation process and fourth output confirmation process in the state where the second output setting data is set in the A register 591b", the second output confirmation process in the state where the first output setting data is set in the A register 591b. The output confirmation process, the fourth output confirmation process, and the second output confirmation process and the fourth output confirmation process in the state where the second output setting data is set in the A register 591b are alternately executed 50 times in total. As shown in FIG. 313(b), out of the total 50 times, the second output confirmation process and the fourth output confirmation process are executed 25 times while the first output setting data is set in the A register 591b. In addition, the number of executions of the second output confirmation process and the fourth output confirmation process in the state where the second output setting data is set in the A register 591b is 25 times. As a result, the special electric prize winning device 32 and the general electric role 34a are closed for about 0.2 seconds, and the special electric prize winning device 32 and the general electric role 34a are closed for about 0.2 seconds. The closing period of the state may be alternated for a total of about 10 seconds.

As already described with reference to FIG. 310(c), the B register 592a is used to store numerical information indicating the number of repetitions of the first output confirmation process (line number "1304" to line number "1316"). In addition, the C register 592b is used to store numerical information indicating the number of repetitions of the second output confirmation process (line number "1304" to line number "1311"). Also, the DE register 593 is used to store numerical information indicating the number of repetitions of the third output confirmation process (line number "1306" to line number "1309").

Next, the details of the port output confirmation processing program (FIG. 313(a)) will be described. As described above, "1301" to "1317" are set as line numbers in this program. Program instructions are executed in ascending order of line number, except when a call or jump instruction is executed.

As shown in FIG. 313(a), the command "LD A, 60H" is set at the line number "1301". "LD" is an LD instruction as an 8-bit transfer instruction, "A" is the content specifying the A register 591b as the transfer destination, and "60H" is the hexadecimal notation of the first output setting data "01100000B". be. As already explained, the first output setting data is data set in the output register 594 in order to open the special electric prize winning device 32 and the general electric accessory 34a. Numerical information "60H" is transferred to the A register 591b by executing the instruction "LD A, 60H" at the line number "1301". As a result, "01100000B" can be set as the output setting data.

The command "LD B, 32H" is set at the line number "1302". "LD" is an LD instruction as an 8-bit transfer instruction, "B" is the content specifying the B register 592a as the transfer destination, and "32H" is the first output confirmation process (line number "1304" to line number "1316") is numerical information for setting the number of repetitions to 50 times. Numerical information "32H" is transferred to the B register 592a by executing the instruction "LD B, 32H" at the line number "1302". As a result, the number of repetitions of the first output confirmation process can be set to 50 times.

The command "LD C, 05H" is set at the line number "1303". "LD" is an LD instruction as an 8-bit transfer instruction, and "C" is the content specifying the C register 592b as the transfer destination. "05H" indicates that the second output confirmation process (line number "1304" to line number "1316") in the first output confirmation process (line number "1304" to line number "1316") is repeated 5 times. This is numerical information for setting the number of times. Numerical information "05H" is transferred to the C register 592b by executing the instruction "LD C, 05H" at the line number "1303". As a result, the number of repetitions of the second output confirmation process in one first output confirmation process can be set to five.

"RS20" is set to the line number of "1304". This is not an instruction but data referred to when the developer of the pachinko machine 10 checks the program. Therefore, at line number "1304", the process proceeds to the next line number "1305" without executing any instruction.

The command "LD DE, FFFFH" is set at the line number "1305". "LD" is an LD instruction as a 16-bit transfer instruction, and "DE" is a content specifying the DE register 593 as a transfer destination. "FFFFH" indicates 65535 repetitions of the third output confirmation process (line number "1306" to line number "1309") in the second output confirmation process (line number "1304" to line number "1311"). This is numerical information for setting the number of times. Numerical information "FFFFH" is transferred to the DE register 593 by executing the instruction "LD DE, FFFFH" at the line number "1305". As a result, the number of repetitions of the third output confirmation process in one second output confirmation process can be set to 65535 times.

"RS30" is set to the line number of "1306". This is not an instruction but data referred to when the developer of the pachinko machine 10 checks the program. Therefore, at line number "1306", the process proceeds to the next line number "1307" without executing any instruction.

The command "OUT (CPU_PINIO0), A" is set at the line number "1307". "OUT" is an OUT instruction as an output instruction. "CPU_PINIO0" is a 1-byte port number corresponding to the output register 594 in the main MPU 82, and "A" is the A register 591b. The output setting data set in the A register 591b is set in the output register 594 by executing the command "OUT (CPU_PINIO0), A" at the line number "1307". As described above, as the output setting data set in the output register 594 in the port output confirmation process, the drive signal for the special electric drive is output to the special electric drive unit 32b and the ordinary electric drive unit 34b. First output setting data ("60H") for driving the unit 32b and the drive unit 34b for normal electric use, and stop outputting the drive signal to the drive unit 32b for special electric use and the drive unit 34b for normal electric use. There is the second output setting data (“00H”) for putting the drive unit 32b for the special electric and the drive unit 34b for the general electric into the non-driving state. When the first output setting data is output to the output register 594 at line number "1307", the fifth bit 594f and the sixth bit 594g of the output register 594 are set to "1". As a result, the operation of the port setting circuit 595 outputs a drive signal to the drive unit 32b for the special electric power, so that the special electric power winning device 32 is placed in an open state. A drive signal can be output to the drive unit 34b to open the universal electrical accessory 34a. Also, when the second output setting data is output to the output register 594 at the line number "1307", the fifth bit 594f and the sixth bit 594g in the output register 594 are cleared to "0". As a result, the operation of the port setting circuit 595 stops the output of the drive signal to the drive unit 32b for the special electric, and the special electric winning device 32 can be put into a closed state. It is possible to stop the output of the drive signal to the electric drive unit 34b and put the general electric accessory 34a into a closed state.

The command "DEC DE" is set at the line number "1308". “DEC” is a 16-bit register decrement instruction (DEC instruction) and “DE” is the DE register 593 . By executing the instruction "DEC DE" at line number "1308", the value of the DE register 593 is decremented by one. As a result, the number of repetitions of the third output confirmation process in the second output confirmation process is decremented by one. When the instruction "DEC DE" is executed at line number "1308", if the operation result of the operation (the operation of subtracting 1 from the value of the DE register 593) is "0", the zero flag ZF And the value of the jump flag JF becomes "1", and the values of the zero flag ZF and the jump flag JF become "0" if the calculation result is other than "0". If the number of repetitions of the third output confirmation process in the second output confirmation process set in the DE register 593 after the execution of the instruction of the line number "1308" becomes "0", the value of the jump flag JF is set to " 1" and the number of repetitions of the third output confirmation process in the second output confirmation process set in the DE register 593 after the execution of the instruction of the line number "1308" becomes 1 or more. The value of the jump flag JF becomes "0".

The command "JRS 0, RS30" is set at the line number "1309". "JRS" is a conditional jump instruction with a word length of 1 byte. "0" is the contents of setting the condition that the value of the jump flag JF is "0" as a condition for jumping to the program address of the jump destination. "RS30" is a content specifying the line number "1306" where "RS30" is set as a jump destination. At the line number "1309", a jump is made to the line number "1306" in which "RS30" is set on condition that the value of the jump flag JF is "0". On the other hand, when the value of the jump flag JF is "1", the process proceeds to the next line number "1310" without jumping to the line number "1306".

As described above, when the repeat execution count of the third output confirmation process in the second output confirmation process set in the DE register 593 after the execution of the instruction of the line number "1308" becomes 1 or more, the jump flag The value of JF becomes "0". In this case, execution of the instruction of line number "1309" jumps to line number "1306". Then, the third output confirmation process is executed again. Further, as described above, when the number of repetitions of the third output confirmation process in the second output confirmation process set in the DE register 593 after the execution of the instruction of line number "1308" becomes "0", the jump The value of the flag JF becomes "1". In this case, even if the command "JRS 0, RS30" is set in the line number "1309", the process proceeds to the next line number "1310" without jumping to the line number "1306". As described above, in one second output confirmation process, the third output confirmation process is repeatedly executed 65535 times. As a result, when the third output confirmation process is started with the first output setting data set in the A register 591b, the process of setting the first output setting data in the output register 594 is repeated 65535 times. The special electric prize winning device 32 and the general electric accessory 34a can be in an open state over a period of about 40 milliseconds that is repeatedly executed over a period of time. Further, when the third output confirmation process is started while the second output setting data is set in the A register 591b, the process of setting the second output setting data in the output register 594 is performed 65535 times. The special electric prize winning device 32 and the general electric accessory 34a can be closed for a period of about 40 milliseconds that is repeatedly executed over a period of time.

The command "DEC C" is set at the line number "1310". "DEC" is an 8-bit decrement instruction and "C" is the C register 592b. By executing the instruction "DEC C" at line number "1310", the value of the C register 592b is decremented by one. As a result, the number of repetitions of the second output confirmation process in the first output confirmation process is decremented by one. When the instruction "DEC C" is executed at line number "1310", if the operation result of the operation (the operation of subtracting 1 from the value of the C register 592b) is "0", the zero flag ZF becomes "1", and the value of the zero flag ZF becomes "0" if the calculation result is other than "0". If the number of repetitions of the second output confirmation process in the first output confirmation process set in the C register 592b after the execution of the instruction of the line number "1310" becomes "0", the value of the zero flag ZF is set to "1". , and when the number of repetitions of the second output confirmation process in the first output confirmation process set in the C register 592b after the execution of the instruction of the line number "1310" becomes a value of 1 or more, a zero flag is set. The value of ZF becomes "0".

The command "JR NZ, RS20" is set at the line number "1311". "JR" is a conditional jump instruction with a word length of 2 bytes; This is the contents of designating the line number "1304" in which "RS20" is set as the jump destination. At the line number "1311", the jump is made to the line number "1304" where "RS20" is set on condition that the value of the zero flag ZF is "0". On the other hand, when the value of the zero flag ZF is "1", the process proceeds to the next line number "1312" without jumping to the line number "1304".

As described above, when the number of repetitions of the second output confirmation process in the first output confirmation process set in the C register 592b after the execution of the instruction of the line number "1310" becomes a value of 1 or more, the zero flag ZF becomes "0". In this case, execution of the instruction of line number "1311" jumps to line number "1304". Then, the second output confirmation process is executed again. Further, as described above, when the number of repetitions of the second output confirmation process in the first output confirmation process set in the C register 592b after the execution of the instruction of the line number "1310" becomes "0", the zero flag The value of ZF becomes "1". In this case, even if the command "JR NZ, RS20" is set in the line number "1311", the process proceeds to the next line number "1312" without jumping to the line number "1304". As described above, in one first output confirmation process, the second output confirmation process is repeatedly executed five times. Further, as described above, in one second output confirmation process, the third output confirmation process is repeatedly executed 65535 times. Therefore, when the second output confirmation process is started while the first output setting data is set in the A register 591b, the open state of the special electric prize winning device 32 and the general electric accessory 34a is continued. Over a period of about 0.2 seconds, the process of setting the first output setting data in the output register 594 is repeatedly executed 327675 times while eliminating the need for the process of measuring the time using a timer counter. Then, the special electric prize winning device 32 and the general electric accessory 34a can be opened. Also, when the second output confirmation process is started in a state where the second output setting data is set in the A register 591b, the time during which the closed state of the special electric prize winning device 32 and the general electric accessory 34a continues over a period of about 0.2 seconds in which the process of setting the second output setting data in the output register 594 is repeatedly executed 327675 times while eliminating the need for the process of measuring using a timer counter. The special electric prize winning device 32 and the general electric accessory 34a can be closed.

At the line number "1312", the instruction "LD C, 05H" is set, like the line number "1303" already described. "LD" is an LD instruction as an 8-bit transfer instruction, and "C" is the content specifying the C register 592b as the transfer destination. "05H" indicates the number of repetitions of the second output confirmation process (line number "1304" to line number "1311") in the first output confirmation process (line number "1304" to line number "1316"). This is numerical information for setting the number of times. Numerical information "05H" is transferred to the C register 592b by executing the instruction "LD C, 05H" at the line number "1312". As a result, the number of repetitions of the second output confirmation process in one first output confirmation process can be set to five.

An instruction "XOR A, 0FFH" is set at the line number "1313". "XOR" is an exclusive OR instruction called an XOR instruction, "A" is the content specifying the A register 591b, and "0FFH" is numerical information "000011111111B". By executing "XOR A, 0FFH" at line number "1313", the result of the exclusive OR operation of the value of the A register 591b and "11111111B" is stored in the A register 591b. At line number "1313", an operation is performed to invert the data "0" or "1" stored in each bit of the A register 591b between "0" and "1", and the operation result is Stored in the A register 591b.

The command "AND A, 60H" is set at the line number "1314". "AND" is an AND instruction for calculating the logical product of 8-bit data, "A" is the content specifying the A register 591b, and "60H" is the first output setting data "01100000B". By executing the instruction "AND A, 60H" at the line number "1314", the AND operation of the data stored in the A register 591b and the first output setting data is executed, and the result of the operation is is stored in the A register 591b.

314(a) and 314(b) are explanatory diagrams for explaining data stored in the A register 591b before and after execution of the fourth output confirmation process.

314 ( Description will be made with reference to a). When the first output setting data ("60H") is stored in the A register 591b, when the instruction "XOR A, 0FFH" is executed at the line number "1313", each bit of the A register 591b Numerical information derived by inverting the stored "0" or "1" data between "0" and "1" is stored in the A register 591b. Specifically, "10011111B", which is the exclusive OR of "01100000B" and "11111111B", is stored in the A register 591b. After that, when the instruction "AND A, 60H" is executed at the line number "1314", "00000000B" (second output setting data), which is the logical product of "10011111B" and "01100000B", is stored in the A register 591b. stored in In this way, when the fourth output confirmation process is executed while the first output setting data is stored in the A register 591b, the second output setting data is stored in the A register 591b. .

Next, the case where the fourth output confirmation process (line number "1313" to line number "1314") is executed while the second output setting data ("00H") is set in the A register 591b is shown in FIG. 314(b). In the state where the second output setting data (“00H”) is stored in the A register 591b, when the instruction “XOR A, 0FFH” is executed at the line number “1313”, each bit of the A register 591b Numerical information derived by inverting the stored "0" or "1" data between "0" and "1" is stored in the A register 591b. Specifically, "11111111B", which is the exclusive OR of "00000000B" and "11111111B", is stored in the A register 591b. After that, when the instruction "AND A, 60H" is executed at the line number "1314", "01100000B" (first output setting data), which is the logical product of "11111111B" and "01100000B", is stored in the A register 591b. stored in In this way, when the fourth output confirmation process is executed while the second output setting data is stored in the A register 591b, the first output setting data is stored in the A register 591b. .

As described above, the 0th to 7th bits in the second output setting data are "0", the value of at least one of the 0th to 7th bits in the first output setting data is "1", In the configuration in which the fourth output confirmation process is executed in a state where the first output setting data or the second output setting data is set in the A register 591b, the data stored in each bit of the A register 591b at line number "1313" An operation is executed to invert the data "0" or "1" between "0" and "1", and the operation result is stored in the A register 591b. 591b and the first output setting data, the first output is output to the A register 591b each time the fourth output confirmation process is executed. It is possible to switch between the state in which the setting data is set and the state in which the second output setting data is set in the A register 591b. The output setting data stored in the A register 591b is changed from first output setting data→second output setting data→first output setting data→second output setting data→ . -> first output setting data -> second output setting data are alternately updated in this order.

Returning to the description of the port output confirmation process (Fig. 313(a)), after executing the command of line number "1314", the process proceeds to the next line number "1315". "RS40" is set to the line number of "1315". This is not an instruction but data referred to when the developer of the pachinko machine 10 checks the program. Therefore, at line number "1315", the process proceeds to the next line number "1316" without executing any instruction.

The command "DJNZ RS20" is set at the line number "1316". "DJNZ" subtracts 1 from the value of the B register 592a. If the value is "0", it is a DJNZ instruction that advances to the next line number without jumping to the jump destination. Also, "RS20" is a content specifying the line number "1304" where "RS20" is set as the jump destination. By executing the instruction "DJNZ RS20" at line number "1316", the value of the B register 592a is decremented by one. If the value of the B register 592a after the subtraction of 1 is not "0", it jumps to the line number "1304" in which "RS20" is set. If it is "0", it proceeds to the next line number "1317" without jumping to the line number "1304".

As already explained, the number of repetitions of the first output confirmation process is set in the B register 592a. As described above, the first output confirmation process is repeatedly executed 50 times. Further, as described above, when the fourth output confirmation process is executed while the first output setting data is stored in the A register 591b, the second output setting data is stored in the A register 591b. In addition, when the fourth output confirmation process is executed while the second output setting data is stored in the A register 591b, the first output setting data is stored in the A register 591b. .

By executing the first output confirmation process in a state where the first output setting data is stored in the A register 591b, the special electric prize winning device 32 and the general electric accessory 34a are in the open state for about 0.2 seconds. Become. When the first output confirmation process is executed while the first output setting data is stored in the A register 591b, the second output setting data is stored in the A register 591b. is executed for the first output confirmation process. As a result, the special electric prize winning device 32 and the general electric accessory 34a are closed for about 0.2 seconds. Further, when the first output confirmation process is executed in a state where the second output setting data is stored in the A register 591b, the first output setting data is stored in the A register 591b. , the next processing cycle of the first output confirmation processing is executed. As a result, the special electric prize winning device 32 and the general electric accessory 34a are opened for about 0.2 seconds.

The command "RET" is set at the line number "1317". "RET" is a return instruction from a subroutine. By executing the command "RET" at line number "1317", the currently called subroutine is terminated and the process set next to the process that called the subroutine is returned to. Specifically, the process proceeds to step SL528 of the main process (FIG. 311).

Next, how the special electric prize winning device 32 and the general electric accessory 34a are opened and closed will be described with reference to the time chart of FIG. FIG. 315(a) shows the period in which the special electric prize winning device 32 and the general electric accessory 34a are in the open state, and FIG. 315(b) shows the period in which the first output setting data is set in the output register 594. 315(c) shows the period during which the second output setting data is set in the output register 594, FIG. 315(d) shows the timing at which the fourth output confirmation process is executed, and FIG. FIG. 315(f) shows the period during which the value of the B register 592a is 1 or more, and FIG. 315(g) shows the output confirmation period during which the port output confirmation process is executed.

At the timing of t1, when the output confirmation period in which the port output confirmation process (FIG. 313(a)) is executed as shown in FIG. 315(g) is started, the first output "50", which is the number of executions of the confirmation process, is set in the B register 592a. Also, at the timing of t1, the first output setting data ("60H") is set in the A register 591b, and the first output setting data is set in the output register 594 as shown in FIG. 315(b). At the same time that the state of being in is started, as shown in FIG. 315(a), the operation of the port setting circuit 595 causes the special electric prize winning device 32 and the general electric accessory 34a to be in the open state.

After that, as shown in FIG. 315(e), the first second output confirmation process ends at the timing t2, the second output confirmation process ends at the timing t3, and the third output confirmation process ends at the timing t4. is completed, the fourth second output confirmation process is completed at timing t5, and the fifth second output confirmation process is completed at timing t6. As already explained, the number of times the process of the line number "1307" is executed in one second output confirmation process is 65535 times, and the second output confirmation process is repeated five times so that the line number "1307" is executed 327675 times. At the timing t6 when the fifth second output confirmation process ends, 1 is subtracted from the value of the B register 592a to become "49". 315(d), the output setting data set in the A register 591b is changed from the first output setting data to the second output setting data at the timing t6. 315(b) and 315(c), the output setting data set in the output register 594 is switched from the first output setting data to the second output setting data. As already explained, by setting the second output setting data in the output register 594, the special electric prize winning device 32 and the general electric accessory 34a are opened by the operation of the port setting circuit 595 as shown in FIG. 315(a). state to the closed state.

Thereafter, as shown in FIG. 315(e), the first second output confirmation process ends at timing t7, the second output confirmation process ends at timing t8, and the third output confirmation process ends at timing t9. is completed, the fourth second output confirmation process is completed at timing t10, and the fifth second output confirmation process is completed at timing t11. At the timing of t11 when the fifth second output confirmation process ends, the value of the B register 592a is decremented by 1 and becomes "48". At the timing of t11, when the fourth output confirmation process is executed as shown in FIG. 315(d), the output setting data set in the A register 591b is changed from the second output setting data to the first output setting data. 315(b) and 315(c), the output setting data set in the output register 594 is switched from the second output setting data to the first output setting data. As already explained, by setting the first output setting data in the output register 594, the special electric prize winning device 32 and the general electric accessory 34a are switched from the closed state to the open state as shown in FIG. 315(a). .

Thus, in the output confirmation period, a period of about 0.2 seconds (timing t1 to timing t6) in which the special electric prize winning device 32 and the general electric role 34a are in an open state, and the special electric prize winning device 32 and the general electric role A period of about 0.2 seconds (timing t6 to timing t11) during which the object 34a is closed is alternately repeated.

When the second output confirmation process for the fifth time ends at the timing of t12 when the special electric prize winning device 32 and the general electric accessory 34a are in the open state, the value of the B register 592a is decremented by 1 and becomes "1". At the timing of t12, when the fourth output confirmation process is executed as shown in FIG. 315(d), the output setting data set in the A register 591b is changed from the first output setting data to the second output setting data. 315(b) and 315(c), the output setting data set in the output register 594 is switched from the first output setting data to the second output setting data. As already explained, by setting the second output setting data in the output register 594, as shown in FIG. .

Thereafter, as shown in FIG. 315(e), the first second output confirmation process is completed at timing t13, the second output confirmation process is completed at timing t14, and the third output confirmation process is completed at timing t15. is completed, the fourth second output confirmation process is completed at timing t16, and the fifth second output confirmation process is completed at timing t17. At the timing of t17 when the fifth second output confirmation process ends, the value of the B register 592a is decremented by 1 to become "0", and the output confirmation period ends as shown in FIG. 315(g).

As shown in FIG. 315(e), the first output setting data is set in the A register 591b from the state where the second output setting data is set by executing the fourth output confirmation process at the timing of t17. However, since the value of the B register 592a becomes "0" and the port output confirmation process ends, the second output setting data set in the A register 591b is not set in the output register 594. . The output confirmation period ends after the special electric prize winning device 32 and the general electric accessory 34a are closed for about 0.2 seconds. Even after the end of the output confirmation period, the closed state of the special electric prize winning device 32 and the general electric accessory 34a is continued.

As described above, when the RAM clear process (step SL520 or step SG701) is executed after the supply of operating power to the pachinko machine 10 is started, the port output confirmation process is executed, and the RAM clear process ( In the configuration in which the port output confirmation process is not executed if step SL520 or step SG701) is not executed, the port output confirmation process uses various registers of the main MPU 82 without using the storage area of the main RAM 84. is executed. As a result, the main side RAM 84 It is possible to prevent new information from being stored in the Therefore, when the RAM clearing process (step SL520 or step SG701) is executed, it is possible to start the playable state while maintaining the state in which the main side RAM 84 is initialized.

When the second output confirmation process is started with the first output setting data set in the A register 591b, the process of setting the first output setting data in the output register 594 (line number "1307" ) is repeatedly executed 327675 times, the process of measuring the time during which the special electric prize winning device 32 and the general electric accessory 34a are kept open during the output confirmation period using a timer counter is unnecessary. Meanwhile, the special electric prize winning device 32 and the general electric accessory 34a can be in an open state for a period of about 0.2 seconds during which the process of setting the first output setting data to the output register 594 is executed 327675 times. . Further, when the second output confirmation process is started with the second output setting data set in the A register 591b, the process of setting the second output setting data in the output register 594 (line number " 1307") is repeatedly executed 327675 times to measure the time during which the special electric prize winning device 32 and the general electric accessory 34a are kept closed during the output confirmation period using a timer counter. While unnecessary, the special electric prize winning device 32 and the general electric accessory 34a are closed for a period of about 0.2 seconds in which the process of setting the second output setting data to the output register 594 is executed 327675 times. can be done. In this way, in the port output confirmation process, the timer counter is used to measure the time during which the special electric prize winning device 32 and the general electric role 34a are kept open, and the special electric prize winning device 32 and the general electric role 34a By adopting a configuration that does not include the process of measuring the duration of the closed state, the port output confirmation process can be performed using various registers of the main side MPU 82 without using the storage area of the main side RAM 84. In addition, the processing configuration of the port output confirmation processing can be simplified.

In the port output confirmation process, a process of measuring the time during which the special electric prize winning device 32 and the general electric role 34a are kept open using a timer counter and the closed state of the special electric prize winning device 32 and the general electric role 34a By adopting a configuration that does not include processing for measuring the duration of time, it is possible to eliminate the need to generate an interrupt due to timer interrupt processing during execution of port output confirmation processing. The timer interrupt process does not include a process for executing the opening/closing operation of the special electric prize winning device 32 and the general electric accessory 34a during the output confirmation period in which the port output confirmation process is executed. Thereby, the processing configuration of the timer interrupt processing can be simplified.

The 0th to 7th bits in the second output setting data are "0", the value of at least one of the 0th to 7th bits in the first output setting data is "1", and the A register 591b In the configuration in which the fourth output confirmation process is executed in a state where the first output setting data or the second output setting data is set, "0" stored in each bit of the A register 591b at line number "1313" or "1" is inverted between "0" and "1", and the result of the operation is stored in the A register 591b, and is stored in the A register 591b at the line number "1314". The first output setting data is set in the A register 591b every time the fourth output confirmation process is executed. and the state in which the second output setting data is set in the A register 591b. As a result, a process for switching the special electric prize winning device 32 and the general electric accessory 34a from the open state to the closed state, and a processing for switching the special electric prize winning device 32 and the general electric accessory 34a from the closed state to the open state. Configuration can be simplified.

<Another form of the 40th embodiment>
(1) In the fortieth embodiment, only the 5th bit 594f and the 6th bit 594g of the 0th to 7th bits 594a to 594h of the output register 594 are used. There is no limitation, and a configuration in which part of the 0th to 4th bits 594a to 594e and the 7th bit 594h are used may be used. Specifically, the game board 24 is provided with an output confirmation display device that is lit only during the output confirmation period. The manager of the game hall can grasp that it is the output confirmation period by confirming that the output confirmation display device is in the lighting state. The seventh bit 594h of the output register 594 is set with data "1" for turning on the output confirmation display device or data "0" for turning off the output confirmation display device. When the seventh bit 594h of the output register 594 is set to "1", the port setting circuit 595 outputs a lighting signal to the output confirmation display device to turn on the output confirmation display device. When the value of the seventh bit 594h is "0", the output confirmation display device is turned off by stopping the output of the lighting signal to the output confirmation display device. In the output confirmation period, the main MPU 82 executes the process of setting the first output setting data or the second output setting data set in the A register 591b in the output register 594, and then sets the first output setting data in the output register 594. A process of setting "1" to the 7th bit 594h is executed. As a result, in the output confirmation period, the output confirmation display device is lit during both the period when the first output setting data is stored in the A register 591b and the period when the second output setting data is stored in the A register 591b. It is possible to maintain the lighting state of the output confirmation display device by outputting the signal.

(2) In the fortieth embodiment, the 0th to 4th bits 594a to 594e and the 7th bit 594h in the output register 594 are used to It is also possible to adopt a configuration in which ball entry notification is executed to notify that a gaming ball that has entered the operation port 33 and the second operation port 34) has been detected. The main MPU 82 is provided with an H register and an L register. Each of these H and L registers has 0th to 7th bits. At the start of the output confirmation period, each bit of the H register and L register is cleared to "0". In the output confirmation period, the 0th bit of the H register, the 0th bit of the L register, and the 0th bit 594a of the output register 594 correspond to the first winning hole detection sensor 231a, and the 1st bit of the H register, the L The first bit of the register and the first bit 594b of the output register 594 correspond to the second winning opening detection sensor 232a. The bit 594c corresponds to the third winning opening detection sensor 233a, the 3rd bit of the H register, the 3rd bit of the L register and the 3rd bit 594d of the output register 594 correspond to the special electric detection sensor 234a, The 4th bit of the H register, the 4th bit of the L register, and the 4th bit 594e of the output register 594 correspond to the first operating port detection sensor 235a, and the 7th bit of the H register and the 7th bit of the L register and the seventh bit 594h of the output register 594 corresponds to the second working port detection sensor 236a.

On the game board 24, during the output confirmation period, a first general ball entry display device for notifying that the first winning hole detection sensor 231a has detected a game ball, and a second winning hole detection sensor 232a has detected a game ball. A second general ball entry display device that notifies that a game ball has been detected, a third general ball entry display device that notifies that a game ball has been detected in the third winning opening detection sensor 233a, and a game ball in the special electric detection sensor 234a A game in a special electric ball display device that notifies that detection has occurred, a first operation ball display device that notifies that a game ball has been detected in the first operation opening detection sensor 235a, and a game in the second operation opening detection sensor 236a A second active ball entry indicator is provided to indicate that a ball detection has occurred. These ball-entering display devices are turned off at the start of the output confirmation period, and when any of the detection sensors 231a to 236a detects a game ball during the output confirmation period, the detection sensor corresponds to that detection sensor. The entering ball display device to be played will be in the lighting state. These ball entry display devices are turned off at the end of the output confirmation period. The manager of the game hall confirms whether or not the ball entry display device corresponding to the ball entry part where the game ball has been serviced during the output confirmation period is lit. It is possible to specify whether or not the detection is normally performed. The port setting circuit 595 outputs a lighting signal to the entering ball display device corresponding to the bit set to "1" among the 0th to 4th bits 594a to 594e and the 7th bit 594h of the output register 594. By doing so, the entered ball display device is turned on, and the entered ball display device corresponding to the bit with a value of "0" among the 0th to 4th bits 594a to 594e and the 7th bit 594h is lit. By not outputting the signal, the ball entering display device is turned off.

In this configuration, in the port output confirmation process, a ball-entering process for setting data corresponding to detection of a game ball by the detection sensors 231a to 236a is executed. In the ball-entering correspondence processing, the H register corresponds to the data "0" corresponding to the LOW detection signal of the detection sensors 231a to 236a input to the main side MPU 82 or the data "1" corresponding to the detection signal of HI. set to the 0th to 4th bits and the 7th bit. In addition, in the incoming ball handling process, based on the data set in the 0th to 4th bits and the 7th bit of the H register and the detection signal input to the main side MPU 82, each of the detection sensors 231a to 236a , it is determined whether or not a game ball has been detected. Then, among the 0th to 4th bits and the 7th bit of the L register, "1" is set to the bit corresponding to the detection sensor that detected the gaming ball.

In this configuration, after the process of setting the first output setting data or the second output setting data set in the A register 591b to the output register 594 is executed, the numerical information stored in the output register 594 On the other hand, a ball entry information setting process for adding the numerical information stored in the L register is executed. As a result, during the output confirmation period, the bits corresponding to the detection sensors 231a to 236a in which the game balls have been detected among the 0th to 4th bits 594a to 594e and the 7th bit 594h of the output register 594 are set to "1". It can be in a set state, and can be in a state in which the value of the bit corresponding to the detection sensor 231a to 236a in which no game ball is detected is "0".

In the port output confirmation process, the process of setting the first output setting data or the second output setting data set in the A register 591b to the output register 594 and the entering ball information setting process are performed a predetermined number of times (for example, 3000 times). A ball-entering correspondence process is executed each time it is repeatedly executed. As a result, even in a state in which interrupts due to timer interrupt processing are prohibited, ball entry processing is executed at a predetermined cycle (for example, a cycle of approximately 4 milliseconds) without using the storage area of the main side RAM 84. can be

(3) In the forty-fifth embodiment, data for outputting drive signals to the special electric drive section 32b and the general electric drive section 34b are set in the fifth bit 594f and the sixth bit 594g of the output register 594. However, the present invention is not limited to this. For example, data for outputting drive signals to these drive units 32b and 34b are set in the 0th bit 594a and the 1st bit 594b of the output register 594. It may be configured to be In this configuration, the first output setting data set in the A register 591b is "00000011B" ("03H"), and the second output setting data is "00000000B" ("00H"). At line number "1314" of the port output confirmation process (FIG. 313(a)), an instruction "AND A, 03H" is executed. When the instruction "XOR A, 0FFH" is executed at line number "1313" while the first output setting data is set in the A register 591b, the numerical information "11111100B" is set in the A register 591b. In this state, when the instruction "AND A, 03H" is executed at line number "1314", the second output setting data ("00000000B") is set in the A register 591b. state. Further, when the instruction "XOR A, 0FFH" is executed at line number "1313" while the second output setting data is set in the A register 591b, numerical information "11111111B" is stored in the A register 591b. is set, and when the command "AND A, 03H" is executed at line number "1314" in this state, the first output setting data ("00000011B") is set in the A register 591b. state. In this way, when the data for outputting the drive signal to the drive unit 32b for special electric power and the drive unit 34b for ordinary electric power is set in the 0th bit 594a and the 1st bit 594b of the output register 594 , every time the fourth output confirmation process (line numbers "1313" to "1314") is executed, the state in which the first output setting data is set in the A register 591b and the second output setting data in the A register 591b are changed. is set.

Further, for example, data for outputting a drive signal to the special electric drive unit 32b and the general electric drive unit 34b may be set in the second bit 594c and the third bit 594d of the output register 594. . In this configuration, the first output setting data set in the A register 591b is "00001100B" ("0CH"), and the second output setting data is "00000000B" ("00H"). In the line number "1314" of the port output confirmation process (FIG. 313(a)), the command "AND A, 0CH" is executed. When the instruction "XOR A, 0FFH" is executed at line number "1313" while the first output setting data is set in the A register 591b, the numerical information "11110011B" is set in the A register 591b. In this state, when the instruction "AND A, 0CH" is executed at line number "1314", the second output setting data ("00000000B") is set in the A register 591b. state. Further, when the instruction "XOR A, 0FFH" is executed at line number "1313" while the second output setting data is set in the A register 591b, numerical information "11111111B" is stored in the A register 591b. is set, and when the instruction "AND A, 0CH" is executed at line number "1314" in this state, the first output setting data ("00001100B") is set in the A register 591b. state. In this way, when the data for outputting the drive signal to the drive unit 32b for special electric power and the drive unit 34b for ordinary electric power is set in the second bit 594c and the third bit 594d of the output register 594 , every time the fourth output confirmation process (line numbers "1313" to "1314") is executed, the state in which the first output setting data is set in the A register 591b and the second output setting data in the A register 591b are changed. is set.

As described above, the 0th to 7th bits in the second output setting data are "0", the value of at least one of the 0th to 7th bits in the first output setting data is "1", In the configuration in which the fourth output confirmation process is executed in a state where the first output setting data or the second output setting data is set in the A register 591b, the data stored in each bit of the A register 591b at line number "1313" An operation is executed to invert the data "0" or "1" between "0" and "1", and the operation result is stored in the A register 591b. 591b and the first output setting data, the first output is output to the A register 591b each time the fourth output confirmation process is executed. It is possible to switch between a state in which the setting data is set and a state in which the second output setting data is set in the A register 591b.

(4) In the fortieth embodiment, the number of bits of the first output setting data and the second output setting data is "8". The number of bits of the output setting data may be "7" or less, or the number of bits of these output setting data may be "9" or more. Specifically, the number of bits of the first output setting data and the second output setting data is any integer of "2" to "7" and "9" or more, and the first output setting data is one or more The value of the bit is numerical information with "1", the second output setting data is numerical information with the value of all bits being "0", and the A register 591b is the first output setting data or the second output setting data. In a configuration in which the fourth output confirmation process is executed in a state in which the first output setting data or the second output setting data is set in the A register 591b, the line number "1313" is executed to invert the data "0" or "1" stored in each bit of the A register 591b between "0" and "1", and the result of the operation is stored in the A register 591b. , and the fourth output confirmation process is executed by configuring the operation of calculating the AND of the numerical information stored in the A register 591b and the first output setting data at the line number "1314". It is possible to switch between the state in which the first output setting data is set in the A register 591b and the state in which the second output setting data is set in the A register 591b each time.

In the configuration in which the number of bits of the first output setting data and the second output setting data is "1" and the number of bits of the A register 591b is "1", in the fourth output confirmation process, Only the process is executed and the process of line number "1314" is not executed. At the line number "1313", an operation is executed to invert the data "0" or "1" stored in the A register 591b between "0" and "1", and the result of the operation is transferred to the A register 591b. stored in As a result, every time the fourth output confirmation process is executed, switching between the state in which the first output setting data is set in the A register 591b and the state in which the second output setting data is set in the A register 591b is performed. can be made to take place.

<Other embodiments>
It should be noted that the present invention is not limited to the description of the above-described embodiment, and various modifications and improvements are possible without departing from the spirit of the present invention. For example, it may be changed as follows. Incidentally, the configurations of the following different forms may be applied individually or in combination with the configurations of the above embodiments.

(1) In each of the above-described embodiments, the configuration is not limited to the configuration in which the subtraction process of the ceiling counter 131 is performed after the setting process for the time saving result is performed in the process during specific confirmation, and the subtraction process of the ceiling counter 131 It is good also as a structure by which the setting process for time saving results is performed after is performed. In this case, when the time saving result is selected in the success/failure determination process in the game round in which the time saving state can be set and the value of the ceiling counter 131 after subtracting 1 is "0" When the ceiling time saving occurs, the ceiling time saving is set. The setting of the time saving state triggered by the time saving result is given priority over the setting of the time saving state triggered by the time saving result. Therefore, the number of times of continuation of time saving set in the time saving state triggered by the ceiling time saving result is set in the time saving state triggered by the time saving result or the number of time saving continuation times set in the time saving state triggered by the time saving result It is preferable that the number of times is greater than the number of times of continuous time saving.

(2) In the above embodiments, the first time saving result and the second time saving result are set as the time saving result, but only one of the first time saving result and the second time saving result is set. good too. Moreover, it is good also as a structure by which three or more types of time saving results are set. In this case, the number of continuation of time saving set in the time saving state triggered by the time saving result is the time saving set in the time saving state triggered by the ceiling time saving regardless of the type of time saving result as in the above embodiments. It may be configured to be the number of continuations or more, and for at least some of the time saving results, the number of times of continuation of time saving may be less than the number of times of continuation of time saving set in the time saving state triggered by the ceiling time saving.

(3) In each of the above-described embodiments, the number of continuous time-savings set in the time-saving state triggered by the time-saving result may be less than or equal to the number of continuous time-savings set in the time-saving state triggered by the ceiling time-saving. It is good also as a structure which is the number of times smaller than the number of times of time saving continuation set in the time saving state triggered by.

(4) In each of the above-described embodiments, the first high-frequency support mode may be set instead of the second high-frequency support mode in the time-saving state triggered by the time-saving result. In this case, the first high frequency support mode is set in the time saving state triggered by the result of the big win or the time saving result, and the second high frequency support mode is set in the time saving state triggered by the ceiling time saving.

(5) In each of the above-described embodiments, in the time saving state triggered by the ceiling time saving, the first high frequency support mode may be set instead of the second high frequency support mode. In this case, the first high frequency support mode is set in the time saving state triggered by the result of the big hit or the ceiling time saving, and the second high frequency support mode is set in the time saving state triggered by the time saving result.

(6) In each of the above embodiments, the first high-frequency support mode is set in the time-saving state triggered by one of the first time-saving result and the second time-saving result, and the second high-frequency support mode is set in the time-saving state triggered by the other. It may be configured as follows. Thereby, it is possible to set the high frequency support mode according to the type of time saving result.

(7) In each of the above embodiments, the first high-frequency support mode and the second high-frequency support mode differ in the probability of winning the electric role open election in the general figure suitability judgment, and the execution mode of other general figure / general electric are the same, but in addition to or instead of the probabilities, other execution modes may be different. For example, one of the first high-frequency support mode and the second high-frequency support mode may be configured to have a longer duration of the fluctuation display times in the normal diagram display unit 38a than the other, and the first high-frequency support mode and the second One of the high frequency support modes may be configured to have a longer average period of duration of the fluctuation display times in the normal figure display unit 38a than the other, and one of the first high frequency support mode and the second high frequency support mode The second operation port 34 or the special prize winning device 151 may be configured to be in the open state more times than the other, and one of the first high-frequency support mode and the second high-frequency support mode is more than the other. Also, the total period during which the second operation port 34 or the special prize winning device 151 is in the open state in the general power open state may be long. In this case, the first high-frequency support mode may be more advantageous than the second high-frequency support mode in any execution mode, and the second high-frequency support mode may be used in any execution mode. The first high-frequency support mode may be more advantageous than the first high-frequency support mode, and the first high-frequency support mode is more advantageous than the second high-frequency support mode for some execution modes, and the remaining execution modes are more advantageous. , the second high-frequency support mode may be more advantageous than the first high-frequency support mode.

Further, in any support mode, the probability of winning the electric role open winning in the normal figure suitability determination may be the same or substantially the same.

(8) In each of the above embodiments, the time saving state of the second high-frequency support mode occurs regardless of whether the time saving result occurs or the ceiling time saving occurs, but it is limited to this Instead, for example, when the time saving result occurs, the time saving state of the first high frequency support mode occurs, whereas when the ceiling time saving occurs, the time saving state of the second high frequency support mode occurs. Also, when the time saving result occurs, the time saving state of the second high frequency support mode occurs, whereas when the ceiling time saving occurs, the time saving state of the first high frequency support mode occurs. Often, when the time saving result occurs, the time saving state of the first high-frequency support mode occurs, whereas when the ceiling time saving occurs, the high probability state occurs, and the time saving result occurs In some cases, it may be configured such that a high probability state occurs when the ceiling time saving state occurs while the time saving state of the second high frequency support mode occurs.

(9) In each of the above-described embodiments, when a time saving result is obtained in the success or failure determination process and a time saving state occurs, it is notified that a time saving state occurs by the stop result of the symbol rows Z1 to Z3 of the pattern display device 41. However, it is not limited to this, and the stop result corresponding to the time saving result is stopped and displayed in the symbol rows Z1 to Z3 of the symbol display device 41 in the middle of the variable display period of the game round, and then the game round. Until the end timing, it may be configured such that a notification is executed so that the player can recognize that the time saving state triggered by the time saving result is started. However, in the case of this configuration, it is necessary to specify whether or not a time saving state triggered by the time saving result occurs at the stage of determining the effect for the game round, so the setting process for the time saving result is the start of the game round It should be executed on time.

(10) In each of the above embodiments, when a time saving state triggered by a ceiling time saving occurs, depending on the result of stopping the pattern rows Z1 to Z3 of the pattern display device 41, the notification that the time saving state occurs is not executed. However, it is not limited to this, and in the pattern rows Z1 to Z3 of the pattern display device 41 in the middle of the variable display period of the game round, the stop result corresponding to the ceiling time reduction is stopped and displayed, and then the game round. Until the end timing, it may be configured to execute a notification for allowing the player to recognize that the time saving state triggered by the ceiling time saving is started. However, in the case of this configuration, it is necessary to specify whether or not a time saving state triggered by the ceiling time saving occurs at the stage of determining the effect for the game round, so the subtraction process of the ceiling counter 131 is performed at the start of the game round. It should be executed on time.

(11) In each of the above embodiments, when the time-saving result is obtained in the success/failure determination process and the game round in which the success/failure determination process is executed ends, a new game round in the time-saving state triggered by the time-saving result is immediately started. Although it is allowed, it is not limited to this, and if a time saving state occurs triggered by a time saving result, a predetermined period (for example, 5 seconds ), the start of a new game cycle may be prevented. In this case, by using the predetermined period, it is possible to perform notification for allowing the player to recognize that the time saving state triggered by the time saving result is started.

(12) In each of the above embodiments, when the game round in which the ceiling time saving occurs ends, the start of a new game round in the time saving state triggered by the ceiling time saving is immediately allowed. However, it is limited to this. However, if a time-saving state occurs triggered by the ceiling time-saving, when the game round with the ceiling time-saving ends, a new game round will start over a predetermined period (for example, 5 seconds). It is good also as a structure blocked. In this case, using the predetermined period, it is possible to perform notification for allowing the player to recognize that the time saving state triggered by the ceiling time saving is started.

(13) In the above-described embodiments, when the game round ends, the subtraction process of the time saving state counter 134, the subtraction process of the variable selection state counter 132, the setting process for the time saving result, and the subtraction process of the ceiling counter 131. However, these processes may be configured to be executed after the suitability determination process is executed and before the variable display period specifying process is executed. In this case, it is possible to specify whether or not the ceiling time saving occurs before executing the specific process of the variable display period, so as a result of stopping the special figure display units 37a and 37b Corresponds to the occurrence of the ceiling time saving The stop result may be selected, and the stop result corresponding to the occurrence of the ceiling time reduction may be selected as the stop result in the pattern rows Z1 to Z3 of the pattern display device 41.

(14) In each of the above embodiments, both the subtraction process of the time saving state counter 134 and the setting process for the time saving result are executed at the end of the game round, but are not limited to this, and the time saving state counter 134 The subtraction process may be executed at the start of the game round, and the setting process for the time saving result may be executed at the end of the game round.

(15) In each of the above embodiments, both the subtraction process of the time saving state counter 134 and the subtraction process of the ceiling counter 131 are configured to be executed at the end of the game round, but it is not limited to this, and the time saving state counter 134 The subtraction process may be executed at the start of the game round, and the subtraction process of the ceiling counter 131 may be executed at the end of the game round.

(16) In each of the above embodiments, the time saving state is configured to end when the predetermined number of times of continuous time saving is completed, but the end lottery process executed in the time saving state is not limited to this. It may be configured such that the time saving state is ended when the ending lottery result is obtained. In this case, when the end lottery process is executed and the end lottery result is obtained, the process for terminating the time saving state is configured to be executed before the setting process for the time saving result and the subtraction process of the ceiling counter 131. good too. As a result, it is possible to start a new time saving state triggered by the time saving result or the ceiling time saving in the game cycle in which the time saving state has ended.

(17) In the first embodiment and the like, both the setting process for the time saving result and the subtraction process of the high probability state counter 133 are configured to be executed at the end of the game round, but it is not limited to this, The setting process for the time saving result may be executed at the start of the game round, and the subtraction process of the high probability state counter 133 may be executed at the end of the game round.

(18) In the first embodiment and the like, both the subtraction processing of the ceiling counter 131 and the subtraction processing of the high-probability state counter 133 are executed at the end of the game cycle, but the present invention is not limited to this. The subtraction process of the ceiling counter 131 may be executed at the start of the game round, and the subtraction process of the high-probability state counter 133 may be executed at the end of the game round.

(19) In each of the above-described embodiments, the value of the ceiling counter 131 is not decremented even if a game cycle is executed in the high probability state. The value of the ceiling counter 131 may be decremented when a game cycle is executed. In this case, the value of the ceiling counter 131 after subtracting 1 in the high probability state may become "0", but in this case, it is preferable to invalidate the occurrence of the ceiling time reduction and continue the high probability state.

(20) In the first embodiment and the like, the value of the ceiling counter 131 is subtracted when the game round is executed even in the time saving state, but it is not limited to this, and the time saving In the state, the value of the ceiling counter 131 may not be decremented even if the game round is executed.

(21) In each of the above embodiments, when a predetermined trigger occurs, the ceiling counters 131, 325 are set to a numerical value such as the number of fixed ceilings, and when a game cycle is executed, the value of the ceiling counters 131, 325 is set to 1. When the values of the ceiling counters 131 and 325 after the subtraction of 1 become "0", the time saving state is generated, but it is not limited to this, and when a predetermined trigger occurs. When the ceiling counters 131, 325 are cleared to "0" and a game cycle is executed, the values of the ceiling counters 131, 325 are incremented by 1, and the values of the ceiling counters 131, 325 after the addition of 1 are the fixed ceiling number of times. It is good also as a structure which a time saving state generate|occur|produces, when it becomes a value corresponding to generation|occurrence|production opportunities, such as.

(22) In each of the above-described embodiments, it is configured to determine whether or not to generate a time saving result in the success or failure determination process using the winning random number counter C1, but is not limited to this, and the winning random number counter C1 and It is good also as a structure which determines whether to generate a time saving result by another determination process using another random number counter. In this case, in the above-described third embodiment, it may be configured to determine whether or not to generate the time-saving result in the fall determination process using the fall random number counter C5.

(23) In each of the above embodiments, the type random number counter C2 is used to determine the type of time saving result, but it is not limited to this, and a random number counter different from the type random number counter C2 is used. It is good also as composition which determines a kind of a time saving result. In addition, instead of determining whether to generate a time-saving result in the success/failure determination process using the hit random number counter C1, the hit result in the success/failure determination process using the hit random number counter C1, the first time-saving result, the second It is good also as a structure which determines which of two time saving results and a deviation result is generated.

(24) In the first embodiment, when an information error occurs in the main RAM 84, the ceiling counter 131 is configured to set the same information corresponding to the fixed ceiling number of times as when the open/close execution mode occurs. The present invention is not limited to this, and a configuration may be adopted in which information corresponding to the number of times the ceiling is fixed is set less than the number of times the ceiling is fixed when the open/close execution mode occurs. Further, in the fourth embodiment, when the set value update process is executed when an information error occurs in the main RAM 84, the number of fixed ceiling times is the same as when the opening/closing execution mode occurs in the ceiling counter 131. Although the information is set, the present invention is not limited to this, and it is also possible to set information corresponding to the number of fixed ceiling times less than the number of fixed ceiling times when the open/close execution mode occurs.

(25) In each of the above embodiments, when the value of the ceiling counter 131 after subtracting 1 becomes "0", the time saving state triggered by the ceiling time saving occurs. Although it is configured to set information on the number of ceiling times, it is not limited to this, and an information abnormality occurs in a configuration in which a high probability state occurs when the value of the ceiling counter 131 after subtracting 1 becomes "0". The configuration may be such that the ceiling counter 131 is set to information on the number of ceilings when the information abnormality occurs, and the opening/closing execution mode is generated when the value of the ceiling counter 131 after subtracting 1 becomes "0". In this case, the ceiling counter 131 may be configured to set information on the number of ceilings.

(26) In the above-described first embodiment and the like, when the set value update process is executed, the ceiling counter 131 is configured not to set the information on the number of ceiling times. The counter 131 may be configured to set information on the number of peaks. As a result, it becomes possible to set information on the number of peaks in the ceiling counter 131 when the set value is changed.

(27) In each of the above embodiments, when the RAM clear processing is executed, the ceiling counters 131 and 325 are configured not to set the information on the ceiling count. 325 may be configured to set information on the number of peaks. As a result, when the main RAM 84 is cleared, the ceiling count information can be set in the ceiling counters 131 and 325 .

(28) In each of the above-described embodiments, when the operating power supply is started in a situation where the setting change operation, the setting confirmation operation and the RAM clear operation are not performed and the gaming machine body 12 is in the open state, Although the ceiling counters 131 and 325 are configured to set information corresponding to the number of fixed ceilings, the present invention is not limited to this, and in this situation, the configuration is such that information corresponding to a number of times greater than the number of fixed ceilings is set. Alternatively, in this situation, it may be configured to set information corresponding to the number of times less than the fixed ceiling number of times. Also, when the supply of operating power is started in a situation where the setting change operation, the setting confirmation operation and the RAM clear operation are not performed and the front door frame 14 is in the open state, the ceiling counters 131 and 325 It may be configured to set information corresponding to the fixed number of times, may be configured to set information corresponding to the number of times greater than the fixed number of times, or may be configured to set information corresponding to the number of times less than the fixed number of times. good too. In addition, when the supply of operating power is started in a state in which a dedicated operation button is operated, information corresponding to the number of fixed ceilings may be set in the ceiling counters 131 and 325, and the number of fixed ceilings is greater than the number of fixed ceilings. The configuration may be such that the information corresponding to the number of times is set, or the information corresponding to the number of times less than the fixed ceiling number of times is set.

(29) In the above-described first embodiment and the like, when the opening/closing execution mode is started, information corresponding to the number of ceilings is set in the ceiling counter 131 in the processing during special figure determination, but it is not limited to this. Instead, the ceiling counter 131 may be configured to set the information corresponding to the number of times of ceiling at the timing in the middle of the opening period, and the ceiling counter 131 at the timing just before the first round game in the open/close execution mode is started. It may be configured to set information corresponding to the ceiling count. Even in these cases, it is possible to set information corresponding to the number of times the ceiling is opened in the ceiling counter 131 when the opening/closing execution mode is started.

(30) In the sixth embodiment, when it is confirmed that the ending period has passed in the special call ending process, information corresponding to the ceiling count is set in the ceiling counter 131, but it is limited to this. Alternatively, information corresponding to the number of ceilings may be set in the ceiling counter 131 at the timing when the last round game in the opening/closing execution mode ends, and the number of ceilings may be set in the ceiling counter 131 at the timing immediately before the ending period starts. or information corresponding to the number of peaks is set in the ceiling counter 131 at a timing in the middle of the ending period.

(31) In the sixth embodiment, when it is specified that the open/close execution mode is triggered by the result of the low-frequency jackpot or the result of the first small hit in the power failure monitoring process, the Although the information corresponding to the number of special ceilings is set in the ceiling counter 131, it is not limited to this, and in the above situation, the information corresponding to the number of fixed ceilings may be set in the ceiling counter 131 In the above situation, information corresponding to the number of times less than the number of fixed ceilings may be set in the ceiling counter 131 . Further, in the blackout monitoring process, if the open/close execution mode is in progress, even if the trigger is not the result of the low-frequency big win or the result of the first small win, the ceiling counter 131 may be configured to set the information corresponding to the number of times of the ceiling.

(32) In the first embodiment and the like, when the value of the variable selection state counter 132 after subtracting 1 becomes "0", it becomes a reach high frequency state and the reach display is likely to occur. There is no limitation, and when the value of the variable selection state counter 132 after subtracting 1 becomes “0”, it may be configured to be in a state where an effect indicating that the ceiling time saving is approaching is performed. In this state, by selecting a variable display period different from the case where the reach display occurs and the case where the result is a complete loss, the sound and light side MPU 93 , it is possible to specify that it is a state in which an effect indicating that the ceiling time saving is approaching is to be executed.

(33) In the first embodiment and the like, when the ceiling counter 131 is set with the information on the number of ceilings triggered by the open/close execution mode, the information corresponding to the period switching reference number of times is set in the variable selection state counter 132, but the operation When the ceiling counter 131 is set with the information of the number of ceiling times in the main process when the power supply is started, the information corresponding to the period switching reference number of times is not set in the variation selection state counter 132. is not limited to, and in the case of setting the ceiling number information in the ceiling counter 131 in the main process when the supply of operating power is started, the variation selection state counter 132 is set to the information corresponding to the period switching reference number of times may be set. In other words, when setting the ceiling count information in the ceiling counter 131 , the variation selection state counter 132 may always be set with information corresponding to the period switching reference count. In this case, if there are a plurality of types of peak counts set in the ceiling counter 131, information corresponding to the count that is less than the peak count by a predetermined number is set in the variable selection state counter 132. , It is possible to set the reach high frequency state in the game round before the predetermined number of times when the ceiling time reduction occurs regardless of which ceiling number is set.

(34) In the first embodiment and the like, even if the value of the variable selection state counter 132 after subtracting 1 becomes "0", it is configured not to enter the reach high frequency state in the time saving state. However, even if it is a time saving state, it may be configured to be a reach high frequency state. When the reach frequency state is high in the time saving state, the probability that the reach display will occur in the game round that results in a loss will increase, and a long-term variable display period will be selected in the game round that will result in a big hit or the loss reach display. Although there is a high probability that the reach display will not occur, the shortest period on the special figure side will be selected in the game round as a result of the deviation.

(35) In the seventh embodiment, when the value of the number-of-games counter of the main side RAM 84 reaches the reference number of times, the ready-to-win display does not occur in game rounds in which no jackpot result occurs in any game state. Although it is configured to perform control, it is not limited to this, and even if the reference number of times is reached in the high probability state, the control may not be performed, and in the time saving state the reference number of times A configuration in which the control is not performed even if the control is performed may be adopted.

(36) In the above-described seventh embodiment, when the value of the number-of-games counter in the main RAM 84 reaches the reference number of times, control is executed to prevent the display of the ready-to-win status in game rounds in which no jackpot result occurs only in that game round. However, it is not limited to this, and the ready-to-win display occurs in game times in which no big win result occurs over a specific number of game times (for example, 3 times) from the game time that is the reference number of times. It is also possible to adopt a configuration in which control that does not perform is executed.

(37) In the seventh embodiment, every time the number of game rounds executed after the end of the opening/closing execution mode reaches the reference number, control is executed so that the ready-to-win display does not occur in the game rounds in which no jackpot result occurs. Although it is configured, it is not limited to this, and every time the number of game rounds executed after the opening/closing execution mode or the time saving state ends reaches the reference number, the reach display is displayed in the game rounds in which the jackpot results do not occur. Control that does not occur may be executed, and every time the number of game rounds executed after the end of the time saving state reaches the reference number, control is executed so that the reach display does not occur in game rounds in which the jackpot results do not occur. It is good also as a structure.

(38) In the eighth embodiment, even if either the time saving state triggered by the time saving result or the time saving state triggered by the ceiling time saving ends, the variable selection state counter 132 corresponds to the predetermined switching reference number of times. Information is set, and when the value of the variable selection state counter 132 after subtracting 1 becomes "0", the reach high frequency state is set, but the variable selection state counter 132 is not limited to this. is executed when the time saving state triggered by the time saving result ends, but is not executed when the time saving state triggered by the ceiling time saving ends It may be configured so that it is executed when the time saving state triggered by the ceiling time saving ends, but is not executed when the time saving state triggered by the time saving result ends.

(39) In the ninth embodiment, if a time saving result or ceiling time saving occurs in the time saving state, the remaining number of times of continuation in the current time saving state and the number of time saving continuations corresponding to the new time saving state are larger. The number of times is the remaining number of continuations in the subsequent time-saving state, but it is not limited to this, and the remaining number of continuations in the current time-saving state and the number of continuations of time-saving corresponding to the new time-saving state are smaller. The number of times on the side may be the remaining number of continuations in the subsequent time saving state, and regardless of the remaining number of continuations in the current time saving state, the number of time saving continuations corresponding to the new time saving state is the remaining number of times in the subsequent time saving state. It may be configured to be the number of continuations, and the number of times obtained by adding the number of continuations of time reduction corresponding to the new time reduction state to the remaining number of continuations in the current time reduction state is the remaining number of continuations in the subsequent time reduction state. good too.

(40) In the ninth embodiment, if a time saving result or a ceiling time saving occurs in the time saving state that is the first high-frequency support mode, the remaining number of times the time saving state continues is the first time saving continuation number or the second time saving continuation number Although it can be set to the first high-frequency support mode, the time saving state continues, but it is not limited to this, and the remaining number of times the time saving state continues is the first time saving continuation number or the second time saving continuation It is good also as a structure which becomes a time saving state which is a 2nd high frequency support mode while being able to be set to the number of times.

(41) In each of the above-described embodiments, if the time saving result is selected in the success/failure determination process in a high probability state or the like and the time saving result is invalidated, the non-reach out symbols in the symbol rows Z1 to Z3 of the symbol display device 41 Although the combination of is stop-displayed, it is not limited to this, and the combination of out-of-reach symbols may be stop-displayed. Even in this case, it becomes difficult for the player to recognize that the time saving result is invalid from the stop result in the symbol rows Z1 to Z3.

(42) In each of the above-described embodiments, when a time saving result is selected in the success/failure determination process in a high probability state or the like and the time saving result is invalidated, the non-reach out symbols in the symbol rows Z1 to Z3 of the symbol display device 41 Although the combination of is stopped and displayed, it is not limited to this, and even if the time saving result is invalidated, the symbol rows Z1 to Z3 are stopped in the same way as when the time saving result is not invalidated. As a result, the combination of the first time saving pattern or the combination of the second time saving pattern may be stop-displayed.

(43) In each of the above embodiments, if the time saving result is selected in the success or failure determination process in a high probability state etc. and the time saving result is invalidated, the first time saving result and the second time saving result , the display content of the state suggesting area 43 of the pattern display device 41 is different, but it is not limited to this, and when the time saving result is invalidated, the first time saving result and the second time saving result The display content of the state suggesting area 43 may be the same regardless of the result.

(44) In the tenth to twelfth embodiments, until the game round that triggered the value of the time saving state counter 134 to become "0" after subtracting 1 is over, the hold that triggered the start of the game round Although the time saving state does not end even if the game cycle triggered by the holding information on the side different from the information ends, it is not limited to this, and the time saving state counter 134 after subtracting 1 in the time saving state. If the specific game round that started before the start of the predetermined game round that triggered the value to become "0" continues, the specific game round will continue even if the predetermined game round ends. It is good also as a structure by which a time saving state is continued until it complete|finishes. If the predetermined game round is a game round triggered by the second hold information and the specific game round is a game round triggered by the first hold information, in the tenth embodiment or the twelfth embodiment, the When the long period on the special figure side is selected as the variable display period of the game round triggered by the 1 hold information, even after the predetermined game round triggered by the second hold information is completed. It is possible to repeatedly complete the game round triggered by the second hold information until the specific game round ends.

(45) In the tenth to twelfth embodiments, when the variable display period of the game round is determined by referring to the table group for short-term fluctuation in the game round triggered by the second hold information in the time saving state, Even if the result of the success/failure determination process of the game round is a time saving result, the variable display period is determined in the same manner as the game round of the losing result in which the ready-to-win display does not occur, but it is limited to this. However, when the variation display period of the game round is determined by referring to the table group for short-term variation in the game round triggered by the second reservation information, the result of the success/failure determination processing of the game round is time-saving. It is also possible to adopt a configuration in which the variable display period is determined in a manner different from that of a game round in which no ready-to-win display occurs in the case of a result. As a result, when a time saving result occurs in the time saving state, it is possible to set the determination mode of the variable display period of the game round to a corresponding mode.

(46) In the above-described first to fifth and seventh to twelfth embodiments, as a result of the success/failure determination process of the main side MPU 82, there is a small winning result in addition to the big winning result, the time saving result and the losing result. may be The small winning result is a win/loss result that triggers a shift to the opening/closing execution mode but does not trigger a shift to the win/fail lottery mode and the support mode. In addition, in the opening and closing execution mode triggered by the small winning result, the special electric winning device 32 is opened once or twice in a short period of time (for example, 1 second). The number of game balls entered is about 1 to 3. Even if the opening/closing execution mode is triggered by the result of the small win, it is preferable not to set the number of ceiling times to the ceiling counter 131 and the number of times to the variable selection state counter 132. - 特許庁As a result, it is possible to generate the ceiling time reduction and reach high frequency state based on the opening and closing execution mode triggered by the jackpot result.

(47) When the stop result of the state suggestion area 43 of the pattern display device 41 in the case of the time saving result in each of the above embodiments is set and not set when the second high frequency support mode is set with the time saving result as a trigger However, it is not limited to this, and the stop result of the state suggestion area 43 of the pattern display device 41 in the case of a time saving result is triggered by the time saving result. The configuration may be such that it does not change depending on whether it is set or not. For example, when the first time saving result is obtained, regardless of whether or not the second high-frequency support mode is set with the first time saving result as a trigger, blue is stopped and displayed in the state suggestion area 43, and the second time saving When the result is obtained, green may be stop-displayed in the state suggestion region 43 regardless of whether or not the second high-frequency support mode is set with the second time saving result as a trigger.

(48) In the thirteenth embodiment, unused areas of the main RAM 84 (address Y(r+3) to address Y(r+5), address Y(s+3) to address Y(s+5), address Y(t+3) to address Y(t+5)) is protected, but the unused areas (address Y(r+3) to address Y(r+5), address Y(s+3) to address Y(s+5), address Y (t+3) to address Y(t+5)) may not be protected. Even in this case, in the RAM clearing process (FIG. 118), an unused area (address Y (r+3) to address Y(r+5)), the processing configuration for specifying the address range to be executed can be simplified. Become.

(49) In the thirteenth embodiment, the storage area to be cleared in the information abnormality monitoring process (FIG. 119) is the work area 213 for non-specific control. Instead, the storage areas to be cleared may be the work area 213 for non-specific control and the stack area 214 for non-specific control. In this case, an unused area (address Y(t+3) to address Y(t+5)) exists between the work area 213 for non-specific control and the stack area 214 for non-specific control in the addresses of the main RAM 84. Therefore, before executing the clear processing, the protection is canceled by executing the protection cancellation processing similar to step S7501 of the RAM clear processing (FIG. 118) to clear the protect register 223c to "0". A series of addresses from addresses included in the work area 213 for non-specific control to addresses included in the stack area 214 for non-specific control, including unused areas (address Y(t+3) to address Y(t+5)) is specified to execute the clearing process, and after executing the clearing process, the protection setting process is executed in the same manner as in step S7506 of the RAM clearing process (FIG. 118) to set "1" to the protect register 223c. may be set again. As a result, in the information abnormality monitoring process (FIG. 119), it is possible to simplify the processing configuration when clearing not only the work area 213 for non-specific control but also the stack area 214 for non-specific control. Become.

(50) In the thirteenth embodiment, when the protection canceling process (step S7501) is executed in the RAM clearing process (FIG. 118), the work area 211 for specific control and the Unused area (address Y (r+3) to address Y (r+5)) provided between the stack area 212 of the main side RAM 84, the stack area 212 for specific control and the work area for non-specific control at the address of the main side RAM 84 213 and unused areas (address Y (s+3) to address Y (s+5)), and a work area 213 for non-specific control and a stack area 214 for non-specific control at the address of the main side RAM 84 Although the protection is canceled for all unused areas (address Y (t + 3) to address Y (t + 5)) provided between and Protection is released for unused areas (address Y(r+3) to address Y(r+5)) included in the address range, but other unused areas (address Y(s+3) to address Y( s+5) and address Y(t+3) to address Y(t+5)) may be configured so that protection is not released.

In this case, an unused area included in the address range to be cleared (address Y(r+3) to address Y(r+5)) and an unused area not included in the address range to be cleared ( Protect registers 223c are provided corresponding to addresses Y(s+3) to Y(s+5), addresses Y(t+3) to Y(t+5), respectively, and protect setting processing (step S4903) of the main processing (FIG. 81) Then, by setting "1" to all of these protect registers 223c, all unused areas (address Y(r+3) to address Y(r+5), address Y(s+3) to address Y(s+5), address Y (t+3) to address Y (t+5)) is protected, and in the RAM clear processing (FIG. 118), in the protection cancellation processing (step S7501), an unused area (address Y) included in the address range to be cleared is cleared. The protect register 223c corresponding to (r+3) to address Y(r+5)) is cleared to "0" to release protection, while an unused area (address Y(s+3)) not included in the address range to be cleared is cleared. ) to address Y(s+5) and address Y(t+3) to address Y(t+5)) may be configured so as not to release protection by not clearing to "0". In addition, in the protect setting process (step S7506) of the RAM clear process (FIG. 118) after the clear process is finished, the protect register 223c corresponding to the unused area (address Y(r+3) to address Y(r+5)) is set to " 1”, the protection is set again for the unused area (address Y(r+3) to address Y(r+5)). This eliminates the need to protect unused areas (address Y(s+3) to address Y(s+5), address Y(t+3) to address Y(t+5)) that are not included in the address range to be cleared. It is possible to prevent it from being released.

(51) In the thirteenth embodiment, in the RAM clear processing (FIG. 118), clear processing is executed for the work area 211 for specific control and the stack area 212 for specific control. and the stack area 214 for non-specific control are not cleared, but the present invention is not limited to this. The configuration may be such that the clearing process for the work area 213 for control is also executed, or the clearing process for the work area 213 for non-specific control and the stack area 214 for non-specific control is also executed. In a configuration in which the clearing process for the work area 213 for non-specific control is also executed, an unused space provided between the stack area 212 for specific control and the work area 213 for non-specific control at the address of the main RAM 84 area (address Y(s+3) to address Y(s+5)) is also included in the series of address ranges to be cleared. In addition, in a configuration in which the work area 213 for non-specific control and the stack area 214 for non-specific control are also cleared, the stack area 212 for specific control and the work area 214 for non-specific control are cleared at the address of the main RAM 84 . An unused area (address Y (s+3) to address Y (s+5)) provided between the area 213, and a work area 213 for non-specific control and a stack area for non-specific control at the address of the main side RAM 84 214 (address Y(t+3) to address Y(t+5)) are also included in the series of address ranges to be cleared.

(52) The setting display device 205 is provided in the thirteenth embodiment, and the setting values are displayed on the setting display device 205 in the setting confirmation process (FIG. 82) and the setting value update process (FIG. 83). However, the configuration is not limited to this, and the setting display device 205 may not be provided, and the setting values may be displayed on the pattern display device 41 . Further, the setting values may be displayed on the first to fourth notification display devices 201 to 204. FIG.

In the configuration in which the setting values are displayed on the first to fourth notification display devices 201 to 204, in the setting confirmation process (FIG. 82) and the setting value update process (FIG. 83), the first to fourth notification display devices The display devices 201 to 204 may alternately display the display of the set value and the display of the base value every predetermined period (for example, 5 seconds). As a result, even if the setting values are displayed on the first to fourth notification display devices 201 to 204 on which the base values are displayed, the first to fourth notification display devices 201 to 204 are confirmed. By doing so, it is possible to perform setting confirmation work or setting change work while confirming both the base value and the setting value.

In addition, in the configuration in which the setting values are displayed on the first to fourth notification display devices 201 to 204, when the setting confirmation process (FIG. 82) or the setting value update process (FIG. 83) is being executed, The setting values are displayed on the first to fourth notification display devices 201 to 204, and the processing to be executed among the setting confirmation processing (FIG. 82) and the setting value update processing (FIG. 83) is The configuration may be such that the display of the set value is ended when the setting is ended. In this case, in a configuration in which the display of the base value is started before the setting confirmation process (FIG. 82) and the setting value update process (FIG. 83) are started, the setting value The display of the base values of the types to be displayed on the first to fourth notification display devices 201 to 204 immediately before the display of is started is resumed on the first to fourth notification display devices 201 to 204. It may be configured to be Further, when restarting, the display of the base value of the type to be restarted may be performed over the display continuation period regardless of the remaining display continuation period at the timing when it was stopped last time.

In addition, in the configuration in which the display of the base value is started before the setting confirmation process (FIG. 82) and the setting value update process (FIG. 83) are started, the first to fourth notification display devices 201 to 204 When the setting value is displayed, the check display may be performed on the first to fourth notification display devices 201 to 204 before or after the display. In this case, when the display of the set value ends and the display of the base value resumes, or when the display for check ends and the display of the base value resumes, immediately before the display for check or the display of the set value starts Alternatively, the first to fourth notification display devices 201 to 204 may be configured to restart the display of the base values of the types to be displayed on the first to fourth notification display devices 201 to 204 . Further, when restarting, the display of the base value of the type to be restarted may be performed over the display continuation period regardless of the remaining display continuation period at the timing when it was stopped last time.

(53) In the thirteenth embodiment, the first to fourth notification display devices 201 to 204 are configured to display the base value, but the present invention is not limited to this. At least one of the following parameters may be calculated and displayed. The number of game balls entering the out port 24a is "K1", the number of game balls entering the general winning port 31 is "K2", and the number of game balls entering the special electric winning device 32 is "K2". Let "K3" be the number of game balls entering the first operating port 33, "K4" be the number of game balls entering the second operating hole 34, and "K5" be the number of game balls entering the second operating hole 34.
・First parameter: ratio of the total number of game balls entering the general winning hole 31 K2 / the total number of game balls ejected from the game area PA (K1 + K2 + K3 + K4 + K5) The ratio of the total number of game balls K3 / the total number of game balls discharged from the game area PA (K1 + K2 + K3 + K4 + K5) Third parameter: the total number of game balls K4 into the first operation port 33 / discharged from the game area PA Percentage of the total number of game balls (K1+K2+K3+K4+K5) that have been played Fourth parameter: the ratio of the total number of game balls entering the second operation port 34 K5 / the total number of game balls ejected from the game area PA (K1+K2+K3+K4+K5) · Fifth parameter: (K3 x "number of prize balls for winning to special electric prize winning device 32" + K5 x "number of prize balls for winning to second operation port 34") / total number of game balls paid out (K2 x "general The number of prize balls for winning to the winning opening 31" + K3 × "Number of prize balls for winning to the special electric winning device 32" + K4 x "Number of prize balls for winning to the first operation opening 33" + K5 x "Second operation opening 34 6th parameter: K3 x ``Number of prize balls for winning to special electric winning device 32''/Total number of game balls paid out (K2 x ``For winning to general winning port 31 "Number of prize balls" + K3 x "Number of prize balls for winning to special electric prize winning device 32" + K4 x "Number of prize balls for winning to first operation opening 33" + K5 x "Number of prize balls for winning to second operation opening 34" ”) ratio Seventh parameter: total number of game balls paid out in all gaming states (K2 x “number of prize balls for winning in general winning port 31” + K3 x “number of prize balls for winning in special electric winning device 32” + K4 x "number of prize balls for winning to first operating port 33" + K5 x "number of winning balls for winning to second operating port 34") / total number of game balls discharged from game area PA in all game states Percentage of (K1+K2+K3+K4+K5).

In the above configuration, for example, the first parameter is set as a notification target in the first to fourth notification display devices 201 to 204, and a plurality of first parameters at different timings are set to the first to fourth notification display devices 201 to 204. At 204, the display may be sequentially switched every time a predetermined display continuation period (for example, 5 seconds) elapses. In this case, when the setting confirmation process (FIG. 82) or the setting value update process (FIG. 83) is executed when the supply of operating power to the main MPU 82 is started, the setting confirmation process (FIG. 82 ), or in a situation where the set value update process (FIG. 83) is being executed, the first parameter may be sequentially switched and displayed on the first to fourth notification display devices 201 to 204 . In addition, when the display for checking is executed in the first to fourth notification display devices 201 to 204 in the situation where the display for sequential switching of the first parameter is performed, after the display for checking is finished, the The display of the first parameter of the type to be displayed immediately before the start of the check display may be restarted, and upon the restart, the measurement of the predetermined display continuation period may be newly started. .

Further, for example, the first to seventh parameters are set as the notification targets in the first to fourth notification display devices 201 to 204, and the first to seventh parameters are set to the first to fourth notification display devices 201 to 204. At 204, the display may be sequentially switched every time a predetermined display continuation period (for example, 5 seconds) elapses. In this case, when the setting confirmation process (FIG. 82) or the setting value update process (FIG. 83) is executed when the supply of operating power to the main MPU 82 is started, the setting confirmation process (FIG. 82 ), or in a situation in which the set value update process (FIG. 83) is being executed, the first to fourth information display devices 201 to 204 may sequentially switch and display the first to seventh parameters. In addition, when the display for checking is executed on the first to fourth notification display devices 201 to 204 in the situation where the display for switching the first to seventh parameters is performed sequentially, after the display for checking is completed, may be configured to restart the display of the type of parameter that was to be displayed immediately before the start of the check display, or may be configured to newly start measuring the predetermined display duration at the time of the restart. .

(54) In the thirteenth embodiment, the first to fourth notification display devices 201 to 204 and the setting display device 205 are provided in the main control device 71 mounted on the back of the game board 24. In order to confirm the fourth notification display devices 201 to 204 and the setting display device 205, the game machine main body 12 is unlocked from the outer frame 11, and the game machine main body 12 is rotated forward of the pachinko machine 10. Although the configuration is necessary, it is not limited to this, and the first to fourth notification display devices 201 to 204 may be provided on the front of the pachinko machine 10, and the setting display device 205 It may be configured to be provided on the front of the pachinko machine 10, or both the first to fourth notification display devices 201 to 204 and the setting display device 205 may be provided on the front of the pachinko machine 10.

In addition, in the configuration in which at least one of the first to fourth notification display devices 201 to 204 and the setting display device 205 is provided on the front of the pachinko machine 10, the display device provided on the front displays other information. It may be configured to be used also as a display device for displaying. For example, in the configuration in which the first to fourth notification display devices 201 to 204 are provided on the front of the pachinko machine 10, the first to fourth notification display devices 201 to 204 are used in the opening and closing execution mode in addition to the base value. A configuration may be adopted in which the number of game balls to be paid out is displayed. Further, in a configuration in which the setting display device 205 is provided in front of the pachinko machine 10, the configuration may be such that the setting display device 205 displays a display corresponding to an abnormality of the pachinko machine 10 in addition to the set values.

Also, the configuration in which the first to fourth notification display devices 201 to 204 and the setting display device 205 are provided on the front surface of the game machine may be applied to the slot machine. In this case, in addition to the base value, the number of virtual medals owned by the player and the number of game media given to the player when a minor winning combination is established are displayed on the first to fourth notification display devices 201 to 204. One of the numbers may be displayed, and the setting display device 205 may display the other of the number of virtual medals and the number of awarded game media in addition to the set value.

(55) In the thirteenth embodiment, after the check display ends, if the supply of operating power to the main MPU 82 is continued regardless of whether the gaming machine main body 12 is in the closed state or the open state, is configured to continue the display of the base value on the first to fourth notification display devices 201 to 204, but is not limited to this, and when the gaming machine main body 12 is in the open state, the first The configuration may be such that display of the base value is started on the display devices 201 to 204 for -fourth notification. In this case, when the gaming machine main body 12 is in the open state, the type of information displayed on the first to fourth notification display devices 201 to 204 immediately before the gaming machine main body 12 is closed last time is displayed. The display of the base value may be resumed on the first to fourth notification display devices 201 to 204. FIG. Further, at the time of this restart, regardless of the remaining display continuation period at the timing when the display of the base value of the restarted type was stopped last time, the display of the base value of the restarted type over the display continuation period is newly displayed. may be configured to be performed in

(56) In the thirteenth embodiment, in the non-specific control process in the main side MPU 82, it is monitored whether the detection of the game ball by each detection sensor 231a to 238a is due to abnormality or fraud. and a process for monitoring whether or not magnetism is detected by the magnetic detection sensor is executed, and a process corresponding to the monitoring result is executed in the specific control process in the main MPU 82. However, a configuration may be adopted in which a part of these monitoring processes is executed in the non-specific control process. In addition to or instead of these monitoring processes, in the non-specific control process, a process for monitoring whether or not the radio wave detection sensor has detected radio waves is executed, and in the specific control process A configuration may also be adopted in which a process corresponding to the monitoring result is executed by

(57) In the thirteenth embodiment, the special electric monitoring delay timer counter 211b for identifying whether or not the detection of the game ball in each of the detection sensors 231a to 238a is caused by an abnormality or fraud, Of the monitoring delay timer counter 211c and the first to eighth winning monitoring timer counters 213a to 213h, the special electric monitoring delay timer counter 211b and the general electric monitoring delay timer counter 211c are provided in the work area 211 for specific control, and the first Although the to eighth winning monitoring timer counters 213a to 213h are provided in the work area 213 for non-specific control, the present invention is not limited to this. For example, all of the timer counters 211b, 211c, 213a to 213h may be provided in the work area 211 for specific control. It may be configured to be provided in the work area 213 .

(58) In the above 14th embodiment, in the entering ball detection process (FIG. 121), after executing the winning ball counter setting process (step S7801), various flag clearing processes (step S7802) are executed, and the various flags are cleared. After executing the process (step S7802), by executing the process (step S7803 to step S7818) for monitoring whether or not the game ball is detected by each detection sensor 231a to 238a, the first The processing for setting various winning ball counters according to the monitoring results of the respective detection sensors 231a to 238a in the ball entry detection processing (FIG. 121) of the timer interrupt processing (FIG. 120) is performed the following processing times with respect to the predetermined processing times. 120) in the first timer interrupt process (Fig. 120), but it is not limited to this. A process for monitoring whether or not a game ball is detected by each of the detection sensors 231a to 238a is executed, and a process for setting various prize ball counters according to the monitoring result is executed, and subsequent fraud detection. When it is specified in the execution process (step S7911) that the detection of game balls by the detection sensors 231a to 238a is caused by an abnormality or fraud, the value of the prize ball counter corresponding to the detection sensors 231a to 238a may be decremented by 1. In this case, the value of the predetermined prize ball counter is incremented by 1 in the ball entry detection process (FIG. 121), and the value of the predetermined prize ball counter is "1" in the subsequent payout output process (step S7716). The value of the predetermined prize ball counter after the value of the predetermined prize ball counter is decremented by 1 and becomes "0" while the prize ball command corresponding thereto is output due to When it is specified that the detection of the game ball that triggered the addition of 1 was caused by an abnormality or fraud, the value of the predetermined prize ball counter is decremented by 1 and becomes "-1". The predetermined prize ball counter that has become "-1" is incremented by 1 when it is newly specified that the game ball is detected by the detection sensor corresponding to the predetermined prize ball counter. becomes "0". Therefore, the payout of game balls executed based on the detection of game balls caused by an abnormality or fraud is compensated for by not executing the payout of game balls based on the subsequent detection of normal game balls.

(59) In the thirteenth and fourteenth embodiments, when it is specified that the detection of the game ball in the first operation opening detection sensor 235a is caused by an abnormality or fraud, the first Although both the storage in the special figure reservation area 111 and the payout of one game ball are not executed, the configuration is not limited to this, and only one of them may be executed. Further, the configuration may be applied to the processing when it is specified that the detection of the game ball by the second operation opening detection sensor 236a is caused by an abnormality or fraud.

(60) In the thirteenth and fourteenth embodiments, the special electric detection sensor 234a detects a game ball in relation to the period measured by the special electric monitoring delay timer counter 211b provided in the work area 211 for specific control. is identified as being caused by fraud, and in relation to the period measured by the fourth winning monitoring timer counter 213e provided in the work area 213 for non-specific control, the game in the special electric detection sensor 234a Although it is configured such that the special electric winning abnormality flag 213o is set to "1" in any case where it is specified that the detection of the ball is caused by an abnormality, it is not limited to this. A different abnormality flag may be set to "1" depending on the case, and the processing corresponding to the abnormality flag set to "1" may be executed. For example, when it is specified that the detection of the game ball by the special electric detection sensor 234a is caused by illegality, a predetermined abnormality flag is set to "1", and "1" is set to the predetermined abnormality flag. In this case, not only is the value of the 15 prize ball counter not incremented by 1, but also the game stop flag is set to "1" to prevent the execution of the process for advancing the game. When it is specified that the detection of the game ball by the detection sensor 234a is caused by an abnormality, the specific abnormality flag is set to "1", and the specific abnormality flag is set to "1". Although the value of the 15-ball counter is not incremented by 1, the game stop flag is not set to "1", thereby preventing the execution of the process for progressing the game. This makes it possible to execute processing corresponding to each.

(61) In the thirteenth and fourteenth embodiments, the relationship with the period measured by the special electric monitoring delay timer counter 211b or the general electric monitoring delay timer counter 211c provided in the work area 211 for specific control Monitoring whether or not the detection of the game ball in the special electric detection sensor 234a or the second operation opening detection sensor 236a is due to fraud is executed in the non-specific control process, and the work area for non-specific control Monitoring whether the detection of game balls by the detection sensors 231a to 238a is caused by an abnormality in relation to the period measured by the first to eighth winning monitoring timer counters 213a to 213h provided in 213 is executed in non-specific control processing, but it is not limited to this, for example, the former monitoring is executed in non-specific control processing, and the latter monitoring is in specific control processing It may be configured to be executed.

(62) In the thirteenth embodiment, the commands stored in the command transmission buffer 223b are transmitted to the sound and light side MPU 93 by the command transmission circuit 224 that operates without using a program. Instead, it may be configured to be transmitted to the sound and light side MPU 93 under control using a program. In this case, the control may be configured to be executed as specific control processing, or may be configured to be executed as non-specific control processing.

(63) In the thirteenth embodiment, commands transmitted to the sound and light side MPU 93 are stored in the command transmission buffer 223b. may be stored in the command transmission buffer 223b.

(64) In the thirteenth embodiment, when it becomes necessary to transmit a command to the sound and light side MPU 93 in specific control processing, the command is stored in the command transmission buffer 223b, and non-specific control processing is performed. , the command is stored in the command transmission buffer 223b even when it becomes necessary to transmit a command to the sound and light side MPU 93, but the present invention is not limited to this. When it becomes necessary to transmit a command to the light side MPU 93, the command is stored in the work area 211 for specific control or the stack area 212 for specific control, and the command is sent to the sound and light side MPU 93 in non-specific control processing. may be stored in the work area 213 for non-specific control or the stack area 214 for non-specific control. In this case, the processing for transmitting the stored commands may be configured to be performed by the command transmission circuit 224, may be configured to be performed by specific control processing, or may be configured to be performed by non-specific control processing. may be

(65) In the thirteenth embodiment, the value of the second security counter 213k is added to the value of the first security counter 211a in the security processing (FIG. 101), and the value of the first security counter 211a after the addition corresponds to the value of the first security counter 211a. Although the number of security signals is externally output, the present invention is not limited to this. The number of security signals stored and corresponding to the total value stored in the register may be externally output.

(66) In the thirteenth embodiment, the processing for outputting the security signal is configured to be executed by specific control processing, but may be configured to be executed by non-specific control processing. In this case, the value of the first security counter 211a may be added to the value of the second security counter 213k, and the number of security signals corresponding to the value of the second security counter 213k after the addition may be externally output. In the non-specific control process, the total value of the first security counter 211a and the second security counter 213k is stored in the register of the main MPU 82, and the number corresponding to the total value stored in the register is stored. security signal may be output to the outside.

(67) In the thirteenth and fourteenth embodiments, when non-specific control processing is started in a situation where specific control processing is being executed, the information in the flag register of the main side MPU 82 is is saved in the stack area 212 for specific control, and the information of other registers is saved in the work area 213 for non-specific control in processing of non-specific control, but it is not limited to this. , flag register information may be saved in the work area 211 for specific control, and information in other registers may be saved in the stack area 214 for non-specific control.

Further, both the information of the flag register and the information of other registers may be saved in the work area 211 for specific control or the stack area 212 for specific control in the process of specific control. In this case, when the non-specific control process ends and the specific control process is returned to, information is returned to the flag register and other registers in the specific control process.

In addition, both the flag register information and the other register information may be saved in the work area 213 for non-specific control or the stack area 214 for non-specific control in non-specific control processing. In this case, when returning to the specific control processing after the non-specific control processing is completed, information is returned to the flag register and other registers in the non-specific control processing.

(68) In the thirteenth and fourteenth embodiments, the operation in which the setting key insertion portion 195 is turned on and the reset button 196 is pressed is the setting change operation, and the setting key insertion portion 195 is turned on. The setting confirmation operation is the operation in which the reset button 196 is pressed and the reset button 196 is not pressed. However, the setting change operation and the setting confirmation operation are not limited to this. In a configuration that can be switched to the OFF position, the first position, and the second position by a key, the setting change operation is to switch the setting key insertion portion 195 to the first position by using the setting key. It is also possible to adopt a configuration in which switching and arranging 195 to the second position by the setting key is the setting confirmation operation.

(69) Applying the characteristic configurations relating to the priority of execution targets, the selection of the variable display period of game rounds, the latency of the game state, and the execution of effects in the fifteenth to thirtieth embodiments to the time saving state. In addition to or instead of the configuration, it may be applied to a high probability state, may be applied to a game state in which the frequency of game balls to the second operation port 34 is lower than that in the normal game state, and may be applied to the normal game state. may be applied to a configuration in which there are states in which the probability of a big win is high and low.

(70) In the fifteenth to thirtieth embodiments, it may be configured such that the ceiling number of games can be completed in the middle of the first time saving state ST1. For example, when the number of continuations of the first time saving state ST1 is 600 times and the ceiling number of game times is 500 times, digestion of the ceiling number of game times can be completed in the middle of the first time saving state ST1. In this case, the first time-saving state ST1 is configured to have a higher priority of the execution target than the second time-saving state ST2, so that the game times of the ceiling number of times are completed in the middle of the first time-saving state ST1. Also, the consumption of the game times of the ceiling number of times is invalidated, and the first time saving state ST1 is continued. In addition, the second time saving state ST2 is configured to have a higher priority of the execution target than the first time saving state ST1, so that when the ceiling number of games is completed in the middle of the first time saving state ST1 , the first time saving state ST1 ends in the middle and the second time saving state ST2 is newly started.

In the above configuration, the first time saving state ST1 may be configured to continue until the next opening and closing execution mode occurs, and the first time saving state and the number of times of continuation are less than the number of times of continuation as the first time saving state ST1. It is good also as a structure with which the 1st time saving state more than the ceiling number of times exists.

Further, in the above configuration, when the ceiling number of game times is completed in the middle of the first time saving state ST1, the first time saving state ST1 may be continued and the second time saving state ST2 may be latent. In this case, when the game cycle is executed in the situation where the second time saving state ST2 is hidden, the remaining number of continuations of the second time saving state ST2 decreases, and the second time saving state ST2 is latent. In the situation, when the first time saving state ST1 ends, the latent second time saving state ST2 may be executed.

(71) In the 15th to 19th and 21st to 30th embodiments, when the ceiling number of game rounds is completed during the third time saving state ST3, the third time saving state ST3 is continued as it is. may be configured. In this case, the second time saving state ST2 is latent, and when the game round is executed in the situation where the second time saving state ST2 is latent, the remaining number of continuations of the second time saving state ST2 decreases, and the second time saving state ST2 is latent. When the third time saving state ST3 ends in a situation where the two time saving state ST2 is latent, the latent second time saving state ST2 may be executed.

(72) In the case of the time saving states ST1 to ST3, ST1 to ST3C, ST1 to ST43 in the fifteenth to thirtieth embodiments, the time saving states ST1 to ST3, ST1 to ST3C, ST1 to ST43 end The number of occurrences of necessary remaining update events (for example, the occurrence of game rounds or the occurrence of small winning results) may be notified by notification means such as the symbol display device 41 . As a result, when the player is in the time saving state ST1 to ST3, ST1 to ST3C, ST1 to ST43, the remaining update events necessary for the time saving state ST1 to ST3 to end (for example, the occurrence of the game round or the small winning result occurrence) can be played while grasping the number of occurrences.

(73) In the 19th to 29th embodiments, when the third time-saving state latents in the time-saving state, the corresponding display may be performed on the pattern display device 41. In this case, the remaining number of continuations of the latent third time saving state may be displayed on the symbol display device 41 . Thereby, it becomes possible for the player to grasp whether or not the latent third time saving state ends before the current time saving state ends. In addition, when a plurality of third time-reduction states are latent, the remaining number of continuations of all the third time-reduction states may be displayed on the pattern display device 41, and the current time-reduction state is terminated. In the case of the third time saving state to be executed in the case, the remaining number of times of continuation is displayed on the pattern display device 41, but the remaining number of times of continuation is not reported for the other third time saving state during hiding. Further, although the display that the third time saving state is latent is performed by the pattern display device 41, the remaining number of continuations of the third time saving state may not be notified to the player. In this case, it is possible for the player to predict whether or not the latent third time saving state will end before the current time saving state ends.

(74) In the 19th to 29th embodiments, when the third time saving state is latent in the situation of the time saving state, the remaining number of times of continuation even if the game round is executed in the third time saving state during the latent It is good also as composition which is not subtracted. In this case, the latent third time saving state does not end without becoming an execution target, so when the current time saving state to be executed ends, the latent third time saving state definitely occurs Along with that, the remaining number of continuations of the third time saving state becomes the initial number of continuations of the third time saving state.

(75) In the 19th to 25th embodiments, when the opening and closing execution mode occurs in the situation where the time saving states ST1 to ST3 and ST1 to ST3C are in place and the third time saving states ST3 and ST3A to ST3C are latent , not only the time saving states ST1 to ST3 and ST1 to ST3C that were the targets of execution, but also the latent third time saving states ST3 and ST3A to ST3C were forcibly terminated, but this is not the case. However, when the opening and closing execution mode occurs, the time saving states ST1 to ST3 and ST1 to ST3C that were the targets of execution are terminated, while the third time saving states ST3 and ST3A to ST3C during the latent state are maintained as they are. good too.

(76) When the opening and closing execution mode occurs like the 19th to 25th, not only the time saving states ST1 to ST3 and ST1 to ST3C that were the execution targets but also the latent third time saving states ST3 and ST3A to ST3C are forced. The configuration that is terminated physically may be applied to the configuration in which the third time saving states ST3A to ST3C in the 26th to 29th embodiments are latent.

(77) In the 21st to 29th embodiments, the third time-saving states ST3A to ST3C and ST41 to ST43 are configured to be terminated by executing the number of continuous game rounds, but the configuration is limited to this. However, at least some of the third time-saving states ST3A to ST3C and ST41 to ST43 may be configured to have a small hit result of a predetermined number of times, and at least some of the third time-saving states ST3A to ST3C, ST41 ~ ST43 may be configured to end condition is the occurrence of a predetermined number of electricity open state, at least part of the third time-saving state ST3A ~ ST3C, ST41 ~ ST43 end condition elapse of a predetermined time , and at least some of the third time-saving states ST3A to ST3C and ST41 to ST43 may be configured to be discharged from the game area PA as the end condition of the predetermined number of game balls.

(78) In the fifteenth to thirtieth embodiments, the number of times the second time saving state ST2 continues is greater than the number of times the first time saving state ST1 continues. The number of continuations of the one time reduction state ST1 and the number of continuations of the second time reduction state ST2 may be the same, and the number of continuations of the first time reduction state ST1 may be greater than the number of continuations of the second time reduction state ST2. good too.

(79) In the fifteenth to thirtieth embodiments, the first time saving state ST1, the second time saving state ST2 and the third time saving state ST3, ST3A to ST3C, ST41 to ST43 may all have the same support mode. . In this case, even if it is any time saving state, it is good also as the structure which becomes the low probability mode of the general pattern right or wrong judgment of the general pattern side.

(80) In the twenty-first to twenty-ninth embodiments, the third time-saving states ST3A to ST3C and ST41 to ST43 are not limited to three types, and may be two types or four types. , five types, or six or more types.

(81) In the 31st and 32nd embodiments, the malfunction prevention circuits 422 to 424 and 472, the external output circuit 431 and the selection circuits 473 to 475 are formed using only NAND circuits as logic circuits. It is good also as a structure with. As in the thirty-first embodiment, the NAND circuit has two input terminals and one output terminal. When the same signal is input to both of the two input terminals of the NAND circuit, when HI level signals are input to both of the two input terminals, a LOW level signal (the HI level signal is inverted) is output from the output terminal. When LOW level signals are input to both of the two input terminals, a HI level signal (a signal obtained by inverting the LOW level signal) is output from the output terminal. be. That is, the NAND circuit can function as a NOT circuit. In the thirty-first embodiment, instead of the 0th to 5th NOT circuits 451 to 456 included in the 0th to 2nd malfunction prevention circuits 422 to 424, six NAND circuits are provided, thereby providing NAND circuits as logic circuits. The 0th to 2nd malfunction prevention circuits 422 to 424 and the external output circuit 431 can be formed using only circuits. As a result, the electronic components mounted on the main control board 81 to form these circuits 422 to 424 and 431 can be limited to electronic components incorporating NAND circuits. Further, in the thirty-second embodiment, the first NOT circuit 512 and the second NOT circuit 513 included in the malfunction prevention circuit 472 and the third to third NOT circuits included in the first to third selection circuits 473 to 475 By providing 8 NAND circuits instead of the 8NOT circuits 514 to 519, the malfunction prevention circuit 472, the first to third selection circuits 473 to 475 and the external output circuit can be realized using only the NAND circuits as logic circuits. 431 can be formed. As a result, electronic components mounted on the main control board 81 to form these circuits 472, 473 to 475, 431 can be limited to electronic components incorporating NAND circuits. By reducing the types of electronic components mounted on main control board 81, the manufacturing efficiency of main control board 81 can be improved, and the manufacturing cost of main control board 81 can be reduced.

(82) In the thirty-first and thirty-second embodiments, an AND circuit may be provided in place of the combination of the NAND circuit and the NOT circuit. The AND circuit has two input terminals and one output terminal. The AND circuit outputs a HI level signal (a signal corresponding to "1") from its output terminal when a HI level signal (a signal corresponding to "1") is input to both of its two input terminals. At the same time, when a LOW level signal is input to at least one of the two input terminals, a LOW level signal is output from the output terminal. Therefore, an AND circuit can be used instead of a combination of a NAND circuit and a NOT circuit electrically connected to the output terminal of the NAND circuit. In the thirty-first embodiment, the combination of the 0th NAND circuit 441 and the third NOT circuit 454 of the 0th malfunction prevention circuit 422, the combination of the first NAND circuit 442 and the fourth NOT circuit 455 of the first malfunction prevention circuit 423, Instead of the combination of the second NAND circuit 443 and the fifth NOT circuit 456 of the second malfunction prevention circuit 424, three AND circuits are provided. As a result, the number of logic circuits included in the 0th to 2nd malfunction prevention circuits 422 to 424 can be reduced, and the configuration of the 0th to 2nd malfunction prevention circuits 422 to 424 can be simplified. be able to. Further, in the thirty-second embodiment, the combination of the 0th NAND circuit 491 and the second NOT circuit 513 of the malfunction prevention circuit 472, the combination of the first NAND circuit 492 and the third NOT circuit 514 of the first selection circuit 473, and the second Four AND circuits are provided instead of the combination of the second NAND circuit 493 and the fourth NOT circuit 515 of the selection circuit 474 and the combination of the third NAND circuit 494 and the fifth NOT circuit 516 of the third selection circuit 475 . As a result, the number of logic circuits included in the malfunction prevention circuit 472 and the first to third selection circuits 473 to 475 can be reduced, and the malfunction prevention circuit 472 and the first to third selection circuits 473 475 can be simplified.

(83) In the 31st and 32nd embodiments, the plurality of circuits formed by utilizing the plurality of circuits built in one electronic component are the malfunction prevention circuits 422 to 424, 472, the external output The present invention is not limited to the use circuit 431 and the selection circuits 473 to 475. For example, a plurality of buffer circuits may be formed using a plurality of operational amplifiers incorporated in one electronic component. Specifically, the main control board 81 is provided with a first buffer circuit and a second buffer circuit. Further, the main control board 81 is mounted with electronic components for a buffer that incorporate a first operational amplifier and a second operational amplifier. The first buffer circuit is formed using a first operational amplifier among the plurality of operational amplifiers built in the electronic buffer component, and the second buffer circuit is formed using the plurality of operational amplifiers built in the electronic buffer component. of the operational amplifiers, the second operational amplifier which is not included in the first buffer circuit. In this way, a plurality of circuits (first buffer circuit and second buffer circuit) using a plurality of operational amplifiers (first operational amplifier and second operational amplifier) built in one electronic component (buffer electronic component) formed. Thus, an electronic component for providing the operational amplifier included in the second buffer circuit on the main control board 81 is mounted as an electronic component separate from the electronic component for providing the operational amplifier included in the first buffer circuit on the main control board 81. The number of electronic components mounted on the main control board 81 can be reduced as compared with the configuration that does.

(84) In the above 31st and 32nd embodiments, a plurality of circuits are formed using a plurality of logic circuits built in one electronic component. Instead, for example, a configuration may be adopted in which a plurality of resistors built into one electronic component are used to form a plurality of circuits. Specifically, the main control board 81 has a first fraudulent reporting LED for reporting that fraudulent magnetism has been detected, and the main MPU 82 controls light emission of the first fraudulent reporting LED. A first fraud notification circuit, a second fraud notification LED for notifying that an unauthorized radio wave has been detected, and a main side MPU 82 for performing light emission control of the second fraud notification LED 2 tampering notification circuit is provided. The main control board 81 is mounted with an electronic component for tampering information that incorporates a first resistor and a second resistor having a predetermined resistance value. The first notification circuit is formed using a first resistor out of a plurality of resistors built into the fraud notification electronic component, and the second notification circuit is built into the fraud notification electronic component. It is formed using a second resistor that is not included in the first notification circuit among the plurality of resistors that are provided. In this way, a plurality of circuits (a first fraud reporting circuit and a second notification circuit) is formed. As a result, the electronic component for providing the resistor included in the second fraudulent reporting circuit as an electronic component separate from the electronic component for providing the resistor included in the first fraudulent reporting circuit on the main control substrate 81 is provided. The number of electronic components mounted on the main control board 81 can be reduced compared to a configuration in which electronic components are mounted.

Alternatively, a plurality of diodes built in one electronic component may be used to form a plurality of circuits. Specifically, the main control board 81 is provided with a first rectifier circuit and a second rectifier circuit. Further, the main control board 81 is mounted with electronic components for rectification containing first and second rectifier diodes. The first rectifier circuit is formed using a first rectifier diode among a plurality of rectifier diodes built into the rectifying electronic component, and the second rectifying circuit is built into the rectifying electronic component. It is formed using a second rectifier diode that is not included in the first rectifier circuit among the plurality of rectifier diodes that are provided. In this way, a plurality of rectifying diodes (first rectifying diode and second rectifying diode) built in one electronic component (rectifying electronic component) are used to form a plurality of circuits (first rectifying circuit and second rectifying diode). circuit) is formed. As a result, the electronic component for providing the rectifier diode included in the second rectifier circuit on the main control board 81 is separate from the electronic component for providing the rectifier diode included in the first rectifier circuit on the main control board 81. , the number of electronic components mounted on the main control board 81 can be reduced.

(85) In the thirty-second embodiment, the first to third selection signals output from the first to third terminals NS11 to NS13 are used to specify the driving section to be controlled. The configuration is not limited to this, and for example, a configuration in which the driving unit to be controlled is specified based on the address data output from the main MPU 82 may be employed. Specifically, the main control board 81 is provided with a first selection IC, a second selection IC and a third selection IC instead of the first selection circuit 473, the second selection circuit 474 and the third selection circuit 475. ing. A 1-byte address is set in each of the first selection IC, the second selection IC, and the third selection IC provided on the main control board 81 . The main MPU 82 has eight address output terminals for outputting address data for selecting any one of the first to third selection ICs. Address data output from the address output terminal and a signal output from the second NOT circuit 513 of the malfunction prevention circuit 472 are input to each of the first to third selection ICs. The 0th MOSFET 461 is electrically connected to the first selection IC instead of the first selection circuit 473, the first MOSFET 462 is electrically connected to the second selection IC instead of the second selection circuit 474, The second MOSFET 463 is electrically connected to the third selection IC instead of the third selection circuit 475 . When the first to third selection ICs are input with their own address data, the signals of the same voltage level as the signal input from the malfunction prevention circuit 472 are applied to the corresponding MOSFETs 461 to 463. Output. The main MPU 82 lowers the drive control signal output from the 0th terminal NS10 to LOW level, and outputs the address data of the selected IC corresponding to the drive unit to be controlled from the address output terminal. The first to third selection ICs apply to the gates of the corresponding MOSFETs 461 to 463 when the input drive control signal has fallen to the LOW level and the self address data is input. Raise the voltage to HI level. As a result, the drive unit 32b for the special electric, the drive unit 163 for the distribution entrance, or the drive unit 167 for switching can be driven. In addition to the drive control signal, the address data output from the main side MPU 82 is used to control the drive of the target drive section. Even if noise is generated to push up the voltage of the signal input to the selection IC, it is possible to prevent the occurrence of malfunction of the target driving unit due to the influence of the noise. In this configuration, the signal line extending from the 0th terminal NS10 in the middle of the signal path from the 0th terminal NS10 of the input/output port 471 to the first to third selection ICs branches toward each selection IC. By providing the malfunction prevention circuit 472 at the position on the 0th terminal NS10 side, the number of malfunction prevention circuits 472 for a plurality of selected ICs can be reduced to one. By reducing the number of malfunction prevention circuits 472, the number of electronic components mounted on the main control board 81 can be reduced, the manufacturing efficiency of the main control board 81 can be improved, and the manufacturing cost of the main control board 81 can be reduced. can be reduced. Note that the data capacity of the address data output from the main MPU 82 to specify the first to third selected ICs is arbitrary as long as it is equal to or greater than the data capacity (2 bits) capable of identifying the first to third selected ICs. is.

Also, the main MPU 82 may be electrically connected to the first to third selection ICs via an address decoder provided on the main control board 81 . The address decoder outputs a first select signal to the first select IC, a second select signal to the second select IC, and a third select signal to the third select IC. The address decoder raises a select signal corresponding to address data input from the main MPU 82 to the address decoder from LOW level to HI level. For example, the address decoder raises the first select signal to HI level when the address data of the first selected IC is input. When the signal input from the second NOT circuit 513 of the malfunction prevention circuit 472 is at HI level, the select signal corresponding to the selected IC rises to HI level. The voltage applied to the gates of MOSFETs 461-463 is raised to HI level. As a result, the drive unit 32b for the special electric, the drive unit 163 for the distribution entrance, or the drive unit 167 for switching can be driven. By using the address decoder in this manner, the wiring pattern around the first to third selection ICs can be simplified.

(86) In the 32nd embodiment, instead of the malfunction prevention circuit 472, during fraud detection (for example, during detection of fraudulent magnetism), the drive unit 32b for the special electric, the drive unit 163 for the distribution entrance, and the switching A circuit (operation prevention circuit during fraud detection) that prevents the device drive unit 167 from being driven may be provided. Specifically, a magnetic detection sensor for detecting illegal magnetism is provided on the back surface of the game board 24 . The magnetic detection sensor outputs a magnetic detection signal. The magnetism detection signal becomes HI level when no illegal magnetism is detected, and becomes LOW level when illegal magnetism is detected. The operation prevention circuit during fraud detection includes a first NOT circuit 512, a 0NAND circuit 491 and a second NOT circuit 513, like the malfunction prevention circuit 472 in the thirty-second embodiment. Instead of the reset signal, the magnetism detection signal is input to one of the two input terminals of the 0th NAND circuit 491 . As in the thirty-second embodiment, the other input terminal of the two input terminals is electrically connected to the 0th terminal NS10 of the input/output port 471 via the first NOT circuit 512, and the 0th NAND An output terminal of the circuit 491 is electrically connected to the first NAND circuit 492 of the first selection circuit 473 , the second NAND circuit 493 of the second selection circuit 474 , and the third NAND circuit 494 of the third selection circuit 475 . The main-side MPU 82 changes the drive control signal output from the 0th terminal NS10 to LOW level in a state in which no illegal magnetism is detected (a state in which the magnetism detection signal input to the 0th NAND circuit 491 is at HI level). In addition to falling, any one of the first to third selection signals output from the first to third terminals NS11 to NS13 is set to LOW level, so that the drive unit corresponding to the lowered selection signal ( The drive unit 32b for the special electric, the drive unit 163 for the distribution entrance, or the drive unit 167 for switching) can be brought into a driving state. On the other hand, when a state in which illegal magnetism is detected occurs, the magnetic detection signal input to the 0th NAND circuit 491 becomes LOW level, thereby maintaining the signal output from the 0th NAND circuit 491 at LOW level. can be done. As a result, during the detection of illegal magnetism, regardless of the states of the signals output from the 0th to 3rd terminals NS10 to NS13, the drive unit 32b for the special electric, the drive unit 163 for the distribution entrance, and the switching The driving section 167 can be put into a non-driving state. As already described in the thirty-second embodiment, the drive control signal and the first selection signal are used to execute the drive control of the target drive unit using the first to third selection signals in addition to the drive control signal. Even if noise is generated in any one of the three selection signals to push up the voltage level of the signal, it is possible to prevent malfunction of the target drive unit. In this configuration, in the signal path electrically connecting the 0th terminal NS10 of the input/output port 471 and the first to third NAND circuits 492 to 494 of the first to third selection circuits 473 to 475, from the 0th terminal NS10 By providing the malfunction prevention circuit 472 at a position closer to the 0th terminal NS10 than the position where the extending signal line branches toward the first to third NAND circuits 492 to 494, a plurality of (specifically, three) selection For the circuits 473 to 475, the number of operation prevention circuits during fraud detection can be suppressed to one. By reducing the number of operation prevention circuits during fraud detection, the number of electronic components mounted on the main control board 81 can be reduced, and the manufacturing efficiency of the main control board 81 can be improved. Cost can be reduced.

(87) In the 31st and 32nd embodiments, in addition to the power failure signal and the reset signal, the power failure monitoring board 85 also includes the drive unit 32b for the special electric, the drive unit 163 for the distribution entrance, and the switching drive unit 167 ( It may be configured to output a malfunction prevention signal that is used to prevent malfunction of the target drive unit). Specifically, malfunction prevention signals are input to the malfunction prevention circuits 422 to 424 and 472 instead of the reset signals. When the supply of operating power to the pachinko machine 10 is started, the power failure monitoring board 85 first raises the power failure signal from LOW level to HI level. Then, the malfunction prevention signal is raised from the LOW level to the HI level at the timing before the timing at which the reset signal is raised from the LOW level to the HI level. The timing at which the malfunction prevention signal is raised is the timing after the power supply voltage supplied to the main side MPU 82 exceeds the specified operating voltage (3V) and becomes stable. In this way, by configuring the malfunction prevention signal to rise before the reset signal, the main MPU 82 can be operated in a state in which the drive control of the target drive unit can be executed while preventing malfunction of the target drive unit. Action can be initiated. When the power failure monitor board 85 identifies the occurrence of a power failure, it first lowers the power failure signal from HI level to LOW level. Then, the malfunction prevention signal is lowered from HI level to LOW level at the timing before the timing of lowering the reset signal from HI level to LOW level. As a result, when the occurrence of a power failure is identified, the malfunction prevention signal can be lowered at an early stage to prevent malfunction of the target drive unit. In addition, the configuration in which the malfunction prevention signal is output from the power failure monitoring board 85 is not limited, and a configuration in which a signal output circuit for outputting the malfunction prevention signal to the main control board 81 is formed. . When the signal output circuit recognizes the rise of the power failure signal input to the signal output circuit, it can grasp the timing to raise the malfunction prevention signal, and when it recognizes the fall of the power failure signal, the malfunction is detected. It is possible to grasp the timing of dropping the prevention signal.

(88) In the 31st and 32nd embodiments, the target of control executed based on the drive control signal and reset signal input to the malfunction prevention circuits 422 to 424 and 472 is the drive unit 32b for the special train. , the distribution inlet drive unit 163 and the switching drive unit 167. Based on the drive control signal and the reset signal input to the malfunction prevention circuits 422 to 424 and 472, the first embodiment Drive control of the drive unit 34b (FIG. 6) for general electricity in the form, LED emission control in the first special figure display unit 37a (FIG. 3), LED emission control in the second special figure display unit 37b (FIG. 3) Alternatively, the configuration may be such that the light emission control of the LEDs in the normal diagram display section 38a (FIG. 3) is executed. Based on the drive control signal and the reset signal input to the malfunction prevention circuits 422 to 424, 472, the driving control of the drive unit 34b for general electricity is executed, so that the operating power to the pachinko machine 10 It is possible to prevent the drive unit 34b for general electric from malfunctioning during the period from when the start of supply is started to when the power supply voltage is stably supplied to the main MPU 82 . In addition, based on the drive control signal and the reset signal input to the malfunction prevention circuit 422 ~ 424, 472 1st special figure display section 37a, 2nd special figure display section 37b or normal figure display section 38a LED emission control is executed, from the start of supply of operating power to the pachinko machine 10 to the state in which the power supply voltage is stably supplied to the main side MPU 82, the first special figure It is possible to prevent incorrect information from being displayed on the display section 37a, the second special figure display section 37b, or the normal figure display section 38a.

(89) In the 31st and 32nd embodiments, the input/output ports 421 and 471, which are general-purpose input/output ports, may be replaced with output-only ports. When the supply of operating power to the pachinko machine 10 is started, a signal of a voltage level corresponding to the power supply voltage supplied to the main side MPU 82 is output from each terminal of the output port. Based on the drive control signal output from the terminal of the output-only port and the reset signal maintained at LOW level when the supply of operating power to the pachinko machine 10 is started, the drive unit 32b for the special electric, the distribution entrance A state in which power supply voltage is stably supplied to the main side MPU 82 after the start of supply of operating power to the pachinko machine 10 by configuring to perform drive control of the drive unit 163 and the switching drive unit 167. It is possible to prevent malfunction of these drive units 32b, 163, and 167 from occurring until it becomes.

(90) In the 31st and 32nd embodiments, instead of the reset signal output from the power failure monitor board 85, the drive permission signal output from the main side MPU 82 is input to the malfunction prevention circuits 422 to 424 and 472. It may be configured to be Specifically, the main MPU 82 has a drive permission output port, and the drive permission output port is provided with a drive permission output terminal for outputting a drive permission signal. The drive control signals output from the input/output ports 421 and 471 and the drive permission signal output from the drive permission output port are input to the malfunction prevention circuits 422 to 424 and 472 . Then, when the drive control signal input to the malfunction prevention circuits 422 to 424 and 472 is at the LOW level and the drive permission signal is at the HI level, the target drive section (the drive section 32b for the special train, the distribution entrance drive unit 163 and switching drive unit 167) are driven. As already described in the thirty-first embodiment, when the supply of operating power to the pachinko machine 10 is started, the reset signal output from the power failure monitoring board 85 to the main side MPU 82 rises from the LOW level to the HI level. The operation of the main side MPU 82 is thereby started. The main MPU 82 raises the drive permission signal output from the drive permission output port from the LOW level to the HI level in the power-on initialization process in step S101 of the main process (FIG. 13). As a result, the main MPU 82 causes the drive control signals output from the input/output ports 421 and 471 to fall from the HI level to the LOW level, thereby making it possible to bring the target drive section into a drive state. The state in which the drive permission signal is at HI level continues until the main MPU 82 identifies the occurrence of a power failure. The output terminal for drive permission is in a state of being grounded via a pull-down resistor when the supply of operating power to the pachinko machine 10 is started. Therefore, when the supply of operating power to the pachinko machine 10 is started, the drive permission signal output from the drive permission output terminal is maintained at the LOW level. As a result, regardless of the states of the drive control signals output from the input/output ports 421 and 471, it is possible to prevent malfunction of the target drive section from occurring. Also, even if noise is generated to push up the voltage of the drive enable signal, it is possible to prevent the drive enable signal from rising to the HI level due to the influence of the noise. In this way, even if the driving control of the target driving unit is executed based on the driving control signal and the driving permission signal input to the malfunction prevention circuits 422 to 424 and 472, the operation power supply to the pachinko machine 10 is started. It is possible to prevent the malfunction of the target driving unit from occurring at times.

(91) In the 31st and 32nd embodiments, the input/output ports 421 and 471 are provided on the main control board 81 instead of the configuration in which the input/output ports 421 and 471 are built in the main side MPU 82. Also, the main side MPU 82 and the input/output ports 421 and 471 may be electrically connected.

(92) In the 31st and 32nd embodiments, the NOT circuits 451 to 456 and 511 to 519 recognize that LOW level signals are input to the NOT circuits 451 to 456 and 511 to 519. Threshold voltage for recognizing that the signals input to the NOT circuits 451 to 456 and 511 to 519 have changed to the HI level under certain circumstances, and the NOT circuits 451 to 456 and 511 to 519 In order to recognize that the signals input to the NOT circuits 451 to 456 and 511 to 519 have changed to LOW level in a situation where it is recognized that HI level signals are input to 456 and 511 to 519. and the threshold voltage may be the same voltage (for example, 2.4 V).

(93) In the 31st and 32nd embodiments, the NAND circuits 441 to 445 and 491 to 496 recognize that LOW level signals are input to the NAND circuits 441 to 445 and 491 to 496. Threshold voltage for recognizing that the signals input to the NAND circuits 441 to 445 and 491 to 496 have changed to the HI level in the situation, and the NAND circuits 441 to 445 and 491 to 496 In order to recognize that the signals input to the NAND circuits 441 to 445 and 491 to 496 have changed to LOW level in the situation where it is recognized that HI level signals are input to 445 and 491 to 496. and the threshold voltage may be the same voltage (for example, 2.4 V).

(94) In the 31st and 32nd embodiments, "0" set in the 0th to 2nd output data areas DA0 to DA2 (0th to 3rd output data areas DA10 to DA13 in the 32nd embodiment) or "1" is stored for a predetermined time (specifically, 20 milliseconds) and then erased. The data "0" or "1" set in DA2 may be stored and held until the next data is set in the output data areas DA0 to DA2.

(95) In the thirty-first embodiment, the port setting circuit 428 sets the data set in the 0th to 2nd bits 426a to 426c in the output data register 426 to the 0th to 2nd output data areas of the input/output port 421. Instead of setting DA0 to DA2, the main MPU 82 outputs the data set in the 0th to 2nd bits 426a to 426c of the output data register 426 to the input/output port 421 each time timer interrupt processing is started. It may be configured to be set in the 0th to 2nd output data areas DA0 to DA2. The data set in the 0th to 2nd output data areas DA0 to DA2 disappears after being stored and held for a predetermined period of time (for example, 20 milliseconds). By setting the 0th to 2nd output data areas DA0 to DA2 in the processing, the data set in the 0th to 2nd output data areas DA0 to DA2 are not erased. settings can be made. As a result, data can be output from the 0th to 2nd terminals NS0 to NS2 in a manner corresponding to the data set in the 0th to 2nd bits 426a to 426c of the output data register 426. . In the thirty-second embodiment, the port setting circuit 479 sets the data set in the 0th to 3rd bits 477a to 477d in the output data register 477 to the 0th to 3rd output data areas DA10 of the input/output port 471. to DA13, the main MPU 82 transfers the data set in the 0th to 3rd bits 477a to 477d of the output data register 477 to the input/output port 471 each time the timer interrupt process is started. 0 to third output data areas DA10 to DA13 may be set. The data set in the 0th to 3rd output data areas DA10 to DA13 disappears after being stored and held for a predetermined period of time (for example, 20 milliseconds). By setting the 0th to 3rd output data areas DA10 to DA13 in the processing, the data set in the 0th to 3rd output data areas DA10 to DA13 are not lost. settings can be made. As a result, data can be output from the 0th to 3rd terminals NS10 to NS13 in a manner corresponding to the data set in the 0th to 3rd bits 477a to 477d of the output data register 477. .

(96) In the thirty-second embodiment, the first to third selection circuits 473 to 475 may be provided with malfunction prevention circuits in one-to-one correspondence. Specifically, a 0th malfunction prevention circuit is provided corresponding to the first selection circuit 473, a first malfunction prevention circuit is provided corresponding to the second selection circuit 474, and a third selection circuit is provided. A second malfunction prevention circuit is provided corresponding to the circuit 475 . The input/output port 471 is provided with fourth to sixth terminals instead of the 0th terminal NS10. The fourth terminal is used to output the 0th drive control signal for executing drive control of the special electric drive unit 32b, and the fifth terminal is used to execute drive control of the distribution entrance drive unit 163. , and the sixth terminal is used to output a second drive control signal for executing drive control of switching drive section 167 . The fourth terminal is electrically connected to one of the two input terminals of the first NAND circuit 492 of the first selection circuit 473 via the 0th malfunction prevention circuit, and the fifth terminal is the first malfunction prevention circuit. It is electrically connected to one of the two input terminals of the second NAND circuit 493 of the second selection circuit 474 through the prevention circuit, and the sixth terminal is connected to the third selection through the second malfunction prevention circuit. It is electrically connected to one of two input terminals of the third NAND circuit 494 of the circuit 474 . In this way, even if the malfunction prevention circuit is provided in one-to-one correspondence with each of the first to third selection circuits 473 to 475, the 0th to 2nd drive control signals and the reset signal And by using the first to third selection signals to execute drive control of the target drive unit (special electric drive unit 32b, distribution entrance drive unit 163 and switching drive unit 167), Even after the reset signal has risen to the HI level, if noise occurs in one of the 0th to 2nd drive control signals and the 1st to 3rd selection signals, the target drive section will be affected by the noise. It is possible to prevent malfunction from occurring.

(97) In the thirty-third to thirty-fifth and thirty-seventh embodiments, the processing for ending the input/output confirmation period is executed based on the detection of the game ball by the gate detection sensor 238a. Instead of or in addition to this, when the game ball is detected in both the special electric detection sensor 234a and the second operation opening detection sensor 236a (special winning device 151 in the 35th embodiment) during the input/output confirmation period A configuration may be adopted in which processing for ending the input/output confirmation period is executed. In the 33rd, 34th, and 37th embodiments, the special electric prize winning device 32 and the general electric accessory 34a are opened and closed during the input/output confirmation period. Based on the occurrence of both the detection of the game ball entering the special electric prize winning device 32 which is the object of the opening and closing operation and the detection of the game ball entering the second operation opening 34 which is the object of the opening and closing operation. By configuring the input/output confirmation period to end at the end of the input/output confirmation period, the input/output confirmation period can be terminated at the timing when the confirmation of the special electric prize winning device 32 and the second operation opening 34 ends. Further, in the thirty-fifth embodiment, the special electric winning device 32 and the special winning device 151 are opened and closed during the input/output confirmation period. Based on the occurrence of both the detection of the game ball entering the special electric winning device 32 which is the target of the opening/closing operation and the detection of the game ball entering the special winning device 151 which is the target of the opening/closing operation. By adopting a configuration in which the input/output confirmation period ends, the input/output confirmation period can be terminated at the timing when confirmation of the special electric prize winning device 32 and the special prize winning device 151 ends.

(98) In the 33rd to 40th embodiments, during the input/output confirmation period (the output confirmation period in the 40th embodiment), the firing operation device 28 rotates at a predetermined cycle (for example, a cycle of 4 milliseconds). A configuration may be employed in which a process for determining whether or not an operation has been detected is executed, and a process for ending the input/output confirmation period is executed when a rotation operation of the firing operation device 28 is detected. As a result, when the player rotates the firing operation device 28 in a state in which the input/output confirmation period has not ended, the input is made at the timing when the rotation operation of the firing operation device 28 is detected. The output confirmation period can be made to expire.

(99) In the 33rd to 40th embodiments, when the "setting change operation" is performed and when the "RAM clear operation" is performed at the start of the supply of operating power to the pachinko machine 10, the input Although the output confirmation period is set and the input/output confirmation process is executed (the configuration in which the port output confirmation process is executed in the 40th embodiment), the pachinko machine 10 is not limited to this. When the "setting change operation" is performed at the start of the supply of operating power to the pachinko machine 10, while the input/output confirmation process (port output confirmation process in the 40th embodiment) is executed, the operation to the pachinko machine 10 A configuration may be adopted in which the input/output confirmation process is not executed when the "RAM clearing operation" is performed at the start of power supply. Further, when the "RAM clearing process" is performed at the start of supply of operating power to the pachinko machine 10, the input/output confirmation process (port output confirmation process in the fortieth embodiment) is executed. A configuration may be adopted in which the input/output confirmation process is not executed when the “setting change operation” is performed at the start of supply of operating power to the machine 10 .

(100) In the 33rd to 40th embodiments, the input/output confirmation period is set and the input/output confirmation process is executed when the trigger for executing the RAM clear process occurs (in the 40th embodiment, the port In addition to or instead of this, when the supply of operating power to the pachinko machine 10 is started, the input/output confirmation process is performed based on the fact that the "setting confirmation operation" is performed. A configuration in which processing (port output confirmation processing in the fortieth embodiment) is executed may be employed. As a result, in the 33rd to 39th embodiments, in addition to confirming the current setting value of the pachinko machine 10, the operation of the special electric prize winning device 32 and the operation of the general electric accessory 34a (35th and 36th In the embodiment, operation confirmation of special winning device 151) and various ball entry parts (general winning port 31, special electric winning device 32, first operating port 33, second operating port 34, through gate 35, special winning device 151, V winning It is possible to make it possible to confirm the detection state of the game ball entering the device 531 and the out port 24a). Further, in the 40th embodiment, in addition to confirming the current set values of the pachinko machine 10, it is possible to confirm the operation of the special electric prize winning device 32 and the operation of the general electric accessory 34a. can be done.

(101) In the thirty-third to thirty-ninth embodiments, the input/output confirmation period is set based on the fact that the "setting confirmation operation" is performed at the start of the supply of operating power to the pachinko machine 10, and the input/output confirmation period is set. The input/output confirmation process may not be executed when the process is executed and the "setting confirmation operation" is not performed at the start of supply of operating power to the pachinko machine 10 . Further, in the fortieth embodiment, the port output confirmation process is executed based on the fact that the "setting confirmation operation" is performed at the start of the supply of the operating power to the pachinko machine 10, and the operating power to the pachinko machine 10 is A configuration may be adopted in which the port output confirmation process is not executed if the "setting confirmation operation" is not performed at the start of the supply of . As a result, in the 33rd to 39th embodiments, each time the "setting confirmation operation" is performed at the start of supply of operating power to the pachinko machine 10, together with confirmation of the current setting value of the pachinko machine 10, Checking the operation of the special electric prize winning device 32, checking the operation of the general electric accessory 34a (checking the operation of the special prize winning device 151 in the 35th and 36th embodiments) and various ball parts (general prize opening 31, special electric prize winning device 32, First operating port 33, second operating port 34, through gate 35, special winning device 151, V winning device 531, and out port 24a) so that it is possible to confirm the detection state of a game ball entered can do. Further, in the thirty-fifth and thirty-sixth embodiments, each time the "setting confirmation operation" is performed at the start of supply of operating power to the pachinko machine 10, the switch piece 536 is returned to the retracted position. can be done. Furthermore, in the 40th embodiment, every time the "setting confirmation operation" is performed at the start of supply of operating power to the pachinko machine 10, together with the confirmation of the current setting value of the pachinko machine 10, the special electric winning device 32 and the operation check of the universal electrical accessory 34a.

(102) In the thirty-third to thirty-ninth embodiments, the input/output confirmation process is executed based on the execution of the process of transmitting the normal return command in step SG616 of the main process (FIG. 246). If the normal return command transmission process (step SG616) is not performed in the supply start process (steps SG601 to SG627), the input/output confirmation process may not be performed. In the fortieth embodiment, the port output confirmation process is executed based on the execution of the process of transmitting the normal return command in step SL516 of the main process (FIG. 311). A configuration may be adopted in which the port output confirmation process is not executed when the process (step SL516) of transmitting the normal return command is not executed in the process (steps SL501 to step SL528). As a result, in the 33rd to 39th embodiments, when the supply of operating power to the pachinko machine 10 is started, the "setting change operation", the "setting confirmation operation" and the "RAM clear operation" are not performed. When no information abnormality occurs in the RAM 84, the operation check of the special electric prize winning device 32, the operation check of the general electric accessory 34a (in the 35th and 36th embodiments, the operation check of the special prize winning device 151) and various winning balls Detection of a game ball entering a part (general winning opening 31, special electric winning device 32, first operating opening 33, second operating opening 34, through gate 35, special winning apparatus 151, V winning apparatus 531, and out opening 24a) It is possible to make it possible to check the status. Further, in the thirty-fifth and thirty-sixth embodiments, when the supply of operating power to the pachinko machine 10 is started, the main side RAM 84 is further operated without performing the "setting change operation", the "setting confirmation operation" and the "RAM clear operation". The switching piece 536 can be returned to the retracted position when no information abnormality occurs. Furthermore, in the 40th embodiment, when the supply of operating power to the pachinko machine 10 is started, the information is further stored in the main side RAM 84 without performing the "setting change operation", the "setting confirmation operation" and the "RAM clear operation". If no abnormality occurs, it is possible to check the operation of the special electric prize winning device 32 and the operation of the general electric accessory 34a.

(103) In the thirty-third to thirty-ninth embodiments, when the supply of operating power to the pachinko machine 10 is started and the main process is started, the "setting change operation" is performed when the supply of the operating power is started. A process of transmitting a normal return command when a "setting confirmation operation" is performed at the start of the supply of the operating power, or when a "RAM clear operation" is performed at the start of the supply of the operating power. is executed, and when an information error occurs in the main RAM 84, the input/output confirmation period may be set and the input/output confirmation process may be executed. Further, in the fortieth embodiment, when the supply of operating power to the pachinko machine 10 is started and the main process is started, when the "setting change operation" is performed at the start of the supply of the operating power , when the "setting confirmation operation" is performed at the start of the supply of the operating power, and when the "RAM clear operation" is performed at the start of the supply of the operating power, the process of transmitting the normal return command is executed. The configuration may be such that the port output confirmation process is executed both when an information error occurs in the main-side RAM 84 . As a result, in the 33rd to 39th embodiments, every time the supply of operating power to the pachinko machine 10 is started and the main processing is started, the operation of the special electric prize winning device 32 is confirmed, and the operation of the general electric accessory 34a Confirmation (operation confirmation of special winning device 151 in the 35th and 36th embodiments) and various ball entry parts (general winning opening 31, special electric winning device 32, first operation opening 33, second operation opening 34, through gate 35 , the special winning device 151, the V winning device 531, and the detection state of the game ball entering the out port 24a) can be confirmed. In the thirty-fifth and thirty-sixth embodiments, each time the supply of operating power to the pachinko machine 10 is started and the main process is started, the switch piece 536 can be returned to the retracted position. can. Furthermore, in the 40th embodiment, every time the supply of operating power to the pachinko machine 10 is started and the main processing is started, the operation check of the special electric prize winning device 32 and the operation check of the general electric accessory 34a are performed. can be made possible.

(104) In the thirty-third to thirty-ninth embodiments, when the supply of operating power to the pachinko machine 10 is started and the main process is started, and the "setting change operation" is performed at the start of the supply of the operating power. , when the "setting confirmation operation" is performed at the start of the supply of the operating power, when the "RAM clear operation" is performed at the start of the supply of the operating power, and when the normal return command is transmitted. In this case, the input/output confirmation period is set and the input/output confirmation process is executed. Further, in the fortieth embodiment, when the supply of operating power to the pachinko machine 10 is started and the main process is started, and when the "setting change operation" is performed at the start of the supply of the operating power, the operating power When the "setting confirmation operation" is performed at the start of the supply of the operating power, when the "RAM clear operation" is performed at the start of the supply of the operating power, and when the process of transmitting the normal return command is executed The port output confirmation process may be executed and the port output confirmation process may not be executed when an information error occurs in the main RAM 84 . Thereby, in the 33rd to 39th embodiments, when the supply of operating power to the pachinko machine 10 is started and the main processing is started, and no information abnormality occurs in the main side RAM 84, the special electric winning device 32 operation check, operation check of the general electric accessory 34a (operation check of the special winning device 151 in the 35th and 36th embodiments) and various ball entry parts (general winning port 31, special electric winning device 32, first operation port 33, the second operating port 34, the through gate 35, the special winning device 151, the V winning device 531, and the detection state of the game ball entering the out port 24a) can be confirmed. . Further, in the thirty-fifth and thirty-sixth embodiments, when the supply of operating power to the pachinko machine 10 is started and the main processing is started, and no information abnormality occurs in the main side RAM 84, the switching piece 536 is retracted. Position return can be performed. Furthermore, in the 40th embodiment, when the supply of operating power to the pachinko machine 10 is started and the main processing is started, and no information abnormality occurs in the main side RAM 84, the operation of the special electric prize winning device 32 is confirmed. And it is possible to check the operation of the general electrical accessory 34a.

(105) In the 33rd to 40th embodiments, the same program as that of some subroutines among the plurality of subroutines called in the RAM clear process may be called in the set value update process. Specifically, in the RAM clear processing in step SG620 of the main processing (FIG. 246), first, an instruction "CALL RAM clear execution processing" is executed, whereby a subroutine program is called by the CALL instruction and RAM clear execution processing is executed. is executed. After that, a command "CALL set value display execution process" is executed, whereby a subroutine program is called by the CALL command and the set value display execution process is executed.

In the RAM clear execution process, the same processes as steps SG801 to SG807 of the RAM clear process (FIG. 248) already described in the thirty-third embodiment are executed. After that, in the setting value display execution process, a display indicating that the setting value is being confirmed is displayed on the notification display device 141 over a predetermined period (for example, two seconds), and the currently set setting value is displayed. is executed, and processing for terminating these displays is executed when the predetermined period has elapsed. As a result, when the RAM clearing process (step SG620) is executed in the main process (FIG. 246), the display device 141 is currently used for a predetermined period after the RAM clearing execution process is executed. It is possible to create a situation in which the target setting value can be confirmed.

In the set value update process executed in step SG618 of the main process (FIG. 246), first, a command "CALL RAM clear execution process" is executed. As a result, the same processing as steps SG801 to SG807 of the RAM clear processing (FIG. 248) already described in the thirty-third embodiment is executed. After that, the same processing as steps SG702 to SG714 of the set value update processing (FIG. 247) in the thirty-third embodiment is executed. In the set value update process (FIG. 247), the command "CALL set value display execution process" is not executed.

Thus, in the configuration in which the RAM clear execution process and the set value display execution process are executed in the RAM clear process in step SG620 of the main process (FIG. 246), the set value update process (step SG618) performs the RAM clear process ( At step SG620), the RAM clear execution process is executed using the same program as the subroutine program used to execute the RAM clear execution process. As a result, a program for executing RAM clear execution processing in set value update processing (step SG618) is stored as a separate program from the program for executing RAM clear execution processing in RAM clear processing (step SG620). Compared to the configuration, it is possible to reduce the data capacity of the program stored in advance in the main ROM 83 for executing the RAM clearing process (step SG620) and the setting value updating process (step SG618).

(106) In the 33rd to 40th embodiments, the configuration may be such that the same program as the program of some of the subroutines called in the RAM clear process is called in the setting confirmation process. Specifically, in the RAM clear processing in step SG620 of the main processing (FIG. 246), first, an instruction "CALL RAM clear execution processing" is executed, whereby a subroutine program is called by the CALL instruction and RAM clear execution processing is executed. is executed. After that, a command "CALL set value display start process" is executed, whereby a subroutine program is called by the CALL command and the set value display start process is executed. After that, a command "CALL during display of set values" is executed, whereby the program of the subroutine is called by the CALL command and the process during display of set values is executed.

In the RAM clear execution process, the same processes as steps SG801 to SG807 of the RAM clear process (FIG. 248) already described in the thirty-third embodiment are executed. After that, in the set value display start process, the interrupt permission is set first. As a result, timer interrupt processing (FIG. 249) is interrupted and started at a predetermined cycle. After that, a process for starting the display indicating that the setting value is being checked on the notification display device 141 and the display indicating the currently set setting value is executed. After that, the setting confirmation flag of the main side RAM 84 is set to "1". After that, in the set value display processing, a display indicating that the set value is being checked on the notification display device 141 and the currently set set value are displayed for a predetermined period (for example, two seconds). is executed, and processing for terminating these displays is executed when the predetermined period has elapsed. Specifically, the setting confirmation flag is cleared to "0". As a result, the state in which the display indicating that the current setting value of the pachinko machine 10 is being confirmed and the display indicating the current setting value of the pachinko machine 10 are performed on the notification display device 141 is canceled. be. After that, the interrupt prohibition is set.

With the above configuration, when the RAM clearing process (step SG620) is executed in the main process (FIG. 246), after the RAM clearing execution process is executed, the display device for notification 141 is set for a predetermined period of time. A situation can occur where the value can be ascertained.

In the setting confirmation process executed in step SG613 of the main process (FIG. 246), first, a command "CALL set value display start process" is executed, whereby a subroutine program is called by the CALL command to display the set values. Start processing is performed. The contents of the set value display start process are as described above. After that, by executing a command "CALL setting value checking process", a subroutine program is called by the CALL command and the setting value checking process is executed.

In the setting value checking process, a confirmation start command is transmitted to the sound and light side MPU 93, and it is determined whether or not the setting key insertion unit 143 has switched from the ON state to the OFF state using the setting key. When it is specified that the setting key insertion unit 143 has been switched from the ON state to the OFF state, the setting confirmation flag of the main side RAM 84 is cleared to "0". As a result, the display device 141 for notification cancels the display indicating that the current setting value of the pachinko machine 10 is being confirmed and the display indicating the current setting value of the pachinko machine 10. be. After that, the interrupt prohibition is set. After that, a return command at the time of confirmation is transmitted to the sound and light side MPU 93 .

In the setting confirmation process (step SG613), the command "CALL RAM clear execution process" and the command "CALL setting value display process" are not executed. Thus, in the configuration in which the RAM clear execution processing, the setting value display start processing, and the setting value display processing are executed in the RAM clear processing in step SG620 of the main processing (FIG. 246), the setting confirmation processing (step SG613) In the RAM clearing process (step SG620), the same program as the subroutine program used for executing the setting value display start process is used to execute the setting value display start process. As a result, the program for executing the setting value display start processing in the setting confirmation processing (step SG613) is separate from the program for executing the setting value display start processing in the RAM clear processing (step SG620). is stored, the data capacity of the program stored in advance in the main ROM 83 for executing the RAM clearing process (step SG620) and the setting confirmation process (step SG613) can be reduced. .

(107) In the 33rd to 40th embodiments, the same program as the program of some subroutines among the plurality of subroutines called in the setting value update process may be called in the setting confirmation process. Specifically, in the setting value updating process in step SG618 of the main process (FIG. 246), first, a command "CALL RAM clear process" is executed, whereby a subroutine program is called by the CALL command, and the RAM clear process is executed. executed. In this RAM clearing process, the same processes as steps SG801 to SG807 of the RAM clearing process (FIG. 248) already described in the thirty-third embodiment are executed. After that, a command "CALL set value display start process" is executed, whereby a subroutine program is called by the CALL command and the set value display start process is executed. After that, a command "CALL during display of set values" is executed, whereby the program of the subroutine is called by the CALL command and the process during display of set values is executed. After that, by executing the command "CALL set value update execution process", the program of the subroutine is called by the CALL command and the set value update execution process is executed.

In the set value display start processing, first, interrupt permission is set. As a result, timer interrupt processing (FIG. 249) is interrupted and started at a predetermined cycle. After that, a process for starting the display indicating that the setting value is being checked on the notification display device 141 and the display indicating the currently set setting value is executed. After that, the setting confirmation flag of the main side RAM 84 is set to "1". After that, in the set value display processing, a display indicating that the set value is being checked on the notification display device 141 and the currently set set value are displayed for a predetermined period (for example, two seconds). is executed, and processing for terminating these displays is executed when the predetermined period has elapsed. Specifically, the setting confirmation flag is cleared to "0". As a result, the state in which the display indicating that the current setting value of the pachinko machine 10 is being confirmed and the display indicating the current setting value of the pachinko machine 10 are performed on the notification display device 141 is canceled. be. After that, in the set value update execution process, the same processes as steps SG703 to SG714 of the set value update process (FIG. 247) already described in the thirty-third embodiment are executed.

With the above configuration, when the set value update process (step SG618) is executed in the main process (FIG. 246), the current status is displayed on the notification display device 141 for a predetermined period after the RAM clear process is executed. It is possible to create a situation in which the setting value set for the use object can be confirmed, and after the predetermined period has elapsed, the setting value for the use object can be changed.

In the setting confirmation process executed in step SG613 of the main process (FIG. 246), first, a command "CALL set value display start process" is executed, whereby a subroutine program is called by the CALL command to display the set values. Start processing is performed. The contents of the set value display start process are as described above. After that, by executing a command "CALL setting value checking process", a subroutine program is called by the CALL command and the setting value checking process is executed.

In the setting value checking process, a confirmation start command is transmitted to the sound and light side MPU 93, and it is determined whether or not the setting key insertion unit 143 has switched from the ON state to the OFF state using the setting key. When it is specified that the setting key insertion unit 143 has been switched from the ON state to the OFF state, the setting confirmation flag of the main side RAM 84 is cleared to "0". As a result, the state in which the display indicating that the current setting value of the pachinko machine 10 is being confirmed and the display indicating the current setting value of the pachinko machine 10 are performed on the notification display device 141 is canceled. be. After that, it sets interrupt prohibition and transmits a return command at the time of confirmation to the sound and light side MPU 93 . In the setting confirmation process (step SG613), the command "CALL RAM clear process", the command "CALL setting value display process", and the command "CALL setting value update execution process" are not executed.

Thus, in the configuration in which the RAM clearing process, the setting value display start process, the setting value display process, and the setting value update execution process are executed in the setting value update process executed in step SG618 of the main process (FIG. 246), In the setting confirmation process (step SG613), the same program as the subroutine program used to execute the setting value display start process in the setting value update process (step SG618) is used to start setting value display. Processing is performed. As a result, the program for executing the setting value display start processing in the setting confirmation processing (step SG613) is executed as a separate program from the program for executing the setting value display start processing in the setting value update processing (step SG618). To reduce the data capacity of the program stored in advance in the main ROM 83 in order to execute the setting value update process (step SG618) and the setting confirmation process (step SG613) compared to the configuration in which the program is stored. can be done.

(108) In the 33rd to 40th embodiments, the RAM clear processing is performed based on the operation by the manager of the game hall even in the situation where the supply of operating power to the main side MPU 82 is continued. It may be configured to be executed. When this configuration is applied to the thirty-third to thirty-ninth embodiments, the state in which the reset button 142 is pressed while the operating power is being supplied to the main MPU 82 is predetermined. (for example, 5 seconds), the power ON operation of the pachinko machine 10 is performed while the reset button 142 is being pressed, and the supply of operating power to the main MPU 82 is started. As in the case, the main process (FIG. 246) is executed, and an affirmative determination is made in step SG609 of the main process (FIG. 246). Therefore, when a negative determination is made in steps SG617 and SG619, the confirmation timer counters 523a and 581 are set by executing RAM clear processing in step SG620. Thereafter, after the start-up process is completed, the input/output confirmation period is started based on the values of the confirmation timer counters 523a and 581 being 1 or more. When this configuration is applied to the fortieth embodiment, the reset button 142 is pressed for a predetermined period ( For example, 5 seconds), the same as when the power ON operation of the pachinko machine 10 is performed in the state where the reset button 142 is pressed and the supply of operating power to the main side MPU 82 is started. Then, the main process (FIG. 311) is executed, and an affirmative determination is made at step SL509 of the main process (FIG. 311). Therefore, when a negative determination is made at steps SL517 and SL519, the port output confirmation process is executed at step SL522 after the RAM clear process (step SL520) and the process at step SL521 are executed. , the output confirmation period begins. In this way, even if the RAM clear processing is executed based on the operation by the administrator of the game hall in the situation where the supply of the operating power to the main side MPU 82 is continued, the input/output confirmation period or By adopting a configuration in which the output confirmation period is set, it is possible to prevent the game from being started in a state in which the game is not normally executed.

(109) In the 33rd to 40th embodiments, the normal pattern fluctuation period in the normal game state is 0.9 seconds, and the post-confirmation invalidation period is the normal pattern fluctuation period (0.9 seconds). , the minimum required period (for example, 0.2 seconds) when the launched game ball falls vertically downward to the height position where the entrance of the through gate 35 is provided on the game board 24 after leaving the guide rail. A configuration in which a period (for example, 1 second) shorter than the total period of is set. As a result, while it is possible to set a short period as the fluctuation period of the general pattern in the normal game state, the game ball enters the through gate 35 immediately after the end of the post-confirmation invalidation period, and the electric role open winning occurs. When the game ball wins the second operation opening 34 immediately after the opening period of the second operation opening 34 (the special winning device 151 in the 35th and 36th embodiments) based on winning the winning combination is started, Winning of the game ball is treated as valid, and the win/loss determination process and the payout of the game ball can be performed based on the winning of the game ball.

(110) In the above 33rd to 40th embodiments, when the execution trigger of the RAM clearing process occurs, the special electric prize winning device 32 and the general electric accessory 34a (in the 35th and 36th embodiments, the special electric prize winning device 32, Although the configuration is such that a process for making it possible to confirm whether or not the operation of the special winning device 151 and the V winning device 531) is in a normal state, the present invention is not limited to this, for example A configuration may be adopted in which, when an opportunity to execute the RAM clearing process occurs, a process for enabling confirmation as to whether or not the rendering movable object is in a state of normal operation is executed. Specifically, the game board 24 is provided with a jackpot notification movable object as a performance movable object. The jackpot informing movable object operates when notifying that a jackpot result has occurred in the win/fail determination process. When a big win result occurs, an effect of moving the big win informing movable object up and down is executed in the opening effect of the opening/closing execution mode. When an opportunity to execute the RAM clearing process occurs, there is a process for performing an operation of returning the big hit notification movable object to the initial position and an operation of moving up and down the big win notification movable object that has returned to the initial position. executed. During the input/output confirmation period, the manager of the game hall can confirm whether or not the jackpot notification movable object is in a state of normal operation by confirming the operation mode of the jackpot notification movable object. can.

(111) In the 33rd to 39th embodiments, a communication confirmation process is executed to enable confirmation that the communication between the main side MPU 82 and the payout control device 77 is normally performed in the operation confirmation process. It may be configured to be As already explained in the thirty-third embodiment, the operation confirmation process is a process executed at line number "1005" of the input/output confirmation process (FIG. 253). If the RAM clearing process is executed after the start of supply, it will be executed. If the RAM clearing process is not executed, it will not be executed. The payout control device 77 is provided with a RAM for temporarily storing information such as the number of unpaid prize balls. When the input/output confirmation period is started, a payout clear command is transmitted to the payout control device 77 in the communication confirmation process. When receiving the payout clear command, the payout control device 77 clears the information stored in the RAM of the payout control device 77 and transmits a payout cleared command to the main side MPU 82 . In the communication confirmation process, if the payout cleared flag provided in the main RAM 84 is not set to "1", it is determined whether or not the payout cleared command has been received, and if the payout cleared command has been received, sets "1" to the payout cleared flag. In the invalidation process executed in step SG905 of the timer interrupt process (FIG. 249) at the end of the input/output confirmation period, if the payout cleared flag is not set to "1", the symbol display device 41 and display light emission The unit 64 and the speaker unit 65 are configured to notify the payout communication error. Thereby, the manager of the game hall can grasp that the communication between the main side MPU 82 and the payout control device 77 is not normally performed. Therefore, it is possible to reduce the possibility that a game will be played in this state.

(112) In the 33rd to 40th embodiments, the state in which the light emission control of the special figure unit 37 and the normal figure unit 38 is performed normally in the operation confirmation process (port output confirmation process in the 40th embodiment) It is also possible to adopt a configuration in which a unit light emission confirmation process is executed to enable confirmation that the unit is. As already described in the thirty-third embodiment, the operation confirmation process is a process executed at line number "1005" of the input/output confirmation process (FIG. 253). If the RAM clearing process is executed after the start of supply, it will be executed. If the RAM clearing process is not executed, it will not be executed. In the unit light emission confirmation process, the first special figure display section 37a, the second special figure display section 37b, the first special figure reservation display section 37c, the second special figure reservation display section 37d, the general figure display section 38a and the general figure reservation display A process for alternately repeating the fully lit state and the extinguished state of the portion 38b is executed. Specifically, after a state in which a signal is output to turn these display portions 37a to 37d, 38a, and 38b into a fully lit state, the signal is output every time one second elapses. and a state in which the signal output is not performed. The fully lit state and the extinguished state are alternately repeated in the order of full lit state for 1 second→extinguished state for 1 second→...→ fully lit state for 1 second→extended state for 1 second. During the input/output confirmation period, the manager of the game hall checks the lighting modes of these display units 37a-37d, 38a, and 38b to ensure that the light emission control of these display units 37a-37d, 38a, and 38b is normal. It is possible to grasp whether or not it is in a state to be performed. As a result, it is possible to reduce the possibility that the game will be played in a state where the light emission control of these display portions 37a to 37d, 38a, and 38b is not normally performed. In addition, the manager of the game hall can input/output based on the fact that these display portions 37a to 37d, 38a, and 38b are switched between the all-on state (1 second) and the light-off state (1 second). It is possible to grasp that it is a confirmation period. As a result, it is possible to notify the manager of the game hall that it is the input/output confirmation period in a manner that is easy for him/her to notice, while the dedicated device for notifying that it is the input/output confirmation period is inadequate. .

(113) In the 33rd to 40th embodiments, the operation confirmation process (port output confirmation process in the 40th embodiment) confirms that the light emission control of the display light emitting unit 64 is normally performed. It is also possible to adopt a configuration in which display light emission confirmation processing that enables display light emission confirmation processing is executed. In the display light emission confirmation process, a process for alternately repeating the lighting state and the light extinction state of the display light emitting unit 64 is executed. Specifically, after a command for turning on the display light-emitting unit 64 is transmitted to the sound and light side MPU 93, a command for turning off the display light-emitting unit 64 and a display light-emitting unit are executed each time one second elapses. A command for turning on the unit 64 is alternately transmitted. In the display light emitting unit 64, the lighting state for one second and the non-lighting state for one second are alternately repeated. During the input/output confirmation period, the manager of the gaming hall can confirm whether or not the light emission control of the display light emitting unit 64 is normally performed by confirming the lighting mode of the display light emitting unit 64. . As a result, it is possible to reduce the possibility that the game will be played in a state where the light emission control of the display light emitting unit 64 is not normally performed. Also, the manager of the game hall grasps that it is the input/output confirmation period based on the fact that the display light emitting unit 64 is switched between the lighting state (1 second) and the light-off state (1 second). be able to. As a result, it is possible to notify the manager of the game hall that it is the input/output confirmation period in a manner that is easy for him/her to notice, while the dedicated device for notifying that it is the input/output confirmation period is inadequate. .

(114) In the thirty-third to thirty-ninth embodiments, the input/output confirmation process is executed after the operation power supply start process (steps SG601 to SG627) is completed in the main process (FIG. 246). However, the configuration is not limited to this, and a configuration may be employed in which the input/output confirmation process is executed before the process at the start of supply of operating power is completed. Specifically, in the main process (FIG. 246), if the setting value update process is executed in step SG618, or if the return command for clearing is transmitted in step SG621, the shutdown process will be performed in step SG627. At the timing prior to the timing of clearing the medium flag to "0", interrupt by the timer interrupt processing (Fig. 249) is permitted, and until the value of the confirmation timer counter 523a becomes "0", the timer interrupt processing (Fig. 249 ) is activated, the input/output confirmation process (FIG. 253) is executed. This allows the input/output confirmation period to end at a timing prior to the timing at which the residual processing is started in the main processing (FIG. 246).

(115) In the thirty-third to thirty-ninth embodiments, when the timer interrupt process is started during the input/output confirmation period, the input/output confirmation process is executed, but the power failure monitoring process is not executed. good. If the occurrence of a power failure is identified during the input/output confirmation period, the power failure processing is not executed, so the power failure flag in the main RAM 84 is not set to "1" and the supply of operating power is stopped. Thereafter, when the reset button 142 is not pressed and the setting key insertion portion 143 is not turned ON when the supply of operating power is restarted, the power failure flag is not set to "1". 246), the game stop flag is set to "1", and the abnormal command is transmitted (step SG625) and the abnormal external output process (step SG626) is performed. As already described in the thirty-third embodiment, in order to stop the anomaly notification, the pressing operation of the reset button 142 and the ON operation of the setting key insertion portion 143, that is, the "setting change operation" are performed when the supply of operating power is restarted. When the "setting change operation" is performed, the RAM clearing process is executed in step SG701 of the setting value update process (FIG. 247), and the process at the start of supply of operating power ends. Input/output confirmation processing is executed later. As a result, even if the supply of operating power is stopped in the middle of the input/output confirmation period, the special electric winning a prize can be obtained at the timing before the timing at which the game ready state in which the processing for proceeding with the game is executed is started. Checking the operation of the device 32, checking the operation of the general electric accessory 34a (confirming the operation of the special winning device 151 in the 35th and 36th embodiments), It is possible to secure an opportunity to check the detection state of the game ball entered into the operating port 33, the second operating port 34, the through gate 35, the special winning device 151, the V winning device 531, and the out port 24a).

(116) In the 33rd to 40th embodiments, in the input/output confirmation period (the output confirmation period in the 40th embodiment), the opening/closing control of the special electric prize winning device 32 and the opening/closing control of the general electric accessory 34a (the 35th, In the thirty-sixth embodiment, the opening and closing control of the special prize winning device 151) is performed in the same manner, but it is not limited to this. When the object 34a is in the closed state and the special electric prize winning device 32 is in the closed state, the general electric accessory 34a may be in the open state. As a result, in the 33rd to 39th embodiments, the manager of the game hall puts the game ball into various ball entry parts (general winning opening 31, special electric winning device 32, first operating opening 33, second operating opening 34, through When confirming whether or not the ball entry notification sound corresponding to the ball entry part is output from the speaker part 65 by maintaining the gate 35, the special prize winning device 151, the V prize winning device 531, and the out port 24a), Confirmation work can be facilitated.

(117) In the thirty-third to thirty-ninth embodiments, the processing for setting the invalidation period is executed at the end of the input/output confirmation period. A configuration may be adopted in which processing for setting the invalidation period is executed before the start and the invalidation period occurs after the input/output confirmation period ends. In the 33rd and 34th embodiments, after numerical information "2500" corresponding to the input/output confirmation period (10 seconds) is set in the confirmation timer counter 523a in step SG807 of the RAM clearing process (FIG. 248) , numerical value information "2750" corresponding to the total period (11 seconds) of the input/output confirmation period (10 seconds) and the post-confirmation invalidation period (1 second) is set in the post-confirmation invalidation timer counter 523e. The values of the confirmation timer counter 523a and post-confirmation invalidation timer counter 523e are updated by executing a process of subtracting 1 in the timer update process at line number "1002" of the input/output confirmation process (FIG. 253). . As a result, at the end of the input/output confirmation period, the numerical information corresponding to the post-confirmation invalidation period can be set in the post-confirmation invalidation timer counter 523e. In the thirty-third embodiment, when the game ball is detected by the gate detection sensor 238a at the timing before the timing when the elapsed time from the start of the input/output confirmation period reaches 10 seconds, the timer counter for confirmation is detected. After the process of clearing 523a to "0" is executed, the process of setting the post-confirmation invalidation timer counter 523e to numerical information "250" corresponding to the post-confirmation invalidation period (1 second) is executed. Further, in the thirty-fourth embodiment, when the game ball is detected by the gate detection sensor 238a at a timing before the timing when the elapsed time from the start of the input/output confirmation period reaches 9.5 seconds, After the process of setting numerical information "125" corresponding to 0.5 seconds to the confirmation timer counter 523a, the total period (1 5 seconds) is set in the invalidation timer counter 523e. As a result, even if the input/output confirmation period ends based on the detection of the game ball by the gate detection sensor 238a, the post-confirmation invalidation period (1 second) will occur after the input/output confirmation period ends. can be If the detection of the game ball occurs in the special electric detection sensor 234a or the second operation opening detection sensor 236a during the input/output confirmation period, regardless of the value of the post-confirmation invalidation timer counter 523e, during the input/output confirmation flag 524 is set to "1", the special electric winning confirmation flag 522d or the second operation winning confirmation flag 522f is set to "1". Therefore, even if the setting of the post-confirmation invalidation timer counter 523e is performed before the start of the input/output confirmation period, the special electric detection sensor 234a or the second operation opening detection sensor 236a detects the game ball during the input/output confirmation period. When it occurs, it is possible to output from the speaker unit 65 a special electric ball incoming notification sound or a second operation incoming ball notification sound.

In the thirty-fifth and thirty-sixth embodiments, after numerical information "2500" corresponding to the input/output confirmation period (10 seconds) is set in the confirmation timer counter 523a in step SG807 of the RAM clearing process (FIG. 248) , Numerical information "2750" corresponding to the total period (11 seconds) of the input/output confirmation period (10 seconds) and the post-confirmation invalidation period (1 second) is set in the post-confirmation invalidation timer counter 523e, Numerical information "2875" corresponding to the total period (11.5 seconds) of the input/output confirmation period (10 seconds) and the V winning invalidation period (1.5 seconds) is stored in the V winning invalidation timer counter 523h. set. The values of the confirmation timer counter 523a, the post-confirmation invalidation timer counter 523e, and the V winning invalidation timer counter 523h are updated by the timer update processing in line number "1002" of the input/output confirmation processing (Fig. 253). be. As a result, at the end of the input/output confirmation period, the numerical information corresponding to the post-confirmation invalidation period can be set in the post-confirmation invalidation timer counter 523e, and the invalidation period for V winning can be set. It is possible to set the numerical information to be set in the V winning invalidation timer counter 523h. In the thirty-fifth embodiment, when the game ball is detected by the gate detection sensor 238a at the timing before the timing when the elapsed time from the start of the input/output confirmation period reaches 10 seconds, the timer counter for confirmation After the process of clearing 523a to "0" is executed, the process of setting numerical information "250" corresponding to the post-confirmation invalidation period (1 second) to the post-confirmation invalidation timer counter 523e and the invalidation for V winning. A process of setting numerical information "375" corresponding to the period (1.5 seconds) to the V winning invalidation timer counter 523h is executed. As a result, even if the input/output confirmation period ends based on the detection of the game ball by the gate detection sensor 238a, the post-confirmation invalidation period (1 second) and the V prize are displayed after the end of the input/output confirmation period. An invalidation period (1.5 seconds) can be allowed to occur. If the game ball is detected by the special electric detection sensor 554 or the special winning detection sensor 556 during the input/output confirmation period, regardless of the value of the post-confirmation invalidation timer counter 523e, the input/output confirmation flag 524 is set to " "1" is set to the special electric winning confirmation flag 522d or the special winning confirmation flag 522i based on the setting of "1". Therefore, even if the setting of the post-confirmation invalidation timer counter 523e is performed before the start of the input/output confirmation period, the game ball is detected by the special electric detection sensor 554 or the special winning detection sensor 556 during the input/output confirmation period. When is generated, the speaker unit 65 can output a special incoming ball notification sound or a special incoming ball notification sound. Also, if the game ball is detected by the V winning detection sensor 539 or the count detection sensor 538 during the input/output confirmation period, regardless of the value of the V winning invalidation timer counter 523h, the input/output confirmation flag Based on the fact that the flag 524 is set to "1", the V winning confirmation flag 522k or the count winning confirmation flag 522j is set to "1". Therefore, even if the V winning invalidation timer counter 523h is set before the start of the input/output confirmation period, the number of game balls detected by the V winning detection sensor 539 or the count detection sensor 538 during the input/output confirmation period. When the detection occurs, it is possible to output a V-ball entry notification sound or a count-ball entry notification sound from the speaker unit 65 .

In the thirty-seventh to thirty-ninth embodiments, after the stack area for specific control is cleared in step SK102 of the RAM clearing process (FIG. 297), " 250" is set in the invalidation timer counter 523e after confirmation. Since timer update processing is not executed during the input/output confirmation period, the value of the post-confirmation invalidation timer counter 523e is not updated. As a result, the numerical information corresponding to the post-confirmation invalidation period can be set in the post-confirmation invalidation timer counter 523e at the end of the input/output confirmation period. If the game ball is detected in the special electric detection sensor 234a or the second operation opening detection sensor 236a during the input/output confirmation period, regardless of the value of the post-confirmation invalidation timer counter 523e, special electric incoming ball notification command or A process of storing the second operation entry notification command in the command transmission buffer 223b is executed. For this reason, even if the post-confirmation invalidation timer counter 523e is set before the start of the input/output confirmation period, the game ball in the special electric detection sensor 234a or the second operation opening detection sensor 236a during the input/output confirmation period is detected, the special electric incoming ball notification sound or the second operation incoming ball notification sound can be output from the speaker unit 65 .

(118) In the 33rd to 39th embodiments, during the input/output confirmation period, the ball entry portion (general winning opening 31, special electric winning device 32, first operating opening 33, second operating opening 34, through gate 35, special winning The device 151, V winning device 531, and out port 24a) are configured to execute ball entry notification by outputting a ball entry notification sound from the speaker unit 65 when detection of a game ball that has entered the game ball occurs. There is no limitation, and for example, the design display device 41 may be configured to perform notification of entering a ball. Specifically, during the input/output confirmation period, the symbol display device 41 displays a list of names corresponding to the ball entry section in red. The main side MPU 82 is a detection sensor that has detected a game ball (one of the detection sensors 231a to 238a in the 33rd, 34th, 37th to 39th embodiments, the detection sensor in the 35th and 36th embodiments 551 to 558) is transmitted to the sound and light side MPU 93, and the sound and light side MPU 93 changes the name of the ball entry section corresponding to the received ball notification command in the pattern display device 41 to black. The display control of the pattern display device 41 is performed so as to switch. For example, in the thirty-third embodiment, at the start of the input/output confirmation period, "general winning opening (left)", "general winning opening (middle)", "general winning opening (right)", "special electric winning device" , “first operating port”, “second operating port”, “through gate” and “out port” are displayed in red letters on the pattern display device 41 . After that, when a game ball is detected by any of the detection sensors 231a to 238a, the name corresponding to the detection sensor is switched to black. As a result, the name of the ball entry part corresponding to the detection sensor that has already detected the game ball and the name of the ball entry part that corresponds to the detection sensor that has not yet detected the game ball can be specified by the manager of the game hall. It can be grasped visually.

Further, for example, a configuration may be adopted in which the entering ball notification is executed by the entering ball notification light emitting unit provided on the game board 24 . Specifically, the game board 24 is provided with a ball entry notification light emitting portion corresponding to each ball entry portion. For example, in the 33rd embodiment, the game board 24 includes a first general ball entry notification light emitting unit, a second general ball entry notification light emitting unit, and a third general ball entry notification light emitting unit corresponding to the three general prize winning openings 31. A light-emitting unit is provided, and a special electric incoming ball notification light-emitting unit corresponding to the special electric winning device 32, a first operation incoming ball information light-emitting unit corresponding to the first operation opening 33, and a second operation opening corresponding to the second operation opening 34 A ball-entering notification light-emitting portion for operation, a ball-entering gate notification light-emitting portion corresponding to the through gate 35, and a ball-out notification light-emitting portion corresponding to the out port 24a are provided. At the start of the input/output confirmation period, these ball entry notification light emitting parts are in an off state, and the ball entry notification light emitting part corresponding to the detection sensor in which the game ball is detected during the input/output confirmation period is switched to the lighting state. be done. As a result, the manager of the gaming hall can visually grasp the ball entry part corresponding to the detection sensor that has already detected the game ball and the ball entry part corresponding to the detection sensor that has not yet detected the game ball. can be

(119) In the thirty-seventh to thirty-ninth embodiments, the SP buffer, the WA buffer, the BC buffer, the DE buffer, the HL buffer, the IX buffer, and the IY buffer are set in the work area 213 for non-specific control. However, the present invention is not limited to this, and a configuration in which these buffers are set in the work area 211 for specific control may be employed. In the thirty-seventh embodiment, when the RAM clearing process (FIG. 297(d)) corresponding to the specific control is being executed, the confirmation clearing process (step SK209) corresponding to the non-specific control is performed. If it is to be executed, after the information of the stack pointer, WA register, BC register, DE register, HL register, IX register, and IY register is saved in the corresponding buffer, confirmation clear processing is executed. be. After that, as a process corresponding to specific control, a process of restoring the saved information to the WA register, BC register, DE register, HL register, IX register, IY register and stack pointer is executed. In addition, from the state in which the timer interrupt processing (Fig. 300), which is the processing corresponding to the specific control, is executed, the incoming ball notification processing (step SK508) and the operation confirmation processing (step SK509), which are the processing corresponding to the non-specific control, are executed. ), after the information in the WA register, BC register, DE register, HL register, IX register and IY register is saved in the corresponding buffer, the incoming ball notification processing and operation confirmation processing is executed. After that, as a process corresponding to the specific control, a process of restoring the saved information to the WA register, BC register, DE register, HL register, IX register and IY register is executed. In the thirty-eighth embodiment, the input/output confirmation process (FIG. 306(a)), which is the process corresponding to the specific control, is changed from the state in which the entering ball notification process (step SL108) and the operation confirmation process (step SL109) are to be executed, the process of saving the information of the WA register, BC register, DE register, HL register, IX register and IY register to the corresponding buffer has been executed. Afterwards, the ball entry notification process and the operation confirmation process are executed. After that, as a process corresponding to the specific control, a process of restoring the saved information to the WA register, BC register, DE register, HL register, IX register and IY register is executed. In the thirty-ninth embodiment, when the input/output confirmation process (FIG. 308(a)), which is the process corresponding to the specific control, is executed, the incoming ball notification command transmission process, which is the process corresponding to the non-specific control, is changed. (Step SL308) and the operation confirmation process (Step SL309) are executed, the process of saving the information of the WA register, BC register, DE register, HL register, IX register and IY register to the corresponding buffer is executed. After that, the process for transmitting the entering notification command and the process for confirming the operation are executed. After that, as a process corresponding to the specific control, a process of restoring the saved information to the WA register, BC register, DE register, HL register, IX register and IY register is executed. In this way, by setting the SP buffer, WA buffer, BC buffer, DE buffer, HL buffer, IX buffer, and IY buffer in the work area 211 for specific control, these buffers can be used for non-specific control. The data capacity of the work area 213 for non-specific control can be reduced in the main RAM 84 compared to the configuration set in the work area 213 for the control.

(120) In the 33rd to 40th embodiments, the input/output confirmation process (the port output confirmation process in the 40th embodiment) is executed when the trigger for executing the RAM clear process occurs. , In addition to or instead of this, in the state where the display in the first special figure display unit 37a, the second special figure display unit 37b and the general figure display unit 38a is normally performed when the execution trigger of the RAM clear processing occurs A configuration may be adopted in which display unit confirmation processing is executed to enable confirmation of whether or not there is. When this configuration is applied to the thirty-third to thirty-ninth embodiments, in timer interrupt processing, display unit confirmation processing is executed based on the values of confirmation timer counters 523a and 581 being 1 or more. Further, when this configuration is applied to the fortieth embodiment, when the process of step SL518 of the main process (FIG. 311) is executed, or when the process of step SL521 is executed, the display unit confirmation process is executed. executed. In the display unit confirmation period (specifically 10 seconds) in which the display unit confirmation process is executed, all the segments in the first special figure display unit 37a, the second special figure display unit 37b and the normal figure display unit 38a are lit. State processing is executed. The manager of the game hall confirms whether or not all the segments of these display sections 37a, 37b, and 38a are in a lighting state after the start of the display section confirmation period. It can be ascertained whether there are any unlit segments at 38a.

In addition to or instead of the configuration in which the input/output confirmation process (the port output confirmation process in the fortieth embodiment) is executed when the RAM clear process execution trigger occurs, the RAM clear process execution trigger occurs. In this case, a configuration may be adopted in which sound output confirmation processing is executed to enable confirmation as to whether or not the sound output control of the speaker unit 65 is normally performed. When this configuration is applied to the thirty-third to thirty-ninth embodiments, in timer interrupt processing, sound output confirmation processing is executed based on the values of confirmation timer counters 523a and 581 being 1 or more. Further, when this configuration is applied to the fortieth embodiment, when the process of step SL518 of the main process (FIG. 311) is executed, or when the process of step SL521 is executed, the sound output confirmation process is executed. executed. At the start of the sound output confirmation period (specifically, 10 seconds) during which the sound output confirmation process is executed, a sound output confirmation start command is transmitted from the main side MPU 82 to the sound and light side MPU 93, and the sound output confirmation period ends. Sometimes, a sound output confirmation end command is transmitted from the main side MPU 82 to the sound and light side MPU 93 . The sound and light side MPU 93 executes sound output control of the speaker unit 65 so that a predetermined confirmation sound is continuously output when the sound output confirmation start command is received, and also performs sound output confirmation. The output of the confirmation sound is stopped when the end command is received. After the start of the sound output confirmation period, the manager of the game hall confirms whether or not the confirmation sound is continuously output from the speaker unit 65 without interruption, thereby confirming that the sound output from the speaker unit 65 is performed normally. It is possible to specify whether or not it is in a state where

In addition to or instead of the configuration in which the input/output confirmation process (the port output confirmation process in the fortieth embodiment) is executed when the RAM clear process execution trigger occurs, the RAM clear process execution trigger occurs. In this case, a configuration may be adopted in which light emission confirmation processing is executed to enable confirmation as to whether or not the light emission control of the display light emission unit 64 is in a normal state. When this configuration is applied to the 33rd to 39th embodiments, in the timer interrupt processing, light emission confirmation processing is executed based on the values of the confirmation timer counters 523a and 581 being 1 or more. Further, when this configuration is applied to the 40th embodiment, when the processing of step SL518 of the main processing (FIG. 311) is executed, or when the processing of step SL521 is executed, the light emission confirmation processing is executed. be done. At the start of the light emission confirmation period (specifically, 10 seconds) during which the light emission confirmation process is executed, a light emission confirmation start command is transmitted from the main MPU 82 to the sound and light side MPU 93, and at the end of the light emission confirmation period, the main MPU 82 sends a light emission confirmation end command to the sound and light side MPU 93. When receiving the light emission confirmation start command, the sound and light side MPU 93 controls the light emission of the display light emission unit 64 so that the display light emission unit 64 is in a state of emitting light until the light emission confirmation end command is received. The manager of the gaming hall can identify whether or not the light emission of the display light emitting unit 64 is normally performed by checking the light emission mode of the display light emitting unit 64 after the start of the light emission confirmation period.

(121) In the 33rd to 39th embodiments, an input/output confirmation period occurs during which the input/output confirmation process is executed when the RAM clear process is executed. Instead, each display portion 37a to 37d of the special figure unit 37 based on the fact that the lighting confirmation button provided on the main control board 81 is operated when the supply of operating power to the main side MPU 82 is started A configuration may be adopted in which a lighting confirmation process is executed to set the display portions 38a and 38b of the normal figure unit 38 to a full lighting state, and the input/output confirmation process is executed when the lighting confirmation process is executed. By adopting a configuration in which the input/output confirmation period is generated based on the operation of the lighting confirmation button, the input/output confirmation period can be generated regardless of whether or not the RAM clear processing is executed. As a result, even in a situation where the RAM clearing process is not executed, it is possible for the administrator of the game hall to operate the lighting confirmation button to generate the input/output confirmation period. The lighting confirmation process is executed before the timing at which the remaining processes (steps SG628 to SG631) are started in the main process (FIG. 246). In the lighting confirmation process, a signal output for making each display portion 37a to 37d of the special figure unit 37 and each display portion 38a, 38b of the normal figure unit 38 fully lit for 2 seconds is performed. The manager of the game hall confirms the lighting mode of these display sections 37a to 37d, 38a and 38b to determine whether or not the light emission control of these display sections 37a to 37d, 38a and 38b is normally performed. It is possible to grasp whether As a result, it is possible to reduce the possibility that the game will be played in a state where the light emission control is not performed normally. The main MPU 82 sets numerical information ("2500") corresponding to the input/output confirmation period (10 seconds) to the confirmation timer counter 523a at the end of the lighting confirmation process. As a result, when the lighting confirmation process is executed, the input/output confirmation process is executed after the value of the start-up processing flag is cleared to "0" in step SG627 of the main process (FIG. 246). An I/O confirmation period can occur.

(122) In the thirty-third to thirty-ninth embodiments, the input/output confirmation process is executed when the values of the confirmation timer counters 523a and 581 are equal to or greater than 1, but this is not the only option. Instead, input is based on the fact that the input/output confirmation setting flag provided in the main RAM 84 is set to "1" so that the main MPU 82 can grasp that the input/output confirmation period should be set. A configuration in which output confirmation processing is executed may be employed. In the thirty-third to thirty-sixth embodiments, after step SG806 of the RAM clearing process (FIG. 248) is executed, the input/output confirmation setting flag is set to "1". In the timer interrupt process (FIG. 249), it is determined whether or not the input/output confirmation setting flag is set to "1" at step SG903. input/output confirmation processing is executed. In the thirty-seventh embodiment, an input/output confirmation setting flag is provided in the work area 213 for non-specific control, and after the processing of step SK304 of the confirmation clear processing (FIG. 299) is executed, the input/output confirmation setting flag is set. A process of setting the flag to "1" is executed. In the timer interrupt process (FIG. 300), it is determined whether or not the input/output confirmation setting flag is set to "1" at step SK403. input/output confirmation processing is executed. In the thirty-eighth and thirty-ninth embodiments, an input/output confirmation setting flag is provided in the work area 211 for specific control, and after the processing of step SK902 of the RAM clear processing (FIG. 305(b)) is executed, A process of setting the input/output confirmation setting flag to "1" is executed. In the timer interrupt process (FIG. 300), it is determined whether or not the input/output confirmation setting flag is set to "1" at step SK403. input/output confirmation processing is executed. In the main RAM 84 (work area 213 for non-specific control in the thirty-seventh to thirty-ninth embodiments), numerical information "2500" corresponding to 10 seconds at the start of the input/output confirmation period is stored in the confirmation timer counter 523a. An input/output confirmation period set flag is provided so that the main MPU 82 can grasp that the setting process has been executed. In the input/output confirmation process, when the values of the confirmation timer counters 523a, 573, and 581 are "0", it is determined whether or not the input/output confirmation period set flag is set to "1". If the input/output confirmation period set flag is not set to "1", that is, if it is time to start the input/output confirmation period, numerical information corresponding to 10 seconds is set in the confirmation timer counter 523a. Processing is executed, and the input/output confirmation period set flag is set to "1". On the other hand, when the values of the confirmation timer counters 523a, 573, and 581 are "0" and the input/output confirmation period set flag is set to "1", that is, when the input/output confirmation period ends. In this case, the input/output confirmation setting flag is cleared to "0". As a result, the input/output confirmation process is not executed in the timer interrupt process, and the input/output confirmation period ends. In this way, when the timer interrupt process is executed, the input/output confirmation process is executed based on the fact that the input/output confirmation setting flag provided in the main RAM 84 is set to "1". Even in this case, the input/output confirmation period can be set when a trigger for executing the RAM clearing process occurs.

(123) In the thirty-seventh to thirty-ninth embodiments, as a process corresponding to the non-specific control, it is monitored whether the detection of the game ball by each of the detection sensors 231a to 238a is caused by an abnormality or fraud. and a process for monitoring whether or not magnetism is detected by the magnetic detection sensor. A configuration in which processing for monitoring is executed may be employed.

(124) In the thirty-third to thirty-sixth, thirty-eighth, and thirty-ninth embodiments, a subroutine corresponding to processing for updating various counters may be called in the input/output confirmation processing. In the thirty-third to thirty-sixth embodiments, in the input/output confirmation process, the subroutine program for executing the lottery random number update process in step SG906 of the timer interrupt process (FIG. 249), the random number initializing process in step SG907 Lottery random number update processing, random number initial value update processing, and variation counter update processing using a subroutine program for executing value update processing and a subroutine program for executing variation counter update processing in step SG908 is executed. In the thirty-eighth and thirty-ninth embodiments, in the input/output confirmation process, a subroutine program for executing the lottery random number update process in step SK406 of the timer interrupt process (FIG. 300), Lottery random number update processing, random number initial value update processing, and variation counter using a subroutine program for executing random number initial value update processing and a subroutine program for executing variation counter update processing in step SK408 Update processing is executed. As a result, while suppressing an increase in the data volume of the program for executing the input/output confirmation process, various counters can be updated even during the input/output confirmation period.

(125) In the 33rd to 39th embodiments, the input/output confirmation display device 521 is lit to inform that it is the input/output confirmation period. In addition, the design display device 41, the display light emitting unit 64, and the speaker unit 65 may be configured to notify that it is the input/output confirmation period. Specifically, the main MPU 82 transmits an input/output confirmation start command to the sound/light side MPU 93 at the start of the input/output confirmation period, and transmits an input/output confirmation end command to the sound/light side MPU 93 at the end of the input/output confirmation period. do. When the sound/light side MPU 93 receives the input/output confirmation start command, the notification that it is the input/output confirmation period is executed until the input/output confirmation end command is received. In the notification, the character display device 41 displays the characters "input/output checking". In addition, the display light emitting unit 64 emits light in a light emitting mode corresponding to the input/output confirmation period, and the sound corresponding to the input/output confirmation period is output from the speaker unit 65 . This makes it easier for the manager of the game hall to grasp that it is the input/output confirmation period.

(126) In the 33rd to 40th embodiments, the special electric prize is detected during the opening period of the special electric prize winning device 32 in the opening/closing execution mode (the normal round game execution period in the 35th and 36th embodiments) and during the special electric monitoring delay period. When a gaming ball is detected by the sensors 234a and 554, the special electric ball light emitting notification process is executed in the timer interrupt process, while the special electric detection sensors 234a and 554 are detected during the input/output confirmation period and the post-confirmation invalidation period. It may be configured so that the special electric ball light emission notification process is not executed when the game ball is detected in. In the special charge incoming light emission notification process, a special charge incoming light emission notification command is transmitted to the sound and light side MPU 93 . When the sound and light side MPU 93 receives the special electric ball light emission notification command, the display light emitting unit 64 emits light so that the special electric ball light emission notification for notifying that the game ball that has entered the special electric prize winning device 32 is detected is performed. Execute control. As a result, when a game ball enters the special electric prize winning device 32 and the special electric ball light emission notification is executed, it is confirmed that the game ball is paid out based on the occurrence of the game ball entering. It can be made comprehensible to the player.

(127) In the thirty-fifth and thirty-sixth embodiments, when the game ball is detected by the V winning detection sensor 539 during the execution period of the V winning round game and the V winning monitoring delay period, timer interrupt processing is performed. While the V winning light emission notification process is executed, the V winning light emission notification process is not executed when the game ball is detected by the V winning detection sensor 539 during the input/output confirmation period and the V winning invalidation period. good too. In the V winning light emission notification process, a V winning light emission notification command is transmitted to the sound and light side MPU 93 . When the sound and light side MPU 93 receives the V winning light emission notification command, it executes the light emission control of the display light emitting unit 64 so that the V winning light emission notification for notifying that the game ball has been detected by the V winning detection sensor 539 is performed. do. As a result, when a game ball enters the V winning device 531 and the V winning light emission notification is executed, the detection of the game ball occurs in the V winning detection sensor 539 and the detection of the game ball is invalidated. It can be made possible for the player to grasp what is not done.

(128) In the 33rd to 39th embodiments, whether or not the game ball is detected by the special electric detection sensor 234a (the special electric detection sensor 554 in the 35th and 36th embodiments) during the post-confirmation invalidation period. and the second operation opening detection sensor 236a (special winning detection sensor 556 in the 35th and 36th embodiments). good. Even in the case of such a configuration, when a game ball exists in the detection range of the special electric detection sensor 234a during the post-confirmation invalidation period, the game ball is paid out, the special electric ball notification sound is output, and the It is possible to prevent the special telephone incoming ball error notification from being performed. This prevents the payout of game balls, the output of the special electric incoming ball notification sound, and the special electric incoming ball error notification due to the game ball entering the special electric winning device 32 during the input/output confirmation period. can. In addition, even in the case of such a configuration, the winning judgment processing and the payout of the game ball are performed based on the fact that the game ball exists in the detection range of the second operation opening detection sensor 236a during the post-confirmation invalidation period. , it is possible to prevent the output of the second operation ball entry notification sound and the normal ball entry error notification from being performed. As a result, the game ball entered into the second operation hole 34 during the input/output confirmation period causes the win/fail judgment processing, the game ball payout, the output of the second operation ball entry notification sound, and the normal ball entry error notification. can be prevented from occurring.

(129) In the thirty-fifth and thirty-sixth embodiments, a process of determining whether or not a game ball has been detected by the V prize detection sensor 539 and a game ball by the count detection sensor 538 during the V prize invalidation period. A configuration may be adopted in which the process of determining whether or not the detection of has occurred is not executed. Even in this configuration, the payout of the game ball and the V It is possible to prevent the notification of winning ball entry error from being performed. As a result, it is possible to prevent the payout of the game ball and the ball entry error notification for the V winning due to the game ball entering the V winning device 531 during the input/output confirmation period.

(130) In the 33rd to 40th embodiments, winning is not impossible when the special electric winning device 32 is closed, but it may be more difficult to win than when it is open. In addition, in the 33rd, 34th, 37th to 40th embodiments, it is not impossible to win a prize to the second operation opening 34 when the general electrical accessory 34a is closed, but winning is less likely to occur than in the open state. It may be configured to be in a state. Furthermore, in the thirty-fifth and thirty-sixth embodiments, when the special winning device 151 is closed, it is not impossible to enter the special winning device 151. Alternatively, a ball may enter the V winning device 531 when the V winning device 531 is closed, but it may be more difficult for a ball to enter than when the V winning device 531 is open. In addition, in the state where the switching piece 536 is arranged at the retracted position, the game ball flowing into the branch passage 535 may flow down the discharge passage area 535b more easily than being guided to the V prize passage area 535c. Well, in the state where the switching piece 536 is arranged at the V guiding position, the game ball flowing into the branch passage 535 is more likely to be guided to the V prize passage area 535c than to flow down the discharge passage area 535b. good.

(131) The thirty-third to fortieth embodiments can also be applied to the following configurations. A first operation port 33, a second operation port 34, a special electric winning device 32 and a V winning device are provided in the game area PA where the game balls flow down. The V winning device is switched from the closed state to the open state based on the fact that the result of the win/fail determination process based on the winning to either the first operating port 33 or the second operating port 34 is a small winning result. Configuration. The V winning device is open for a predetermined period (for example, 29 seconds). When the V winning device is opened, the game ball flowing down the game area PA can enter the V winning device. The V winning device is provided with a V lever capable of switching between a guiding state of guiding the entered game ball to the V winning area and a non-guiding state of guiding the entered game ball to the discharge area. When a game ball that has entered the V winning device and is guided to the V winning area is detected, the operation shifts to an opening/closing execution mode in which the opening/closing operation of the special electric winning device 32 is performed. The switching control of the V lever is started at the timing when the V winning device is opened, and is finished at the timing when the V winning device is closed. In a situation where the V winning device is in an open state, the switching control of the V lever is divided into an induced state over a predetermined induction period (for example, 5 seconds) and a non-induced state over a predetermined non-induction period (for example, 5 seconds). are alternately repeated. During the input/output confirmation period, the opening/closing operation of the V winning device and the switching control of the V lever are executed. The manager of the game hall confirms whether or not the opening and closing operation of the V winning device is performed during the input/output confirmation period, thereby grasping whether or not the opening and closing operation of the V winning device is normally performed. can do. In the input/output confirmation period, when a game ball guided to the V winning area is detected, a V winning notification sound is output from the speaker unit 65, and when a game ball guided to the ejection area is detected. Then, the speaker unit 65 outputs an ejection notification sound. The manager of the game hall controls the switching of the V lever by setting a plurality of game balls in the V winning device during the input/output confirmation period and confirming that both the V winning notification sound and the ejection notification sound are output. It can be confirmed that the operation is performed normally.

(132) In each of the above-described embodiments, the set value that determines the degree of advantage per unit time is not limited to the configuration in which the set value is provided in six stages, and the set value is provided in seven stages or more. Alternatively, it may be configured to be provided in any one of 1 to 5 stages. In the configuration in which the set value is provided in one stage, when the supply of operating power to the main MPU 82 is started and the setting change operation is performed, the setting reference area of the main side RAM 84 has A process of setting "1" is executed. As a result, the current setting value can be set to "setting 1".

(133) Instead of the display control device 101 being controlled by the sound emission control device 91 based on the command output from the main control device 71, the display control device 101 is controlled based on the command output from the main control device 71. The device 101 may be configured to control the sound emission control device 91 . Further, instead of the configuration in which the sound emission control device 91 and the display control device 101 are provided separately, a configuration in which both control devices are provided as one control device may be used, and the function of one of these two control devices may be may be integrated into the main controller 71 , or both functions of both controllers may be integrated into the main controller 71 . Also, the configuration of the command output from the main control device 71 to the sound emission control device 91 and the configuration of the command output from the sound emission control device 91 to the display control device 101 are arbitrary.

(134) The device that executes the game round effect is not limited to the pattern display device 41, and is configured to execute the game round effect by operating a movable decorative member. Alternatively, a configuration may be employed in which an effect for a game round is executed by lighting a predetermined light-emitting portion, or a configuration may be employed in which an effect for a game round is executed by combining all or part of the above-described modes. good.

(135) Other types of pachinko machines different from the above embodiment, such as a pachinko machine in which an electric accessory opens a predetermined number of times when a game ball enters a specific area of a special device, or a game ball in a specific area of a special device. The present invention can also be applied to a pachinko machine in which a right is generated and a jackpot is awarded upon entry, a pachinko machine equipped with other accessories, an arrangement ball machine, a mammoth ball, and the like.

In addition, a non-ball game machine, for example, equipped with a plurality of reels on which a plurality of types of patterns are attached in the circumferential direction, the rotation of the reels is started by inserting medals and operating the start lever, and the stop switch is operated. or after the reels are stopped by the lapse of a predetermined time, if a specific pattern or a combination of specific patterns is formed on an effective line that can be visually recognized from the display window, a privilege such as payout of medals is given to the player. The present invention can also be applied to slot machines.

In addition, the game machine main body which is openably and closably supported by the outer frame is provided with a storage portion and a take-in device, and after a predetermined number of game balls stored in the storage portion are taken in by the take-in device, the start lever is operated. The present invention can also be applied to a gaming machine that combines a pachinko machine and a slot machine, in which the reels start rotating.

(136) The characteristic configurations of the first to 40th embodiments may be applied to each other in arbitrary combinations. For example, the characteristic configuration of the first embodiment, the characteristic configuration of the seventh embodiment, the characteristic configuration of the tenth embodiment, and the characteristic configuration of the fifteenth embodiment. The characteristic configuration of the sixth embodiment, the characteristic configuration of the eighth embodiment, the characteristic configuration of the ninth embodiment, and the nineteenth embodiment may be combined. The characteristic configuration of the embodiment may be combined, the characteristic configuration of the first embodiment, the characteristic configuration of the eighth embodiment, and the characteristic configuration of the twenty-first embodiment. The characteristic configuration of the first embodiment, the characteristic configuration of the fourteenth embodiment, and the characteristic configuration of the twenty-third embodiment may be combined. Alternatively, the characteristic configuration of the first embodiment, the characteristic configuration of the thirteenth embodiment, and the characteristic configuration of the twenty-sixth embodiment may be combined. The characteristic configuration of the embodiment, the characteristic configuration of the fourteenth embodiment, and the characteristic configuration of the twenty-eighth embodiment may be combined, or the characteristic configuration of the first embodiment. configuration, the characteristic configuration of the thirteenth embodiment, and the characteristic configuration of the twenty-ninth embodiment may be combined, and the characteristic configuration of the first embodiment and the characteristic configuration of the above-described first The characteristic configuration of the fourteenth embodiment and the characteristic configuration of the thirtieth embodiment may be combined. In addition, any combination of the configurations of the different modes may be applied to the configuration in which the characteristic configurations of the first to 40th embodiments are applied in a predetermined combination.

<Invention group extracted from the above embodiment>
Hereinafter, the features of the group of inventions extracted from the above-described embodiments will be described while showing effects and the like as necessary. In the following description, for ease of understanding, configurations corresponding to the above-described embodiments are appropriately shown in parentheses or the like, but are not limited to the specific configurations shown in parentheses or the like.

<Characteristic group A>
Feature A1. Game turn control means (first to eighth embodiments) for controlling game turn execution means (first special figure display unit 37a, second special figure display unit 37b) so that game round operations are executed in game rounds Function to execute special figure fluctuation start processing, special figure fluctuation processing and special figure confirmation processing of the main side MPU 82 in
In the game round, when it is specified that a predetermined start opportunity (time saving result, ceiling time saving) has occurred, a predetermined game state (low probability mode and second high frequency support mode time saving state) is started, and the Predetermined start processing that does not start the predetermined game state when it is specified that the predetermined start opportunity has not occurred (setting processing for time saving results or ceiling Subtraction processing of counter 131) Predetermined start execution means for executing (function for executing setting processing for time saving result of main side MPU 82 in 1st to 8th embodiments, main side MPU 82 in 1st to 8th embodiments function of executing subtraction processing of the ceiling counter 131 of
In the game round, when it is specified that a predetermined termination opportunity (the value of the time saving state counter 134 after subtracting 1 becomes "0") has occurred, the predetermined game state is terminated, and the predetermined termination opportunity Executes a predetermined termination process that does not end the predetermined game state when it is specified that has not occurred (subtraction processing of the time saving state counter 134 executed by the main side MPU 82 in the first to eighth embodiments) Predetermined end execution means (function for executing the subtraction process of the time saving state counter 134 of the main side MPU 82 in the first to eighth embodiments),
with
A gaming machine characterized in that the predetermined start processing is executed after the predetermined end processing is executed in one game cycle.

According to the characteristic A1, when it is specified that the predetermined start opportunity has occurred in the predetermined start process, the predetermined game state is started, and in the predetermined end process, it is specified that the predetermined end opportunity has occurred. Since the predetermined game state ends when the predetermined game state is reached, the player who expects the predetermined game state expects that the predetermined start opportunity occurs when the predetermined game state does not exist, and when the predetermined game state exists. expects that the predetermined termination trigger does not occur. In this case, the predetermined start processing is executed after the predetermined end processing is executed in one game round. As a result, when both the predetermined start opportunity and the predetermined end opportunity occur in one game round, the current predetermined game state is terminated by executing the predetermined end processing first in the game round. , the predetermined game state is restarted by executing the predetermined start processing later in the game round. Therefore, it is possible to continue the predetermined game state even in the game cycle in which the predetermined end opportunity has occurred. In addition, the above-described excellent effects can be obtained by a simple configuration in which the execution order of the processes in one game round is the order in which the predetermined end process is executed and then the predetermined start process is executed.

Feature A2. The gaming machine according to feature A1, wherein the predetermined start executing means invalidates the generation of the predetermined start opportunity in the predetermined game state.

According to the feature A2, since the occurrence of the predetermined start opportunity is disabled in the predetermined game state, it is possible to prevent the predetermined game state from being newly started in the middle of the predetermined game state. In this case, when both the predetermined start opportunity and the predetermined end opportunity occur in one game round, the current predetermined game state is terminated by executing the predetermined end processing first in the game round. Afterwards, the predetermined game state is restarted by executing the predetermined start processing later in the game round. As a result, in a configuration in which a new predetermined game state is not started in the middle of a predetermined game state, when both a predetermined start trigger and a predetermined end trigger occur in one game turn, the predetermined start is prevented. It is possible to create a situation where the occurrence of the opportunity is treated as valid and the predetermined game state continues for a long time.

Feature A3. The gaming machine according to feature A1 or A2, wherein both the predetermined end processing and the predetermined start processing are executed after the game round operation of the game round execution means is completed in the game round.

According to the feature A3, both the predetermined end processing and the predetermined start processing are executed after the game-playing motion is completed. Therefore, it is possible to distribute the processing load. In addition, even with the configuration in which the processing load is distributed in this way, the configuration of the feature A1 is provided, and the predetermined start processing is executed after the predetermined end processing is executed in one game round. If both the predetermined start opportunity and the predetermined end opportunity occur in the game round, the predetermined end processing is executed first in the game round to end the current predetermined game state, and then the predetermined start occurs later in the game round. By executing the process, the predetermined game state is started again.

Feature A4. Predetermined measuring means (ceiling counter 131) for measuring the number of executions of the game round is provided,
The number of execution times of the game times measured by the predetermined measuring means is a predetermined trigger number (fixed ceiling number in the first to fourth, seventh and eighth embodiments, first ceiling number or second ceiling number in the fifth embodiment) The gaming machine according to any one of features A1 to A3, wherein the predetermined start opportunity is generated when the number of ceilings is 2, or the number of ceilings is fixed or the number of ceilings is special in the sixth embodiment.

According to the feature A4, in the configuration in which the predetermined game state occurs based on the execution of the predetermined number of game rounds, the configuration of the feature A1 is provided, and the predetermined end processing is executed in one game round. Since the predetermined start process is executed later, when both the predetermined start trigger and the predetermined end trigger occur in one game round, the predetermined end process is executed first in the game round, thereby the current predetermined game is played. After the state is ended, the predetermined game state is started again by executing the predetermined start processing in the game round. As a result, it is possible to increase the possibility that the predetermined game state will occur when the predetermined number of game rounds are executed.

Feature A5. Predetermined lottery means (main MPU 82 function to execute pending information acquisition processing and acceptance judgment processing),
The game round control means controls the game round execution means so as to produce an operation result corresponding to the result of the predetermined lottery process,
The gaming machine according to any one of features A1 to A4, wherein the predetermined start opportunity is generated when the result of the predetermined lottery process is a predetermined lottery result (time saving result).

According to the feature A5, in the configuration in which the predetermined game state occurs based on the result of the predetermined lottery processing becoming the predetermined lottery result, the configuration of the feature A1 is provided, and the predetermined end processing is executed in one game round. Since the predetermined start process is executed after the game is started, if both the predetermined start opportunity and the predetermined end opportunity occur in one game round, the predetermined end process is executed first in the game round, thereby the current state is changed. After the predetermined game state is ended, the predetermined game state is restarted by executing the predetermined start processing later in the game round. This makes it possible to increase the possibility that the predetermined game state will occur when the result of the predetermined lottery process becomes the predetermined lottery result.

Feature A6. Equipped with specific measuring means (time saving state counter 134) that measures the number of times the game is executed in the predetermined game state,
Characteristic characterized in that the predetermined end opportunity is generated when the number of times the game times are executed as measured by the specific measuring means becomes a specific number of times (first number of continuous time-saving, second number of continuous time-saving) The game machine according to any one of A1 to A5.

According to feature A6, since the predetermined game state is terminated based on the number of times of execution of the game rounds executed in the predetermined game state becoming the number of specific trigger times, the trigger for ending the predetermined game state is clear to the player. becomes.

Feature A7. When both the predetermined start trigger and the predetermined end trigger occur in one game round, the number of game rounds executed in the predetermined game state until the predetermined end processing is executed; The total number of times of the game times executed in the predetermined game state after the predetermined start process is executed is set when the game state changes from a game state that is not the predetermined game state to the predetermined game state. The game machine according to feature A6, wherein the game state can be continued more times than the predetermined game state can be continued.

According to feature A7, when both the predetermined start trigger and the predetermined end trigger occur in one game round, the configuration of feature A1 is provided, and the predetermined start is performed after the predetermined end processing is executed in one game round. Since the process is executed, when both the predetermined start trigger and the predetermined end trigger occur in one game round, the current predetermined game state is terminated by executing the predetermined end processing first in the game round. After that, the predetermined game state is started again by executing the predetermined start processing later in the game round. When such an event occurs, the number of game rounds executed in the predetermined game state before the predetermined end processing is executed and the number of game rounds executed in the predetermined game state after the predetermined start processing is executed The total number of times with the number of times can be a number greater than the number of times that the predetermined game state can be continued, which is set when the game state that is not the predetermined game state changes to the predetermined game state. As a result, it is possible to increase the advantage of generating both the predetermined start opportunity and the predetermined end opportunity in one game round.

Feature A8. Predetermined ball entry means (second operation port 34 in first to fifth, seventh and eighth embodiments, special winning device 151 in sixth embodiment) that allows game balls flowing down the game area to enter and,
Acquisition means for acquiring special information (second reservation information) based on the game ball entering the predetermined ball entry means (in the first to fifth, seventh and eighth embodiments, the step in the main side MPU 82 A function of executing the processing of S709, a function of executing the processing of step S2806 in the main MPU 82 in the sixth embodiment);
Attachment determination means (function for executing the appropriateness determination processing of the main side MPU 82 in the first to eighth embodiments) for determining whether or not the special information corresponds to the attachment correspondence information (appropriateness determination processing); ,
Privilege for awarding a privilege (opening/closing execution mode) to a player based on the granting correspondence result (jackpot result) indicating that the special information corresponds to the granting correspondence information as a result of the granting determination. Giving means (function for executing special electric start processing, special electric open processing, special electric closed processing, and special electric end processing of the main side MPU 82 in the first to eighth embodiments);
A predetermined ball entry control means (a function of executing the normal/universal power control process of the main side MPU 82 in the first to eighth embodiments) that can switch the predetermined ball entry means between the closed state and the open state , and
The game round control means determines that the game round operation is started and the game round operation is ended as a state corresponding to the determination result of the grant determination as one game round, and in each game round, the game round operation is terminated. It is intended to allow the reusable action to be performed,
The game machine according to any one of features A1 to A7, wherein the predetermined game state is a game state in which the predetermined ball-entering means is more likely to be in the open state than in another game state (normal game state).

According to feature A8, when the special information is acquired based on the entry of the game ball into the predetermined ball entry means which is switched between the closed state and the open state, and the special information corresponds to the grant correspondence information. In the configuration in which a privilege is provided to the player, the predetermined ball-entering means is more likely to be in the open state in the predetermined game state than in the other game state. Therefore, the player expects to enter the predetermined game state and to continue the predetermined game state for a long time. In this case, since the configuration of the feature A1 is provided and the predetermined start process is executed after the predetermined end process is executed in one game round, both the predetermined start opportunity and the predetermined end opportunity are provided in one game round. occurs, the current predetermined game state is terminated by executing the predetermined end processing first in the game round, and then the predetermined game state is completed by executing the predetermined start processing later in the game round. is started again. Therefore, if a predetermined end opportunity occurs, the player expects that the predetermined start opportunity will occur in the game cycle in which the predetermined end opportunity occurs.

For the configuration of features A1 to A8, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

According to the invention according to the characteristic group A, the following problems can be solved.

Pachinko machines, slot machines, and the like are known as types of gaming machines. In these gaming machines, it is known that an internal lottery is held based on the establishment of a predetermined lottery condition, and a privilege is given to the player according to the result of the internal lottery.

Specifically, the pachinko machine has a configuration in which a winning result is obtained in an internal lottery based on the entry of a game ball into a ball entry section provided in the game area, and a transition to a special game state. A configuration is known in which a transition is made to a special game state based on a game ball entering a part. When the game shifts to the special game state, for example, opening and closing of a ball entry device provided in the game area is started, and game balls are paid out based on the entry into the ball entry device.

Here, in the gaming machines such as those exemplified above, there is still room for improvement in this regard, since it is necessary to suitably execute processing for progressing the game.

<Characteristic group B>
Feature B1. Game turn control means (first, fourth, fifth , the function of executing the special figure fluctuation start processing, the special figure fluctuation processing and the special figure determination processing of the main side MPU 82 in the seventh to ninth embodiments);
The specific game state (high probability state) is ended when it is specified that the specific end opportunity (the value of the high probability state counter 133 after subtracting 1 becomes "0") occurs in the game round. , a specific end process that does not end the specific game state when it is specified that the specific end opportunity has not occurred (in the main side MPU 82 in the first, fourth, fifth, seventh to ninth embodiments Specific end execution means (subtraction processing of the high-probability state counter 133 of the main side MPU 82 in the first, fourth, fifth, seventh to ninth embodiments) function) and
In the game round, when it is specified that a predetermined start opportunity (time saving result, ceiling time saving) has occurred, a predetermined game state (low probability mode and second high frequency support mode time saving state) is started, and the Predetermined start processing that does not start the predetermined game state when it is specified that the predetermined start opportunity has not occurred (executed by the main side MPU 82 in the first, fourth, fifth, seventh to ninth embodiments Predetermined start executing means for executing time saving result setting processing or ceiling counter 131 subtraction processing) (main side MPU 82 in first, fourth, fifth, seventh to ninth embodiments Time saving result setting a function of executing processing, a function of executing subtraction processing of the ceiling counter 131 of the main side MPU 82 in the first, fourth, fifth, seventh to ninth embodiments);
with
Said predetermined start executing means, when said predetermined start processing is executed in said specific game state, is intended not to generate said predetermined start opportunity, or said predetermined start processing is executed in said specific game state In the event that the
A gaming machine characterized in that the specified end process is executed after the predetermined start process is executed in one game cycle.

According to feature B1, when it is specified that the specific end opportunity has occurred in the specific end process, the specific game state is terminated, and in the specific start process it is specified that the specific start opportunity has occurred. Since the predetermined game state is started when the player is in the predetermined game state, the player who expects to be in the specific game state expects that the specific end opportunity does not occur in the specific game state, and the player who expects to be in the predetermined game state. expects that a predetermined start opportunity occurs in a game state that is not a predetermined game state.

In this case, when the predetermined start process is executed in the specific game state, the predetermined start opportunity does not occur, or when the predetermined start process is executed in the specific game state, the occurrence of the predetermined start opportunity is invalidated. As a result, it is possible to prevent the predetermined game state from occurring redundantly in the specific game state.

Further, since the specific end processing is executed after the predetermined start processing is executed in one game round, even in the game round in which the specific game state ends, if the predetermined start processing is executed in the specific game state. , the predetermined start opportunity does not occur, or if the predetermined start process is executed in the specific game state, the occurrence of the predetermined start opportunity is invalidated. As a result, it is possible to prevent the predetermined game state from occurring in the game cycle started in the specific game state even if it is the last game cycle in the specific game state. Therefore, it is possible to prevent excessive profits from being given to the player. In addition, the above-described excellent effects can be achieved by a simple configuration in which the execution order of the processes in one game round is the order in which the specific end process is executed after the execution of the predetermined start process.

Feature B2. The game machine according to feature B1, wherein the specific game state is more advantageous for the player than the predetermined game state.

According to the feature B2, since the specific game state is more advantageous for the player than the predetermined game state, even if the configuration does not generate the predetermined game state in the game cycle executed in the specific game state, It is possible to prevent a large disadvantage from being given.

Feature B3. The gaming machine according to feature B1 or B2, characterized in that both the specific end processing and the predetermined start processing are executed after the game round operation of the game round execution means is completed in the game round.

According to feature B3, both the specific end process and the predetermined start process are executed after the game-playing motion is completed, so that these processes progress the processing for starting the game-playing motion and the game-playing motion. Therefore, it is possible to distribute the processing load. In addition, even with the configuration in which the processing load is distributed in this way, the configuration of the feature B1 is provided, and when the predetermined start process is executed in the specific game state, the predetermined start opportunity does not occur, or the predetermined start opportunity is not generated in the specific game state. In a configuration in which the occurrence of a predetermined start opportunity is invalidated when the start process is executed, since the specific end process is executed after the predetermined start process is executed in one game round, the player is provided with a profit. can be prevented from becoming excessive.

Feature B4. Predetermined lottery means (first, 4th, 5th, 7th to 9th embodiments of the main side MPU 82 hold information acquisition processing and propriety determination processing) provided,
The game round control means controls the game round execution means so as to produce an operation result corresponding to the result of the predetermined lottery process,
When the result of the predetermined lottery process is a predetermined lottery result (time saving result), the predetermined start opportunity is generated,
The predetermined start executing means, when the predetermined start processing is executed in the specific game state, invalidates the occurrence of the predetermined start opportunity, characterized in that any one of features B1 to B3 The game machine described.

According to the feature B4, in the configuration in which the predetermined game state occurs based on the result of the predetermined lottery process becoming the predetermined lottery result, the configuration of the feature B1 is provided, and the predetermined start process is executed in the specific game state. In the configuration in which the occurrence of the predetermined start opportunity is invalidated in the case where the game is played, the specific end processing is executed after the predetermined start processing is executed in one game cycle, so that the profit given to the player becomes excessive. It is possible to prevent it from being lost.

Feature B5. Predetermined measuring means (ceiling counter 131) for measuring the number of executions of the game round is provided,
The predetermined start executing means, as the predetermined start processing, updates the number of times of execution of the game times measured by the predetermined measuring means when the game times are executed. , Step S1503 executed by the main MPU 82 in the fifth, seventh and eighth embodiments, Step S3703 executed by the main MPU 82 in the ninth embodiment, and When the number of times of execution of the game round becomes a predetermined number of times (fixed number of times in the first, fourth, fifth, seventh to ninth embodiments), the predetermined game is generated as the occurrence of the predetermined start opportunity Start execution processing for starting a state (step S1506 executed by the main MPU 82 in the first, fourth, fifth, seventh and eighth embodiments, and executed by the main MPU 82 in the ninth embodiment) step S3705) is executed,
The game machine according to any one of features B1 to B4, wherein the number update process is not executed in the specific game state.

According to the feature B5, in the configuration in which the predetermined game state occurs based on the execution of the predetermined number of game rounds, in the specific game state, even if the game round is executed, it is not measured by the predetermined measuring means. The number update process for updating the number of times the game is played is not executed. As a result, in the specific game state, it is possible not only to prevent the predetermined game state from occurring, but also to prevent the execution of even the number of times updating process which brings the occurrence of the predetermined game state closer. In this case, since the configuration of the feature B1 is provided and the specific end processing is executed after the predetermined start processing is executed in one game round, even in the game round where the specific game state ends, the predetermined game state It is possible to prevent the execution of the number update process that brings the occurrence of

Feature B6. Acquisition means for acquiring special information (first hold information, second hold information) based on the occurrence of an acquisition opportunity (in the first, fourth, fifth, seventh to ninth embodiments, the main side MPU 82 a function of executing the processes of steps S704 and S709);
Assignment determination means (first, fourth, fifth, seventh to ninth embodiments of the main side MPU 82 in the first, fourth, fifth, seventh to ninth embodiments) a function to execute the validity judgment process);
Privilege for awarding a privilege (opening/closing execution mode) to a player based on the granting correspondence result (jackpot result) indicating that the special information corresponds to the granting correspondence information as a result of the determination of granting. Giving means (function for executing special electric start processing, special electric open processing, special electric closed processing, and special electric end processing of the main side MPU 82 in the first, fourth, fifth, seventh to ninth embodiments);
with
The game round control means determines that the game round operation is started and the game round operation is ended as a state corresponding to the determination result of the grant determination as one game round, and the game round is performed in each game round. It is intended to allow the reusable action to be performed,
Any one of features B1 to B5, characterized in that the specific game state is a game state in which the result of the grant determination has a higher probability of becoming the grant correspondence result than in another game state (normal game state). game machine.

According to the characteristic B6, since the probability that the result of grant determination is the grant correspondence result increases in the specific game state, the specific game state is an advantageous game state for the player. In this case, it is possible to obtain the excellent effects already described.

Feature B7. Predetermined ball entry means (second operation port 34 in the first, fourth, fifth, seventh to ninth embodiments) that allows game balls flowing down the game area to enter,
Acquisition means (first, fourth, fifth, seventh to ninth embodiments main side a function of executing the process of step S709 in the MPU 82);
Attachment determination means (main side MPU 82 in the first, fourth, fifth, seventh to ninth embodiments) for determining whether the special information corresponds to the attachment correspondence information (appropriateness determination processing) a function to execute the validity judgment process);
Privilege for awarding a privilege (opening/closing execution mode) to a player based on the granting correspondence result (jackpot result) indicating that the special information corresponds to the granting correspondence information as a result of the granting determination. Giving means (function for executing special electric start processing, special electric open processing, special electric closed processing, and special electric end processing of the main side MPU 82 in the first, fourth, fifth, seventh to ninth embodiments);
Predetermined ball entry control means capable of switching the predetermined ball entry means between a closed state and an open state function to execute electronic control processing),
with
The game round control means determines that the game round operation is started and the game round operation is ended as a state corresponding to the determination result of the grant determination as one game round, and in each game round, the game round operation is terminated. It is intended to allow the reusable action to be performed,
The game machine according to any one of features B1 to B6, wherein the predetermined game state is a game state in which the predetermined ball-entering means is more likely to be in the open state than in another game state (normal game state).

According to feature B7, special information is acquired based on the entry of a game ball into the predetermined ball entry means that is switched between the closed state and the open state, and the special information corresponds to the grant correspondence information. In the configuration in which a privilege is provided to the player, the predetermined ball-entering means is more likely to be in the open state in the predetermined game state than in the other game state. Therefore, the predetermined game state is an advantageous game state for the player. In this case, it is possible to obtain the excellent effects already described.

Feature B8. The game machine according to feature B7, wherein the specific game state is a game state in which the predetermined ball-entering means is more likely to be in the open state than the predetermined game state.

According to the feature B8, the specific game state is more advantageous than the predetermined game state in terms of the ease with which the predetermined ball-entering means is released. Therefore, it is possible to prevent a large disadvantage from being given to the player even in a configuration in which the predetermined game state does not occur in the game cycle executed in the specific game state.

For the configuration of features B1 to B8, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

<Characteristic group C>
Feature C1. Game turn control means (main MPU 82 in the second embodiment) that controls the game turn execution means (first special figure display unit 37a, second special figure display unit 37b) so that the game turn operation is executed in the game turn Function to execute special figure fluctuation start processing, special figure fluctuation processing and special figure confirmation processing),
State storage means (start high accuracy flag of main side RAM 84) for storing game state information when the game round is started;
After the game cycle operation is completed, when it is specified that a predetermined start opportunity (time saving result, ceiling time saving) has occurred, a predetermined game state (low probability mode and second high frequency support mode Time saving state ), and when it is specified that the predetermined start opportunity has not occurred, a predetermined start process that does not start the predetermined game state (setting for time saving results executed by the main side MPU 82 in the second embodiment Processing or subtraction processing of ceiling counter 131) predetermined start execution means (function to execute setting processing for time saving result of main side MPU 82 in the second embodiment, ceiling counter of main side MPU 82 in the second embodiment 131 subtraction function);
with
The predetermined start execution means executes the predetermined start processing in a situation where specific state information is stored in the state storage means (a situation in which the start accuracy flag of the main RAM 84 is set to "1"). , the game machine is characterized in that the occurrence of the predetermined start opportunity is prevented or the occurrence of the predetermined start opportunity is invalidated.

According to the feature C1, since the predetermined game state is started when it is specified that the predetermined start opportunity has occurred in the predetermined start process, the player who expects the predetermined game state is in the predetermined game state. It is expected that a predetermined start opportunity will occur in a game state that is not. Further, since the predetermined start processing is executed after the game-playing motion is completed, the predetermined start processing is executed in a situation where the processing for starting the game-playing motion and the processing for advancing the game-playing motion are not executed. It becomes possible to disperse the processing load.

In this case, when the predetermined start process is executed in the state where the specific state information is stored in the state storage means, the occurrence of the predetermined start opportunity is prevented or the occurrence of the predetermined start opportunity is disabled. As a result, it is possible to prevent the predetermined game state from occurring redundantly in the game state that triggers the storage of the specific state information. Further, the state storage means stores information on the game state when the game cycle is started. As a result, in the configuration in which the predetermined start process is executed after the action for the game round is completed, the game state when the game round is started is the game state that triggers the storage of the specific state information, and the predetermined state information is stored in the game round. It is possible to prevent the predetermined game state from occurring in the game round even if the end condition of the game state is satisfied before the start process is executed. Therefore, it is possible to prevent the predetermined game state from occurring in the game cycle in which the profit of the game state, which is the trigger for storing the specific state information, is given, and the profit is not given to the player excessively. It is possible to prevent this from happening.

Feature C2. The state storage means stores the specific state information when the game state when the game cycle is started is a specific game state (high probability state),
When the game machine specifies that a specific end trigger (the value of the high-probability state counter 133 becomes "0" after subtracting 1) has occurred after the game-turning action is completed. Specific end processing (executed by the main side MPU 82 in the second embodiment specific end execution means (function for executing subtraction processing of the high-probability state counter 133 of the main side MPU 82 in the second embodiment) for executing the subtraction processing of the high-probability state counter 133). The gaming machine according to feature C1.

According to the feature C2, since the specific game state is terminated when it is specified that the specific end opportunity has occurred in the specific end process, the player who expects to be in the specific game state is in the specific game state. It is expected that no specific termination trigger will occur in In addition, since the specific end process is executed after the game-playing action is completed, the specific end process is executed in a situation where the process for starting the game-playing action and the process for advancing the game-playing action are not executed. It becomes possible to disperse the processing load.

In this case, both the specific end process and the predetermined start process are executed after the game-playing action ends. Then, depending on the execution order of the specific end processing and the predetermined start processing, there is a possibility that the predetermined start processing is executed after the game state is changed to a game state that is not the specific game state even in the game round started in the specific game state. . On the other hand, in a game cycle that has the configuration of the feature C1 and is started in a specific game state, the specific state information is stored in the information storage means when the game cycle is started, and the specific state information is stored in the state storage means. When the predetermined start process is executed in the state where the information is stored, the occurrence of the predetermined start opportunity is prevented or the occurrence of the predetermined start opportunity is invalidated. Therefore, regardless of the execution order of the specific end processing and the predetermined start processing, it is possible to prevent the predetermined game state from occurring in a game cycle started in the specific game state.

Feature C3. The state storage means stores the specific state information when the game state when the game cycle is started is a specific game state (high probability state),
The gaming machine according to feature C1 or C2, wherein the specific game state is more advantageous for the player than the predetermined game state.

According to the feature C3, since the specific game state is more advantageous for the player than the predetermined game state, even if it is a configuration in which the predetermined game state does not occur in the game cycle started in the specific game state, It is possible to prevent a large disadvantage from being given.

Feature C4. Acquisition means for acquiring special information (first reservation information, second reservation information) based on the occurrence of an acquisition opportunity (function of executing the processing of steps S704 and S709 in the main side MPU 82 in the second embodiment) and,
Attachment determination means (function for executing the appropriateness determination process of the main side MPU 82 in the second embodiment) that performs attachment determination (appropriateness determination processing) as to whether or not the special information corresponds to the attachment correspondence information;
Privilege for awarding a privilege (opening/closing execution mode) to a player based on the granting correspondence result (jackpot result) indicating that the special information corresponds to the granting correspondence information as a result of the granting determination. Giving means (function for executing special electric start processing, special electric open processing, special electric closed processing, and special electric end processing of the main MPU 82 in the second embodiment);
with
The game round control means determines that the game round operation is started and the game round operation is ended as a state corresponding to the determination result of the grant determination as one game round, and in each game round, the game round operation is terminated. It is intended to allow the reusable action to be performed,
The gaming machine according to feature C2 or C3, wherein the specific game state is a game state in which the result of the grant determination has a higher probability of becoming the grant correspondence result than in another game state (normal game state).

According to the characteristic C4, since the probability that the result of grant determination is the grant correspondence result increases in the specific game state, the specific game state is an advantageous game state for the player. In this case, it is possible to obtain the excellent effects already described.

Feature C5. Predetermined lottery means (holding information acquisition processing of the main MPU 82 in the second embodiment) that executes the predetermined lottery processing (holding information acquisition processing and success/failure determination processing executed by the main MPU 82 in the second embodiment) and a function to execute the validity judgment process),
The game round control means controls the game round execution means so as to produce an operation result corresponding to the result of the predetermined lottery process,
When the result of the predetermined lottery process is a predetermined lottery result (time saving result), the predetermined start opportunity is generated,
The predetermined start execution means invalidates the occurrence of the predetermined start opportunity when the predetermined start processing is executed in a state where the specific state information is stored in the state storage means. The gaming machine according to any one of features C1 to C4.

According to the feature C5, in the configuration in which the predetermined game state occurs based on the result of the predetermined lottery process becoming the predetermined lottery result, the configuration of the feature C1 is provided, and the game state when the game cycle is started. When the information is stored in the state storage means and the specific state information is stored in the state storage means, when the predetermined start processing is executed, the occurrence of the predetermined start opportunity is invalidated, so that the game cycle is started. Even if the game state is a game state that triggers the storage of the specific state information in the case where the specific state information is stored and the end condition of the game state is satisfied before the predetermined start process is executed in the game round, , it is possible to prevent the occurrence of a predetermined game state.

Feature C6. Predetermined measuring means (ceiling counter 131) for measuring the number of executions of the game round is provided,
The predetermined start executing means, as the predetermined start processing, updates the number of times of execution of the game times measured by the predetermined measuring means when the game times are executed (second embodiment). Step S2103 executed by the main side MPU 82 in the above), and when the number of executions of the game round measured by the predetermined measuring means reaches a predetermined trigger number (fixed ceiling number in the second embodiment), the A start execution process (step S2106 executed by the main side MPU 82 in the second embodiment) for starting the predetermined game state as the occurrence of a predetermined start opportunity is executed,
The gaming machine according to any one of features C1 to C5, wherein the number update process is not executed when specific state information is stored in the state storage means.

According to the characteristic C6, in the configuration in which the predetermined game state occurs based on the execution of the predetermined number of game rounds, the game round is executed when the specific state information is stored in the state storage means. However, the number update process for updating the number of game times measured by the predetermined measuring means is not executed. Thus, in the game state that triggers the storage of the specific state information, it is possible not only to prevent the predetermined game state from occurring but also to prevent the execution of even the number of times updating process for approximating the occurrence of the predetermined game state. In this case, the configuration of the feature C1 is provided, and the game state information when the game round is started is stored in the state storage means, and the predetermined start is performed in the state where the specific state information is stored in the state storage means. When the process is executed, the number of times update process for updating the number of game times measured by the predetermined measuring means is not executed, so the game state that triggers the storage of the specific state information ends. Even if it is a time, it is possible to prevent the execution of the number update process that brings the occurrence of the predetermined game state closer.

Feature C7. Predetermined ball entry means (second operation port 34 in the second embodiment) that allows game balls flowing down the game area to enter;
Acquisition means (in the second embodiment, the function of executing the process of step S709 in the main side MPU 82) for acquiring special information (second reservation information) based on the game ball entering the predetermined ball entry means; ,
Attachment determination means (function for executing the appropriateness determination process of the main side MPU 82 in the second embodiment) that performs attachment determination (appropriateness determination processing) as to whether or not the special information corresponds to the attachment correspondence information;
Privilege for awarding a privilege (opening/closing execution mode) to a player based on the granting correspondence result (jackpot result) indicating that the special information corresponds to the granting correspondence information as a result of the granting determination. Giving means (function for executing special electric start processing, special electric open processing, special electric closed processing, and special electric end processing of the main MPU 82 in the second embodiment);
a predetermined ball entry control means (a function of executing the normal/universal electric power control process of the main side MPU 82 in the second embodiment) capable of switching the predetermined ball entry means between a closed state and an open state;
with
The game round control means sets a state in which the game round operation is started and the game round operation is ended as a state corresponding to the judgment result of the grant judgment as one game round, and in each game round, the above-mentioned It is intended to allow the action for game play to be performed,
The game machine according to any one of features C1 to C6, wherein the predetermined game state is a game state in which the predetermined ball-entering means is more likely to be in the open state than in another game state (normal game state).

According to the feature C7, when the special information is acquired based on the entry of the game ball into the predetermined ball entry means which is switched between the closed state and the open state, and the special information corresponds to the grant correspondence information. In the configuration in which a privilege is provided to the player, the predetermined ball-entering means is more likely to be in the open state in the predetermined game state than in the other game state. Therefore, the predetermined game state becomes an advantageous game state for the player. In this case, it is possible to obtain the excellent effects already described.

Feature C8. The state storage means stores the specific state information when the game state when the game cycle is started is a specific game state (high probability state),
The game machine according to feature C7, wherein the specific game state is a game state in which the predetermined ball-entering means is more likely to be in the open state than the predetermined game state.

According to the characteristic C8, the specific game state is more advantageous than the predetermined game state in terms of the ease with which the predetermined ball-entering means is released. Therefore, it is possible to prevent a large disadvantage from being given to the player even in a configuration in which the predetermined game state does not occur in the game cycle executed in the specific game state.

For the configuration of features C1 to C8, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

According to the inventions according to the characteristic group B and the characteristic group C, the following problems can be solved.

Pachinko machines, slot machines, and the like are known as types of gaming machines. In these gaming machines, it is known that an internal lottery is held based on the establishment of a predetermined lottery condition, and a privilege is given to the player according to the result of the internal lottery.

Specifically, the pachinko machine has a configuration in which a winning result is obtained in an internal lottery based on a game ball entering a ball entering section provided in the game area, and a transition to a special game state. A configuration is known in which a transition is made to a special game state based on a game ball entering a part. When the game shifts to the special game state, for example, opening and closing of a ball entry device provided in the game area is started, and game balls are paid out based on the entry into the ball entry device.

Here, in gaming machines such as those exemplified above, it is necessary to favorably award profits to players, and there is still room for improvement in this regard.

<Characteristic group D>
Feature D1. Game turn control means (main side in the third embodiment) that controls the game turn execution means (first special figure display unit 37a, second special figure display unit 37b) so that the game turn operation is executed in the game turn Function of executing special figure fluctuation start processing, special figure fluctuation processing and special figure determination processing of MPU 82),
A specific lottery that executes a specific end lottery process (falling determination process executed by the main MPU 82 in the third embodiment) that determines whether to end the specific game state in the specific game state (high probability state) means (function for executing fall determination processing of the main MPU 82 in the third embodiment);
Predetermined lottery means (holding information acquisition processing of main MPU 82 in and a function to execute the propriety judgment process);
Based on the fact that the result of the predetermined lottery process is a predetermined lottery result (time saving result), a predetermined privilege granting means (main in the third embodiment) that grants a predetermined privilege (second high frequency support mode) to the player A function of executing the setting process for the time saving result of the side MPU 82);
with
The gaming machine, wherein the specific lottery means executes the specific end lottery process before the predetermined lottery process is executed in one game cycle.

According to the feature D1, when a lottery result to end the specific game state is obtained in the specific end lottery process, the specific game state is terminated, and a predetermined privilege is played based on the predetermined lottery result in the predetermined lottery process. Therefore, the player who expects to be in the specific game state expects that the specific end lottery process in the specific game state will not result in a lottery result that ends the specific game state, and the predetermined benefits are given. A player who expects a lottery expects a predetermined lottery result in a predetermined lottery process. In this case, the specific end lottery process is executed before the predetermined lottery process is executed in one game round. Thereby, when the lottery result of the specific end lottery process ends the specific game state in the game round in the specific game state, the predetermined lottery process is executed after the lottery result ends the specific game state. Therefore, it is possible to execute the predetermined lottery process in the game round in which the specific game state ends in the situation where the specific game state ends. Therefore, it is possible to suitably perform the lottery process.

Feature D2. The gaming machine according to feature D1, wherein the predetermined lottery means differentiates the execution mode of the predetermined lottery process depending on whether the game is in the specific game state.

According to feature D2, since the execution mode of the predetermined lottery process differs depending on whether or not it is in the specific game state, the player pays attention to the game state at the timing when the predetermined lottery process is executed. In this case, with the configuration of the feature D1, when the lottery result of the specific end lottery process in the game round in the specific game state is the lottery result to end the specific game state, the lottery result to end the specific game state. Since the predetermined lottery process is executed after becoming, in the game round in which the specific game state ends, the predetermined lottery process is executed in the situation where the specific game state ends. Therefore, in the predetermined lottery process, it is possible to handle a game round in which the specific game state ends as a game round that is not in the specific game state.

Feature D3. Specific end processing (step S2208 executed by the main side MPU 82 in the third embodiment) to end the specific game state based on the result of the specific end lottery processing becoming the end result (fall result) means for executing the (function for executing the processing of step S2208 of the main MPU 82 in the third embodiment),
The gaming machine according to feature D1 or D2, wherein when the result of the specific end lottery process is the end result, the specific end process is executed before the predetermined lottery process is executed.

According to the feature D3, when the result of the specific end lottery process is the end result in the game round in the specific game state, the specific game state can be terminated before the predetermined lottery process is executed in the game round. It becomes possible.

Feature D4. Variable ball entry means (special electric winning device 32) provided in a game area where game balls flow down and switchable between an open state and a closed state;
Variable ball entry control means for executing variable ball entry control for switching the variable ball entry means to the closed state after the variable ball entry means has been set to the open state (special electric start processing, special electric open processing and special electric function to execute closing process) and
Special transition means (second 3 function of executing the special electric start processing of the main side MPU 82 in the embodiment);
The gaming machine according to any one of features D1 to D3, characterized by comprising:

According to feature D4, in a configuration in which a special game state occurs in which variable ball entry control is executed for the variable ball entry means based on the result of the predetermined lottery process being the result of the special lottery, the result of the predetermined lottery process is A predetermined privilege is given based on the result of the predetermined lottery. As a result, it is possible to determine whether or not to provide a predetermined privilege by using the configuration of the predetermined lottery process for determining whether or not to generate the special game state.

Feature D5. The gaming machine according to feature D4, wherein the specific game state is a game state in which the result of the predetermined lottery process has a higher probability of becoming the special lottery result than in another game state (normal game state).

According to the feature D5, since the probability of occurrence of the special game state increases in the specific game state, the specific game state is an advantageous game state for the player. In this case, the configuration of the feature D1 is provided, and the predetermined lottery process is executed after the specific game state is ended in the game round in which the result of the specific lottery process ends the specific game state. As a result, it is possible to suppress the occurrence frequency of game rounds in which the predetermined lottery process is executed in the specific game state.

Feature D6. Specific updating means (type random number counter C2) for updating numerical information;
When the result of the predetermined lottery process is the result of the special lottery, the numerical information updated by the specific update means is used to perform the special lottery process (executed by the main MPU 82 in the third embodiment). By executing step S2211), means for determining the type of privilege (opening/closing execution mode, win/fail lottery mode, and support mode) that can be given to the player (main MPU 82 in step S2211 in the third embodiment). function to perform processing) and
When the result of the predetermined lottery process is the predetermined lottery result, the predetermined type lottery process (executed by the main MPU 82 in the third embodiment) is performed using the numerical information updated by the specific updating means. (processing of step S2217) for determining the type of the predetermined privilege that can be granted to the player (function of executing the processing of step S2217 of the main MPU 82 in the third embodiment);
The gaming machine according to feature D4 or D5, characterized by comprising:

According to the feature D6, when the result of the predetermined lottery process is the result of the special lottery, the privilege of the type selected by the special lottery process is granted, so it is possible to diversify the mode of granting the privilege. becomes. In addition, when the result of the predetermined lottery process is the predetermined lottery result, the predetermined privilege of the type selected by the predetermined type lottery process is granted, so that it is possible to diversify the provision mode of the predetermined privilege. . In this case, in the configuration in which the numerical information of the specific update means is used in the special kind lottery process, the numerical information of the specific update means is also used in the predetermined kind lottery process. Thus, it is possible to determine the type of the prescribed privilege to be given when the predetermined lottery result is obtained by using the structure for deciding the kind of privilege to be given when the special lottery result is obtained.

Feature D7. Any of the characteristics D1 to D6, wherein the predetermined privilege providing means does not provide the predetermined privilege even if the result of the predetermined lottery process is the predetermined lottery result in the situation of the specific game state. 1. The gaming machine according to 1.

According to the characteristic D7, even if the result of the predetermined lottery process becomes the predetermined lottery result in the situation of the specific game state, the predetermined privilege is not given, so that the predetermined privilege is not given excessively. It becomes possible. In this case, with the configuration of the feature D1, when the lottery result of the specific end lottery process in the game round in the specific game state is the lottery result to end the specific game state, the lottery result to end the specific game state. Since the predetermined lottery process is executed after the specified game state is completed, the predetermined lottery process is executed in the state where the specific game state is completed. Therefore, it is possible to provide a predetermined privilege in the game cycle in which the specific game state ends.

Feature D8. Predetermined ball entry means (second operating port 34) that allows game balls flowing down the game area to enter;
Acquisition means (function of executing step S709 of main side MPU 82 in the third embodiment) for acquiring special information (second reservation information) based on the game ball entering the predetermined ball entry means; ,
a predetermined ball entry control means (a function of executing the normal/universal electric power control process of the main side MPU 82 in the third embodiment) capable of switching the predetermined ball entry means between a closed state and an open state;
with
The predetermined lottery means executes the predetermined lottery process based on the acquisition of the special information,
The predetermined privilege granting means changes the game state to a predetermined game state (second high-frequency support mode) in which the predetermined ball-entering means is more likely to be in the open state than in another game state (normal game state). The game machine according to any one of features D1 to D7, characterized in that transition is made.

According to feature D8, the special information is acquired based on the entry of the game ball into the predetermined ball entry means that is switched between the closed state and the open state, and the predetermined lottery process is executed by acquiring the special information. In this configuration, the predetermined ball-entering means is more likely to be in the open state in the predetermined game state than in the separate game state. Therefore, the player expects to enter the predetermined game state and to continue the predetermined game state for a long time. In this case, it is possible to obtain the excellent effects already described.

For the configuration of features D1 to D8, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

According to the invention according to the characteristic group D, the following problems can be solved.

Pachinko machines, slot machines, and the like are known as types of gaming machines. In these gaming machines, it is known that an internal lottery is held based on the establishment of a predetermined lottery condition, and a privilege is given to the player according to the result of the internal lottery.

Specifically, the pachinko machine has a configuration in which a winning result is obtained in an internal lottery based on the entry of a game ball into a ball entry section provided in the game area, and a transition to a special game state. A configuration is known in which a transition is made to a special game state based on a game ball entering a part. When the game shifts to the special game state, for example, opening and closing of a ball entry device provided in the game area is started, and game balls are paid out based on the entry into the ball entry device.

Here, in gaming machines such as those exemplified above, the lottery process must be favorably executed, and there is still room for improvement in this respect.

<Characteristic group E>
Feature E1. Game turn control means (first to twelfth embodiments) for controlling game turn execution means (first special figure display unit 37a, second special figure display unit 37b) so that game round operations are executed in game rounds Function to execute special figure fluctuation start processing, special figure fluctuation processing and special figure confirmation processing of the main side MPU 82 in
Predetermined measuring means (ceiling counter 131) for measuring the number of times the game is executed;
Number updating means for updating the number of execution times of the game rounds measured by the predetermined measuring means when the game rounds are executed (in the first, third to eighth embodiments, step S1503 in the main side MPU 82 a function of executing the processing of step S2103 in the main MPU 82 in the second embodiment; a function of executing the processing of step S3703 in the main MPU 82 in the ninth embodiment; In the embodiment, the function of executing the processing of step S4503 in the main side MPU 82);
The execution count of the game times measured by the predetermined measuring means is a predetermined trigger count (fixed ceiling count in the first to fourth and sixth to twelfth embodiments, first ceiling count in the fifth embodiment, or 2nd peak number of times), a predetermined privilege granting means (in the first, third to eighth embodiments, the processing of step S1506 in the main MPU 82 is executed) to grant a predetermined privilege (second high-frequency support mode) in the second embodiment, the function of executing the process of step S2106 in the main MPU 82; in the ninth embodiment, the function of executing the process of step S3705 in the main MPU 82; in the tenth to twelfth embodiments, a function of executing the process of step S4505 in the main side MPU 82);
When it is specified that an information abnormality has occurred in the predetermined storage means (main side RAM 84) when the supply of operating power is started, abnormality handling processing (first to third, sixth to twelfth embodiments Then, step S121 executed by the main MPU 82, step S2421 executed by the main MPU 82 in the fourth embodiment, and step S2621 executed by the main MPU 82 in the fifth embodiment. Corresponding means (the function of executing the processing of step S121 in the main MPU 82 in the first to third and sixth to twelfth embodiments, the function of executing the processing of step S2421 in the main MPU 82 in the fourth embodiment, In the fifth embodiment, the function of executing the processing of step S2621 in the main MPU 82);
Based on the occurrence of the information abnormality, the information of the predetermined measuring means is set to a predetermined initial value ("500" in the first to fourth and sixth to twelfth embodiments, "800" in the fifth embodiment). ”) (step S122 executed by the main MPU 82 in the first to third and sixth to twelfth embodiments, and executed by the main MPU 82 in the fourth embodiment). (step S2506 in the fifth embodiment, step S2622 executed in the main MPU 82 in the fifth embodiment) (step S122 in the main MPU 82 in the first to third and sixth to twelfth embodiments) a function of executing processing, a function of executing the processing of step S2506 in the main MPU 82 in the fourth embodiment, and a function of executing the processing of step S2622 in the main MPU 82 in the fifth embodiment);
A game machine characterized by comprising:

According to the feature E1, when the number of times the game is executed as measured by the predetermined measuring means reaches the predetermined number of trigger times, the predetermined privilege is given. It is possible to provide a predetermined privilege. In addition, when the supply of operating power is started and an information abnormality occurs in the predetermined storage means, the abnormality handling process is executed, so that it is possible to deal with the occurrence of the information abnormality. In this case, the information of the predetermined measuring means becomes the predetermined initial value based on the occurrence of the information abnormality. If an information abnormality occurs, the information in the predetermined measurement means may also be abnormal information. It is possible to prevent the game from being started while the information of the means is abnormal.

Feature E2. Means for executing profit giving processing (win-or-fail judgment processing) in a mode corresponding to a setting value set as an object to be used from among multiple stages of setting values corresponding to the player's advantage (win-or-fail judgment in the main MPU 82 function to perform processing) and
When the supply of operating power is started, a settable state in which the setting value to be used can be changed based on the fact that a predetermined related operation (setting change operation) has been performed (setting value update processing is performed) status generating means (in the first to third and sixth to twelfth embodiments, the function of executing the processing of step S117 in the main MPU 82; in the fifth embodiment, the main side a function of executing the processing of step S2617 in the MPU 82);
with
The gaming machine according to feature E1, wherein the predetermined setting means does not execute the predetermined setting process in the settable state.

According to the feature E2, since the set value to be used is set from among the set values of a plurality of stages corresponding to the player's advantage, the set value that is more advantageous to the player is used. It is expected that In this case, since the information of the predetermined measuring means is not set to the predetermined initial value in the settable state, even if the settable state occurs, the information of the predetermined measuring means can be maintained at the information before the supply of the operating power was stopped. It becomes possible. In this configuration, the configuration of the feature E1 is provided, and the information of the predetermined measuring means becomes a predetermined initial value based on the occurrence of information abnormality, so that the game is started while the information of the predetermined measuring means is abnormal information. It is possible to prevent it from being lost.

Feature E3. The anomaly handling means stores anomaly handling information (information of "1") in an anomaly handling storage area (game stop flag of the main side RAM 84) in the anomaly handling process,
In the game machine, means for initializing the anomaly response storage area when the settable situation occurs A gaming machine according to feature E2, characterized by comprising a function of executing RAM clearing.

According to feature E3, in a configuration where it is necessary to generate a settable state in order to erase the stored anomaly handling information based on the occurrence of an information anomaly, the information of the predetermined measuring means is set to a predetermined value in the settable state. does not become the initial value of , but the information of the predetermined measuring means becomes the predetermined initial value when the abnormality handling information is stored. As a result, in a settable state, it is sufficient to initialize the anomaly-handling storage area regardless of whether or not anomaly-handling information is stored. There is no need to differentiate the contents. Therefore, it is possible to reduce the processing load in the settable state.

Feature E4. The anomaly handling means stores anomaly handling information (information of "1") in an anomaly handling storage area (game stop flag of the main side RAM 84) in the anomaly handling process,
This game machine is
Means for executing profit giving processing (win-or-fail judgment processing) in a mode corresponding to a setting value set as an object to be used from among multiple stages of setting values corresponding to the player's advantage (win-or-fail judgment in the main MPU 82 function to perform processing) and
When the supply of operating power is started, a settable state in which the setting value to be used can be changed based on the fact that a predetermined related operation (setting change operation) has been performed (setting value update processing is performed) a situation generating means (a function of executing the process of step S2417 of the main side MPU 82 in the fourth embodiment) that causes the situation to be executed);
means for initializing the anomaly handling storage area when the settable situation occurs (function for executing the processing of steps S2504 and S2505 of the main MPU 82 in the fourth embodiment);
with
The predetermined setting means does not execute the predetermined setting process when the settable situation occurs in a situation where the abnormality handling information is not stored, and does not execute the predetermined setting process when the abnormality handling information is stored. The gaming machine according to feature E1, wherein the predetermined setting process is executed when a setting possible situation occurs.

According to the feature E4, since the set value to be used is set from among the set values of a plurality of stages corresponding to the player's advantage, the set value that is more advantageous to the player is used. It is expected that Also, in order to erase the stored abnormality handling information based on the occurrence of an information abnormality, it is necessary to generate a configurable state. In this case, if a settable situation occurs in a situation in which no abnormality handling information is stored, the information of the predetermined measuring means does not become a prescribed initial value, and the setting is made in a situation in which the abnormality handling information is stored. When the possible situation occurs, the information of the predetermined measuring means becomes the predetermined initial value. As a result, when a settable situation occurs, the information of the predetermined measuring means is basically prevented from becoming a predetermined initial value. It is possible to set the information of the predetermined measuring means to a predetermined initial value.

Feature E5. Means (first through first 3. In the sixth to twelfth embodiments, the function of executing step S119 in the main MPU 82; in the fourth embodiment, the function of executing step S2419 in the main MPU 82; function to execute the processing of step S2619 in the side MPU 82),
Even if the initialization process is executed, the information of the predetermined measurement means is not initialized,
The gaming machine according to any one of features E1 to E4, wherein the predetermined setting means does not execute the predetermined setting process even if the initialization process is executed.

According to the feature E5, in the configuration in which predetermined information is initialized in the predetermined storage means based on the fact that the specific related operation is performed when the supply of the operating power is started, the initialization process is performed. Even if the conversion process is executed, the information of the predetermined measuring means is not set to the predetermined initial value. As a result, even if the initialization processing is executed, it is possible to maintain the information of the predetermined measuring means as the information before the supply of the operating power was stopped. In this configuration, the configuration of the feature E1 is provided, and the information of the predetermined measuring means becomes a predetermined initial value based on the occurrence of information abnormality, so that the game is started while the information of the predetermined measuring means is abnormal information. It is possible to prevent it from being lost.

Feature E6. Means for shifting the game state to a special game state (opening/closing execution mode) advantageous to the player (function for executing the special electric start processing of the main side MPU 82 in the first to fourth and sixth to twelfth embodiments);
Means (in the first, fourth, eighth and ninth embodiments, the step in the main side MPU 82 The function of executing the process of S1005, the function of executing the process of step S1905 in the main MPU 82 in the second embodiment, the function of executing the process of step S2305 in the main MPU 82 in the third embodiment, and the sixth embodiment. In the embodiment, the function of executing the processing of step S3109 in the main MPU 82; in the seventh embodiment, the function of executing the processing of step S3305 in the main MPU 82; function to perform processing) and
The gaming machine according to any one of features E1 to E5, characterized by comprising:

According to the feature E6, in the configuration in which the information of the predetermined measuring means becomes a predetermined initial value with the transition to the special game state as a trigger, even if the information abnormality occurs when the supply of the operating power is started The information of the predetermined measuring means becomes the predetermined initial value. As a result, the execution number of game rounds necessary for awarding the predetermined privilege when an information abnormality occurs, and the execution number of game rounds necessary for awarding the predetermined privilege after the occurrence of the special game state are determined. It is possible to make it the same as the number of times.

Feature E7. Equipped with means for shifting the game state to a special game state (opening and closing execution mode) advantageous to the player (function for executing special electric start processing in the main side MPU 82),
The predetermined privilege granting means specifies, based on the information measured by the predetermined measuring means, that the number of executions of the game rounds executed after the end of the special game state is the predetermined trigger number. If you do, the predetermined privilege is granted,
the number of executions of the game rounds ("800" in the fifth embodiment) required until it is specified that the number of executions of the game rounds has reached the predetermined trigger number after the predetermined setting process is executed; After the special game state ends, the number of executions of the game rounds ("500" in the fifth embodiment) required until it is specified that the number of executions of the game rounds has reached the predetermined number of times is different. The gaming machine according to any one of features E1 to E5, characterized in that

According to feature E7, in a configuration in which a predetermined benefit is awarded when the number of game rounds executed after the occurrence of the special game state reaches the predetermined number of trigger times, the number of game rounds executed after the information abnormality occurs. The number of game rounds required until it is specified that the number of times has reached the predetermined number of opportunities different from the number of executions. As a result, the number of game rounds necessary to award the predetermined privilege can be made different between after the special game state ends and after the information abnormality occurs.

Feature E8. After the predetermined setting process is executed, the number of executions of the game rounds required until it is specified that the number of executions of the game rounds has reached the predetermined number of trigger times is greater than the number of executions of the game rounds after the special game state ends. The gaming machine according to feature E7, wherein the number of executions of the game is greater than the number of executions of the game necessary until it is specified that the predetermined number of triggers has been reached.

According to the feature E8, the number of game rounds necessary to specify that the number of game rounds has reached the predetermined trigger number after the occurrence of the information abnormality is greater than the number of game rounds after the end of the special game state. If the number of times of execution is greater than the number of times of execution of game times required until it is specified that the number of times of execution has reached the predetermined number of triggers, then when an act of illegally causing an information abnormality is performed, a predetermined benefit will be given. It is possible to increase the number of executions of game rounds required until the award is given.

Feature E9. Predetermined ball entry means (first to fifth, seventh to ninth embodiments, second actuation port 34, sixth, tenth to twelfth embodiments Then, the special winning device 151) and
Acquisition means for acquiring special information (second reservation information) based on the game ball entering the predetermined ball entry means (in the first to fifth and seventh to ninth embodiments, the step in the main side MPU 82 a function of executing the process of S709, a function of executing the process of step S2806 in the main MPU 82 in the sixth embodiment, and a function of executing the process of step S3901 in the main MPU 82 in the tenth to twelfth embodiments); ,
Attachment determination means (function for executing the appropriateness determination processing of the main side MPU 82 in the first to twelfth embodiments) for determining whether or not the special information corresponds to the attachment correspondence information (appropriateness determination processing); ,
Privilege for awarding a privilege (opening/closing execution mode) to a player based on the granting correspondence result (jackpot result) indicating that the special information corresponds to the granting correspondence information as a result of the granting determination. Giving means (function for executing special electric start processing, special electric open processing, special electric closed processing, and special electric end processing of the main side MPU 82 in the first to twelfth embodiments);
A predetermined ball entry control means (a function of executing the normal/universal power control process of the main side MPU 82 in the first to twelfth embodiments) that can switch the predetermined ball entry means between the closed state and the open state ,
with
The game round control means sets a state in which the game round operation is started and the game round operation is ended as a state corresponding to the judgment result of the grant judgment as one game round, and in each game round, the above-mentioned It is intended to allow the action for game play to be performed,
The predetermined privilege granting means changes the game state to a predetermined game state (second high-frequency support mode) in which the predetermined ball-entering means is more likely to be in the open state than in another game state (normal game state). The game machine according to any one of features E1 to E8, characterized in that transition is made.

According to feature E9, special information is acquired based on the entry of a game ball into a predetermined ball entry means that is switched between a closed state and an open state, and the special information corresponds to grant correspondence information. In the configuration in which a privilege is provided to the player, the predetermined ball-entering means is more likely to be in the open state in the predetermined game state than in the other game state. Therefore, the predetermined game state becomes an advantageous game state for the player. In this case, it is possible to obtain the excellent effects already described.

For the configuration of features E1 to E9, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

According to the invention according to the characteristic group E, the following problems can be solved.

Pachinko machines, slot machines, and the like are known as types of gaming machines. In these gaming machines, it is known that an internal lottery is held based on the establishment of a predetermined lottery condition, and a privilege is given to the player according to the result of the internal lottery.

Specifically, the pachinko machine has a configuration in which a winning result is obtained in an internal lottery based on the entry of a game ball into a ball entry section provided in the game area, and a transition to a special game state. A configuration is known in which a transition is made to a special game state based on a game ball entering a part. When the game shifts to the special game state, for example, opening and closing of a ball entry device provided in the game area is started, and game balls are paid out based on the entry into the ball entry device.

Here, in the gaming machines such as those exemplified above, it is necessary that the game be played favorably, and there is still room for improvement in this regard.

<Feature group F>
Feature F1. Game turn control means (first to fifth, seventh ~ A function to execute special figure fluctuation start processing, special figure fluctuation processing and special figure determination processing of the main side MPU 82 in the 12th embodiment);
Predetermined measuring means (ceiling counter 131) for measuring the number of times the game is executed;
Number of times updating means for updating the number of execution times of the game times measured by the predetermined measuring means when the game times are executed (in the first, third to fifth, seventh and eighth embodiments, A function of executing the processing of step S1503 in the main MPU 82, a function of executing the processing of step S2103 in the main MPU 82 in the second embodiment, and a function of executing the processing of step S3703 in the main MPU 82 in the ninth embodiment. , in the tenth to twelfth embodiments, the function of executing the processing of step S4503 in the main MPU 82);
The execution count of the game times measured by the predetermined measuring means is a predetermined trigger count (fixed ceiling count in the first to fourth and seventh to twelfth embodiments, first ceiling count in the fifth embodiment, or 2nd peak number of times) to give a predetermined privilege (second high frequency support mode) (in the first, third to fifth, seventh and eighth embodiments, the main MPU The function of executing the process of step S1506, the function of executing the process of step S2106 in the main MPU 82 in the second embodiment, the function of executing the process of step S3705 in the main MPU 82 in the ninth embodiment, the tenth to In the twelfth embodiment, the function of executing the processing of step S4505 in the main MPU 82);
Special transition means for shifting the game state to a special game state (open/close execution mode) advantageous to the player (function of executing special electric start processing of the main side MPU 82 in the first to fifth and seventh to twelfth embodiments) and,
Predetermined setting processing ( The process of step S1005 executed by the main MPU 82 in the first, fourth, fifth, eighth, and ninth embodiments, the process of step S1905 executed by the main MPU 82 in the second embodiment, The processing of step S2305 executed by the main MPU 82 in the third embodiment, the processing of step S3305 executed by the main MPU 82 in the seventh embodiment, and the main MPU 82 in the tenth to twelfth embodiments (the processing of step S4208 executed in the first, fourth, fifth, eighth, and ninth embodiments, the function of executing the processing of step S1005 in the main MPU 82, the second The function of executing the process of step S1905 in the main MPU 82 in the embodiment, the function of executing the process of step S2305 in the main MPU 82 in the third embodiment, and the process of step S3305 in the main MPU 82 in the seventh embodiment. , in the tenth to twelfth embodiments, the function of executing the processing of step S4208 in the main side MPU 82);
A game machine characterized by comprising:

According to the feature F1, when the number of execution times of the game rounds measured by the predetermined measuring means reaches the predetermined number of trigger times, the predetermined benefit is provided. It is possible to provide a predetermined privilege. Further, since the information of the predetermined measuring means is set to a specific initial value with the special game state as a trigger, when the number of times of execution of the game rounds executed after the end of the special game state reaches the predetermined number of times, the predetermined privilege is obtained. It is possible to make it be granted. In this case, when the information of the predetermined measuring means is set to a specific initial value triggered by the special game state, the specific initial value is set when the special game state is started. As a result, after obtaining a certain amount of profit in the special game state and before the special game state ends, the supply of the operating power is stopped and the supply of the operating power is restarted, whereby the information of the predetermined measuring means is obtained. Even if a fraudulent act that forcibly terminates the special game state while maintaining it is performed, the information of the maintained predetermined measuring means is a specific initial value set when the special game state is started. becomes. Therefore, it becomes possible to neutralize the fraudulent act as described above.

Feature F2. Means for executing profit giving processing (win/fail judgment processing) in a mode corresponding to a setting value set as a target to be used from among multiple stages of setting values corresponding to the player's advantage (win/fail judgment in the main MPU 82 function to perform processing) and
When the supply of operating power is started, a settable state in which the setting value to be used can be changed based on the fact that a predetermined related operation (setting change operation) has been performed (setting value update processing is performed) status generating means (in the first to third and seventh to twelfth embodiments, the function of executing the process of step S117 in the main MPU 82; in the fourth embodiment, the main side A function of executing the process of step S2417 in the MPU 82, a function of executing the process of step S2617 in the main side MPU 82 in the fifth embodiment);
with
The gaming machine according to feature F1, wherein the predetermined setting means does not execute the predetermined setting process in the settable state.

According to the feature F2, since the set value to be used is set from among the set values of a plurality of stages corresponding to the player's advantage, the set value that is more advantageous to the player is used. It is expected that In this case, since the information of the predetermined measuring means is not set to a specific initial value in the settable state, even if the settable state occurs, the information of the predetermined measuring means can be maintained at the information before the supply of operating power was stopped. It becomes possible. In the configuration, the configuration of the feature F1 is provided, and the specific initial value is set when the special game state is started. As a result, after obtaining a certain amount of profit in the special game state and before the special game state ends, the supply of the operating power is stopped and the supply of the operating power is restarted, whereby the information of the predetermined measuring means is obtained. Even if a fraudulent act that forcibly terminates the special game state while maintaining it is performed, the information of the maintained predetermined measuring means is a specific initial value set when the special game state is started. becomes. Therefore, it becomes possible to neutralize the fraudulent act as described above.

Feature F3. Means ( In the first to third and seventh to twelfth embodiments, the function of executing the processing of step S119 in the main MPU 82, in the fourth embodiment, the function of executing the processing of step S2419 in the main MPU 82, the fifth In the embodiment, the function of executing the processing of step S2619 in the main side MPU 82) is provided,
Even if the initialization process is executed, the information of the predetermined measurement means is not initialized,
The gaming machine according to feature F1 or F2, wherein the predetermined setting means does not execute the predetermined setting process even if the initialization process is executed.

According to the feature F3, in the configuration in which predetermined information is initialized in the predetermined storage means based on the fact that the specific related operation is performed when the supply of the operating power is started, the initialization process is performed. Even if the conversion process is executed, the information of the predetermined measuring means is not set to a specific initial value. As a result, even if the initialization processing is executed, it is possible to maintain the information of the predetermined measuring means as the information before the supply of the operating power was stopped. In the configuration, the configuration of the feature F1 is provided, and the specific initial value is set when the special game state is started. As a result, after obtaining a certain amount of profit in the special game state and before the special game state ends, the supply of the operating power is stopped and the supply of the operating power is restarted, whereby the information of the predetermined measuring means is obtained. Even if a fraudulent act that forcibly terminates the special game state while maintaining it is performed, the information of the maintained predetermined measuring means is a specific initial value set when the special game state is started. becomes. Therefore, it becomes possible to neutralize the fraudulent act as described above.

Feature F4. Means (1st to 5th, a function of executing the propriety determination process of the main MPU 82 in the seventh to twelfth embodiments;
When the supply of operating power is started, a settable state in which the setting value to be used can be changed based on the fact that a predetermined related operation (setting change operation) has been performed (setting value update processing is performed) status generating means (in the first to third and seventh to twelfth embodiments, the function of executing the process of step S117 in the main MPU 82; in the fourth embodiment, the main side A function of executing the process of step S2417 in the MPU 82, a function of executing the process of step S2617 in the main side MPU 82 in the fifth embodiment);
with
The predetermined setting means does not execute the predetermined setting process even if the initialization process is executed, and does not execute the predetermined setting process in the settable state, and the supply of operating power is started. (In the first to third and seventh to twelfth embodiments, the situation in which the main MPU 82 makes an affirmative determination in step S113 , in the fourth embodiment, the main MPU 82 makes an affirmative determination in step S2413, and in the fifth embodiment, the main MPU 82 makes an affirmative determination in step S2613. The gaming machine according to feature F3, characterized by: executing.

According to the feature F4, since the set value to be used is set from among the set values of a plurality of stages corresponding to the player's advantage, the set value that is more advantageous to the player is used. It is expected that In this case, even if the initialization process is executed, the information of the predetermined measuring means is not set to a specific initial value, and the information of the predetermined measuring means is not set to a specific initial value in the settable state. is executed, the information of the predetermined measuring means can be maintained at the information before the supply of operating power is stopped. It is possible to maintain the information before the stop. In this case, the information of the predetermined measurement means is set to a specific initial value in a predetermined situation in which neither the specific related operation nor the predetermined related operation is performed when the supply of operating power is started. As a result, in a configuration in which the information of the predetermined measuring means is not set to a specific initial value even if the initialization process is executed and the information of the predetermined measuring means is not set to a specific initial value in the settable state, the operating power is supplied. is started, it is possible to set the information of the predetermined measuring means to a specific initial value.

Feature F5. Variable ball entry means (special electric winning device 32) provided in a game area where game balls flow down and switchable between an open state and a closed state;
Variable ball entry control means for executing variable ball entry control for switching the variable ball entry means to the closed state after the variable ball entry means is set to the open state function to execute start processing, special electric open processing and special electric closed processing);
with
The special transition means shifts the game state to the special game state after the game round in which the operation result of the game round operation is a special result (stop result corresponding to the jackpot result) is completed,
A configuration in which the variable ball entry control is executed in the special game state,
The predetermined setting means executes the predetermined setting process after the operation result of the game-turn operation becomes the special result and before the variable ball entry control is started in the special game state. A gaming machine according to any one of the characterizing features F1 to F4.

According to the feature F5, the information of the predetermined measuring means is set to a specific initial value after the action result of the game-turn action becomes a special result and before the variable ball entry control is started in the special game state. It becomes possible to

Feature F6. Predetermined ball entry means (second actuation port 34 in the first to fifth and seventh to ninth embodiments, special winning in the tenth to twelfth embodiments a device 151);
Acquisition means for acquiring special information (second reservation information) based on the game ball entering the predetermined ball entry means (in the first to fifth and seventh to ninth embodiments, the step in the main side MPU 82 A function of executing the processing of S709, a function of executing the processing of step S3901 in the main MPU 82 in the tenth to twelfth embodiments);
Applicability determination means (property determination processing of the main side MPU 82 in the first to fifth and seventh to twelfth embodiments) for determining whether or not the special information corresponds to the provision correspondence information (property determination processing) function) and
Predetermined ball entry control means capable of switching the predetermined ball entry means between a closed state and an open state (first to fifth, seventh to twelfth embodiments) function) and
with
The game round control means sets a state in which the game round operation is started and the game round operation is ended as a state corresponding to the judgment result of the grant judgment as one game round, and in each game round, the above-mentioned It is intended to allow the action for game play to be performed,
The predetermined privilege granting means changes the game state to a predetermined game state (second high-frequency support mode) in which the predetermined ball-entering means is more likely to be in the open state than in another game state (normal game state). The game machine according to any one of features F1 to F5, characterized in that transition is made.

According to the feature F6, special information is acquired based on the entry of the game ball into the predetermined ball entry means that is switched between the closed state and the open state, and the special information corresponds to the grant correspondence information. In the configuration in which a privilege is provided to the player, the predetermined ball-entering means is more likely to be in the open state in the predetermined game state than in the other game state. Therefore, the predetermined game state becomes an advantageous game state for the player. In this case, it is possible to obtain the excellent effects already described.

For the configuration of features F1 to F6, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

According to the invention according to the characteristic group F, the following problems can be solved.

Pachinko machines, slot machines, and the like are known as types of gaming machines. In these gaming machines, it is known that an internal lottery is held based on the establishment of a predetermined lottery condition, and a privilege is given to the player according to the result of the internal lottery.

Specifically, the pachinko machine has a configuration in which a winning result is obtained in an internal lottery based on the entry of a game ball into a ball entry section provided in the game area, and a transition to a special game state. A configuration is known in which a transition is made to a special game state based on a game ball entering a part. When the game shifts to the special game state, for example, opening and closing of a ball entry device provided in the game area is started, and game balls are paid out based on the entry into the ball entry device.

Here, in the gaming machines such as those exemplified above, it is necessary to ensure that games are played appropriately, and there is still room for improvement in this respect.

<Characteristic group G>
Feature G1. Game turn control means (main side in the sixth embodiment) that controls the game turn execution means (first special figure display unit 37a, second special figure display unit 37b) so that the game round operation is executed in the game round Function of executing special figure fluctuation start processing, special figure fluctuation processing and special figure determination processing of MPU 82),
Predetermined measuring means (ceiling counter 131) for measuring the number of times the game is executed;
Number of times updating means for updating the number of times of execution of the game times measured by the predetermined measuring means when the game times are executed (function of executing the processing of step S1503 of the main side MPU 82 in the sixth embodiment )and,
When the number of executions of the game times measured by the predetermined measuring means reaches a predetermined trigger number (fixed ceiling number or special ceiling number in the sixth embodiment), a predetermined privilege (second high frequency support mode) a predetermined privilege granting means to grant (a function of executing the processing of step S1506 of the main MPU 82 in the sixth embodiment);
special transition means for shifting the game state to a special game state (opening/closing execution mode) advantageous to the player (function for executing the special electric start processing of the main side MPU 82 in the sixth embodiment);
Predetermined setting processing (main side MPU 82 the processing of step S3109) (the function of executing the processing of step S3109 of the main MPU 82 in the sixth embodiment);
A game machine characterized by comprising:

According to the feature G1, when the number of times of execution of the game rounds measured by the predetermined measuring means reaches the predetermined number of trigger times, the predetermined benefit is provided. It is possible to provide a predetermined privilege. Further, since the information of the predetermined measuring means is set to a specific initial value with the special game state as a trigger, when the number of times of execution of the game rounds executed after the end of the special game state reaches the predetermined number of times, the predetermined privilege is obtained. It is possible to make it be granted. In this case, when the information of the predetermined measuring means is set to a specific initial value triggered by the special game state, the specific initial value is set when the special game state ends. As a result, even in a configuration in which there are a plurality of patterns of game situations immediately before transitioning to the special game state, the process of setting a specific initial value to the predetermined measuring means triggered by the special game state is performed when the special game state ends. It becomes possible to aggregate as processing. Therefore, it is possible to achieve the excellent effects as described above while simplifying the processing configuration.

Feature G2. The special transition means is
Means for shifting the game state to the special game state when the game round ends (function for executing the processing of steps S3002 to S3005 of the main side MPU 82 in the sixth embodiment);
means for shifting the game state to the special game state when an event different from the end of the game round occurs (function for executing distribution processing of the main side MPU 82 in the sixth embodiment); The gaming machine according to feature G1, characterized in that

According to the feature G2, there are cases where the game state is shifted to the special game state after the game round ends, and where the game state is changed to the special game state when an event different from the end of the game round occurs. Thereby, it becomes possible to diversify the pattern of shifting to the special game state. In this case, since the configuration of the feature G1 is provided and a specific initial value is set in the predetermined measuring means when the special game state ends, there are a plurality of patterns of game situations immediately before shifting to the special game state. Even so, the process of setting a specific initial value to the predetermined measuring means triggered by the special game state can be integrated as the process when the special game state ends.

Feature G3. When the supply of operating power is stopped in the middle of the special game state, after the supply of operating power is started, the information of the predetermined measuring means is the specific initial value or an initial value different from the specific initial value Specific setting means (sixth embodiment A gaming machine according to feature G1 or G2, characterized in that it has a function of executing the processing of step S3204 of the main side MPU 82 in .

In the case of a configuration in which a specific initial value is set to the predetermined measuring means when the special game state ends, the operating power is reduced after obtaining a certain amount of profit in the special game state and before the special game state ends. It is assumed that the special game state is forcibly terminated while the information of the predetermined measuring means is maintained by stopping the supply and restarting the supply of the operating power. On the other hand, according to feature G3, when the supply of operating power is stopped in the middle of the special game state, after the supply of operating power is started, the information of the predetermined measuring means is a specific initial value or A specific setting process is executed so that a game cycle is executed in a situation where the initial value is different from the specific initial value. This makes it possible to neutralize the fraudulent act as described above.

Feature G4. When it is specified that the supply of operating power will be stopped, means for executing power failure processing (power failure monitoring processing executed by the main MPU 82 in the sixth embodiment) (main MPU 82 function to monitor power outages),
The gaming machine according to feature G3, wherein the specific setting means executes the specific setting process in the power failure process when the supply of operating power is stopped during the special game state.

According to the feature G4, when the supply of the operating power is stopped in the middle of the special game state, a specific initial value or an initial value different from the specific initial value is set to the predetermined measuring means in the power failure processing. It is easier to identify whether or not the supply of operating power is stopped in the middle of the special game state, compared to the configuration in which the process of setting the initial value to the predetermined measuring means is executed when the supply of operating power is started. Become.

Feature G5. the number of executions of the game rounds ("500" in the sixth embodiment) required until it is specified that the number of executions of the game rounds has reached the predetermined trigger number after the predetermined setting process is executed; It is different from the number of executions of the game rounds ("800" in the sixth embodiment) required until it is specified that the number of executions of the game rounds has reached the predetermined trigger number after the specific setting process is executed. The gaming machine according to feature G3 or G4, characterized in that

According to feature G5, after the special game state ends, the required number of game rounds to be executed until it is specified that the number of game rounds has reached the predetermined number of triggers, and the supply of operating power during the special game state. It is different from the number of game rounds required until it is specified that the number of game rounds has reached the predetermined trigger number after the supply of operating power is restarted in the case of a stop. As a result, after the special game state ends and in the middle of the special game state, the supply of the operating power is stopped and the supply of the operating power is restarted to reduce the number of game rounds required until the predetermined privilege is granted. It is possible to make a difference between after and after.

Feature G6. After the specific setting process is executed, the number of times of execution of the game times required until it is specified that the number of times of execution of the game times has reached the predetermined number of times is greater than the number of times of execution of the game times after the predetermined setting process is executed. The gaming machine according to any one of features G3 to G5, wherein the number of game rounds to be executed is greater than the number of game rounds to be executed until it is specified that the number of game rounds has reached the predetermined trigger number. .

According to feature G6, when the supply of operating power is stopped in the middle of the special game state, and after the supply of operating power is resumed, it is specified that the number of game rounds executed has reached the predetermined trigger number. The required number of game rounds to be executed is greater than the required number of game rounds to be executed until it is specified that the number of game rounds to be executed has reached the predetermined trigger number after the special game state is ended. When the act of illegally stopping the supply of operating power in the middle of the special game state is performed, it is possible to increase the number of times of execution of the necessary game rounds until the predetermined privilege is given thereafter.

Feature G7. Profit granting processing (executed by the main MPU 82 in the sixth embodiment) is performed in a mode corresponding to the set value set to be used from among multiple stages of set values corresponding to the player's advantage. determination process) (function for executing the right/wrong determination process of the main MPU 82 in the sixth embodiment);
When the supply of operating power is started, a settable state in which the setting value to be used can be changed based on the fact that a predetermined related operation (setting change operation) has been performed (setting value update processing is performed) a situation generating means (a function of executing the process of step S117 of the main MPU 82 in the sixth embodiment) that causes the situation to be executed);
with
The game machine according to any one of features G3 to G6, wherein the information of the predetermined measuring means is not changed in the settable state.

According to the feature G7, since the set value to be used is set from among the set values of a plurality of stages corresponding to the player's advantage, the set value that is more advantageous to the player is used. It is expected that In this case, since the information of the predetermined measuring means is not set to the initial value in the settable state, even if the settable state occurs, it is possible to maintain the information of the predetermined measuring means as the information before the supply of the operating power was stopped. Become. The configuration includes the configuration of the feature G3, and when the supply of the operating power is stopped in the middle of the special game state, the information of the predetermined measuring means after the supply of the operating power is started is a specific initial value or A specific setting process is executed so that a game cycle is executed in a situation where the initial value is different from the specific initial value. As a result, after obtaining a certain amount of profit in the special game state and before the special game state ends, the supply of the operating power is stopped and the supply of the operating power is restarted, whereby the information of the predetermined measuring means is obtained. It is possible to nullify the fraudulent act of forcibly ending the special game state while maintaining it.

Feature G8. Means ( a function of executing the processing of step S119 of the main MPU 82 in the sixth embodiment),
Even if the initialization process is executed, the information of the predetermined measurement means is not initialized,
The gaming machine according to any one of features G3 to G7, wherein the information of the predetermined measuring means is not changed even if the initialization processing is executed.

According to the feature G8, in the configuration in which predetermined information is initialized in the predetermined storage means based on the fact that the specific related operation is performed when the supply of the operating power is started, the initialization process is performed. Even if the initialization process is executed, the information of the predetermined measuring means is not set to the initial value. As a result, even if the initialization processing is executed, it is possible to maintain the information of the predetermined measuring means as the information before the supply of the operating power was stopped. The configuration includes the configuration of the feature G3, and when the supply of the operating power is stopped in the middle of the special game state, the information of the predetermined measuring means after the supply of the operating power is started is a specific initial value or A specific setting process is executed so that a game cycle is executed in a situation where the initial value is different from the specific initial value. As a result, after obtaining a certain amount of profit in the special game state and before the special game state ends, the supply of the operating power is stopped and the supply of the operating power is restarted, whereby the information of the predetermined measuring means is obtained. It is possible to nullify the fraudulent act of forcibly ending the special game state while maintaining it.

Feature G9. Profit granting processing (executed by the main MPU 82 in the sixth embodiment) is performed in a mode corresponding to the set value set to be used from among multiple stages of set values corresponding to the player's advantage. determination process) (function for executing the right/wrong determination process of the main MPU 82 in the sixth embodiment);
When the supply of operating power is started, a settable state in which the setting value to be used can be changed based on the fact that a predetermined related operation (setting change operation) has been performed (setting value update processing is performed) a situation generating means (a function of executing the process of step S117 of the main MPU 82 in the sixth embodiment) that causes the situation to be executed);
with
A configuration in which the information of the predetermined measuring means is not changed even if the initialization process is executed, and the information of the predetermined measuring means is not changed in the settable state,
In this game machine, when the supply of operating power is started, a predetermined situation in which both the specific related operation and the predetermined related operation are not performed (the positive determination in step S113 of the main MPU 82 in the sixth embodiment means for setting the information of the predetermined measuring means to the specific initial value or an initial value different from the specific initial value (step S114 of the main MPU 82 in the sixth embodiment The gaming machine according to feature G8, characterized by comprising a function of executing the processing of

According to the feature G9, since the set value to be used is set from among the set values of a plurality of stages corresponding to the player's advantage, the set value that is more advantageous to the player is used. It is expected that In this case, even if the initialization process is executed, the information of the predetermined measurement means is not set to the initial value, and the information of the predetermined measurement means is not set to the initial value in the settable state, so the initialization process is executed. Not only can the information of the predetermined measuring means be maintained at the information before the supply of operating power is stopped, but even if a settable situation occurs, the information of the predetermined measuring means can be kept as the information before the supply of operating power is stopped. can be maintained. In this case, when the supply of the operating power is started, the information of the predetermined measuring means is a specific initial value or the specific initial value when the predetermined situation is that neither the specific related operation nor the predetermined related operation is performed. set to a different initial value than Thus, in a configuration in which the information of the predetermined measuring means is not set to the initial value even if the initialization processing is executed and the information of the predetermined measuring means is not set to the initial value in the settable state, the supply of operating power is started. In such a case, it is possible to set the information of the predetermined measurement means to a specific initial value or an initial value different from the specific initial value.

Feature G10. Variable ball entry means (special electric winning device 32) provided in a game area where game balls flow down and switchable between an open state and a closed state;
Variable ball entry control means (special call start processing, special call open processing, function to execute closing process) and
with
A configuration in which the variable ball entry control is executed in the special game state,
Any of the characteristics G1 to G9, wherein the predetermined setting means executes the predetermined setting process after the variable ball entry control in the special game state is completed and before the end timing of the special game state. 1. The gaming machine according to 1.

According to the feature G10, after the variable ball entry control is completed in the special game state and before the end timing of the special game state, it is possible to set the information of the predetermined measuring means to a specific initial value.

Feature G11. Predetermined ball entry means (special winning device 151 in the sixth embodiment) that allows game balls flowing down the game area to enter;
Acquisition means (function of executing step S2806 of the main side MPU 82 in the sixth embodiment) for acquiring special information (second reservation information) based on the fact that the gaming ball has entered the predetermined ball entry means; ,
Giving determination means (main side a function of executing the propriety determination process of the MPU 82);
a predetermined ball entry control means (a function of executing the normal/universal power control process of the main side MPU 82 in the sixth embodiment) capable of switching the predetermined ball entry means between a closed state and an open state;
with
The game round control means sets a state in which the game round operation is started and the game round operation is ended as a state corresponding to the determination result of the grant determination as one game round, and in each game round, the above-mentioned It is intended to allow the action for game play to be performed,
The predetermined privilege granting means changes the game state to a predetermined game state (second high-frequency support mode) in which the predetermined ball-entering means is more likely to be in the open state than in another game state (normal game state) as the provision of the predetermined privilege. The game machine according to any one of features G1 to G10, characterized in that transition is made.

According to feature G11, when special information is acquired based on the entry of a game ball into a predetermined ball entry means that is switched between a closed state and an open state, and the special information corresponds to grant correspondence information. In the configuration in which a privilege is provided to the player, the predetermined ball-entering means is more likely to be in the open state in the predetermined game state than in the other game state. Therefore, the predetermined game state becomes an advantageous game state for the player. In this case, it is possible to obtain the excellent effects already described.

For the configuration of features G1 to G11, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

According to the invention according to the characteristic group G, the following problems can be solved.

Pachinko machines, slot machines, and the like are known as types of gaming machines. In these gaming machines, it is known that an internal lottery is held based on the establishment of a predetermined lottery condition, and a privilege is given to the player according to the result of the internal lottery.

Specifically, the pachinko machine has a configuration in which a winning result is obtained in an internal lottery based on the entry of a game ball into a ball entry section provided in the game area, and a transition to a special game state. A configuration is known in which a transition is made to a special game state based on a game ball entering a part. When the game shifts to the special game state, for example, opening and closing of a ball entry device provided in the game area is started, and game balls are paid out based on the entry into the ball entry device.

Here, it is necessary for the game machines such as those exemplified above to execute the processing favorably, and there is still room for improvement in this respect.

<Characteristic group H>
Feature H1. Game turn control means (first to fifth, seventh , a function of executing special figure fluctuation start processing, special figure fluctuation processing and special figure determination processing of the main side MPU 82 in the ninth embodiment);
a period determining means for determining the duration of the game cycle (a function for executing a variable display period specifying process of the main side MPU 82 in the first to fifth, seventh, and ninth embodiments);
Specific measuring means for measuring the number of times the game is executed (variation selection state counter 132 in the first to fifth and ninth embodiments, game number counter of the main side RAM 84 in the seventh embodiment),
Specific updating means for updating the execution count of the game rounds measured by the specific measuring means when the game rounds are executed (step S1703 of the main side MPU 82 in the first to fifth and ninth embodiments a function of executing the processing of step S3401 of the main MPU 82 in the seventh embodiment);
The number of executions of the game times measured by the specific measuring means after the occurrence of the measurement reference opportunity (opening/closing execution mode) is the specific reference number of times (500 times in the first to fifth and ninth embodiments, 7th In the embodiment, the mode changing means (first to fifth , the function of executing the processing of step S1705 of the main MPU 82 in the ninth embodiment, the function of executing the processing of steps S3402 to S3405 of the main MPU 82 in the seventh embodiment);
Predetermined privilege granting means (first to fifth, seventh, ninth embodiments) that grants a predetermined privilege (second high-frequency support mode) when a predetermined grant opportunity (time saving result) occurs Time saving of the main MPU 82 the ability to perform configuration processing for results) and
with
A gaming machine characterized in that even if the predetermined award opportunity occurs and the predetermined privilege is granted, the measurement reference opportunity does not occur.

According to the feature H1, since the determination mode of the duration of the game round is changed based on the fact that the number of the game rounds executed after the occurrence of the measurement reference opportunity reaches the specific reference number, the game round is repeated. It is possible to prevent uniformity in the determination mode of the duration of the game cycle when it is executed. In addition, since a predetermined benefit is awarded when a predetermined grant opportunity occurs, the player expects that the predetermined grant opportunity will occur. In this case, even if the predetermined grant opportunity occurs and the predetermined benefit is granted, the measurement reference opportunity does not occur. As a result, it is possible to provide the predetermined benefit in response to the occurrence of the predetermined grant opportunity without affecting the timing of changing the determination mode of the duration of the game round.

Feature H2. Predetermined lottery means (first to fifth, a function of executing pending information acquisition processing and validity determination processing of the main MPU 82 in the seventh and ninth embodiments),
The game round control means controls the game round execution means so as to produce an operation result corresponding to the result of the predetermined lottery process,
The gaming machine according to feature H1, wherein the predetermined grant opportunity is generated when the result of the predetermined lottery process is a predetermined lottery result (time saving result).

According to the feature H2, in a configuration in which a predetermined privilege can be granted when the result of the predetermined lottery process is the predetermined lottery result, the timing of changing the determination mode of the duration of the game cycle is not affected. , it is possible to provide a predetermined privilege based on the result of the predetermined lottery.

Feature H3. Predetermined ball entry means (second operation port 34 in the first to fifth, seventh and ninth embodiments) that allows game balls flowing down the game area to enter,
Acquisition means for acquiring special information (second reservation information) based on the game ball entering the predetermined ball entry means (the step of the main side MPU 82 in the first to fifth, seventh, and ninth embodiments function to execute the processing of S709);
Applicability determination means (property determination processing of the main side MPU 82 in the first to fifth, seventh, and ninth embodiments) that determines whether or not the special information corresponds to the provision correspondence information (property determination processing) function) and
Privilege for awarding a privilege (opening/closing execution mode) to a player based on the granting correspondence result (jackpot result) indicating that the special information corresponds to the granting correspondence information as a result of the granting determination. Giving means (function for executing special electric start processing, special electric open processing, special electric closed processing, and special electric end processing of the main side MPU 82 in the first to fifth, seventh, and ninth embodiments);
Predetermined ball entry control means capable of switching the predetermined ball entry means between a closed state and an open state function) and
with
The game round control means sets a state in which the game round operation is started and the game round operation is ended as a state corresponding to the judgment result of the grant judgment as one game round, and in each game round, the above-mentioned It is intended to allow the action for game play to be performed,
The predetermined privilege granting means changes the game state to a predetermined game state (second high-frequency support mode) in which the predetermined ball-entering means is more likely to be in the open state than in another game state (normal game state). The game machine according to feature H1 or H2, characterized in that the transition is made.

According to feature H3, special information is acquired based on the entry of a game ball into predetermined ball entry means that can be switched between a closed state and an open state, and the special information corresponds to grant correspondence information. In the configuration in which a privilege is provided to the player, the predetermined ball-entering means is more likely to be in the open state in the predetermined game state than in the other game state. Therefore, the predetermined game state becomes an advantageous game state for the player. In this case, the configuration of the feature H1 is provided, and even if the predetermined grant opportunity occurs and the predetermined game state occurs, the measurement reference opportunity does not occur. As a result, it is possible to cause the transition to the predetermined game state in response to the occurrence of the predetermined grant opportunity without affecting the timing of changing the determination mode of the duration of the game round.

Feature H4. Predetermined measuring means (ceiling counter 131) for measuring the number of times the game is executed;
Number of times updating means for updating the number of execution times of the game times measured by the predetermined measuring means when the game times are executed (main side MPU 82 in the first, third to fifth, and seventh embodiments , a function of executing the processing of step S2103 in the main MPU 82 in the second embodiment, and a function of executing the processing of step S3703 in the main MPU 82 in the ninth embodiment);
with
The execution count of the game times measured by the predetermined measuring means from the measurement reference trigger is a predetermined trigger count (fixed ceiling count in the first to fourth and seventh to ninth embodiments, and a fixed ceiling count in the fifth embodiment. 1st ceiling number of times or 2nd ceiling number of times), the predetermined privilege (second high-frequency support mode) or a privilege different from it is granted,
The gaming machine according to any one of features H1 to H3, wherein the specific reference number of times is a number of times less than the predetermined trigger number of times by a predetermined number of times.

According to the feature H4, when the number of times of execution of game rounds measured by the predetermined measuring means from the measurement reference timing reaches the predetermined number of times of timing, a predetermined privilege or a privilege different from it is granted, so that the game rounds are repeatedly executed. It is possible to provide the player with a predetermined privilege or a privilege different from that in response to the fact that the game has been played. In this case, the specific reference number of times is the number of times that is less than the predetermined trigger number of times by a predetermined number of times. As a result, the number of game rounds to be executed measured by the predetermined measuring means from the measurement reference opportunity becomes the predetermined number of occasions, and the number of game rounds in the game rounds before the predetermined number of times before the predetermined privilege or a privilege different from it is granted. It is possible to vary the manner in which the duration is determined. Therefore, by using the change in the determination mode of the duration of the game rounds, it is possible to detect that a situation is approaching in which a predetermined privilege or a privilege different from the predetermined privilege will be granted when the number of times the game rounds are executed reaches the predetermined number of triggers. It is possible to make the player recognize it. In this case, even if the configuration of the feature H1 is provided and the predetermined award opportunity occurs and the predetermined benefit is awarded, the measurement reference opportunity does not occur. As a result, it is possible to prevent the provision of the predetermined benefit due to the occurrence of the predetermined provision opportunity from affecting the game contents as described above.

Feature H5. The mode changing means determines the number of game rounds in the period determining means based on the fact that the number of times the game rounds are executed as measured by the specific measuring means after the occurrence of the measurement reference opportunity reaches the specific reference number of times. The gaming machine according to feature H4, characterized in that, when changing the determination mode of the duration of the game, the average duration of the duration of the game rounds is made longer than before.

According to the feature H5, the number of game rounds executed measured by the predetermined measuring means from the measurement reference trigger becomes the predetermined trigger number, and in the game rounds a predetermined number of times before the predetermined privilege or a privilege different from it is given. Since the average duration of the game rounds is longer than before, the number of times the game rounds are executed reaches a predetermined number of triggers, and the consumption efficiency of the game rounds is reduced before the predetermined privilege or other privilege is granted. Therefore, it is possible to prevent excessive benefits from being granted in a short period of time. In this case, even if the configuration of the feature H1 is provided and the predetermined award opportunity occurs and the predetermined benefit is awarded, the measurement reference opportunity does not occur. As a result, it is possible to prevent the provision of the predetermined benefit due to the occurrence of the predetermined provision opportunity from affecting the game contents as described above.

Feature H6. A plurality of types of the specific reference number of times are set,
Each time the number of executions of the game times measured by the specific measuring means after the occurrence of the measurement reference opportunity reaches the specific reference number of times, the mode changing means determines the duration of the game times determined by the period determination means. The game according to any one of the characteristics H1 to H3, characterized in that the determination mode of is changed to a predetermined determination mode (the function of executing the processing of steps S3401 to S3405 of the main MPU 82 in the seventh embodiment) machine.

According to feature H6, each time the number of times the game is played after the occurrence of the measurement reference opportunity reaches one of the plurality of types of specific reference times, the determination mode of the duration of the game time is changed to the predetermined determination mode. Therefore, it is possible to regularly and repeatedly generate a situation in which the player pays attention to the contents of the game round. In this case, even if the configuration of the feature H1 is provided and the predetermined award opportunity occurs and the predetermined benefit is awarded, the measurement reference opportunity does not occur. As a result, it is possible to prevent the provision of the predetermined benefit due to the occurrence of the predetermined provision opportunity from affecting the game contents as described above.

Feature H7. The mode changing means determines that the situation when the number of executions of the game times measured by the specific measuring means after the occurrence of the measurement reference opportunity reaches the specific reference number of times is a specific situation (second high-frequency support mode), the gaming machine according to any one of features H1 to H6, wherein the period determining means does not change the mode of determining the duration of the game round.

According to feature H7, in the case of the specific situation, even if the number of game rounds executed after the occurrence of the measurement reference opportunity reaches the specific reference number, the mode of determining the duration of the game round is not changed. In a situation where it is not preferable to change the determination mode of the duration of the game cycle, it is possible to prevent the determination mode of the duration of the game cycle from being changed.

Feature H8. The mode changing means determines the number of game times in the period determining means based on the fact that the number of times of execution of the game times measured by the specific measuring means after the occurrence of the measurement reference opportunity reaches the specific reference number of times. When changing the determination mode of the duration of the game round, the average period of the duration of the game round is made longer than before,
The specific situation is a situation in which the duration of the game round is determined by the period determining means in such a manner that the average period of the duration of the game round is shorter than in the normal game state. The gaming machine according to characterizing feature H7.

According to the feature H8, when the number of times the game is executed after the occurrence of the measurement reference opportunity reaches the specific reference number of times, the average period of the duration of the game is longer than before. It is possible to create a situation in which a flashy performance is generated as the performance of the times. In this case, in a situation where the average duration of the game rounds is shorter than in the normal game state, if the number of game rounds executed after the occurrence of the measurement reference opportunity reaches the specific reference number of times. The manner in which the duration of the game cycle is determined is not changed. Thereby, it becomes possible to give priority to a situation in which the efficiency of digestion of game rounds is high.

For the configuration of features H1 to H8, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

<Characteristic group I>
Features I1. Predetermined ball entry means (second operating port 34 in the eighth embodiment) that allows game balls flowing down the game area to enter;
Acquisition means (function of executing step S709 of main side MPU 82 in the eighth embodiment) for acquiring special information (second reservation information) based on the game ball entering the predetermined ball entry means; ,
Attachment determination means (function for executing the appropriateness determination process of the main side MPU 82 in the eighth embodiment) that performs attachment determination (appropriateness determination processing) as to whether the special information corresponds to the attachment correspondence information;
Privilege for awarding a privilege (opening/closing execution mode) to a player based on the granting correspondence result (jackpot result) indicating that the special information corresponds to the granting correspondence information as a result of the granting determination. Giving means (function for executing special electric start processing, special electric open processing, special electric closed processing, and special electric end processing of the main MPU 82 in the eighth embodiment);
A game cycle action is started, and the game cycle action is ended as a state corresponding to the determination result of the grant determination as one game cycle, and the game cycle motion is performed in each game cycle. To the game execution means (first special figure display unit 37a, second special figure display unit 37b) game round control means (main side MPU 82 in the eighth embodiment special figure fluctuation start processing, special figure fluctuation processing and a function to execute special figure confirmation processing),
period determination means for determining the duration of the game cycle (function for executing processing for specifying the variable display period of the main side MPU 82 in the eighth embodiment);
a predetermined ball entry control means (a function of executing the normal/universal electric power control process of the main side MPU 82 in the eighth embodiment) capable of switching the predetermined ball entry means between a closed state and an open state;
a predetermined transition means for shifting the game state to a predetermined game state (second high-frequency support mode) in which the predetermined ball-entering means is more likely to be in the open state than in another game state (normal game state);
Specific measuring means (variation selection state counter 132 in the eighth embodiment) for measuring the number of times the game is executed;
When the number of execution times of the game times measured by the specific measuring means after the predetermined game state is completed reaches a specific reference number of times (50 times in the eighth embodiment), the period determining means mode changing means for changing the determination mode of the duration of the game round (function for executing the processing of steps S1705 and S3512 of the main side MPU 82 in the eighth embodiment);
A game machine characterized by comprising:

According to feature I1, when the special information is acquired based on the entry of the game ball into the predetermined ball entry means which is switched between the closed state and the open state, and the special information corresponds to the grant correspondence information. In the configuration in which a privilege is provided to the player, the predetermined ball-entering means is more likely to be in the open state in the predetermined game state than in the other game state. Therefore, the predetermined game state becomes an advantageous game state for the player. In this case, since the determination mode of the continuation period of the game round is changed based on the fact that the number of game rounds executed after the predetermined game state ends reaches the specific reference number, the predetermined game state ends. After that, it is possible to change the determination mode of the duration of the game rounds at the timing when the specific reference number of game rounds are completed. Therefore, it is possible to prevent uniformity in the manner of determining the duration of game rounds, and to provide the player with unexpectedness.

Feature I2. The predetermined transition means, the result of the grant determination, based on the fact that the special information has become a predetermined response result (time saving result) that corresponds to the predetermined correspondence information, without granting the privilege, The game machine according to feature I1, characterized in that the game state is shifted to the predetermined game state.

According to the feature I2, it is possible to create a situation in which the game state shifts to a predetermined game state without awarding a privilege, based on the result of grant determination. Further, since the configuration of the feature I1 is provided, the determination mode of the duration of the game round is changed based on the number of the game rounds executed after the end of the predetermined game state reaches the specific reference number of times. It is possible to change the determining mode of the duration of the game round at the timing when the specific reference number of game rounds is completed after the predetermined game state is completed. Therefore, it is possible to prevent uniformity in the manner of determining the duration of game rounds, and to provide the player with unexpectedness.

Feature I3. The mode changing means determines that the number of game rounds in the period determining means is determined based on the number of times the game rounds are executed as measured by the specific measuring means after the end of the predetermined game state reaches the specified reference number of times. The gaming machine according to feature I1 or I2, characterized in that, when changing the determination mode of the duration of the game, the average duration of the duration of the game cycle is made longer than before.

According to the feature I3, when the number of times the game is played after the predetermined game state ends reaches the specific reference number, the average period of the duration of the game is longer than before, so that the predetermined game is played. When the state occurs, it is possible to reduce the consumption efficiency of game rounds after that, and it is possible to prevent excessive benefits from being given in a short period of time.

Feature I4. The mode changing means determines a specific situation (second high-frequency support mode), the gaming machine according to any one of features I1 to I3, characterized in that the mode of determining the duration of the game cycle in the period determining means is not changed.

According to feature I4, in the specific situation, even if the number of game rounds executed after the end of the predetermined game state reaches the specific reference number, the determination mode of the duration of the game round is not changed. In a situation where it is not preferable to change the determination mode of the duration of the game cycle, it is possible to prevent the determination mode of the duration of the game cycle from being changed.

Feature I5. The mode changing means determines that the number of game rounds in the period determining means is determined based on the number of times of execution of the game rounds measured by the specific measuring means after the end of the predetermined game state reaches the specified reference number of times. When changing the determination mode of the duration of the game round, the average period of the duration of the game round is made longer than before,
The specific situation is a situation in which the duration of the game round is determined by the period determining means in such a manner that the average period of the duration of the game round is shorter than in the normal game state. The gaming machine according to characterizing feature I4.

According to the feature I5, when the number of times the game is played after the predetermined game state ends reaches the specific reference number of times, the average period of the duration of the game is made longer than before. It is possible to create a situation in which a flashy performance is generated as the performance of the times. In this case, in a situation where the average duration of the game rounds is shorter than in the normal game state, if the number of game rounds executed after the predetermined game state ends reaches the specific reference number of times. The manner in which the duration of the game cycle is determined is not changed. Thereby, it becomes possible to give priority to a situation in which the efficiency of digestion of game rounds is high.

For the configuration of features I1 to I5, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

<Characteristic group J>
Feature J1. Predetermined ball entry means (second operation port 34 in the ninth embodiment) that allows game balls flowing down the game area to enter;
Acquisition means (function of executing step S709 of main side MPU 82 in the ninth embodiment) for acquiring special information (second reservation information) based on the game ball entering the predetermined ball entry means; ,
Attachment determination means (function for executing the appropriateness determination process of the main side MPU 82 in the ninth embodiment) that performs attachment determination (appropriateness determination processing) as to whether the special information corresponds to the attachment correspondence information;
Privilege for awarding a privilege (opening/closing execution mode) to a player based on the granting correspondence result (jackpot result) indicating that the special information corresponds to the granting correspondence information as a result of the granting determination. Giving means (function for executing special electric start processing, special electric open processing, special electric closed processing, and special electric end processing of the main MPU 82 in the ninth embodiment);
A game cycle action is started, and the game cycle action is ended as a state corresponding to the determination result of the grant determination as one game cycle, and the game cycle motion is performed in each game cycle. To the game execution means (first special figure display unit 37a, second special figure display unit 37b) game round control means (main side MPU 82 in the ninth embodiment special figure fluctuation start processing, special figure fluctuation processing and a function to execute special figure confirmation processing),
Predetermined ball entry control means capable of switching the predetermined ball entry means between a closed state and an open state (a function of executing a normal/universal electric power control process of the main side MPU 82 in the ninth embodiment);
A predetermined game state in which the predetermined ball-entering means is more likely to be in the open state than in another game state (normal game state) without giving the privilege based on the occurrence of a predetermined transition opportunity (time saving result, ceiling time saving). (second high-frequency support mode) predetermined state setting means (function for executing the processing of steps S3604 and S3705 of the main MPU 82 in the ninth embodiment);
with
A gaming machine characterized in that the manner in which the predetermined game state is executed thereafter may differ according to the game state in which the predetermined transition opportunity has occurred.

According to feature J1, special information is acquired based on the entry of a game ball into a predetermined ball entry means that is switched between a closed state and an open state, and the special information corresponds to grant correspondence information. In the configuration in which a privilege is provided to the player, the predetermined ball-entering means is more likely to be in the open state in the predetermined game state than in the other game state. Therefore, the predetermined game state becomes an advantageous game state for the player. Further, when the predetermined game state is entered based on the occurrence of the predetermined transition opportunity, the predetermined game state is entered without giving the privilege. This makes it possible to give the player a sense of surprise. In this case, the manner in which the predetermined game state is executed thereafter may differ depending on the game situation in which the predetermined transition opportunity has occurred. As a result, it is possible to diversify the manner in which the predetermined game state is executed, and to improve the interest in the game.

Feature J2. The execution mode of the predetermined game state may be different between when the predetermined transition opportunity occurs in the predetermined game state and when the predetermined transition opportunity occurs in a situation other than the predetermined game state. The gaming machine according to feature J1.

According to the feature J2, depending on whether or not the predetermined transition opportunity has occurred in the predetermined game state, since the transition mode of the predetermined game state after that can be different, not only whether the predetermined transition opportunity occurs, It is possible to draw the player's attention to whether or not the predetermined transition opportunity occurs in the predetermined game state.

Feature J3. As the predetermined game state, a first predetermined game state (first high-frequency support mode) and a second predetermined game state (first predetermined game state) in which the predetermined ball entry means is in the open state with a different frequency ( 2nd high frequency support mode) and exists,
The predetermined state setting means is
A first predetermined state setting means (in step S3603 of the main MPU 82 in the ninth embodiment) for continuing the first predetermined game state when the predetermined transition opportunity occurs in the first predetermined game state function to make an affirmative judgment) and
Second predetermined state setting means (main in the ninth embodiment) for making the subsequent game state to be the second predetermined game state when the predetermined transition opportunity occurs in a game state that is not the first predetermined game state a function of executing the process of step S3604 of the side MPU 82);
The gaming machine according to feature J1 or J2, characterized by comprising:

According to the feature J3, there are a first predetermined game state as the predetermined game state and a second predetermined game state in which the predetermined ball-entering means is opened in a different frequency from the first predetermined game state. Thus, it is possible to diversify the manner in which the predetermined game state is executed. Further, when the predetermined transition opportunity occurs in the first predetermined game state, the first predetermined game state is continued, and when the predetermined transition opportunity occurs in the game state which is not the second predetermined game state, the subsequent game state is changed. This is the second predetermined game state. As a result, it is possible to make the player pay attention to whether or not the predetermined transition opportunity occurs in the first predetermined game state.

Feature J4. The gaming machine according to feature J3, wherein the predetermined ball-entering means is in the open state more frequently in the first predetermined game state than in the second predetermined game state.

According to feature J4, in a configuration in which the predetermined ball-entering means is in the open state more frequently in the first predetermined game state than in the second predetermined game state, when a predetermined transition opportunity occurs in the first predetermined game state, By continuing the first predetermined game state, it is possible to give priority to the continuation of the first predetermined game state, which is advantageous to the player.

Feature J5. Means (9th A function to execute the subtraction process of the time saving state counter 134 of the main side MPU 82 in the embodiment),
When the predetermined state setting means shifts to the predetermined game state based on the occurrence of the predetermined transition opportunity, the end reference number of times of the predetermined game state is a predetermined number of times (first time reduction continuation number, second time reduction number of continuations),
In the game machine, when the predetermined transition opportunity occurs in the predetermined game state, the remaining number of times required to reach the end reference number of times of the predetermined game state at that time and the predetermined number of times is greater. Means for making the number of times on the side become the reference number of times for ending the predetermined game state after that (the function of executing the processing of steps S3605 to S3610 and steps S3706 to S3708 of the main MPU 82 in the ninth embodiment ), the gaming machine according to any one of features J1 to J4.

According to the characteristic J5, when a predetermined transition opportunity occurs in a predetermined game state, it is possible to set the subsequent standard number of ending times of the predetermined game state to be an advantageous number for the player.

Feature J6. The predetermined transition opportunity, the result of the grant determination, characterized in that it occurs based on a predetermined corresponding result (time saving result) that the special information corresponds to the predetermined corresponding information characteristic J1 The game machine according to any one of J5.

According to the feature J6, it is possible to create a situation in which the game state shifts to a predetermined game state without awarding a privilege, based on the result of grant determination. In this case, it is possible to obtain excellent effects as described above.

Feature J7. Predetermined measuring means (ceiling counter 131) for measuring the number of times the game is executed;
Number of times updating means for updating the number of execution times of the game times measured by the predetermined measuring means when the game times are executed (function of executing the processing of step S3703 of the main side MPU 82 in the ninth embodiment )and,
with
1. Any one of the features J1 to J6, wherein the predetermined transition opportunity occurs when the number of executions of the game rounds measured by the predetermined measuring means reaches a predetermined number of triggers (fixed ceiling number of times). The gaming machine described in .

According to the feature J7, when the number of game rounds measured by the predetermined measuring means reaches the predetermined trigger number, the predetermined game state is entered. It is possible to shift to a game state. In this case, it is possible to obtain excellent effects as described above.

For the configuration of features J1 to J7, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

According to the inventions according to the characteristic group H, the characteristic group I, and the characteristic group J, the following problems can be solved.

Pachinko machines, slot machines, and the like are known as types of gaming machines. In these gaming machines, it is known that an internal lottery is held based on the establishment of a predetermined lottery condition, and a privilege is given to the player according to the result of the internal lottery.

Specifically, the pachinko machine has a configuration in which a winning result is obtained in an internal lottery based on the entry of a game ball into a ball entry section provided in the game area, and a transition to a special game state. A configuration is known in which a transition is made to a special game state based on a game ball entering a part. When the game shifts to the special game state, for example, opening and closing of a ball entry device provided in the game area is started, and game balls are paid out based on the entry into the ball entry device.

Here, in gaming machines such as those exemplified above, it is necessary to improve the interest in games, and there is still room for improvement in this respect.

<Characteristic group K>
Features K1. Acquisition means for acquiring special information (first reservation information, second reservation information) based on the occurrence of an acquisition opportunity (in the first to fifth and seventh to ninth embodiments, steps S704 and The function of executing the processing of step S709, the function of executing the processing of steps S2803 and S2806 in the main MPU 82 in the sixth embodiment, and the function of steps S3801 and S3901 in the main MPU 82 in the tenth to twelfth embodiments. function to perform processing) and
Predetermined determination means (function for executing the validity determination process of the main MPU 82 in the first to twelfth embodiments) for performing a predetermined determination (validity determination process) as to whether or not the special information corresponds to the predetermined correspondence information; ,
Based on the fact that the result of the predetermined determination is a predetermined correspondence result (time saving result) that the special information corresponds to the predetermined correspondence information, a predetermined privilege for the player (second high frequency support mode) (a function of executing setting processing for the time saving result of the main side MPU 82 in the first to twelfth embodiments) that provides the
The variable display of the predetermined pattern is started, and the variable display of the predetermined pattern is terminated as a result of the stop corresponding to the determination result of the predetermined determination as one game cycle, and the variable display of the predetermined pattern is performed in each game cycle. Predetermined display control means (main side MPU 82 in the first to twelfth embodiments special figure fluctuation Function to execute start processing, processing during special figure fluctuation and processing during special figure determination),
Specific display control means (sound and light side MPU 93, display side MPU 103) for controlling the display of the specific display means (symbol display device 41) so that the variable display of the specific patterns (symbols in the pattern rows Z1 to Z3) is executed in the game cycle )and,
with
The predetermined display means has a narrower display range than the specific display means,
The predetermined privilege granting means is a grantable situation (first to eighth In the embodiment of the normal game state, in the ninth to twelfth embodiments the normal game state or time-saving state) based on the result of the predetermined determination is the predetermined corresponding result to give the predetermined privilege, the A configuration in which the predetermined privilege is not granted when the result of the predetermined determination in the restricted situation is the predetermined response result,
The predetermined display control means stops the variable display of the predetermined pattern on the predetermined display means when the result of the predetermined determination is the predetermined response result in either the grantable state or the restricted state. As a result, a predetermined stop result ("4" or "5") is displayed,
The specific display control means is
When the result of the predetermined determination is the predetermined correspondence result in the grantable situation, the specific stop result (“1.23” or “3.4. 1”) is displayed (a function of executing the processing of step S1408 of the sound and light side MPU 93 in the first to twelfth embodiments),
When the result of the predetermined determination is the predetermined correspondence result in the restricted situation, the result of the predetermined determination may be displayed as a result of stopping the variable display of the specific pattern on the specific display means when the result of the predetermined determination is a wrong result. Restriction handling means (function for executing the process of step S1410 of the sound and light side MPU 93 in the first to twelfth embodiments) for displaying a predetermined out-of-reach result (combination of non-reach out-of-range symbols);
A game machine characterized by comprising:

According to the feature K1, since the predetermined privilege is given based on the result of the predetermined determination becoming the predetermined correspondence result, the player expects that the result of the predetermined determination becomes the predetermined correspondence result. In addition, while the predetermined privilege is granted based on the result of the predetermined determination in the grantable state becoming the predetermined response result, the predetermined benefit is not granted even if the result of the predetermined determination becomes the predetermined response result in the restricted state. . Thereby, it becomes possible to restrict the situation in which the predetermined privilege is granted.

In this case, in the specific display means having a wider display range than the predetermined display means, when the result of the predetermined determination is the predetermined corresponding result in the grantable situation, the specific stop result is displayed as the stop result of the variable display of the specific pattern. On the other hand, when the result of the predetermined judgment becomes the predetermined corresponding result in the restricted situation, the predetermined failure which can be displayed when the result of the predetermined judgment is the result of the deviation as the result of stopping the variable display of the specific pattern. Results are displayed. Thereby, when the predetermined privilege is granted, it is possible to make it conspicuous that the predetermined privilege is granted, and when the predetermined privilege is not granted even though the result of the predetermined determination is the predetermined correspondence result It becomes possible to make it inconspicuous.

On the other hand, the predetermined display means displays a predetermined stop result as a stop result of the variable display of the predetermined pattern when the result of the predetermined determination is the predetermined response result regardless of whether it is the grantable state or the restricted state. be done. As a result, it becomes possible for the manager of the game hall to easily visually confirm that the result of the predetermined determination has become the predetermined corresponding result. Further, since the display range of the predetermined display means is narrower than that of the specific display means, even if the predetermined stop result is displayed by the predetermined display means in the restricted situation, the result of the predetermined determination becomes the predetermined response result in the restricted situation. becomes difficult for the player to notice.

Feature K2. The specific display control means controls a special display area in the specific display means when the result of the predetermined determination in the restricted situation is the predetermined response result and when the result of the predetermined determination is the deviation result. It is characterized by having a display difference means (a function of executing the processing of steps S1412 and S1413 of the sound and light side MPU 93 in the first to twelfth embodiments) that makes the display content of the (state suggesting area 43) different. The gaming machine according to feature K1.

According to feature K2, when the result of the predetermined judgment is the predetermined correspondence result in the restricted situation, even if the predetermined deviation result is displayed as the result of stopping the variable display of the specific picture on the specific display means, the special display means is not allowed to display the specified result. Since the display content in the display area is different from the display content when the result of the predetermined determination is out of range, the manager of the gaming hall can confirm that the specified out-of-range result is displayed on the specific display means. It is also possible to grasp from the display contents of the specific display means whether or not it is triggered by the predetermined response result in .

Feature K3. As the predetermined correspondence result, there are at least a first predetermined correspondence result (first time saving result) and a second predetermined correspondence result (second time saving result),
The predetermined privilege granting means differs in the content of the predetermined privilege to be granted when the result of the predetermined determination is the first predetermined response result and when the result of the predetermined determination is the second predetermined response result. and
The predetermined display control means makes the content of the predetermined stop result different between when the result of the predetermined determination is the first predetermined response result and when the result of the predetermined determination is the second predetermined response result. and
The grantable response means makes the content of the specific stop result different between when the result of the predetermined determination in the grantable situation is the first predetermined response result and when the result is the second predetermined response result. is a
The restriction handling means, regardless of whether the result of the predetermined determination in the restriction situation is the first predetermined response result or the second predetermined response result, the As a result of stopping the variable display of the specific pattern, the predetermined deviation result is displayed,
The display differing means differentiates the display contents of the special display area depending on whether the result of the predetermined determination in the restricted situation is the first predetermined response result or the second predetermined response result. The gaming machine according to feature K2, characterized in that the game machine is a

According to the characteristic K3, when the result of the predetermined determination in the assignable situation is the first predetermined correspondence result and the case when the second predetermined correspondence result is obtained, the result of stopping the variable display of the specific pattern on the specific display means is Due to the difference in the content of a certain specific stop result, it is possible to suggest to the player the content of the predetermined privilege to be given thereafter by the content of the specific stop result. On the other hand, regardless of whether the result of the predetermined determination in the restricted situation is the first predetermined response result or the second predetermined response result, as a result of stopping the variable display of the specific pattern on the specific display means Since the predetermined deviation result is displayed, it is possible to make it difficult for the player to recognize that the predetermined correspondence result has been obtained, including the type of the predetermined correspondence result. In addition, even in this case, the display contents of the special display area on the specific display means differ depending on whether the result of the predetermined judgment is the first predetermined correspondence result or the second predetermined correspondence result, so the game The manager of the hall can also grasp from the display contents of the specific display means whether or not it is triggered by any of the prescribed response results in the restricted situation when the result of the specified deviation is displayed on the specific display means. becomes.

Feature K4. The gaming machine according to feature K2 or K3, wherein the display range of the special display area in the specific display means is narrower than the display range of the display area in which the specific pattern is displayed in the specific display means.

According to the feature K4, when the result of the predetermined determination in the restricted situation is the predetermined corresponding result, the display content of the special display area on the specific display means is different from the display when the result of the predetermined determination is not the result. Even if the configuration is substantial, since the display range of the special display area in the specific display means is narrower than the display range of the display area in which the specific pattern is displayed in the specific display means, the special display area is not conspicuous to the player. It becomes possible to do so.

Feature K5. Predetermined ball entry means (second operation port 34 in the eighth embodiment) that allows game balls flowing down the game area to enter;
a predetermined ball entry control means (a function of executing the normal/universal electric power control process of the main side MPU 82 in the eighth embodiment) capable of switching the predetermined ball entry means between a closed state and an open state;
with
The acquisition opportunity is a configuration that occurs based on the game ball entering the predetermined ball entering means,
The predetermined privilege granting means changes the game state to a predetermined game state (second high-frequency support mode) in which the predetermined ball-entering means is more likely to be in the open state than in another game state (normal game state) as the provision of the predetermined privilege. The gaming machine according to any one of features K1 to K4, characterized in that transition is made.

According to the feature K5, when the special information is acquired based on the entry of the game ball into the predetermined ball entry means which is switched between the closed state and the open state, and the special information corresponds to the predetermined correspondence information. can shift to a predetermined game state. In the predetermined game state, the predetermined ball-entering means is more likely to be in the open state than in the separate game state. Therefore, the predetermined game state becomes an advantageous game state for the player. In this case, it is possible to obtain the excellent effects already described.

Feature K6. A specific privilege (opening/closing execution mode) is given to the player based on the fact that the result of the predetermined determination is a grant correspondence result (jackpot result) that the special information corresponds to the grant correspondence information. Privilege giving means (function for executing special electric start processing, special electric open processing, special electric closed processing, and special electric end processing of the main MPU 82 in the eighth embodiment),
Characteristic feature K5 characterized in that the predetermined privilege provision means shifts the game state to the predetermined game state without providing the specific privilege based on the fact that the result of the predetermined determination is the predetermined correspondence result. The gaming machine described in .

According to the characteristic K6, when the result of the predetermined determination is the predetermined correspondence result, the game state is shifted to the predetermined game state without giving the specific privilege. This makes it possible to give the player a sense of surprise.

Feature K7. A specific privilege (opening/closing execution mode) is given to the player based on the fact that the result of the predetermined determination is a grant correspondence result (jackpot result) that the special information corresponds to the grant correspondence information. Privilege giving means (function for executing special electric start processing, special electric open processing, special electric closed processing, and special electric end processing of the main MPU 82 in the eighth embodiment),
Any of the features K1 to K6, wherein the restricted situation is a specific game state (high-probability state) in which the probability that the result of the predetermined determination is the given corresponding result is higher than that of another game state. 1. The gaming machine according to 1.

According to the feature K7, in the specific game state in which the probability that the result of the predetermined determination becomes the granting corresponding result is higher than that in the separate game state, even if the result of the predetermined determination becomes the predetermined corresponding result, the predetermined privilege is not granted. It becomes possible to In this case, it is possible to obtain the excellent effects already described.

For the configuration of features K1 to K7, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

According to the invention according to the characteristic group K, the following problems can be solved.

Pachinko machines, slot machines, and the like are known as types of gaming machines. In these gaming machines, it is known that an internal lottery is held based on the establishment of a predetermined lottery condition, and a privilege is given to the player according to the result of the internal lottery.

Specifically, the pachinko machine has a configuration in which a winning result is obtained in an internal lottery based on the entry of a game ball into a ball entry section provided in the game area, and a transition to a special game state. A configuration is known in which a transition is made to a special game state based on a game ball entering a part. When the game shifts to the special game state, for example, opening and closing of a ball entry device provided in the game area is started, and game balls are paid out based on the entry into the ball entry device.

Here, in the gaming machines such as those exemplified above, it is necessary that the game be played favorably, and there is still room for improvement in this regard.

<Characteristic group L>
Feature L1. First acquisition means (10th to 12th implementation) for acquiring the first special information (first reservation information) based on the occurrence of the first acquisition opportunity (entering the game ball into the first operation port 33) a function of executing the processing of step S3801 of the main MPU 82 in the form);
First provision determination whether or not the first special information is information corresponding to provision of a specific privilege (opening/closing execution mode) (first special figure special electric control processing of the main side MPU 82 in the tenth to twelfth embodiments In the special figure fluctuation start process in the first special figure special electric control process of the main side MPU 82 in the 10th to 12th embodiments (step S4005 of the special figure fluctuation start process in step S4005) function to perform processing) and
The first special information is triggered by starting the first game-play motion and terminating the first game-play motion as a state corresponding to the result of the first grant determination. First game control means (10th to 12th embodiments in A function of executing special figure fluctuation start processing, special figure fluctuation processing and special figure determination processing in the first special figure special electric control processing of the main side MPU 82);
Second acquisition means (tenth to twelfth embodiments) for acquiring the second special information (second pending information) based on the occurrence of the second acquisition opportunity (entering the game ball into the special winning device 151) a function of executing the processing of step S3901 of the main MPU 82 in
Second provision determination whether the second special information is information corresponding to the provision of the specific privilege (special figure fluctuation in the second special figure special electric control process of the main side MPU 82 in the tenth to twelfth embodiments Step S4005 of the start process) Executes the second grant determination means (the second special figure special electric control process of the main side MPU 82 in the tenth to twelfth embodiments Executes the process of step S4005 in the special figure variation start process function) and
The second special information is triggered by starting the second game-play motion and ending the second game-play motion as a state corresponding to the result of the second grant determination. Second game control means (10th to 12th embodiments in A function of executing special figure fluctuation start processing, special figure fluctuation processing and special figure determination processing in the second special figure special electric control processing of the main side MPU 82);
Predetermined transition means for shifting the game state to a predetermined game state (time saving state) (a function of executing the setting process for the time saving result of the main side MPU 82 in the tenth to twelfth embodiments and the subtraction process of the ceiling counter 131);
The total number of game rounds triggered by the first special information and the game round triggered by the second special information executed in the predetermined game state is the number of termination triggers (first time reduction continuation number, second time reduction continuation number of times), a predetermined termination means for terminating the predetermined game state (a function of executing the end determination processing of the time saving state of the main side MPU 82 in the tenth to twelfth embodiments),
with
At least a part of the period during which the game round triggered by the first special information and at least a part of the period during which the game round triggered by the second special information may overlap. and
The predetermined ending means is configured such that when one of the game round triggered by the first special information and the game round triggered by the second special information ends, the total number of times becomes the ending trigger number. However, if the other game round that has started before the one game round is started, the predetermined game state is ended after the other game round is finished. game machine.

According to the feature L1, since the game rounds triggered by the first special information and the game rounds triggered by the second special information can be executed in duplicate, it is possible to increase the overall execution frequency of the game rounds. becomes. In this case, when one of the game rounds triggered by the first special information and the game round triggered by the second special information ends, even if the total number of times becomes the number of times of termination opportunity, If the other game round that has started before the second game round is started, the predetermined game state ends after the other game round ends. As a result, the continuation period of the game cycle started in a situation where the total number of times in the predetermined game state is one less than the end trigger count, and the special information on the side different from the special information that triggered the game cycle are used as triggers. The number of game rounds executed until the predetermined game state is completed is varied according to the start timing of the game round and the duration of the game rounds, and the interest in the game can be improved.

Feature L2. Period determining means for making an average period of duration of game rounds triggered by the second special information in the predetermined game state shorter than an average period of duration of game rounds triggered by the first special information. (The function of executing the process of specifying the variable display period of the main side MPU 82 in the tenth to twelfth embodiments).

According to the feature L2, in the predetermined game state, the game rounds are repeated triggered by the second special information in which the average period of the continuous period of the game rounds is relatively short, thereby improving the digestion efficiency of the game rounds. can be increased. On the other hand, in a situation where the total number of times in the predetermined game state is one less than the end trigger number, the game round is started triggered by the first special information in which the average period of the continuous period of the game round is relatively long. By doing so, the predetermined game state continues until the game cycle triggered by the first special information ends. By executing the game rounds triggered by the second special information while the game rounds triggered by the first special information are being executed, the number of game rounds executed in the predetermined game state is reduced. It is possible to make the total number of times greater than the number of termination opportunities.

Feature L3. The period determination means is means for determining by lottery the duration of the game round triggered by the first special information started in a situation where the total number of times in the predetermined game state is one less than the end trigger number of times ( The gaming machine according to feature L2, characterized by comprising a function of executing the processing of steps S4809 to S4811 of the main side MPU 82 in the twelfth embodiment.

According to the feature L3, when a game round triggered by the first special information is started in a situation where the total number of times in the predetermined game state is one less than the end trigger number, the duration of the game round is determined by lottery. Therefore, a player who wants to increase the number of times of the game to be executed in the predetermined game state expects that a long period is selected as the continuation period of the game with the first special information as a trigger.

Feature L4. A first ball entry means (first operation opening 33) that allows the game ball to enter when the game ball flows down the first area (left area PA2);
Second ball entry means (special winning device 151) that allows the game ball to enter when the game ball flows down the second area (right area PA3);
with
The first acquisition opportunity occurs when a game ball enters the first ball entering means,
The gaming machine according to any one of features L1 to L3, wherein the second acquisition opportunity occurs when a game ball enters the second ball entering means.

According to the feature L4, the player can select which of the game round triggered by the first special information and the game round triggered by the second special information is to be executed in the predetermined game state. In particular, in the configuration having the feature L2 or L3, the game round triggered by the second special information is repeated until the total number of times in the predetermined game state is one less than the end trigger number, When the total number of times in the predetermined game state is one less than the number of end trigger times, the game round triggered by the first special information is executed, and the game round triggered by the first special information is executed. After the start of the game, it is possible to execute as many game rounds as possible by the time the predetermined game state ends by executing the game round triggered by the second special information. Become.

Feature L5. Predetermined ball entry means (special winning device 151 in the tenth to twelfth embodiments) that allows game balls flowing down the game area to enter,
Predetermined ball entry control means capable of switching the predetermined ball entry means between a closed state and an open state (a function of executing a normal/universal electric power control process of the main side MPU 82);
with
The second acquisition opportunity occurs when a game ball enters the predetermined ball entering means,
The game machine according to any one of features L1 to L4, wherein the predetermined game state is a game state in which the predetermined ball-entering means is more likely to be in the open state than in another game state (normal game state).

According to the feature L5, the second special information is acquired based on the game ball entering the predetermined ball entering means that is switched between the closed state and the open state, and the second special information is used to give the specific privilege. In the configuration in which it is determined whether or not it is corresponding information, in the predetermined game state, the predetermined ball-entering means is more likely to be in the open state than in the other game state. Therefore, the predetermined game state becomes an advantageous game state for the player. In this case, it is possible to obtain the excellent effects already described.

For the configuration of features L1 to L5, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

According to the invention according to the characteristic group L, the following problems can be solved.

Pachinko machines, slot machines, and the like are known as types of gaming machines. In these gaming machines, it is known that an internal lottery is held based on the establishment of a predetermined lottery condition, and a privilege is given to the player according to the result of the internal lottery.

Specifically, the pachinko machine has a configuration in which a winning result is obtained in an internal lottery based on the entry of a game ball into a ball entry section provided in the game area, and a transition to a special game state. A configuration is known in which a transition is made to a special game state based on a game ball entering a part. When the game shifts to the special game state, for example, opening and closing of a ball entry device provided in the game area is started, and game balls are paid out based on the entry into the ball entry device.

Here, in gaming machines such as those exemplified above, it is necessary to improve the interest in games, and there is still room for improvement in this respect.

<Characteristic group M>
Feature M1. First acquisition means (11th, 12th implementation a function of executing the processing of step S3801 of the main MPU 82 in the form);
First provision determination whether or not the first special information is information corresponding to provision of a specific privilege (opening/closing execution mode) (first special figure special electric control processing of the main side MPU 82 in the eleventh and twelfth embodiments In the special figure fluctuation start process in the first special figure special electric control process of the main side MPU 82 in the eleventh and twelfth embodiments (step S4005 of the special figure fluctuation start process in step S4005) function to perform processing) and
The first special information is triggered by starting the first game-play motion and terminating the first game-play motion as a state corresponding to the result of the first grant determination. First game control means (11th and 12th embodiments in the A function of executing special figure fluctuation start processing, special figure fluctuation processing and special figure determination processing in the first special figure special electric control processing of the main side MPU 82);
Second acquisition means (eleventh and twelfth embodiments) for acquiring the second special information (second reserved information) based on the occurrence of the second acquisition opportunity (entering the game ball into the special winning device 151) a function of executing the processing of step S3901 of the main MPU 82 in
Second provision determination whether the second special information is information corresponding to the provision of the specific privilege (special figure fluctuation in the second special figure special electric control processing of the main side MPU 82 in the eleventh and twelfth embodiments Step S4005 of the start process) Executes the process of step S4005 in the special figure fluctuation start process in the second special figure special electric control process of the second grant determination means (the main side MPU 82 in the eleventh and twelfth embodiments function) and
The second special information is triggered by starting the second game-play motion and ending the second game-play motion as a state corresponding to the result of the second grant determination. Second game control means (11th, 12th embodiments in the A function of executing special figure fluctuation start processing, special figure fluctuation processing and special figure determination processing in the second special figure special electric control processing of the main side MPU 82);
Predetermined transition means for shifting the game state to a predetermined game state (time saving state) (a function of executing setting processing for time saving results of the main side MPU 82 and subtraction processing of the ceiling counter 131 in the eleventh and twelfth embodiments);
The total number of game rounds triggered by the first special information and the game round triggered by the second special information executed in the predetermined game state is the number of termination triggers (first time reduction continuation number, second time reduction continuation number of times), a predetermined termination means for terminating the predetermined game state (a function of executing the end determination processing of the time saving state of the main side MPU 82 in the eleventh and twelfth embodiments);
Period determining means for making an average period of duration of game rounds triggered by the second special information in the predetermined game state shorter than an average period of duration of game rounds triggered by the first special information. (In the eleventh embodiment, the function of executing the processing of steps S4710 to S4713 of the main MPU 82; in the twelfth embodiment, the function of executing the processing of steps S4812 to S4815 of the main MPU 82);
with
At least a part of the period during which the game round triggered by the first special information and at least a part of the period during which the game round triggered by the second special information may overlap. and
Said predetermined end means is configured such that when one of the game rounds triggered by the first special information and the game round triggered by the second special information ends, the total number of times becomes the ending trigger number. However, if the other game round that was started before the one game round was started is in the middle of the game round, the predetermined game state is terminated after the other game round is completed,
The period determining means determines, in the predetermined gaming state, the duration of the game round triggered by the first special information started in a situation where the total number of times in the predetermined gaming state is one less than the end trigger number of times. A short-term selection means (main side MPU 82 in the eleventh embodiment) that makes the period shorter than the duration of the game cycle triggered by the first special information started in another situation or tends to make the period shorter , and in the twelfth embodiment, a function of executing steps S4809 to S4811 of the main side MPU 82).

According to the feature M1, since the game rounds triggered by the first special information and the game rounds triggered by the second special information can be executed in duplicate, it is possible to increase the overall execution frequency of the game rounds. becomes. In addition, in a predetermined game state, the game rounds are repeated triggered by the second special information in which the average duration of the game rounds is relatively short, so that the efficiency of digesting the game rounds can be improved. becomes.

In this case, when one of the game rounds triggered by the first special information and the game round triggered by the second special information ends, even if the total number of times becomes the number of times of termination opportunity, If the other game round that has started before the second game round is started, the predetermined game state ends after the other game round ends. As a result, the predetermined game state can be continued until the game round that triggered the end of the predetermined game state is completed.

However, in this configuration, if the game cycle triggered by the first special information is started in a situation where the total number of times in the predetermined game state is one less than the end trigger count, the first special information is triggered. game rounds triggered by the second special information are repeatedly executed until such game rounds are completed, and the substantial total number of game rounds executed in a predetermined game state is extremely greater than the end trigger number of times. It is possible that there will be more. On the other hand, the continuation period of the game round triggered by the first special information started in a situation where the total number of times in the predetermined game state is one less than the number of times of the end opportunity is started in another situation in the predetermined game state. The period is shorter than the continuation period of the game cycle triggered by the first special information, or tends to be shorter. As a result, it is possible to prevent the substantial total number of times of games executed in the predetermined game state from becoming extremely larger than the number of termination opportunities.

Feature M2. The short-term selection means selects the continuation period of the game rounds triggered by the first special information which is started in the predetermined game state in a situation where the total number of times is one less than the end trigger number of times in the predetermined game state. The gaming machine according to feature M1, characterized in that the period is equal to or less than the continuation period selected in the game cycle triggered by the second special information in .

According to feature M2, the continuation period of the game round triggered by the first special information started in a situation where the total number of times in the predetermined game state is one less than the end trigger number of times is the second special information in the predetermined game state. It is possible to prevent the substantial total number of game rounds executed in the predetermined game state from becoming greater than the end trigger number because the period is equal to or less than the duration selected in the game rounds that triggered it. becomes.

Feature M3. A first ball entry means (first operation opening 33) that allows the game ball to enter when the game ball flows down the first area (left area PA2);
Second ball entry means (special winning device 151) that allows the game ball to enter when the game ball flows down the second area (right area PA3);
with
The first acquisition opportunity occurs when a game ball enters the first ball entering means,
The gaming machine according to feature M1 or M2, wherein the second acquisition opportunity is generated when a game ball enters the second ball entering means.

According to the feature M3, the player can select which of the game round triggered by the first special information and the game round triggered by the second special information is to be executed in the predetermined game state.

Feature M4. Predetermined ball entry means (special winning device 151 in the eleventh and twelfth embodiments) that allows game balls flowing down the game area to enter;
Predetermined ball entry control means (a function of executing a normal/universal/universal power control process of the main side MPU 82) capable of switching the predetermined ball entry means between a closed state and an open state;
with
The second acquisition opportunity occurs when a game ball enters the predetermined ball entering means,
The game machine according to any one of features M1 to M3, wherein the predetermined game state is a game state in which the predetermined ball-entering means is more likely to be in the open state than in another game state (normal game state).

According to the feature M4, the second special information is acquired based on the game ball entering the predetermined ball entering means that is switched between the closed state and the open state, and the second special information is used to give the specific privilege. In the configuration in which it is determined whether or not it is corresponding information, in the predetermined game state, the predetermined ball-entering means is more likely to be in the open state than in the other game state. Therefore, the predetermined game state becomes an advantageous game state for the player. In this case, it is possible to obtain the excellent effects already described.

For the configuration of features M1 to M4, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

According to the invention according to the group M of features, the following problems can be solved.

Pachinko machines, slot machines, and the like are known as types of gaming machines. In these gaming machines, it is known that an internal lottery is held based on the establishment of a predetermined lottery condition, and a privilege is given to the player according to the result of the internal lottery.

Specifically, the pachinko machine has a configuration in which a winning result is obtained in an internal lottery based on the entry of a game ball into a ball entry section provided in the game area, and a transition to a special game state. A configuration is known in which a transition is made to a special game state based on a game ball entering a part. When the game shifts to the special game state, for example, opening and closing of a ball entry device provided in the game area is started, and game balls are paid out based on the entry into the ball entry device.

Here, in the gaming machines such as those exemplified above, it is necessary that the game be played favorably, and there is still room for improvement in this regard.

<Characteristic N group>
Feature N1. a control means (main-side MPU 82 in the thirteenth embodiment) that executes various kinds of predetermined processing (specific control processing);
information storage means (main side RAM 84 in the thirteenth embodiment) in which information is written when the predetermined various processes are executed by the control means;
with
The information storage means is
a first storage area (work area 211 for specific control in the thirteenth embodiment) in which information is written when the predetermined various processes are executed;
A second storage area (unused memory area in the thirteenth embodiment) in which information is not written when the predetermined various processes are executed, and the addresses of the information storage means are continuous with respect to the first storage area. area (address Y(r+3) to address Y(r+5)),
The address of the information storage means is continuous with respect to the second storage area, and the third storage area (the specific control address in the thirteenth embodiment) to which information is written when the various predetermined processes are executed. stack area 212);
with
This gaming machine includes the first storage area, the second storage area and the third storage area when a predetermined information erasure trigger (negative determination in step S4918 or execution of setting value update processing) occurs. It is characterized by comprising an erasure execution means (a function of executing RAM clear processing of the main side MPU 82 in the thirteenth embodiment) for executing information erasure processing (RAM clear processing) on the storage area of the information storage means. Amusement machine.

According to feature N1, a first storage area and a third storage area are provided as storage areas in which information is written when various kinds of predetermined processing are executed by the control means. It is possible to selectively use the target storage area as the first storage area and the third storage area according to the role. Further, a second storage area is provided between the first storage area and the third storage area at the address of the information storage means. Since writing is not performed, it is possible to clearly distinguish between the first storage area and the third storage area at the addresses of the information storage means.

In this case, when a predetermined information erasure trigger occurs, not only the first storage area and the third storage area used when performing various predetermined processes, but also various predetermined processes are executed. The information erasing process is executed including the second storage area that is not used in the case. As a result, instead of individually designating the first storage area and the third storage area and executing the information erasing process, the first storage area, the second storage area and the third storage area which are consecutive in the address of the information storage means are erased. can be collectively specified to execute the information erasing process. Therefore, it is possible to simplify the processing configuration when executing the information erasure processing.

Feature N2. The erasure executing means stores information in a continuous address range from a predetermined address (address Y(3)) in the first storage area to a specific address (address Y(s+1)) in the third storage area. The gaming machine according to feature N1, wherein the information erasing process is executed for the storage area in.

According to feature N2, even in a configuration in which the second storage area is provided as an unused area between the first storage area and the third storage area, the third storage area is stored from a predetermined address of the first storage area. Since it is sufficient to execute the information erasing process on the storage areas of a series of address ranges up to a specific address in the storage area, it is possible to simplify the processing configuration when executing the information erasing process.

Feature N3. Predetermined prohibition setting means (a function of executing the processing of steps S4903 and S7506 of the main MPU 82 in the thirteenth embodiment) that performs a predetermined prohibition setting so that information is not written to the second storage area; ,
Predetermined disapproval canceling means for canceling the predetermined disapproval setting when the information erasing process is executed (function for executing the process of step S7501 of the main MPU 82 in the thirteenth embodiment);
The gaming machine according to feature N1 or N2, characterized by comprising:

According to the feature N3, since information is not written to the second storage area by setting the predetermined prohibition, information is not written to the second storage area by mistake. It is possible to prevent In this case, when the information erasing process is executed, the predetermined prohibition setting is intentionally canceled. As a result, in a configuration that prevents erroneous writing of information in the second storage area, the first storage area, the second storage area, and the third storage area that are consecutive in the address of the information storage means It is possible to collectively specify and execute the information erasing process.

Feature N4. The gaming machine according to feature N3, wherein the predetermined prohibition setting means performs the predetermined prohibition setting after the information erasing process is executed.

According to feature N4, even if the predetermined prohibition setting is canceled when the information erasing process is executed, the predetermined prohibition setting is performed after the information erasing process is executed. As a result, after the information erasing process is executed, it is possible to restore a state in which information is not written to the second storage area by mistake.

Feature N5. The gaming machine according to feature N3 or N4, wherein the predetermined prohibition setting means performs the predetermined prohibition setting when supply of operating power to the control means is started.

According to feature N5, since the predetermined prohibition setting is performed when the supply of operating power to the control means is started, it is possible to prevent information from being erroneously written to the second storage area before the game is started. It is possible to make it a state where it will not be broken.

Feature N6. A predetermined setting area (protect register 223c) that becomes one of the binary information when the predetermined prohibition setting is performed, and becomes the other information of the binary information when the predetermined prohibition setting is cancelled. have
The game machine is characterized by comprising means (RAM management circuit 225) for excluding the second storage area from the target of writing information when the information in the predetermined set area is the one of the information. The game machine according to any one of N3 to N5.

According to feature N6, the information in the predetermined setting area is used as one of the binary information in order to set the predetermined prohibition, and the information in the predetermined setting area is used in the binary information to cancel the predetermined prohibition setting. The other information may be used. This makes it possible to reduce the processing load for making the predetermined prohibition setting and the processing load for canceling the predetermined prohibition setting.

Feature N7. The control means is
Predetermined control execution means for executing various types of predetermined processing (function for executing specific control processing of the main MPU 82 in the thirteenth embodiment);
Separate control execution means (function for executing non-specific control processing of the main side MPU 82 in the thirteenth embodiment) for executing various other processing (non-specific control processing);
with
The information storage means includes a fourth storage area (work area 213 for non-specific control in the thirteenth embodiment) in which information is written when the other various processes are executed,
Information is written into the first storage area and the third storage area when the predetermined various processes are executed, and information is written when the other various processes are executed. will not be
Information is written into the fourth storage area when the other various processes are executed, but information is not written into the fourth storage area when the predetermined various processes are executed,
The game according to any one of features N1 to N6, wherein the erasure execution means does not execute the information erasure process for the fourth storage area when the predetermined information erasure trigger occurs. machine.

According to the feature N7, when various predetermined processes are executed by the control means, the first storage area and the third storage area in the information storage means are subject to information writing, and other various processes are executed by the control means. In this case, the fourth storage area in the information storage means becomes the object of writing the information. This makes it possible to distinguish the type of storage area to which information is to be written according to the type of processing executed by the control means. In this case, in the configuration in which the information erasing process is executed including the second storage area, which is an unused area, when various predetermined processes are executed when a predetermined information erasing opportunity occurs, the fourth Information erasure processing is not executed for the storage area. As a result, in a configuration in which the information erasing process is executed including the second storage area in order to simplify the processing configuration, the first storage area, the third storage area, and the fourth storage area are also executed in the information erasing process. It is possible to distinguish between

Feature N8. Predetermined prohibition setting means (a function of executing the processing of steps S4903 and S7506 of the main MPU 82 in the thirteenth embodiment) that performs a predetermined prohibition setting so that information is not written to the second storage area; ,
Predetermined disapproval canceling means for canceling the predetermined disapproval setting when the information erasing process is executed (function for executing the process of step S7501 of the main MPU 82 in the thirteenth embodiment);
When a specific information erasing trigger (affirmative determination in step S7602) occurs, another erasing means (information abnormality monitoring of the main MPU 82 in the thirteenth embodiment) that executes information erasing processing for the fourth storage area function to perform processing) and
with
The gaming machine according to feature N7, wherein the predetermined prohibition setting is not canceled when the information erasing process is executed for the fourth storage area by the separate erasing means.

According to feature N8, in a configuration in which information erasure processing is not executed for the fourth storage area when a predetermined information erasure trigger occurs, when a specific information erasure trigger occurs, the fourth memory area is erased. An information erasing process is performed on the area. This makes it possible to execute the information erasing process also for the fourth storage area. In this case, when the information erasing process is executed, the predetermined prohibition setting is not canceled. This makes it possible to prevent the predetermined prohibition setting from being canceled in a situation where the information erasing process is not executed for the second storage area.

For the configuration of features N1 to N8, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

According to the invention according to the N group of features, the following problems can be solved.

Pachinko machines, slot machines, and the like are known as types of gaming machines. In these gaming machines, it is known that an internal lottery is held based on the establishment of a predetermined lottery condition, and a privilege is given to the player according to the result of the internal lottery.

Specifically, the pachinko machine has a configuration in which a winning result is obtained in an internal lottery based on the entry of a game ball into a ball entry section provided in the game area, and a transition to a special game state. A configuration is known in which a transition is made to a special game state based on a game ball entering a part. When the game shifts to the special game state, for example, opening and closing of a ball entry device provided in the game area is started, and game balls are paid out based on the entry into the ball entry device.

Here, in the gaming machine such as the one illustrated above, it is necessary for the control means to suitably execute processing, and there is still room for improvement in this respect.

<Characteristic group O>
Features O1. Means (function of executing the processing of step S805 of the main MPU 82) for executing the profit giving process (step S805 of the main MPU 82) in a manner corresponding to the set value corresponding to the player's advantage;
Situation generating means (the A function of making an affirmative determination in step S4908 or step S4915 of the main MPU 82);
When a specific event (entering a game ball into the out port 24a, the general winning port 31, the special electric winning device 32, the first operating port 33 and the second operating port 34) occurs due to the execution of the game, it corresponds to it history storage execution means (function for executing normal ball entry management processing of the main side MPU 82 in the thirteenth and fourteenth embodiments) for storing history information of games to be played in the history storage means (normal counter area 251);
Information derivation means for deriving mode information (base value) corresponding to game results using the history information stored in the history storage means (executing the result calculation process of the main MPU 82 in the thirteenth embodiment) function) and
Mode notification control means (main side in the thirteenth embodiment) for controlling mode notification means (first to fourth notification display devices 201 to 204) so that the mode information derived by the information derivation means is notified a function of executing the second timer interrupt processing and display processing of the MPU 82),
A gaming machine characterized in that the mode information can be notified by the mode notification means even in the settable state.

According to the feature O1, since the setting value to be used is set, the player expects that a more advantageous setting value is to be used. Also, when a specific event occurs, history information corresponding to it is stored in the history storage means. Since the history information is stored in the gaming machine itself, it is possible to prevent unauthorized access to and unauthorized alteration of the history information. Further, mode information corresponding to the result of the game is derived using the history information stored in the history storage means, and the derived mode information is reported. This makes it possible for the manager of the game hall to recognize the number of occurrences or the frequency of occurrence of the specific event. In this case, the mode information can be notified by the mode notification means even if the setting is possible. As a result, it is possible to set the setting value in a mode corresponding to the content of the reported mode information while confirming the content of the mode information. Therefore, it is possible to suitably manage the gaming machine.

Feature O2. Means for controlling the setting notification means (setting display device 205) so as to notify the setting value in the setting possible state (executing the processing of step S7203 and step S7207 to step S7212 of the main side MPU 82 in the thirteenth embodiment) The gaming machine according to feature O1, characterized by comprising a function to

According to the feature O2, in the settable state, the setting notification means notifies the set value, and the mode notification means notifies the mode information. As a result, the manager of the gaming hall confirms the content of the mode information notified by the mode notification means, and the desired set value based on the content of the mode information is notified by the setting notification means. Setting work can be performed until Therefore, it is possible to improve the work efficiency for setting the desired set value based on the content of the mode information.

Feature O3. The game machine according to feature O2, wherein the setting notification means is mounted on the mounting surface (the element mounting surface of the main control board 81) on which the mode notification means is mounted.

According to feature O3, since the setting notification means is mounted on the mounting surface on which the mode notification means is mounted, the content of the mode information notified by the mode notification means and the setting notified by the setting notification means It becomes easier to check both values.

Feature O4. The situation generation means has a situation occurrence trigger (that both the pressing operation of the reset button 196 and the ON operation of the setting key insertion part 195 are being performed, and that the setting update display flag is set to "1" is set), the settable state is set based on the occurrence of
The mode notification control means is characterized in that, when supply of operating power is started and the settable state is established, notification corresponding to the mode information is started when the settable state is started. The gaming machine according to any one of features O1 to O3.

According to the feature O4, when the supply of operating power is started, the setting becomes possible based on the occurrence of the situation occurrence trigger. need to get started. Therefore, it is possible to make it difficult to perform the act of illegally setting the setting value. In this case, when the supply of operating power is started and the settable state is reached, notification corresponding to the mode information is started when the settable state is started. Thereby, it is possible to prevent the notification corresponding to the mode information from being started before the manager of the game hall starts the work for setting the setting value.

Feature O5. Check control means for causing the mode notification means to perform a check display that enables confirmation of whether or not an abnormality has occurred in the mode notification means (processing of steps S4926 and S7302 of the main MPU 82 in the thirteenth embodiment function),
The gaming machine according to any one of features O1 to O4, wherein the check control means causes the mode notification means to start the check display when the settable state ends.

According to feature O5, since a check display is provided to enable confirmation of whether or not an abnormality has occurred in the mode notification means, the manager of the gaming hall checks the check display to confirm that the mode notification means is abnormal. It becomes possible to specify whether or not is occurring. In this case, if a settable state occurs, the check display is started when the settable state ends. As a result, it is possible to prioritize the notification corresponding to the mode information by the mode notification means in the settable state over the check display of the mode notification means.

Feature O6. The situation generation means, when the supply of operating power is started, causes the situation to occur (that both the pressing operation of the reset button 196 and the ON operation of the setting key insertion part 195 are being performed, and that the setting update display flag is set to "1" is set), the settable state is set based on the occurrence of
When the operation power supply is started and a predetermined situation (a situation in which the setting confirmation process and the setting value update process are not executed) occurs in which the setting is not possible, the mode notification control means displays the check display. is finished, the notification corresponding to the mode information is started (the first to fourth notification display devices 201 to 204), the gaming machine according to feature O5.

According to feature O6, when the supply of operating power is started, the setting becomes possible based on the occurrence of the situation occurrence trigger. need to get started. Therefore, it is possible to make it difficult to perform the act of illegally setting the setting value. In this case, if a predetermined situation is reached in which the setting is not possible when the supply of the operating power is started, the notification corresponding to the mode information is started after the check display ends. This makes it possible to give priority to the check display over the start of notification corresponding to the mode information when the setting is not possible.

Feature O7. A mode information storage means (computation result storage area 252 in the thirteenth embodiment) for storing a plurality of the mode information derived by the information derivation means,
The mode notification control means is
Sequential notification control means (step of main MPU 82 in the thirteenth embodiment) for controlling the aspect notification means so that notifications corresponding to each of the plurality of aspect information stored in the aspect information storage means are sequentially executed a function to execute the processing of S7408 to step S7414);
When the display for check ends after the end of the settable state, the mode notification means performs notification from the type of the mode information that was subject to notification immediately before the display for check is started. Notification resuming means (function for executing the processing of steps S7419 and S7420 of the main MPU 82 in the thirteenth embodiment) for controlling the
The gaming machine according to feature O5 or O6, characterized by comprising:

According to the feature O7, since the mode notification means sequentially performs notification corresponding to each of the plurality of mode information, the manager of the gaming hall can grasp the contents of the plurality of mode information by checking the mode notification means. becomes possible. In this case, when the display for checking ends after the end of the settable state, the notification is executed from the type of mode information that was subject to notification immediately before the display for checking was started. As a result, after the display for check ends, the manager of the game hall can confirm from the contents of the mode information of the type interrupted by the occurrence of the display for check.

Feature O8. The sequential notification control means changes the type of the mode information to be notified based on the elapse of a predetermined notification continuation period (display continuation period),
When the display for checking ends after the end of the settable state, the notification restarting means performs notification from the mode information of the type that was subject to notification immediately before the display for checking was started. wherein the notification corresponding to the aspect information of the type is provided over the predetermined notification continuation period regardless of the remaining predetermined notification continuation period when the check display is started The gaming machine according to feature O7, characterized in that it is intended to be executed.

According to feature O8, when the display for checking ends after the end of the settable state, notification is performed from the type of mode information that was subject to notification immediately before the display for checking was started. , the notification of this type of mode information is executed for a predetermined notification continuation period after the end of the check display. As a result, after the display for check ends, it is possible to sufficiently secure an opportunity for the manager of the game hall to confirm the contents of the type of mode information interrupted by the occurrence of the display for check.

For the configuration of features O1 to O8, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

According to the invention according to the feature group O, the following problems can be solved.

Pachinko machines, slot machines, and the like are known as types of gaming machines. In these gaming machines, it is known that an internal lottery is held based on the establishment of a predetermined lottery condition, and a privilege is given to the player according to the result of the internal lottery.

Specifically, the pachinko machine has a configuration in which a winning result is obtained in an internal lottery based on the entry of a game ball into a ball entry section provided in the game area, and a transition to a special game state. A configuration is known in which a transition is made to a special game state based on a game ball entering a part. When the game shifts to the special game state, for example, opening and closing of a ball entry device provided in the game area is started, and game balls are paid out based on the entry into the ball entry device.

Here, in the gaming machines such as those exemplified above, it is necessary to appropriately manage the gaming machines, and there is still room for improvement in this regard.

<Characteristic P group>
Feature P1. Display object storage means (calculation result storage area 252 in the thirteenth embodiment) for storing a plurality of display object information (base values);
controlling predetermined display means (first to fourth notification display devices 201 to 204) so that display corresponding to each of the plurality of display target information stored in the display target storage means is sequentially executed; Predetermined display control means (second timer interrupt processing of the main MPU 82 in the thirteenth embodiment and function to execute display processing),
with
The predetermined display control means, when a predetermined situation in which display corresponding to the display target information is not performed ends, causes display to start from the display target information of the type that was a display target immediately before the predetermined situation started. wherein the display corresponding to the display target information of the type is performed for the predetermined display duration regardless of the remaining predetermined display duration when the predetermined situation is initiated. A game machine characterized by comprising a display resuming means (a function of executing the processing of steps S7419 and S7420 of the main side MPU 82 in the thirteenth embodiment) that is executed over a period of time.

According to feature P1, the predetermined display means sequentially executes display corresponding to each of a plurality of display target information, and changes the type of display target information to be displayed based on the elapse of a predetermined display duration period. Therefore, the administrator of the game hall can grasp the contents of the plurality of pieces of display target information by checking the predetermined display means. In this case, when the predetermined situation ends, display is executed from the type of display target information that was the display target immediately before the predetermined situation started, and the display target information of the type is displayed. It is executed over a predetermined display continuation period after the end of the predetermined situation. As a result, after the predetermined situation ends, it is possible to sufficiently secure an opportunity for the manager of the game hall to confirm the contents of the display target information of the type interrupted by the occurrence of the predetermined situation.

Feature P2. Separate display control means for causing the predetermined display means to perform separate display different from the display corresponding to the display target information (function for executing the processing of steps S4926 and S7302 of the main MPU 82 in the thirteenth embodiment) ,
the predetermined situation is a situation in which the separate display is performed;
The display resuming means, when the separate display ends, executes display from the display target information of the type that was the display target immediately before the separate display was started, and The display corresponding to the type of display target information is executed over the predetermined display duration period regardless of the remaining predetermined display duration period when the different display is started. The gaming machine according to feature P1.

According to the characteristic P2, when a situation arises in which another display is to be performed by the predetermined display means, the display corresponding to the information to be displayed is not performed, so it is possible to give priority to the different display. In this case, when the separate display ends, the display is executed from the type of display target information that was the display target immediately before the start of the separate display, and the display of the display target information of the type is It is executed over a predetermined display continuation period after the end of the separate display. As a result, after the end of the separate display, it is possible to sufficiently secure an opportunity for the manager of the game hall to confirm the content of the display target information of the type interrupted by the occurrence of the separate display.

Feature P3. Characteristic feature P2, characterized in that the separate display control means causes the prescribed display means to perform, as the separate display, a check display enabling confirmation of whether or not an abnormality has occurred in the prescribed display means. game machine.

According to the feature P3, since the display for checking is performed so that it can be confirmed whether or not an abnormality has occurred in the predetermined display means, the administrator of the game hall confirms the display for check to confirm that the predetermined display means is abnormal. It is possible to identify whether or not In this case, the configuration of feature P1 is provided, and when the check display ends, display is performed from the type of display target information that was the display target immediately before the check display was started. , the display of the display target information of the type concerned is executed for a predetermined display continuation period after the end of the check display. As a result, after completion of the check display, it is possible to sufficiently secure an opportunity for the manager of the game hall to check the content of the display object information of the type interrupted by the occurrence of the check display.

Feature P4. The predetermined display control means is
means for starting to display the display target information before the check display is started when the supply of operating power is started and in the first situation (the situation in which the set value update process is executed); 13, the function of executing the process of step S5101 of the main side MPU 82 in the embodiment);
In a second situation (a situation in which the setting confirmation process and the setting value update process are not executed) when the supply of operating power is started, the display target information is started to be displayed until the check display is finished. a means for starting the display of the display target information after the check display ends (function for executing the processing of step S4932 of the main MPU 82 in the thirteenth embodiment);
The gaming machine according to feature P3, characterized by comprising:

According to the feature P4, depending on the situation when the supply of operating power is started, the display of the information to be displayed is started before the check display is started, and the display is displayed until the check display is finished. It is possible to cause a case in which the display of the display target information is started after the check display ends without the display of the target information being started.

Feature P5. Means (function of executing the processing of step S805 of the main MPU 82) for executing the profit giving process (step S805 of the main MPU 82) in a manner corresponding to the set value corresponding to the player's advantage;
When the supply of the operating power is started, the situation occurrence trigger (both pressing operation of the reset button 196 and ON operation of the setting key insertion part 195 are being performed, "1" is set to the setting update display flag) based on the occurrence of the check display, a settable state (setting a situation generating means (a function of making an affirmative determination in step S4908 or step S4915 of the main MPU 82 in the thirteenth embodiment) that causes a value update process to be executed);
with
the first situation occurs when the configurable situation occurs;
The gaming machine according to feature P4, wherein the second situation occurs when the settable situation does not occur.

According to the feature P5, since the setting values to be used are set, the player expects that more advantageous setting values are to be used. In this case, if a settable situation occurs when the supply of operating power is started, the display of the information to be displayed is started before the check display is started, and when the supply of the operating power is started If the settable state does not occur, the display of the display object information is not started until the check display ends, and the display object information starts to be displayed after the check display ends. As a result, when the setting becomes possible, the information to be displayed can be displayed in the setting possible state, while when the setting becomes not possible, the information to be displayed is displayed after the display for checking ends. It is possible to make it start.

Feature P6. When a specific event (entering a game ball into the out port 24a, the general winning port 31, the special electric winning device 32, the first operating port 33 and the second operating port 34) occurs due to the execution of the game, it corresponds to it history storage execution means (function for executing normal ball entry management processing of the main side MPU 82 in the thirteenth and fourteenth embodiments) for storing history information of games to be played in the history storage means (normal counter area 251);
Information derivation means for deriving mode information (base value) corresponding to game results using the history information stored in the history storage means (executing the result calculation process of the main MPU 82 in the thirteenth embodiment) function) and
with
The gaming machine according to any one of features P1 to P5, wherein the display target information is the mode information.

According to feature P6, when a specific event occurs, the history information corresponding to it is stored in the history storage means. Since the history information is stored in the gaming machine itself, it is possible to prevent unauthorized access to and unauthorized alteration of the history information. Further, mode information corresponding to the result of the game is derived using the history information stored in the history storage means, and the derived mode information is displayed. This makes it possible for the manager of the game hall to recognize the number of occurrences or the frequency of occurrence of the specific event. In this case, it is possible to obtain the excellent effect as described in the feature P1.

For the configuration of features P1 to P6, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

According to the invention according to the group of characteristics P, the following problems can be solved.

Pachinko machines, slot machines, and the like are known as types of gaming machines. In these gaming machines, it is known that an internal lottery is held based on the establishment of a predetermined lottery condition, and a privilege is given to the player according to the result of the internal lottery.

Specifically, the pachinko machine has a configuration in which a winning result is obtained in an internal lottery based on the entry of a game ball into a ball entry section provided in the game area, and a transition to a special game state. A configuration is known in which a transition is made to a special game state based on a game ball entering a part. When the game shifts to the special game state, for example, opening and closing of a ball entry device provided in the game area is started, and game balls are paid out based on the entry into the ball entry device.

Here, in the gaming machine such as the above example, it is necessary to appropriately perform display on the predetermined display means, and there is still room for improvement in this respect.

<Characteristic Q group>
Feature Q1. a first processing group executing means (a function of executing the specific control processing of the main MPU 82 in the thirteenth and fourteenth embodiments) for executing the processing of the first processing group (specific control processing);
Second processing group execution means (function for executing non-specific control processing of the main side MPU 82 in the thirteenth and fourteenth embodiments) for executing processing of the second processing group (non-specific control processing);
When the process of the first process group is executed, information can be written and read, while when the process of the second process group is executed, information can be read, but information a first process-compatible storage area (the work area 211 for specific control and the stack area 212 for specific control in the thirteenth and fourteenth embodiments) in which writing of the
When the process of the second process group is executed, information can be written and read. On the other hand, when the process of the first process group is executed, information can be read, but information a second process-compatible storage area (the work area 213 for non-specific control and the stack area 214 for non-specific control in the thirteenth and fourteenth embodiments) in which writing of is impossible,
The second process group executing means performs a predetermined event (an event in which the main MPU 82 in the thirteenth and fourteenth embodiments makes an affirmative determination in step S6003, an affirmative determination in step S6009) as the process of the second process group. event, an event determined affirmatively in step S6014, or an event determined affirmatively in step S6505), the predetermined event occurrence information (any of the abnormality flags 213l to 213t) is set to " 1”) (function of executing the processing of step S6004, step S6010, step S6015 or step S6506 of the main side MPU 82 in the thirteenth and fourteenth embodiments) with
The first process group execution means is a special process execution means (a thirteenth In the embodiment of the main MPU 82, step S6602, step S6603, step S6605, step S6606, step S6608, step S6609, step S6611, step S6612, step S6614, step S6615, step S6617, step S6618, step S6620, step S6622 or The function of executing the process of step S6624, the process of step S8006 of the main MPU 82 in the 14th embodiment, the process of step S8013, the process of making an affirmative determination in step S8102, the process of making an affirmative determination in step S8105, step affirmative determination in step S8108, affirmative determination in step S8111, affirmative determination in step S8115, and affirmative determination in step S8118. Amusement machine.

According to feature Q1, when the process of the first process group is executed, the storage area corresponding to the first process is targeted for writing information, but the storage area corresponding to the second process is not targeted for writing information. When the process of the second process group is executed, the information is written in the memory area corresponding to the second process, but the information is not written in the memory area corresponding to the first process. This makes it possible to clearly distinguish between the types of storage areas to which information is written when the processes of the first process group are executed and when the processes of the second process group are executed. On the other hand, even when the process of the first process group is executed, information can be read not only from the storage area corresponding to the first process but also from the storage area corresponding to the second process. Even when the process is executed, it is possible to read information not only from the storage area corresponding to the second process but also from the storage area corresponding to the first process. As a result, information corresponding to the processing result of one of the processing of the first processing group and the processing of the second processing group can be referred to in the other processing.

In this case, if it is specified that the predetermined event has occurred in the processing of the second processing group and the predetermined event occurrence information is stored in the storage area corresponding to the second processing, then in the processing of the first processing group Corresponding special processing is performed. Accordingly, by executing the process for specifying whether or not the predetermined event has occurred as the process of the second process group instead of the process of the first process group, the process can be executed as the process of the first process group. Even with a configuration with a margin, it is possible to execute special processing in response to the occurrence of a predetermined event as processing of the first processing group. Therefore, it becomes possible to suitably execute the processing in the control means.

Feature Q2. The first process group executing means is a means for executing, as the process of the first process group, grant opportunity processing for specifying whether or not a privilege grant opportunity has occurred (in the thirteenth embodiment, the main side MPU 82 Function to execute the processing of step S5602, step S5605, step S5608, step S5611, step S5614, step S5617, step S5620 or step S5622; S7809, step S7811, step S7813, step S7815 or step S7817 function),
The gaming machine according to feature Q1, wherein the special process is a process of nullifying the awarding opportunity of the privilege specified in the awarding opportunity process.

According to the feature Q2, it is specified whether or not a privilege granting opportunity has occurred in the granting trigger processing, which is the processing of the first processing group, and the predetermined event is detected in the occurrence information storage processing, which is the processing of the second processing group. occurrence is identified and the predetermined event occurrence information is stored in the storage area corresponding to the second process, the special process, which is the process of the first process group, nullifies the opportunity to grant the privilege. . Accordingly, by executing the process for specifying whether or not the predetermined event has occurred as the process of the second process group instead of the process of the first process group, the process can be executed as the process of the first process group. While providing a margin, it is possible to collectively perform the processing for identifying the occurrence of the opportunity to give the privilege and the processing for invalidating the opportunity to give the privilege in the processing of the first processing group.

Feature Q3. The first processing group executing means,
As the processing of the first processing group, means for executing a reservation process for withholding the granting of the privilege when it is specified in the granting opportunity processing that the privilege granting opportunity has occurred (14th a function of executing the processing of steps S8017 to S8018 or steps S8021 to S8022 of the main MPU 82 in the embodiment of );
As the processing of the first processing group, if the special processing is not executed after the reservation processing is executed, means for executing privilege grant processing for granting the privilege reserved in the reservation processing ( A function of executing the process of step S8004 or step S8011 of the main MPU 82 in the fourteenth embodiment);
The gaming machine according to feature Q2, characterized by comprising:

According to the feature Q3, when it is specified that a privilege granting opportunity has occurred in the processing of the first processing group, the granting of the privilege is temporarily suspended, and then the processing of the second processing group performs the second processing. If the predetermined event occurrence information is not stored in the processing corresponding storage area and the processing of invalidating the opportunity to grant the privilege is not executed in the processing of the first processing group, the above-mentioned temporary Reserved benefits are granted. As a result, even if the occurrence information storage process, which is the process of the second process group, is not executed between the grant opportunity process and the privilege grant process in the process of the first process group, when the predetermined event has not occurred, (2) makes it possible to grant a privilege in response to a privilege granting opportunity, and to disable the privilege granting opportunity by invalidating the privilege granting opportunity when a predetermined event occurs.

Feature Q4. The reservation process is a process of acquiring numerical information used in the lottery process from numerical information updating means (win random number counter C1, type random number counter C2, reach random number counter C3),
The gaming machine according to feature Q3, wherein the privilege provision process is a process of storing the numerical information in the storage area corresponding to the first process so that the numerical information can be used in the lottery process.

According to feature Q4, in the configuration in which, when an opportunity to grant a privilege occurs, numerical information is acquired from the numerical information updating means and lottery processing is executed using the acquired numerical information, the privilege is granted. When the trigger occurs, although the numerical information is acquired from the numerical information updating means, it is retained, and when it is specified that the predetermined event has not occurred after that, the retained numerical information is It is stored in the storage area corresponding to the first process so that it can be used in the lottery process. As a result, it is possible to obtain the numerical information at the timing when the privilege is given, and at the same time, it is possible to obtain the excellent effect as described in the feature Q3.

Feature Q5. The first process group executing means stores the predetermined event occurrence information in the second process corresponding storage area in a situation where the awarding of the privilege is reserved in the reservation process as the process of the first process group. Equipped with means for executing information specifying processing for specifying whether or not (function for executing the processing of step S8002 or step S8009 of the main MPU 82 in the fourteenth embodiment),
The special process executing means executes the special process when it is specified in the information specifying process that the predetermined event occurrence information is stored in the storage area corresponding to the second process. The gaming machine according to feature Q3 or Q4.

According to the feature Q5, the information specifying process is executed for specifying whether or not the predetermined event occurrence information is stored in the storage area corresponding to the second process in a situation where the provision of the privilege is reserved in the reservation process, When it is specified that the predetermined event occurrence information is stored, the opportunity to give the privilege is invalidated as special processing. This makes it possible to prevent the information specifying process from being executed in a situation where the provision of the privilege is not reserved.

Feature Q6. means for starting a predetermined unit process (first timer interrupt process) when a process execution trigger occurs (function for executing the first timer interrupt process of the main MPU 82 in the fourteenth embodiment);
The predetermined unit processing includes the generated information storage processing, the special processing, the granting trigger processing, the reservation processing, and the privilege granting processing,
Characteristic features Q3 through Q3, characterized in that the processing order of the predetermined unit processes in one processing time is set so that the occurrence information storage process is performed after the process of the first process group. The gaming machine according to any one of Q5.

According to feature Q6, the occurrence information storage process, which is the process of the second process group, is arranged to follow the process of the first process group in the predetermined unit process in one process cycle, while performing the above-described processing. It is possible to achieve excellent effects.

Feature Q7. In addition to the generated information storage process, the predetermined unit process includes processes of the second process group (information clear process, test firing test process, non-specific control timer update process, information abnormality monitoring process, and check processing) is included,
The processing order of the predetermined unit processes in one processing cycle is set so that the processing of the second processing group is in the processing order after the processing of the first processing group. The gaming machine described in Q6.

According to the feature Q7, in the predetermined unit processing in one processing round, the processing of the second processing group is aggregated as a processing order after the processing of the first processing group, so that the predetermined unit in one processing round It eliminates the need for repeated transitions between the processing of the first processing group and the processing of the second processing group in the processing. In addition, even in this configuration, the configuration of the feature Q3 is provided, and when it is specified that the privilege granting opportunity has occurred in the processing of the first processing group, the granting of the privilege is temporarily suspended, and then When the predetermined event occurrence information is not stored in the storage area corresponding to the second process in the process of the second process group and the process of invalidating the granting opportunity of the privilege is not executed in the process of the first process group, The temporarily withheld privilege is granted in the processing of the first processing group. As a result, even if the occurrence information storage process, which is the process of the second process group, is not executed between the grant opportunity process and the privilege grant process in the process of the first process group, when the predetermined event has not occurred, (2) makes it possible to grant a privilege in response to a privilege granting opportunity, and to disable the privilege granting opportunity by invalidating the privilege granting opportunity when a predetermined event occurs.

Feature Q8. The first process group executing means stores grant opportunity information (confirmation flag group 211d Setting "1" to each confirmation flag) for executing grant trigger processing (step S5603, step S5606, step S5609, step S5612, step S5615, step S5618 of the main MPU 82 in the thirteenth embodiment , a function to execute the processing of step S5621 or step S5623),
The gaming machine according to any one of features Q1 to Q7, wherein the special process is a process of erasing the grant opportunity information stored in the storage area corresponding to the first process.

According to the feature Q8, when it is specified that a privilege granting opportunity has occurred in the granting triggering process, which is the process of the first processing group, the granting triggering information is stored in the storage area corresponding to the first process. When the occurrence information storage process, which is the process of the second process group, specifies that the predetermined event has occurred and the predetermined event occurrence information is stored in the storage area corresponding to the second process, the first process The grant trigger information in the storage area corresponding to the first process is erased in the special process, which is the group process. Accordingly, by executing the process for specifying whether or not the predetermined event has occurred as the process of the second process group instead of the process of the first process group, the process can be executed as the process of the first process group. In the process of the first processing group while using the storage area corresponding to the first processing, the processing for specifying the occurrence of the granting opportunity of the privilege and the processing for invalidating the granting opportunity of the privilege while giving a margin It is possible to do it collectively.

Feature Q9. The first process group execution means is means for executing a privilege grant process as the process of the first process group when the grant trigger information is stored in the storage area corresponding to the first process (thirteenth embodiment). function to execute the processing of step S5518, step S5704 or step S5709 of the main MPU 82 in
The gaming machine according to feature Q8, wherein the occurrence information storage process and the special process are executed after the grant opportunity process is executed and before the privilege grant process is executed.

According to feature Q9, the occurrence information storage process, which is the process of the second process group, and the special process, which is the process of the first process group, are performed after the application trigger process, which is the process of the first process group, is executed. It is executed before the privilege provision processing, which is the processing of the first processing group, is executed. Accordingly, by executing the process for specifying whether or not the predetermined event has occurred as the process of the second process group instead of the process of the first process group, the process can be executed as the process of the first process group. It is possible to invalidate the opportunity to give the privilege before executing the privilege giving process when a predetermined event occurs while providing a margin.

Characteristics Q10. means for starting a predetermined unit process (first timer interrupt process) when a process execution trigger occurs (function for executing the first timer interrupt process of the main MPU 82 in the thirteenth embodiment);
The first processing group executing means executes, as the processing of the first processing group, information identifying processing for identifying whether or not the predetermined event occurrence information is stored in the second processing correspondence storage area (first 13 of the main MPU 82 in the embodiment), and
The special process executing means executes the special process when it is specified in the information specifying process that the predetermined event occurrence information is stored in the storage area corresponding to the second process,
The predetermined unit processing includes the generated information storage processing, the granting trigger processing, the privilege granting processing, and the information specifying processing,
The occurrence information storage process is executed after the grant opportunity process is executed, the information identification process is executed after the occurrence information storage process is executed, and the privilege grant process is executed after the information identification process is executed. The gaming machine according to feature Q9, wherein the processing order of the predetermined unit processes in one processing time is set so as to be executed.

According to feature Q10, in a configuration in which the predetermined unit process includes occurrence information storage processing, grant trigger processing, privilege grant processing, and information specifying processing, the occurrence information storage processing is executed after the grant trigger processing is executed, Only by setting the execution order of the processes in the predetermined unit process so that the information specifying process is executed after the occurrence information storage process is executed, and the privilege provision process is executed after the information specifying process is executed, It is possible to obtain the excellent effects as described above.

Feature Q11. The first processing group executing means executes, as the processing of the first processing group, information identifying processing for identifying whether or not the predetermined event occurrence information is stored in the second processing correspondence storage area (first In the thirteenth embodiment, the main MPU 82 has a function of executing the processing of steps S6601, S6604, S6607, S6610, S6613, S6616, S6619, or S6621. S8002, step S8009, step S8102, step S8105, step S8108, step S8111, step S8115, step S8118 function),
The special process executing means executes the special process when it is specified in the information specifying process that the predetermined event occurrence information is stored in the storage area corresponding to the second process,
The second processing group execution means is means for executing, as the processing of the second processing group, occurrence information deletion processing for deleting the predetermined event occurrence information after the information specifying processing is executed (the thirteenth and fourteenth A gaming machine according to any one of features Q1 to Q10, characterized in that it has a function of executing information clearing processing of the main MPU 82 in the embodiment.

According to the feature Q11, when it is specified that the predetermined event occurrence information is stored in the storage area corresponding to the second process in the information specifying process which is the process of the first process group, the process of the first process group is performed. In the configuration in which special processing is executed, after the information specifying processing is executed, the predetermined event occurrence information is erased by the occurrence information erasing processing, which is the processing of the second processing group. Thereby, when the predetermined event occurrence information is stored in the storage area corresponding to the second processing, the predetermined event occurrence information is erased in the processing of the second processing group while the special processing is executed for the predetermined event occurrence information. becomes possible.

Feature Q12. The second processing group execution means is means for executing, as the processing of the second processing group, event occurrence identification processing for identifying whether or not the predetermined event has occurred (steps in the thirteenth and fourteenth embodiments). S6001 to step S6003, step S6007 to step S6009 or step S6013 to step S6014 function),
When the occurrence of the predetermined event is specified in the event occurrence identification process, the occurrence information storage process stores the predetermined event occurrence information in the storage area corresponding to the second process. is the configuration,
The gaming machine according to feature Q11, wherein when the event occurrence specifying process is executed, the occurrence information erasing process is carried out before the event occurrence specifying process is carried out.

According to feature Q12, when it is specified that a predetermined event has occurred in the event occurrence specifying process, which is the process of the second process group, the occurrence information storage process, which is the process of the second process group, performs the second In a configuration in which predetermined event occurrence information is stored in a storage area corresponding to processing, when event occurrence identification processing is executed, generation for erasing predetermined event occurrence information before the event occurrence identification processing is executed Information erasure processing is executed. In other words, the event occurrence identification process and the occurrence information storage process are executed after the predetermined event occurrence information is once erased. Thereby, when the process for storing the predetermined event occurrence information in the storage area corresponding to the second process is executed in the process of the second process group and the predetermined event occurrence information is stored in the storage area corresponding to the second process In the configuration in which the special process is executed in the process of the first process group, while preventing the special process from being executed multiple times by storing the predetermined event occurrence information once, appropriate in the process of the second process group It is possible to execute the occurrence information erasing process for erasing the predetermined event occurrence information at appropriate timing.

Feature Q13. The first processing group executing means, as the processing of the first processing group, based on the occurrence of a predetermined measurement start event (step S6104 or step S6303 of the main MPU 82 in the thirteenth and fourteenth embodiments) , Predetermined measurement start for starting measurement of a predetermined monitoring period using a predetermined measurement storage area (special electrical monitoring delay timer counter 211b, general electrical monitoring delay timer counter 211c) provided in the storage area corresponding to the first process. means for executing processing (function for executing the processing of step S6106 or step S6305 of the main MPU 82 in the thirteenth and fourteenth embodiments),
In the occurrence information storage process, when the predetermined corresponding event occurs in a situation where the predetermined corresponding event should not occur due to the relationship with the predetermined monitoring period, the occurrence of the predetermined event is regarded as the occurrence of the second process corresponding storage area. The gaming machine according to any one of features Q1 to Q12, wherein the predetermined event occurrence information is stored in the game machine.

According to feature Q13, when a predetermined corresponding event occurs in a situation in which the predetermined corresponding event should not occur due to the relationship with the predetermined monitoring period, the predetermined event occurrence information is stored in the second process corresponding storage area as the occurrence of the predetermined event. is stored and special processing is executed, processing for performing measurement for a predetermined monitoring period using a predetermined measurement storage area can be performed in the processing of the first processing group.

Feature Q14. The first processing group execution means is means for executing processing for specifying whether or not the predetermined measurement start event has occurred as the processing of the first processing group (in the thirteenth and fourteenth embodiments, The gaming machine according to feature Q13, characterized by comprising a function of executing the processing of step S6103 or step S6302 of the main side MPU 82 .

According to feature Q14, in a configuration in which a process for identifying whether or not a predetermined measurement start event has occurred in the processing of the first processing group, the configuration of feature Q13 is provided, and a predetermined storage for measurement is provided. A process for measuring a predetermined monitoring period using an area is performed in the process of the first process group. This makes it possible to integrate the processing for measuring the predetermined monitoring period into the processing of the first processing group.

Feature Q15. The second processing group executing means, as the processing of the second processing group, based on occurrence of a specific measurement start event (affirmative determination in step S6013 of the main MPU 82 in the thirteenth and fourteenth embodiments) , a specific measurement start process for starting measurement of a specific monitoring period using specific measurement storage areas (first to eighth winning monitor timer counters 213a to 213h) provided in the second process corresponding storage area. The gaming machine according to feature Q13 or Q14, characterized by comprising means (a function of executing the processing of step S6016 of the main MPU 82 in the thirteenth and fourteenth embodiments).

According to the characteristic Q15, the processing for measuring the specific monitoring period based on the occurrence of the specific measurement start event is included in the second processing group. As a result, the processing for measuring various periods can be distributed between the processing of the first processing group and the processing of the second processing group for each type of period to be measured.

Feature Q16. The second processing group execution means, as the processing of the second processing group, when the specific response event occurs in a situation where the specific response event should not occur in relation to the specific monitoring period, It is characterized by having means for executing the process of storing the predetermined event occurrence information in the storage area corresponding to two processes (function for executing the process of step S6015 of the main side MPU 82 in the thirteenth and fourteenth embodiments). The game machine according to feature Q15.

According to feature Q16, when a predetermined corresponding event occurs in a situation in which the predetermined corresponding event should not occur due to the relationship with the predetermined monitoring period measured in the processing of the first processing group, the predetermined event is determined as the occurrence of the predetermined event. In a situation in which the predetermined event occurrence information is stored in the storage area corresponding to the second processing and the special processing is executed, and the specific event should not occur in relation to the specific monitoring period measured in the processing of the second processing group. Even when a specific corresponding event has occurred, the predetermined event occurrence information is stored in the second process corresponding storage area and the special process is executed. As a result, the processing for measuring each period for specifying whether or not an event that triggers the storage of the predetermined event occurrence information in the storage area corresponding to the second process occurs , it is possible to divide the processing into the processing of the first processing group and the processing of the second processing group.

For the configuration of features Q1 to Q16, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

<Characteristic group R>
Feature R1. a first processing group executing means (a function of executing the specific control processing of the main MPU 82 in the thirteenth and fourteenth embodiments) for executing the processing of the first processing group (specific control processing);
Second processing group execution means (function for executing non-specific control processing of the main side MPU 82 in the thirteenth and fourteenth embodiments) for executing processing of the second processing group (non-specific control processing);
When the process of the first process group is executed, information can be written and read, while when the process of the second process group is executed, information can be read, but information a first process-compatible storage area (the work area 211 for specific control and the stack area 212 for specific control in the thirteenth and fourteenth embodiments) in which writing of the
When the process of the second process group is executed, information can be written and read. On the other hand, when the process of the first process group is executed, information can be read, but information a second process-compatible storage area (the work area 213 for non-specific control and the stack area 214 for non-specific control in the thirteenth and fourteenth embodiments) in which writing of is impossible,
The second processing group executing means,
As the processing of the second processing group, a predetermined event (an event in which affirmative determination is made in step S6003 of the main MPU 82 in the thirteenth and fourteenth embodiments, an event in which affirmative determination is made in step S6009, or an affirmative determination in step S6014 A means for executing an event occurrence identification process for identifying whether or not an event occurring) has occurred (steps S6001 to S6003, steps S6007 to S6009 or steps S6013 to S6014 in the thirteenth and fourteenth embodiments function) and
As the processing of the second processing group, when the occurrence of the predetermined event is identified by the event occurrence identification processing, predetermined event occurrence information (abnormal flags 213l to 213r) (executing step S6004, step S6010 or step S6015 of the main MPU 82 in the thirteenth and fourteenth embodiments) function) and
with
The first processing group executing means,
means for executing information specifying processing for specifying whether or not the predetermined event occurrence information is stored in the second processing corresponding storage area (in the thirteenth embodiment, steps S6601, S6604, S6607, and Function of executing the processing of step S6610, step S6613, step S6616, step S6619 or step S6621; S8115, a function to execute the processing of step S8118);
As the processing of the first processing group, special processing executing means ( In the thirteenth embodiment, step S6602, step S6603, step S6605, step S6606, step S6608, step S6609, step S6611, step S6612, step S6614, step S6615, step S6617, step S6618, step S6620 or step The function of executing the process of S6622, the process of step S8006 of the main MPU 82 in the fourteenth embodiment, the process of step S8013, the process of making an affirmative determination in step S8102, the process of making an affirmative determination in step S8105, and step S8108. affirmative determination processing, step S8111 affirmative determination processing, step S8115 affirmative determination processing, step S8118 affirmative determination processing);
with
The second process group executing means, as the process of the second process group, deletes the predetermined event occurrence information before the event occurrence specifying process is executed when the event occurrence specifying process is executed. A game machine characterized by comprising means for executing information erasing processing (function for executing information clearing processing of the main side MPU 82 in the thirteenth and fourteenth embodiments).

According to feature R1, when the process of the first process group is executed, the storage area corresponding to the first process is targeted for writing information, but the storage area corresponding to the second process is not targeted for writing information. When the process of the second process group is executed, the information is written in the memory area corresponding to the second process, but the information is not written in the memory area corresponding to the first process. This makes it possible to clearly distinguish between the types of storage areas to which information is written when the processes of the first process group are executed and when the processes of the second process group are executed. On the other hand, even when the process of the first process group is executed, information can be read not only from the storage area corresponding to the first process but also from the storage area corresponding to the second process. Even when the process is executed, it is possible to read information not only from the storage area corresponding to the second process but also from the storage area corresponding to the first process. As a result, information corresponding to the processing result of one of the processing of the first processing group and the processing of the second processing group can be referred to in the other processing.

In this case, if it is specified that the predetermined event has occurred in the processing of the second processing group and the predetermined event occurrence information is stored in the storage area corresponding to the second processing, then in the processing of the first processing group Corresponding special processing is performed. Accordingly, by executing the process for specifying whether or not the predetermined event has occurred as the process of the second process group instead of the process of the first process group, the process can be executed as the process of the first process group. Even with a configuration with a margin, it is possible to execute special processing in response to the occurrence of a predetermined event as processing of the first processing group. Therefore, it becomes possible to suitably execute the processing in the control means.

Further, when it is specified that a predetermined event has occurred in the event occurrence specifying process, which is the process of the second process group, the storage area corresponding to the second process is specified in the occurrence information storage process, which is the process of the second process group. In a configuration in which predetermined event occurrence information is stored in a storage device, occurrence information deletion processing for deleting the predetermined event occurrence information is performed before the event occurrence identification processing is executed when the event occurrence identification processing is executed. executed. In other words, the event occurrence identification process and the occurrence information storage process are executed after the predetermined event occurrence information is once erased. Thereby, when the process for storing the predetermined event occurrence information in the storage area corresponding to the second process is executed in the process of the second process group and the predetermined event occurrence information is stored in the storage area corresponding to the second process In the configuration in which the special process is executed in the process of the first process group, while preventing the special process from being executed multiple times by storing the predetermined event occurrence information once, appropriate in the process of the second process group It is possible to execute the occurrence information erasing process for erasing the predetermined event occurrence information at appropriate timing.

Feature R2. The information identifying process is executed after the event occurrence identifying process is executed and before the occurrence information erasing process corresponding to the next execution of the event occurrence identifying process is executed. The gaming machine according to feature R1.

According to the feature R2, when it is specified that the predetermined event occurrence information is stored in the storage area corresponding to the second process in the information specifying process which is the process of the first process group, the process of the first process group is performed. In the configuration in which special processing is executed, after the information specifying processing is executed, the predetermined event occurrence information is erased by the occurrence information erasing processing, which is the processing of the second processing group. Thereby, when the predetermined event occurrence information is stored in the storage area corresponding to the second processing, the predetermined event occurrence information is erased in the processing of the second processing group while the special processing is executed for the predetermined event occurrence information. becomes possible.

Feature R3. The first process group executing means is a means for executing, as the process of the first process group, grant opportunity processing for specifying whether or not a privilege grant opportunity has occurred (in the thirteenth embodiment, the main side MPU 82 Function to execute the processing of step S5602, step S5605, step S5608, step S5611, step S5614, step S5617, step S5620 or step S5622; S7809, step S7811, step S7813, step S7815 or step S7817 function),
The gaming machine according to feature R1 or R2, wherein the special process is a process of nullifying the awarding opportunity of the privilege specified in the awarding opportunity process.

According to the feature R3, it is specified whether or not a privilege grant opportunity has occurred in the grant trigger processing, which is the processing of the first processing group, and the predetermined event is detected in the occurrence information storage processing, which is the processing of the second processing group. occurrence is identified and the predetermined event occurrence information is stored in the storage area corresponding to the second process, the special process, which is the process of the first process group, nullifies the opportunity to grant the privilege. . Accordingly, by executing the process for specifying whether or not the predetermined event has occurred as the process of the second process group instead of the process of the first process group, the process can be executed as the process of the first process group. While providing a margin, it is possible to collectively perform the processing for identifying the occurrence of the opportunity to give the privilege and the processing for invalidating the opportunity to give the privilege in the processing of the first processing group.

Feature R4. The first process group executing means stores grant opportunity information (confirmation flag group 211d Setting "1" to each confirmation flag) for executing grant trigger processing (step S5603, step S5606, step S5609, step S5612, step S5615, step S5618 of the main MPU 82 in the thirteenth embodiment , a function to execute the processing of step S5621 or step S5623),
The gaming machine according to any one of features R1 to R3, wherein the special process is a process of erasing the grant opportunity information stored in the storage area corresponding to the first process.

According to the feature R4, when it is specified that a privilege granting opportunity has occurred in the granting triggering process, which is the processing of the first processing group, the granting triggering information is stored in the storage area corresponding to the first process, and then When the occurrence information storage process, which is the process of the second process group, specifies that the predetermined event has occurred and the predetermined event occurrence information is stored in the storage area corresponding to the second process, the first process The grant trigger information in the storage area corresponding to the first process is erased in the special process, which is the group process. Accordingly, by executing the process for specifying whether or not the predetermined event has occurred as the process of the second process group instead of the process of the first process group, the process can be executed as the process of the first process group. In the process of the first processing group while using the storage area corresponding to the first processing, the processing for specifying the occurrence of the granting opportunity of the privilege and the processing for invalidating the granting opportunity of the privilege while giving a margin It is possible to do it collectively.

Feature R5. The first process group execution means is means for executing a privilege grant process as the process of the first process group when the grant trigger information is stored in the storage area corresponding to the first process (thirteenth embodiment). function to execute the processing of step S5518, step S5704 or step S5709 of the main side MPU 82 in
The gaming machine according to feature R4, wherein the event occurrence specifying process and the information specifying process are executed after the granting trigger process is executed and before the privilege granting process is executed. .

According to feature R5, the event occurrence specifying process, which is the process of the second process group, and the information specifying process, which is the process of the first process group, are performed after the application trigger process, which is the process of the first process group. is executed before the privilege provision process, which is the process of the first process group, is executed. Accordingly, by executing the process for specifying whether or not the predetermined event has occurred as the process of the second process group instead of the process of the first process group, the process can be executed as the process of the first process group. It is possible to invalidate the opportunity to give the privilege before executing the privilege giving process when a predetermined event occurs while providing a margin.

Feature R6. means for starting a predetermined unit process (first timer interrupt process) when a process execution trigger occurs (function for executing the first timer interrupt process of the main MPU 82 in the thirteenth embodiment);
the predetermined unit processing includes the event occurrence identification processing, the grant trigger processing, the privilege grant processing, and the information identification processing;
The event occurrence identification process is executed after the grant trigger process is executed, the information identification process is executed after the event occurrence identification process is executed, and the privilege grant process is executed after the information identification process is executed. The gaming machine according to feature R5, wherein the processing order of the predetermined unit processing in one processing cycle is set so that is executed.

According to the feature R6, in a configuration in which the predetermined unit process includes an event occurrence specifying process, a grant triggering process, a privilege granting process, and an information specifying process, the event occurrence specifying process is executed after the granting trigger process is executed, Only by setting the execution order of the processes in the predetermined unit process so that the information specifying process is executed after the event occurrence specifying process is executed, and the privilege provision process is executed after the information specifying process is executed, It is possible to obtain the excellent effects as described above.

For the configuration of features R1 to R6, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

<Feature S group>
Feature S1. a first processing group executing means (a function of executing the specific control processing of the main MPU 82 in the thirteenth and fourteenth embodiments) for executing the processing of the first processing group (specific control processing);
Second processing group execution means (function for executing non-specific control processing of the main side MPU 82 in the thirteenth and fourteenth embodiments) for executing processing of the second processing group (non-specific control processing);
When the process of the first process group is executed, information can be written and read, while when the process of the second process group is executed, information can be read, but information a first process-compatible storage area (the work area 211 for specific control and the stack area 212 for specific control in the thirteenth and fourteenth embodiments) in which writing of the
When the process of the second process group is executed, information can be written and read. On the other hand, when the process of the first process group is executed, information can be read, but information a second process-compatible storage area (the work area 213 for non-specific control and the stack area 214 for non-specific control in the thirteenth and fourteenth embodiments) in which writing of is impossible,
The first processing group executing means, as the processing of the first processing group, based on the occurrence of a predetermined measurement start event (step S6104 or step S6303 of the main MPU 82 in the thirteenth and fourteenth embodiments) , Predetermined measurement start for starting measurement of a predetermined monitoring period using a predetermined measurement storage area (special electrical monitoring delay timer counter 211b, general electrical monitoring delay timer counter 211c) provided in the storage area corresponding to the first process. means for executing processing (function for executing the processing of step S6106 or step S6305 of the main MPU 82 in the thirteenth and fourteenth embodiments),
The second processing group execution means performs a predetermined response when a predetermined response event occurs in a situation in which the predetermined response event should not occur in relation to the predetermined monitoring period as the processing of the second processing group. A game machine characterized by comprising predetermined corresponding execution means for executing processing (function for executing the processing of step S6004, step S6010 or step S6015 of the main side MPU 82 in the thirteenth and fourteenth embodiments).

According to feature S1, when the process of the first process group is executed, the storage area corresponding to the first process is targeted for writing information, but the storage area corresponding to the second process is not targeted for writing information. When the process of the second process group is executed, the information is written in the memory area corresponding to the second process, but the information is not written in the memory area corresponding to the first process. This makes it possible to clearly distinguish between the types of storage areas to which information is written when the processes of the first process group are executed and when the processes of the second process group are executed. On the other hand, even when the process of the first process group is executed, information can be read not only from the storage area corresponding to the first process but also from the storage area corresponding to the second process. Even when the process is executed, it is possible to read information not only from the storage area corresponding to the second process but also from the storage area corresponding to the first process. As a result, information corresponding to the processing result of one of the processing of the first processing group and the processing of the second processing group can be referred to in the other processing.

In this case, when a predetermined response event occurs in a situation where the predetermined response event should not occur due to the relationship with the predetermined monitoring period, the predetermined response processing is executed in the processing of the second processing group. Accordingly, by executing the process for specifying whether or not the predetermined corresponding event has occurred as the process of the second process group instead of the process of the first process group, the process that can be executed as the process of the first process group It is possible to have some leeway. Therefore, it becomes possible to suitably execute the processing in the control means.

Further, in the configuration in which the predetermined response process is executed in the process of the second process group when the predetermined response event occurs in a situation where the predetermined response event should not occur due to the relationship with the predetermined monitoring period, the predetermined response process is performed. It becomes possible to perform the processing for performing the measurement for the predetermined monitoring period using the measurement storage area in the processing of the first processing group.

Feature S2. The first processing group execution means is means for executing processing for specifying whether or not the predetermined measurement start event has occurred as the processing of the first processing group (in the thirteenth and fourteenth embodiments, The gaming machine according to feature S1, characterized by comprising a function of executing the processing of step S6103 or step S6302 of the main side MPU 82 .

According to feature S2, in a configuration in which a process for specifying whether or not a predetermined measurement start event has occurred in the processing of the first processing group, the configuration of feature S1 is provided, and a predetermined storage for measurement is provided. A process for measuring a predetermined monitoring period using an area is performed in the process of the first process group. This makes it possible to integrate the processing for measuring the predetermined monitoring period into the processing of the first processing group.

Feature S3. The second processing group executing means, as the processing of the second processing group, based on occurrence of a specific measurement start event (affirmative determination in step S6013 of the main MPU 82 in the thirteenth and fourteenth embodiments) , a specific measurement start process for starting measurement of a specific monitoring period using specific measurement storage areas (first to eighth winning monitor timer counters 213a to 213h) provided in the second process corresponding storage area. The gaming machine according to feature S1 or S2, characterized by comprising means (a function of executing the processing of step S6016 of the main MPU 82 in the thirteenth and fourteenth embodiments).

According to feature S3, the processing for measuring the specific monitoring period based on the occurrence of the specific measurement start event is included in the second processing group. As a result, the processing for measuring various periods can be distributed between the processing of the first processing group and the processing of the second processing group for each type of period to be measured.

Feature S4. The predetermined response execution means is characterized by executing the predetermined response process when the specific response event occurs in a situation where the specific response event should not occur in relation to the specific monitoring period. The gaming machine described in S3.

According to feature S4, the predetermined response process is executed when the predetermined response event occurs in a situation where the predetermined response event should not occur due to the relationship with the predetermined monitoring period measured in the processing of the first processing group. In addition, the predetermined response process is executed even when the specific response event occurs in a situation where the specific response event should not occur due to the relationship with the specific monitoring period measured in the processing of the second processing group. As a result, the process of measuring each period for specifying whether or not an event that triggers the execution of the predetermined response process has occurred is performed in units of the types of periods to be measured, and the processes of the first process group and the processing of the second processing group.

Feature S5. The predetermined response process stores predetermined event occurrence information ( setting "1" to any of the abnormality flags 213l to 213r) is stored,
The first process group execution means is a special process execution means (a thirteenth In the embodiment of step S6602, step S6603, step S6605, step S6606, step S6608, step S6609, step S6611, step S6612, step S6614, step S6615, step S6617, step S6618, step S6620 or step S6622 of the main MPU 82 In the fourteenth embodiment, the processing of step S8006 of the main MPU 82, the processing of step S8013, the processing of making an affirmative determination in step S8102, the processing of making an affirmative determination in step S8105, and the processing of making an affirmative determination in step S8108. processing for making an affirmative determination, processing for making an affirmative determination in step S8111, processing for making an affirmative determination in step S8115, and processing for making an affirmative determination in step S8118). The game machine according to any one of S1 to S4.

According to the feature S5, when a predetermined response event occurs in a situation where the predetermined response event should not occur due to the relationship with the predetermined monitoring period, the predetermined event occurrence information is stored in the second processing storage area. Special processing is executed in the processing of the first processing group when the predetermined event occurrence information is stored in the storage area corresponding to two processing. Accordingly, by executing the process for specifying whether or not the predetermined corresponding event has occurred as the process of the second process group instead of the process of the first process group, the process that can be executed as the process of the first process group Even with a configuration in which a leeway is provided, it is possible to execute special processing in response to the occurrence of the predetermined response event as the processing of the first processing group.

Feature S6. The first process group executing means is a means for executing, as the process of the first process group, grant opportunity processing for specifying whether or not a privilege grant opportunity has occurred (in the thirteenth embodiment, the main side MPU 82 Function to execute the processing of step S5602, step S5605, step S5608, step S5611, step S5614, step S5617, step S5620 or step S5622; S7809, step S7811, step S7813, step S7815 or step S7817 function),
The gaming machine according to feature S5, wherein the special process is a process of nullifying the awarding opportunity of the privilege specified in the awarding opportunity process.

According to the feature S6, it is specified whether or not a privilege grant opportunity has occurred in the grant trigger processing, which is the processing of the first processing group, and the predetermined event is detected in the occurrence information storage processing, which is the processing of the second processing group. occurrence is identified and the predetermined event occurrence information is stored in the storage area corresponding to the second process, the special process, which is the process of the first process group, nullifies the opportunity to grant the privilege. . Accordingly, by executing the process for specifying whether or not the predetermined event has occurred as the process of the second process group instead of the process of the first process group, the process can be executed as the process of the first process group. While providing a margin, it is possible to collectively perform the processing for identifying the occurrence of the opportunity to give the privilege and the processing for invalidating the opportunity to give the privilege in the processing of the first processing group.

Feature S7. The first process group executing means stores grant opportunity information (confirmation flag group 211d Setting "1" to each confirmation flag) means for executing grant trigger processing (step S5603, step S5606, step S5609, step S5612, step S5615, step S5618 of the main MPU 82 in the thirteenth embodiment , a function to execute the processing of step S5621 or step S5623),
The gaming machine according to feature S5, wherein the special process is a process of erasing the grant opportunity information stored in the storage area corresponding to the first process.

According to the feature S7, when it is specified that a privilege granting opportunity has occurred in the granting triggering process, which is the processing of the first processing group, the granting triggering information is stored in the storage area corresponding to the first processing, and then When the occurrence information storage process, which is the process of the second process group, specifies that the predetermined event has occurred and the predetermined event occurrence information is stored in the storage area corresponding to the second process, the first process The grant trigger information in the storage area corresponding to the first process is erased in the special process, which is the group process. Accordingly, by executing the process for specifying whether or not the predetermined event has occurred as the process of the second process group instead of the process of the first process group, the process can be executed as the process of the first process group. In the process of the first processing group while using the storage area corresponding to the first processing, the processing for specifying the occurrence of the granting opportunity of the privilege and the processing for invalidating the granting opportunity of the privilege while giving a margin It is possible to do it collectively.

In addition, with respect to the configuration of features S1 to S7, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

<Characteristic T group>
Feature T1. a first processing group executing means (a function of executing the specific control processing of the main MPU 82 in the thirteenth and fourteenth embodiments) for executing the processing of the first processing group (specific control processing);
Second processing group execution means (function for executing non-specific control processing of the main side MPU 82 in the thirteenth and fourteenth embodiments) for executing processing of the second processing group (non-specific control processing);
When the process of the first process group is executed, information can be written and read, while when the process of the second process group is executed, information can be read, but information a first process-compatible storage area (the work area 211 for specific control and the stack area 212 for specific control in the thirteenth and fourteenth embodiments) in which writing of the
When the process of the second process group is executed, information can be written and read. On the other hand, when the process of the first process group is executed, information can be read, but information a second process-compatible storage area (the work area 213 for non-specific control and the stack area 214 for non-specific control in the thirteenth and fourteenth embodiments) in which writing of is impossible,
The second process group executing means performs a predetermined event (an event in which the main MPU 82 in the thirteenth and fourteenth embodiments makes an affirmative determination in step S6003, an affirmative determination in step S6009) as the process of the second process group. event (or an event determined affirmatively in step S6014) occurs, predetermined event occurrence information (setting "1" to any of the abnormality flags 213l to 213r) in the storage area corresponding to the second process. Means for executing the occurrence information storage process to be stored (function for executing the processing of step S6004, step S6010 or step S6015 of the main side MPU 82 in the thirteenth and fourteenth embodiments),
The first processing group executing means,
As the processing of the first processing group, when it is specified that a privilege granting opportunity has occurred, the granting opportunity information (each confirmation flag of the confirmation flag group 211d is set to "1" in the storage area corresponding to the first processing) means for executing grant trigger processing (step S5603, step S5606, step S5609, step S5612, step S5615, step S5618, step S5621 or step S5623 of the main MPU 82 in the thirteenth embodiment) function) and
As the process of the first process group, a special process of deleting the grant trigger information stored in the storage area corresponding to the first process when the predetermined event occurrence information is stored in the storage area corresponding to the second process. Special processing executing means to be executed (in the thirteenth embodiment, steps S6602, S6603, S6605, S6606, S6608, S6609, S6611, S6612, S6614, S6615, S6617, The function of executing the processing of step S6618, step S6620 or step S6622, the processing of step S8006 of the main side MPU 82 in the fourteenth embodiment, the processing of step S8013, the processing of making an affirmative determination in step S8102, and the affirmative determination in step S8105 affirmative determination in step S8108, affirmative determination in step S8111, affirmative determination in step S8115, and affirmative determination in step S8118; ,
A game machine characterized by comprising:

According to feature T1, when the process of the first process group is executed, the storage area corresponding to the first process is targeted for writing information, but the storage area corresponding to the second process is not targeted for writing information. When the process of the second process group is executed, the information is written in the memory area corresponding to the second process, but the information is not written in the memory area corresponding to the first process. This makes it possible to clearly distinguish between the types of storage areas to which information is written when the processes of the first process group are executed and when the processes of the second process group are executed. On the other hand, even when the process of the first process group is executed, information can be read not only from the storage area corresponding to the first process but also from the storage area corresponding to the second process. Even when the process is executed, it is possible to read information not only from the storage area corresponding to the second process but also from the storage area corresponding to the first process. As a result, information corresponding to the processing result of one of the processing of the first processing group and the processing of the second processing group can be referred to in the other processing.

In this case, when it is specified that a privilege granting opportunity has occurred in granting triggering processing, which is the processing of the first processing group, granting triggering information is stored in the storage area corresponding to the first processing. When the predetermined event occurrence information is stored in the storage area corresponding to the second processing by specifying that the predetermined event has occurred in the occurrence information storage processing which is the processing of the second processing group, the first processing group In the special process, which is the process, the grant trigger information in the storage area corresponding to the first process is erased. Accordingly, by executing the process for specifying whether or not the predetermined event has occurred as the process of the second process group instead of the process of the first process group, the process can be executed as the process of the first process group. In the process of the first processing group while using the storage area corresponding to the first processing, the processing for specifying the occurrence of the granting opportunity of the privilege and the processing for invalidating the granting opportunity of the privilege while giving a margin It is possible to do it collectively.

Feature T2. The first process group execution means is means for executing a privilege grant process as the process of the first process group when the grant trigger information is stored in the storage area corresponding to the first process (thirteenth embodiment). function to execute the processing of step S5518, step S5704 or step S5709 of the main MPU 82 in
The gaming machine according to feature T1, wherein the occurrence information storage process and the special process are executed after the grant opportunity process is executed and before the privilege grant process is executed.

According to feature T2, the occurrence information storage process, which is the process of the second process group, and the special process, which is the process of the first process group, are executed after the application trigger process, which is the process of the first process group. It is executed before the privilege provision processing, which is the processing of the first processing group, is executed. Accordingly, by executing the process for specifying whether or not the predetermined event has occurred as the process of the second process group instead of the process of the first process group, the process can be executed as the process of the first process group. It is possible to invalidate the opportunity to give the privilege before executing the privilege giving process when a predetermined event occurs while providing a margin.

Feature T3. means for starting a predetermined unit process (first timer interrupt process) when a process execution trigger occurs (function for executing the first timer interrupt process of the main MPU 82 in the thirteenth embodiment);
The first processing group executing means executes, as the processing of the first processing group, information identifying processing for identifying whether or not the predetermined event occurrence information is stored in the second processing correspondence storage area (first 13 of the main MPU 82 in the embodiment), and
The special process executing means executes the special process when it is specified in the information specifying process that the predetermined event occurrence information is stored in the storage area corresponding to the second process,
The predetermined unit processing includes the generated information storage processing, the granting trigger processing, the privilege granting processing, and the information specifying processing,
The occurrence information storage process is executed after the grant opportunity process is executed, the information identification process is executed after the occurrence information storage process is executed, and the privilege grant process is executed after the information identification process is executed. The gaming machine according to feature T2, wherein the processing order of the predetermined unit processes in one processing time is set so as to be executed.

According to feature T3, in a configuration in which the predetermined unit processing includes occurrence information storage processing, grant trigger processing, privilege grant processing, and information specifying processing, the occurrence information storage processing is executed after the grant trigger processing is executed, Only by setting the execution order of the processes in the predetermined unit process so that the information specifying process is executed after the occurrence information storage process is executed, and the privilege provision process is executed after the information specifying process is executed, It is possible to obtain the excellent effects as described above.

For the configuration of features T1 to T3, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

<Characteristic group U>
Features U1. In a game machine provided with control means (main side MPU 82 in the thirteenth embodiment) that executes various processes,
The control means is
a first process group executing means (a function of executing the specific control process of the main MPU 82 in the thirteenth embodiment) for executing the first process group process (specific control process) among the various processes;
Second processing group execution means (function for executing non-specific control processing of the main MPU 82 in the thirteenth embodiment) for executing the second processing group processing (non-specific control processing) among the various types of processing;
with
This game machine is
When the process of the first process group is executed, information can be written and read, while when the process of the second process group is executed, information can be read, but information A first process-compatible storage area (the work area 211 for specific control and the stack area 212 for specific control in the thirteenth embodiment) in which writing of is impossible,
When the process of the second process group is executed, information can be written and read. On the other hand, when the process of the first process group is executed, information can be read, but information a second process-compatible storage area (the work area 213 for non-specific control and the stack area 214 for non-specific control in the thirteenth embodiment) in which writing of the
with
The first processing group executing means, as the processing of the first processing group, stores the first transmission information (normal return command, means for executing a first transmission information storage process for storing a return command, a confirmation start command, a return command at confirmation, an update start command, a return command at update, a first pending command, a second pending command) (a thirteenth a function to execute the processing of steps S4914, S4921, S5003, S5007, S5105, S5114, S5705 or S5710 of the main MPU 82 in the embodiment),
The second processing group executing means stores the second transmission information (disconnection generation command, short circuit generation command, general electric prize winning abnormality) in the transmission information storage area when the second transmission trigger occurs as the processing of the second processing group. means for executing the second transmission information storage process for storing a command, a special electric winning abnormal command or a magnetic abnormality command (step S5404, step S5408, step S6005, step S6011 or step S6507 of the main MPU 82 in the thirteenth embodiment function to execute processing),
When the first transmission information is stored in the transmission information storage area, the game machine transmits the first transmission information to the transmission target (sound and light side MPU 93), and stores the first transmission information in the transmission information storage area. 2 transmission execution means (command transmission circuit 224) for transmitting the second transmission information to a transmission target (sound and light side MPU 93) when the second transmission information is stored.

According to feature U1, when the process of the first process group is executed, the information is written in the storage area corresponding to the first process, but the information is not written in the storage area corresponding to the second process. When the process of the second process group is executed, the information is written in the memory area corresponding to the second process, but the information is not written in the memory area corresponding to the first process. This makes it possible to clearly distinguish between the types of storage areas to which information is written when the processes of the first process group are executed and when the processes of the second process group are executed. On the other hand, even when the process of the first process group is executed, information can be read not only from the storage area corresponding to the first process but also from the storage area corresponding to the second process. Even when the process is executed, it is possible to read information not only from the storage area corresponding to the second process but also from the storage area corresponding to the first process. As a result, information corresponding to the processing result of one of the processing of the first processing group and the processing of the second processing group can be referred to in the other processing.

In this case, when the first transmission trigger occurs, the first transmission information is stored in the transmission information storage area in the first transmission information storage process, which is the processing of the first processing group, and the second transmission trigger occurs. In this case, the second transmission information is stored in the transmission information storage area in the second transmission information storage process, which is the process of the second processing group. Then, when the first transmission information is stored in the transmission information storage area, the first transmission information is transmitted to the transmission target, and when the second transmission information is stored in the transmission information storage area, the second transmission information is stored. 2 Transmission information is transmitted to the transmission target. That is, the storage area to which information can be written by the process of the first process group and the storage area to which information can be written by the process of the second process group are divided into the first process-compatible storage area and the second process-compatible storage area. , the transmission information to be transmitted to the transmission target is written in a common transmission information storage area. This makes it possible to integrate the configuration for transmitting the transmission information, compared to the configuration in which the transmission information is individually transmitted in each of the processing of the first processing group and the processing of the second processing group.

Feature U2. The control means is configured to write information to an internal storage means (register area 223) provided in the control means when executing the various processes,
The gaming machine according to feature U1, wherein the transmission information storage area is provided in the internal storage means.

According to feature U2, the transmission information storage area in which the first transmission information is stored in the processing of the first processing group and the second transmission information is stored in the processing of the second processing group is the internal storage means of the control means. is provided in As a result, the storage area to which information can be written by the process of the first process group and the storage area to which information can be written by the process of the second process group are divided into the first process corresponding storage area and the second process corresponding storage area. In a configuration in which the storage area for the first process and the storage area for the second process are not used, storage areas for writing transmission information are divided between the processes of the first process group and the storage areas of the second process group. It is possible to share the processing.

Feature U3. The gaming machine according to feature U1 or U2, wherein the transmission execution means is included in neither the first process group execution means nor the second process group execution means.

According to feature U3, the transmission information stored in the transmission information storage area can be transmitted to the transmission target independently of the processing of the first processing group and the processing of the second processing group.

Feature U4. The first processing group executing means executes the processing of the first processing group using a program,
the second processing group executing means executes the processing of the second processing group using a program;
The game machine according to any one of features U1 to U3, wherein the transmission executing means performs the transmission without using a program.

According to feature U4, the processing of the first processing group and the processing of the second processing group are executed using a program, while the transmission of the transmission information stored in the transmission information storage area to the transmission target is Done without using a program. As a result, the transmission information stored in the transmission information storage area can be transmitted to the transmission target independently of the processing of the first processing group and the processing of the second processing group, and the necessary program capacity can be reduced. It becomes possible to execute control to transmit transmission information without increasing the transmission information.

Feature U5. The first transmission information can be transmitted not only in a situation where the control means is executing the processing of the first processing group but also in a situation where the processing of the second processing group is being executed. Thus, the second transmission information can be transmitted not only in a situation where the processing of the second processing group is being executed by the control means, but also in a situation where the processing of the first processing group is being executed. The gaming machine according to any one of features U1 to U4, characterized in that:

According to feature U5, the transmission information stored in the transmission information storage area can be transmitted to the transmission target regardless of the execution status of the processes of the first processing group and the processing of the second processing group.

For the configuration of features U1 to U5, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

<Characteristic group V>
Feature V1. a first processing group executing means (a function of executing a specific control process of the main MPU 82 in the thirteenth embodiment) for executing a first process group process (specific control process) among various processes;
Second processing group execution means (function for executing non-specific control processing of the main MPU 82 in the thirteenth embodiment) for executing the second processing group processing (non-specific control processing) among the various types of processing;
When the process of the first process group is executed, information can be written and read, while when the process of the second process group is executed, information can be read, but information A first process-compatible storage area (the work area 211 for specific control and the stack area 212 for specific control in the thirteenth embodiment) in which writing of is impossible,
When the process of the second process group is executed, information can be written and read. On the other hand, when the process of the first process group is executed, information can be read, but information a second process-compatible storage area (the work area 213 for non-specific control and the stack area 214 for non-specific control in the thirteenth embodiment) in which writing of the
with
The first process group executing means executes, as the process of the first process group, a first update process of updating information in a first numerical value storage area (first security counter 211a) when a first update opportunity occurs. means (function for executing the processing of step S4917 or step S4920 of the main MPU 82 in the thirteenth embodiment),
The second process group executing means executes, as the process of the second process group, a second update process of updating information in a second numerical value storage area (second security counter 213k) when a second update trigger occurs. (a function of executing the processing of step S5405, step S5409, step S6006, step S6012 or step S6508 of the main MPU 82 in the thirteenth embodiment),
This gaming machine includes means for executing specific handling processing corresponding to both the information in the first numerical value storage area and the information in the second numerical value storage area (the security processing of the main side MPU 82 in the thirteenth embodiment). A game machine characterized by having a function to execute).

According to feature V1, when the process of the first process group is executed, the information is written to the storage area corresponding to the first process, but the information is not written to the storage area corresponding to the second process. When the process of the second process group is executed, the information is written in the memory area corresponding to the second process, but the information is not written in the memory area corresponding to the first process. This makes it possible to clearly distinguish between the types of storage areas to which information is written when the processes of the first process group are executed and when the processes of the second process group are executed. On the other hand, even when the process of the first process group is executed, information can be read not only from the storage area corresponding to the first process but also from the storage area corresponding to the second process. Even when the process is executed, it is possible to read information not only from the storage area corresponding to the second process but also from the storage area corresponding to the first process. As a result, information corresponding to the processing result of one of the processing of the first processing group and the processing of the second processing group can be referred to in the other processing.

In this case, when the first update trigger occurs, the information in the first numerical value storage area is updated in the first update processing which is the processing of the first processing group, and when the second update trigger occurs, the second update trigger is updated. The information in the second numerical value storage area is updated in the second update process, which is the process group process. Then, a specific handling process corresponding to both the information in the first numerical value storage area and the information in the second numerical value storage area is executed. Accordingly, in a configuration in which the processing of the first processing group and the processing of the second processing group are clearly distinguished, the contents specified in each of the processing of the first processing group and the processing of the second processing group are handled. Processing can be executed.

Feature V2. The gaming machine according to feature V1, wherein the first numerical value storage area is provided in the first processing correspondence storage area.

According to feature V2, it is possible to use the storage area corresponding to the first process as a storage area for storing information corresponding to the occurrence of the first update trigger.

Feature V3. The gaming machine according to feature V2, wherein the second numerical value storage area is provided in the second processing correspondence storage area.

According to feature V3, it is possible to use the storage area corresponding to the first process as a storage area for storing information corresponding to the occurrence of the first update opportunity, and the occurrence of the second update opportunity. It becomes possible to use the second process corresponding storage area as a storage area for storing information corresponding to .

Feature V4. The gaming machine according to any one of features V1 to V3, wherein the specific handling process is included in either one of the processes of the first process group and the processes of the second process group.

According to the feature V4, it is possible to integrate the specific handling process into either the process of the first process group including the first update process or the process of the second process group including the second update process.

Feature V5. The specific handling process is included in the process of the first process group,
The first process correspondence storage area includes a confirmed storage area (previous value storage area 211e) for storing information of the second numerical value storage area when the specific correspondence process is executed,
In the specific handling process,
Difference identification processing for identifying the difference between the information in the second numerical value storage area and the information in the confirmed storage area (processing of steps S6701 to S6703 of the main MPU 82 in the thirteenth embodiment);
Processing for executing control corresponding to both the difference information identified by the difference identification processing and the information in the first numerical value storage area (step S6706 to step processing of S6714);
The gaming machine according to any one of features V1 to V4, wherein

According to feature V5, in a configuration in which the first update process and the predetermined correspondence process are included in the process of the first process group, and the second update process is included in the process of the second process group, the information in the second numerical value storage area Control corresponding to both the difference and the information in the first numerical value storage area can be executed in the specific handling process.

Feature V6. It is possible to measure the number of times the first update trigger occurs using the first numerical value storage area,
It is possible to measure the number of times the second update trigger occurs using the second numerical value storage area,
The game according to any one of features V1 to V5, wherein in the specific correspondence process, a process corresponding to the sum of the information in the first numerical value storage area and the information in the second numerical value storage area is executed. machine.

According to feature V6, it is possible to achieve the excellent effects already described in a configuration that executes processing corresponding to the sum of the number of times the first update opportunity has occurred and the number of times the second update opportunity has occurred. .

For the configuration of features V1 to V6, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

According to the inventions according to the feature Q group, the feature R group, the feature S group, the feature T group, the feature group U, and the feature group V, the following problems can be solved.

Pachinko machines, slot machines, and the like are known as types of gaming machines. In these gaming machines, it is known that an internal lottery is held based on the establishment of a predetermined lottery condition, and a privilege is given to the player according to the result of the internal lottery.

Specifically, the pachinko machine has a configuration in which a winning result is obtained in an internal lottery based on the entry of a game ball into a ball entry section provided in the game area, and a transition to a special game state. A configuration is known in which a transition is made to a special game state based on a game ball entering a part. When the game shifts to the special game state, for example, opening and closing of a ball entry device provided in the game area is started, and game balls are paid out based on the entry into the ball entry device.

Here, in the gaming machine such as the one exemplified above, it is necessary for the control means to suitably execute the processing, and there is still room for improvement in this regard.

<Characteristic group W>
Feature W1. Based on the occurrence of the first predetermined trigger (execution of the game round corresponding to the time saving result in the 15th embodiment, execution of the game round corresponding to the first to third time saving results in the 21st embodiment), The advantage of the predetermined event (the frequency that the second operation port 34 is in the open state) is different from the normal game state 1st predetermined state (in the 15th embodiment the 3rd time saving state ST3, in the 21st embodiment Third time saving state ST3A ~ ST3C) can be executed first predetermined state information (third time saving state flag 324 "1" information in the fifteenth embodiment, event object counter 371 "3" information) in a predetermined storage means (main side RAM 84) (in the fifteenth embodiment, a function of executing the processing of step S8705 in the main side MPU 82);
The advantage of the predetermined event based on the occurrence of the second predetermined trigger (end of the opening and closing execution mode triggered by the 5R low probability result in the 15th and 21st embodiments or digestion of the game round of the ceiling number of times) 2nd predetermined state information (15th embodiment In the information of "1" of the first time saving state flag 322 or "1" information of the second time saving state flag 323, in the 21st embodiment the information of "1" or "2" of the event object counter 371) Second information setting means to be set in the predetermined storage means (function for executing the processing of step S8406 or step S8605 in the main MPU 82 in the fifteenth embodiment, step SC207 or step SC305 in the main MPU 82 in the twenty-first embodiment function to perform processing) and
with
A gaming machine, wherein the priority of setting information for the predetermined storage means is set higher for the second predetermined state information than for the first predetermined state information.

According to the feature W1, the first predetermined state in which the advantage of the predetermined event is different from the normal game state can be executed based on the occurrence of the first predetermined opportunity, and the predetermined state based on the occurrence of the second predetermined opportunity A second predetermined state in which the event advantage is different from the normal game state can be executed. As a result, it is possible to diversify the game state in relation to the degree of advantage of the predetermined event. In this case, the priority of setting information in the predetermined storage means is set higher for the second predetermined state information than for the first predetermined state information. As a result, it is possible to cause the second predetermined state to occur with priority over the first predetermined state, and even if the first predetermined trigger and the second predetermined trigger occur at arbitrary timings It is possible to set the type of the predetermined state to be preferentially generated at the design stage of the gaming machine. Therefore, it is possible to suitably realize improvement in the interest of the game.

Feature W2. The gaming machine according to feature W1, wherein the first information setting means does not set the first predetermined state information in the predetermined storage means when the first predetermined trigger occurs in the second predetermined state. .

According to feature W2, even if the first predetermined trigger occurs in the second predetermined state, the priority of setting the information in the predetermined storage means is set higher for the second predetermined state information than for the first predetermined state information. Therefore, the first predetermined state information is not set in the predetermined storage means, and the state in which the second predetermined state information is set in the predetermined storage means is maintained. This makes it possible to maintain the second predetermined state even if the first predetermined trigger occurs in the second predetermined state.

Feature W3. standby state setting means (21st implementation) for setting a standby state in which the first predetermined state information is set in the predetermined storage means when the first predetermined trigger occurs in the second predetermined state; function to execute the processing of step SC409 of the main side MPU 82 in the form),
The gaming machine according to feature W2, wherein the first information setting means sets the first predetermined state information in the predetermined storage means when the second predetermined state ends in the standby state.

According to feature W3, when the first predetermined trigger occurs in the second predetermined state, the second predetermined state is maintained, but the setting of the first predetermined state information in the predetermined storage means is waited. state. Then, when the second predetermined state ends in the standby state, the first predetermined state information is set in the predetermined storage means. Thereby, when the first predetermined trigger occurs in the second predetermined state, it is possible to prevent the first predetermined trigger from being invalidated as it is.

Feature W4. The gaming machine according to feature W3, wherein when an end opportunity occurs in the standby state, the standby state is canceled without setting the first predetermined state information in the predetermined storage means.

According to feature W4, it is possible to create a situation in which the first predetermined state information is not set in the predetermined storage unit even if the device enters the standby state.

Feature W5. Any one of features W1 to W4, wherein the second information setting means sets the second predetermined state information in the predetermined storage means when the second predetermined trigger occurs in the first predetermined state. 1. The gaming machine according to 1.

According to feature W5, when the second predetermined trigger occurs in the first predetermined state, the priority of setting information in the predetermined storage means is set higher for the second predetermined state information than for the first predetermined state information. Therefore, the second predetermined state information is set in the predetermined storage means. Thereby, when the second predetermined trigger occurs in the first predetermined state, it is possible to start the second predetermined state instead of the first predetermined state.

Feature W6. The first predetermined opportunity is a predetermined lottery process executed when a game round is executed (in the fifteenth embodiment, the success/failure determination process of step S805; in the twenty-first embodiment, the success/failure determination process of step S805 and step S811 Distribution determination process for time saving) in the predetermined trigger result (time saving result in the 15th embodiment, 1st to 3rd time saving results in the 21st embodiment). The gaming machine according to any one of features W1 to W5.

According to the feature W6, the first predetermined opportunity is generated based on the result of the predetermined lottery process executed when the game cycle is executed, and thus the first predetermined opportunity is generated irregularly. It will be. In this case, the configuration of feature W1 is provided, and the priority of setting information for the predetermined storage means is set higher for the second predetermined state information than for the first predetermined state information. Even if the first predetermined trigger occurs irregularly in a situation in which the second predetermined state information is set, it is possible to maintain the state in which the second predetermined state information is set in the predetermined storage means.

Feature W7. Any of the features W1 to W6 characterized in that the second predetermined opportunity occurs when a predetermined advantageous gaming state (opening/closing execution mode triggered by a 5R low probability result) advantageous to the player is executed. 1. The gaming machine according to 1.

According to feature W7, the priority of the second predetermined state information set in the predetermined storage means is set higher than that of the first predetermined state information upon execution of a predetermined advantageous gaming state advantageous to the player. As a result, it is possible to easily maintain the second predetermined state that is executed along with the execution of the advantageous game state.

Feature W8. Predetermined measuring means (ceiling counter 325 in the fifteenth and twenty-first embodiments) for measuring the number of times the game is executed is provided,
Any one of the characteristics W1 to W6, wherein the second predetermined opportunity occurs when the number of executions of the game times measured by the predetermined measuring means reaches a predetermined number of opportunities (ceiling number of times). The gaming machine described in .

According to the feature W8, the priority of the second predetermined state information set in the predetermined storage means is set higher than the first predetermined state information when the number of execution times of the game round reaches the predetermined trigger number. As a result, it is possible to easily maintain the second predetermined state that is executed when the number of times the game is executed reaches the predetermined trigger number.

Feature W9. Based on the occurrence of the third predetermined trigger (end of the opening and closing execution mode triggered by the 5R low probability result in the 15th and 21st embodiments), the advantage of the predetermined event is different from the normal game state Third predetermined state information (first time saving state flag 322 in the 15th embodiment "1" information, In the twenty-first embodiment, the third information setting means for setting the "1" information of the event object counter 371) in the predetermined storage means (in the fifteenth embodiment, the function of executing the processing of step S8406 in the main side MPU 82, In the twenty-first embodiment, the function of executing the processing of step SC207 in the main MPU 82) is provided,
The priority of setting information for the predetermined storage means is set higher for the third predetermined state information than for the first predetermined state information,
The gaming machine according to any one of features W1 to W8, wherein the third predetermined opportunity does not occur in the second predetermined state, and the second predetermined opportunity does not occur in the third predetermined state. .

According to the feature W9, the third predetermined state in which the advantage of the predetermined event is different from the normal game state can be executed based on the occurrence of the third predetermined opportunity. As a result, it is possible to diversify the game state in relation to the degree of advantage of the predetermined event. In this case, the priority of setting information in the predetermined storage means is set higher for the third predetermined state information than for the first predetermined state information. As a result, it is possible to cause the third predetermined state to occur with priority over the first predetermined state, and even if the first predetermined trigger and the third predetermined trigger occur at arbitrary timings It is possible to set the type of the predetermined state to be preferentially generated at the design stage of the gaming machine.

In this case, the third predetermined trigger does not occur in the second predetermined state, and the second predetermined trigger does not occur in the third predetermined state. As a result, it is not necessary to set the priority of setting between the second predetermined state information and the third predetermined state information, so it is possible to simplify the processing configuration for executing control according to the priority. becomes.

Feature W10. The game machine according to any one of features W1 to W9, wherein a game state corresponding to the information stored in the predetermined storage means is established.

According to the characteristic W10, it is possible to obtain the excellent effects as described above in the configuration in which the game state corresponds to the information stored in the predetermined storage means.

Feature W11. Predetermined ball entry means (second actuation port 34 in fifteenth and twenty-first embodiments) that allows game balls flowing down the game area to enter;
Acquisition means (main side MPU 82 in the fifteenth and twenty-first embodiments executes the processing of step S709 function) and
Attachment determination means (function for executing the appropriateness determination processing of the main side MPU 82 in the fifteenth and twenty-first embodiments) for determining whether or not the special information corresponds to the attachment correspondence information (appropriateness determination processing); ,
Privilege for awarding a privilege (opening/closing execution mode) to a player based on the granting correspondence result (jackpot result) indicating that the special information corresponds to the granting correspondence information as a result of the granting determination. Giving means (function for executing special electric start processing, special electric open processing, special electric closed processing, and special electric end processing of the main MPU 82 in the fifteenth and twenty-first embodiments);
A predetermined ball entry control means (a function of executing the normal/universal power control process of the main side MPU 82 in the fifteenth and twenty-first embodiments) that can switch the predetermined ball entry means between the closed state and the open state ,
with
The predetermined event is a period in which the predetermined ball entry means is in the open state per unit period when the game is played in the same manner as the game balls flow down the game area. The gaming machine according to any one of features W1 to W10, characterized by:

According to the feature W11, when the special information is acquired based on the entry of the game ball into the predetermined ball entry means which is switched between the closed state and the open state, and the special information corresponds to the grant correspondence information. In the configuration in which a privilege is given to the player, in the case of the first predetermined state or the second predetermined state, per unit period when the game is played so that the game ball flows down the game area in the same manner The advantage of the period during which the predetermined ball-entering means is in the open state is different from that in the normal game state.

For the configuration of features W1 to W11, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

<Characteristic group X>
Feature X1. Predetermined trigger (in the 19th and 20th embodiments, the end of the opening and closing execution mode triggered by the 5R low probability result, the execution of the game round corresponding to the digestion of the ceiling number of game rounds or the time saving result, the 21st to 29th In the embodiment, the end of the opening and closing execution mode triggered by the 5R low probability result, the execution of the game round corresponding to the digestion of the ceiling number of game rounds or the first to third time saving results) based on the occurrence of a predetermined event (Frequency that the second operation port 34 is in the open state) predetermined state different from the normal game state 3 time saving state ST3, 1st time saving state ST1, 2nd time saving state ST2 or 3rd time saving state ST3A to ST3C in the 21st to 29th embodiments Setting means (in the 19th embodiment, the main side MPU 82 The function of executing the processing of step SA907, step SB105 or step SB204, the function of executing the processing of step SB707, step SB806 or step SB904 in the main MPU 82 in the 20th embodiment, A function of executing the processing of step SC207, step SC305 or step SC404, a function of executing the processing of steps SD704 to SD711 in the main MPU 82 in the twenty-sixth embodiment, and steps SE304 to S in the main MPU 82 in the twenty-eighth embodiment. A function of executing the processing of step SE311, a function of executing the processing of steps SE804 to SE811 in the main side MPU 82 in the twenty-ninth embodiment);
Standby state setting means (in the nineteenth embodiment, after an affirmative determination is made in step SB203 in the main MPU 82 in the nineteenth embodiment, A function of executing the process of step SB206, a function of executing the process of step SB811 or step SB908 in the main MPU 82 in the 20th embodiment, a function of executing the process of step SC409 in the main MPU 82 in the 21st embodiment, In the twenty-sixth embodiment, the function of executing steps SD712 to SD716 in the main MPU 82; in the twenty-eighth embodiment, the function of executing steps SE312 to SE325 in the main MPU 82; in the twenty-ninth embodiment, a function of executing the processing of steps SE812 to SE820 in the main MPU 82;
Post-wait setting means for setting the predetermined state in the standby state to the execution target of the game state when the predetermined state to be executed in the standby state ends (in the nineteenth embodiment, the step in the main MPU 82 The function of executing the processing of SB409 or step SB417, the function of executing the processing of step SC109 or step SC113 in the main MPU 82 in the 20th embodiment, and the processing of steps SC607 to SC609 in the main MPU 82 in the 21st embodiment. in the twenty-sixth embodiment, the function of executing the processing of step SD809 in the main MPU 82; in the twenty-eighth embodiment, the function of executing the processing of steps SE411 to SE413 in the main MPU 82; In the form, the function of executing the processing of steps SE911 to SE913 in the main side MPU 82),
A game machine characterized by comprising:

According to the feature X1, in a configuration in which the advantage of a predetermined event is set to a predetermined state different from the normal game state based on the occurrence of a predetermined opportunity, the predetermined state is set in a situation where the execution target of the game state is the predetermined state. When the predetermined state to be executed ends in the standby state, the predetermined state in the standby state becomes the execution target of the game state. As a result, in a situation where the predetermined state is the execution target of the game state, the predetermined state that can be the execution target after that can be on standby, and it is possible to diversify the execution mode of the predetermined state. . Therefore, it is possible to suitably realize improvement in the interest of the game.

Feature X2. The gaming machine according to feature X1, wherein when an end opportunity occurs in the standby state, the predetermined state in the standby state is terminated without being set to a game state.

According to the feature X2, not only the predetermined state waiting to be executed becomes the execution target after that, but also the state may end without becoming the execution target. This makes it possible to diversify the manner in which the predetermined state is executed.

Feature X3. Based on the occurrence of the update event (execution of the game round), the end trigger storage area (in the nineteenth embodiment the third time saving state counter 374, in the twentieth embodiment the second time saving standby counter 382 or the third time saving Waiting counter 383, in the 21st embodiment, the 3rd time saving waiting counter 387, the 26th and 28th embodiments, the 3A time saving waiting counter 401, the 3B time saving waiting counter 402 or the 3C time saving waiting counter 403, the 29th In the embodiment, updating means (second In the 19th embodiment, the function of executing the process of step SB405 in the main MPU 82, in the 20th embodiment, the function of executing the process of step SC104 or SC105 in the main MPU 82, in the 21st embodiment, the main MPU 82 A function of executing the processing of step SC604, a function of executing the processing of steps SD804 to SD806 in the main MPU 82 in the twenty-sixth embodiment, and the processing of steps SE404 to SE406 in the main MPU 82 in the twenty-eighth embodiment. function to execute the processing of steps SE904 to SE906 in the main MPU 82 in the twenty-ninth embodiment),
The termination trigger is that the termination trigger information becomes the termination target information,
The gaming machine according to feature X2, wherein the update means updates the termination trigger information to a side closer to the termination target information even when the update event occurs in the standby state.

According to the feature X3, in the configuration in which the predetermined state of the standby state is terminated when the end trigger information updated based on the occurrence of the update event becomes the end trigger information, the update event occurs in the standby state. Even if this occurs, the termination trigger information is updated to the side closer to the termination target information. As a result, when the predetermined state is the standby state, each time an update event occurs, it is possible to gradually approach the side where the trigger for ending the predetermined state occurs.

Feature X4. The post-waiting setting means sets the predetermined state corresponding to the state of the end trigger information stored in the end trigger storage area to a game state to be executed when the predetermined state to be executed ends in the standby state. The gaming machine according to feature X3, characterized in that it is set to .

According to the feature X4, when the predetermined state to be executed ends while the predetermined state is waiting, the predetermined state corresponding to the state of the termination trigger information at that time becomes the game state to be executed. As a result, the predetermined state that has been in the standby state can be started from an intermediate state according to the period required from when the predetermined state becomes the standby state until it becomes an execution target.

Feature X5. Means (in the nineteenth embodiment, means for updating the termination trigger information to a side away from the termination target information when the predetermined trigger corresponding to the predetermined state in the standby state occurs) Function to execute the process of step SB206 after making a negative determination in step SB208 in MPU82, in the twentieth embodiment the value of the second time saving standby counter 382 in the main side MPU82 is 1 or more in the situation where the process of step SB811 Function to be executed or the value of the third time saving standby counter 383 is 1 or more function to execute the process of step SB908, in the 22nd embodiment the value of the third time saving standby counter 387 in the main side MPU82 is 1 or more A function to execute the process of step SC708 in a certain situation, in the 26th embodiment, the function of executing the process of step SD712 to step SD716 in a situation where the third time saving state ST3A to ST3C in the main side MPU 82 is latent, 28th In the embodiment of the third time saving state ST3A ~ ST3C in the main side MPU82 function to execute the processing of step SE312 ~ step SE325 in the latent situation, in the 29th embodiment the third time saving state ST3A ~ in the main side MPU82 A gaming machine according to feature X3 or X4, characterized in that it has a function of executing the processing of steps SE812 to SE820 while ST3C is hiding.

According to the feature X5, when the predetermined trigger corresponding to the predetermined state occurs while the predetermined state is waiting, the termination trigger information is updated to move away from the termination target information. As a result, it is possible to prevent the predetermined opportunity generated while the predetermined state is waiting from being wasted.

Feature X6. Features X1 to X1, characterized in that when the predetermined trigger corresponding to the predetermined state in the standby state occurs in the standby state, the setting regarding the predetermined state is not performed for the occurrence of the predetermined trigger. The gaming machine according to any one of X4.

According to the feature X6, even if a predetermined trigger corresponding to the predetermined state occurs while the predetermined state is waiting, the setting regarding the predetermined state is not performed for the occurrence of the predetermined trigger. This makes it possible to simplify the processing configuration for waiting for the predetermined state.

Feature X7. The setting means
As the predetermined trigger, the first predetermined trigger (in the 19th and 20th embodiments, execution of the game round corresponding to the time saving result, in the 21st to 29th embodiments, the game round corresponding to the first to third time saving results execution) occurs, as the predetermined state, the advantage of the predetermined event is different from the normal game state first predetermined state (third time saving state ST3 in the nineteenth and twentieth embodiments, third In the 21st to 29th embodiments, the first setting means to be set to the third time saving state ST3A to ST3C) (in the 19th embodiment, the function of executing the processing of step SB204 in the main side MPU 82, in the 20th embodiment, the main A function of executing the processing of step SB904 in the side MPU 82, a function of executing the processing of step SC404 in the main MPU 82 in the 21st embodiment, and executing the processing of steps SD704 to SD711 in the main MPU 82 in the 26th embodiment. in the twenty-eighth embodiment, the function of executing the processing of steps SE304 to SE311 in the main MPU 82; in the twenty-ninth embodiment, the function of executing the processing of steps SE804 to SE811 in the main MPU 82);
As the predetermined trigger, the second predetermined trigger (end of the opening and closing execution mode triggered by the 5R low probability result in the 19th, 20th, 21st to 29th embodiments or digestion of the ceiling number of game rounds) has occurred Based on, as the predetermined state, the second predetermined state (19th, 20th, 21st to 29th embodiments in the first time-saving state ST1 or the 2 time saving state ST2) second setting means (in the 19th embodiment, the function of executing the processing of step SA907 or step SB105 in the main side MPU82, in the 20th embodiment, step SB707 or step SB806 in the main side MPU82 function of executing the process of, in the twenty-first to twenty-ninth embodiments, the function of executing the process of step SC207 or step SC305 in the main side MPU 82);
with
As the standby state, a state in which the game state is the second predetermined state and the execution of the first predetermined state is waited,
When the second predetermined state ends in the standby state in which the first predetermined state is waiting, the post-wait setting means changes the first predetermined state in the standby state to a game state to be executed. The gaming machine according to any one of features X1 to X6, characterized in that it is set.

According to the feature X7, the first predetermined state in which the advantage of the predetermined event is different from the normal game state can be executed based on the occurrence of the first predetermined opportunity, and the predetermined state based on the occurrence of the second predetermined opportunity A second predetermined state in which the event advantage is different from the normal game state can be executed. As a result, it is possible to diversify the game state in relation to the degree of advantage of the predetermined event. In this case, the configuration is such that execution of the first predetermined state can be put on hold in the situation of the second predetermined state, and when the second predetermined state ends while the first predetermined state is waiting, , the waiting first predetermined state becomes a game state to be executed. This makes it possible to increase the frequency with which each of the first predetermined state and the second predetermined state is to be executed.

Feature X8. The waiting state setting means sets the waiting state to wait for execution of the first predetermined state when the first predetermined opportunity occurs in a situation where the second predetermined state is a game state to be executed. The game machine according to the characterizing feature X7.

According to the feature X8, when the first predetermined trigger occurs in the second predetermined state, execution of the first predetermined state is put on standby. As a result, when the first predetermined trigger occurs in the second predetermined state, it is possible to prevent the first predetermined trigger from being wasted.

Feature X9. The second setting means sets the second predetermined state to the game state to be executed when the second predetermined trigger occurs in a situation where the first predetermined state is the game state to be executed. The gaming machine according to feature X8.

According to feature X9, when the first predetermined trigger occurs in the second predetermined state, not only is the execution of the first predetermined state delayed, but also the first predetermined state is activated in the first predetermined state. When the 2-predetermined trigger occurs, the second predetermined state is entered. This makes it possible to give priority to the second predetermined state over the first predetermined state.

Feature X10. Characteristic feature X8, characterized in that the standby state setting means sets a standby state for waiting execution of the second predetermined state when the second predetermined trigger occurs in the situation of the first predetermined state. game machine.

According to the feature X10, when the first predetermined trigger occurs in the second predetermined state, the execution of the first predetermined state is put on hold, and in the first predetermined state, the second predetermined trigger is generated. When it occurs, the execution of the second predetermined state is put on standby. As a result, the predetermined states can be digested according to the order of occurrence.

Feature X11. The gaming machine according to any one of features X7 to X10, wherein the standby state setting means can set a plurality of standby states in which both the first predetermined state and the second predetermined state are on standby. .

According to the feature X11, since multiple standby states in which both the first predetermined state and the second predetermined state are on standby can be set, it is possible to increase the frequency of the predetermined states.

Feature X12. The post-wait setting means, when the predetermined state to be executed in the plurality of standby states ends, sets a predetermined priority among the first predetermined state and the second predetermined state that are waiting. The gaming machine according to feature X11, characterized in that the high side is set as a game state execution target.

According to the feature X12, when the predetermined state to be executed in the plurality of standby states ends, the one with the higher priority among the waiting first predetermined state and the second predetermined state becomes the execution target of the game state. Therefore, it is possible to make the predetermined state with high priority more likely to be the execution target of the game state.

Feature X13. The post-wait setting means determines that, when the predetermined state to be executed in the plurality of standby states ends, the order of occurrence of the first predetermined state and the second predetermined state that are waiting is first. The gaming machine according to feature X11, characterized in that the game state is executed on the player side.

According to the feature X13, when the predetermined state to be executed in the plurality of standby states ends, the first predetermined state and the second predetermined state which are waiting are in the game state in the order of occurrence. Therefore, it is possible to set the predetermined states to be the execution targets of the game states according to the order of occurrence.

Feature X14. Predetermined ball entry means (second operating port 34) that allows game balls flowing down the game area to enter;
Acquisition means for acquiring special information (second reservation information) based on the game ball entering the predetermined ball entry means (function for executing the processing of step S709 of the main side MPU 82);
Giving determination means (function of executing the propriety determination processing of the main side MPU 82) that performs grant determination (property determination processing) as to whether or not the special information corresponds to the grant correspondence information;
Privilege for awarding a privilege (opening/closing execution mode) to a player based on the granting correspondence result (jackpot result) indicating that the special information corresponds to the granting correspondence information as a result of the granting determination. Giving means (function for executing special electric start processing, special electric open processing, special electric closed processing, and special electric end processing of the main MPU 82);
Predetermined ball entry control means (function for executing normal/universal/universal electric control processing of main side MPU 82) capable of switching the predetermined ball entry means between a closed state and an open state;
with
The predetermined event is a period in which the predetermined ball entry means is in the open state per unit period when the game is played in the same manner as the game balls flow down the game area. The gaming machine according to any one of features X1 to X13, characterized by:

According to the feature X14, special information is acquired based on the game ball entering the predetermined ball entering means that is switched between the closed state and the open state, and the special information corresponds to the grant correspondence information. In the configuration in which a privilege is given to a player, in the case of a predetermined state, the predetermined ball entry means is opened per unit period when the game is played so that the game ball flows down the game area in the same manner. The advantage of the period in the state is different from that in the normal game state.

For the configuration of features X1 to X14, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

<Characteristic group Y>
Feature Y1. Predetermined ball entry means (second operating port 34) that allows game balls flowing down the game area to enter;
Acquisition means for acquiring special information (second reservation information) based on the game ball entering the predetermined ball entry means (function for executing the processing of step S709 of the main side MPU 82);
Transition determination means (function for executing the propriety determination process of the main side MPU 82) for performing transition determination (property determination processing) as to whether or not the special information corresponds to the advantageous transition information;
An advantageous game state that is more advantageous to the player than a normal game state based on the fact that the result of the transition determination is an advantageous corresponding result (jackpot result) that the special information corresponds to the advantageous transition information. Advantageous transition means for shifting to (opening/closing execution mode) (function of executing special electric start processing, special electric open processing, special electric closed processing, and special electric end processing of the main MPU 82);
Predetermined ball entry control means (function for executing normal/universal/universal electric control processing of main side MPU 82) capable of switching the predetermined ball entry means between a closed state and an open state;
Predetermined transition opportunity (15th to 20th, 30th embodiments digestion of the game round of the ceiling number or execution of the game round corresponding to the time saving result, execution of the game round of the ceiling number in the 21st to 29th embodiments Or execution of the game round corresponding to the first to third time saving results) occurs, the predetermined ball entering means is in the open state rather than the normal game state without shifting to the advantageous game state. Easy predetermined state (second time saving state ST2, third time saving state ST3 or third time saving state ST5 in the 15th to 20th and 30th embodiments, second time saving state ST2 in the 21st to 29th embodiments, 3 time saving state ST3A ~ ST3C or 3rd time saving state ST41 ~ ST43) predetermined transition means (15th to 30th embodiment Ceiling counter 325 of main side MPU 82 subtraction process or setting process for time saving result execution function) and
Recognition means (external terminal 333 for second jackpot signal) used for recognizing that a game state transition has been performed in a management device (hall computer HC) outside the gaming machine;
Recognition control means for setting the recognition means to a predetermined recognition state (a state in which the output state of the second jackpot signal is set to HI level) corresponding to the transition to the predetermined state (15th to 30th embodiments a function of executing the processing of step S9014 of the main MPU 82 in
A game machine characterized by comprising:

According to the feature Y1, in the configuration that shifts to the advantageous game state based on the fact that the result of the shift determination is the advantageous correspondence result, when a predetermined shift opportunity occurs, the normal game is played without shifting to the advantageous game state. It shifts to a predetermined state in which the predetermined ball-entering means is more likely to be in the open state than in the state. As a result, it is possible to give the player the impression that a situation has suddenly occurred in which the predetermined ball-entering means is more likely to be in the open state than in the normal game state, and it is possible to improve the interest in the game. Further, the means for recognition is set to a predetermined state for recognition corresponding to the transition to the predetermined state. As a result, even if a transition to a predetermined state is made without transitioning to an advantageous gaming state, the management device outside the gaming machine can grasp that the transition has occurred, so that a state similar to the predetermined state can be obtained. Even if an act of illegally generating a is performed, the manager of the game hall can grasp it. Therefore, it is possible to preferably improve the interest in the game.

Feature Y2. The predetermined transition opportunity is a predetermined correspondence result that the result of the transition determination is that the special information corresponds to the predetermined transition information (15th to 20th, 30th embodiment time saving result, 21st to 30th 29 embodiment, the gaming machine according to feature Y1, characterized in that the first to third time-saving results).

According to the characteristic Y2, in the configuration in which the transition to the predetermined state occurs based on the result of the transition determination becoming the predetermined correspondence result, it is possible to obtain the excellent effects as described above.

Feature Y3. A game cycle is started in response to the execution of the transition determination,
Game turn control means (15th to 30th execution A function to execute special figure fluctuation start processing, special figure fluctuation processing and special figure determination processing of the main side MPU 82 in the form),
Predetermined measuring means (ceiling counter 325) for measuring the number of times the game is executed;
with
Characteristic Y1 characterized in that the predetermined transition opportunity is that the number of executions of the game times measured by the predetermined measuring means becomes a predetermined trigger number (ceiling number in the fifteenth to thirtieth embodiments). The gaming machine described in .

According to the characteristic Y3, in the configuration in which the transition to the predetermined state occurs based on the execution of the predetermined number of game rounds, it is possible to obtain the excellent effects as described above.

Feature Y4. The predetermined transition means is
As the occurrence of the predetermined shift opportunity, the result of the shift determination is the predetermined correspondence result that the special information corresponds to the predetermined shift information (15th to 20th, 30th embodiment time saving result, 21st 1st to 3rd time saving results in the 29th embodiment), the predetermined ball entering means is more likely to be in the open state than the normal game state without shifting to the advantageous game state. Predetermined state (3rd time saving state ST3 or 3rd time saving state ST5 in 15th to 20th and 30th embodiments, 3rd time saving state ST3A to ST3C or 3rd time saving state ST41 to 21st to 29th embodiments ST43) first predetermined transition means (function for executing the setting process for the time saving result of the main side MPU82 in the 15th to 30th embodiments),
As the occurrence of the predetermined shift opportunity, the normal game state without shifting to the advantageous game state based on the number of times of execution of the game rounds measured by the predetermined measuring means has reached the predetermined number of trigger times. Second predetermined transition means (main in fifteenth to thirtieth embodiments) to transition to a predetermined state (second time saving state ST2 in fifteenth to thirtieth embodiments) in which the predetermined ball entry means is more likely to be in the open state a function of executing subtraction processing of the ceiling counter 325 of the side MPU 82;
with
The recognition control means sets the recognition means to the predetermined recognition state corresponding to the transition to the predetermined state by the first predetermined transition means, and sets the recognition means to the predetermined state for recognition by the second predetermined transition means. The gaming machine according to feature Y3, wherein the means for recognition is set to the predetermined state for recognition corresponding to the transition.

According to the feature Y4, the transition to the predetermined state is made based on the result of the transition determination being the predetermined correspondence result, and the transition to the predetermined state is made based on the execution of the predetermined number of game rounds. In either case, since the means for recognition is set to the predetermined state for recognition, even if a shift to the predetermined state occurs as a trigger, it is possible for the management device outside the game machine to grasp it. Become.

Feature Y5. The recognition control means is a switching means (15th to The gaming machine according to any one of features Y1 to Y4, characterized by comprising a function of executing the process of step S9021 of the main side MPU 82 in the thirtieth embodiment.

According to feature Y5, when the recognizing means is set to the predetermined recognizing state along with the transition to the predetermined state, the recognizing means is switched from the predetermined recognizing state to another state during the predetermined state. Thus, even when a plurality of predetermined states continue without intervening a normal game state, the recognition means is switched to the predetermined recognition state for each of the plurality of predetermined states. becomes possible.

Feature Y6. The switching means switches the recognition means on the basis that a predetermined duration (ON duration) has passed since the recognition means was set to the predetermined recognition state corresponding to the transition to the predetermined state. is switched from the predetermined recognition state to the different state.

According to feature Y6, when the recognition means is set to the predetermined recognition state corresponding to the transition to the predetermined state, recognition is performed based on the lapse of the predetermined duration after setting the predetermined recognition state. The means for use is switched from a predetermined state for recognition to another state. This makes it possible to simplify the processing configuration for switching the recognition means from the predetermined recognition state to another state in the middle of the predetermined state.

Feature Y7. Another control means for setting the recognition means to a predetermined recognition state corresponding to the transition to the advantageous game state (the function of executing the processing of step S9003 of the main side MPU 82 in the 15th to 30th embodiments) The gaming machine according to any one of features Y1 to Y6, characterized by comprising:

According to the feature Y7, the recognition means is set to the predetermined recognition state even when the transition to the advantageous game state occurs. As a result, it is possible to make the management device outside the gaming machine grasp not only that the game has transitioned to an advantageous game state, but also that it has shifted to a predetermined state, using one recognition means.

Feature Y8. The separate control means maintains the recognition means in the predetermined recognition state when the advantageous gaming state continues,
The recognition control means is a switching means (15th to The gaming machine according to feature Y7, characterized by comprising a function of executing the processing of step S9021 of the main MPU 82 in the thirtieth embodiment.

According to the feature Y8, in the configuration in which the recognition means is set to the predetermined recognition state regardless of whether the transition to the advantageous game state or the predetermined state occurs, the advantageous game state is continued, the means for recognition is maintained in the predetermined state for recognition, while in the case of the predetermined state, the means for recognition is switched from the predetermined state for recognition to another state in the middle of the state. Thus, in a configuration in which the recognition means is set to the predetermined recognition state regardless of whether the transition to the advantageous game state or the predetermined state occurs, the management device outside the gaming machine. Then, it is possible to specify which of the advantageous game state and the predetermined state corresponds to the period during which the recognition means is maintained in the predetermined recognition state.

Feature Y9. A separate recognition means (external terminal 332 for the first jackpot signal) used for making the management device recognize that the game state has been shifted,
The separate control means sets the recognition means to the predetermined recognition state and sets the separate recognition means to the predetermined recognition state in response to the transition to the advantageous game state,
The recognition control means sets the recognition means to the predetermined recognition state in response to the transition to the predetermined state, but does not set the separate recognition means to the predetermined recognition state. The gaming machine according to feature Y7 or Y8, characterized by:

According to feature Y9, in addition to the means for recognition, there is another means for recognition which is set to a predetermined recognition state when shifting to an advantageous game state but is not set to a predetermined recognition state when shifting to a predetermined state. is provided. As a result, it is possible to select an object to be managed between the recognition means and the separate recognition means according to the event desired to be managed in the game hall.

Feature Y10. The control means for recognition sets the means for recognition to the predetermined state for recognition when a new setting regarding the predetermined state is performed in the predetermined state. 1. The gaming machine according to any one of the above.

According to the feature Y10, even when a new setting is made in a predetermined state, the recognition means is set to the predetermined recognition state, so that the management device outside the game machine uses the recognition means. As a result, it is possible to recognize not only that a transition to a predetermined state has occurred, but also that a new setting regarding the predetermined state has been made in the predetermined state.

For the configuration of features Y1 to Y10, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

<Feature Z group>
Feature Z1. Predetermined ball entry means (second operating port 34) that allows game balls flowing down the game area to enter;
Acquisition means for acquiring special information (second reservation information) based on the game ball entering the predetermined ball entry means (function for executing the processing of step S709 of the main side MPU 82);
Giving determination means (function of executing the propriety determination processing of the main side MPU 82) that performs grant determination (property determination processing) as to whether or not the special information corresponds to the grant correspondence information;
Privilege for awarding a privilege (opening/closing execution mode) to a player based on the granting correspondence result (jackpot result) indicating that the special information corresponds to the granting correspondence information as a result of the granting determination. Giving means (function for executing special electric start processing, special electric open processing, special electric closed processing, and special electric end processing of the main MPU 82);
Predetermined ball entry control means (function for executing normal/universal/universal electric control processing of main side MPU 82) capable of switching the predetermined ball entry means between a closed state and an open state;
A first predetermined state in which the predetermined ball-entering means is more likely to be in the open state than in the normal game state based on the occurrence of the first predetermined transition opportunity (execution of the game cycle corresponding to the time-saving result in the thirtieth embodiment). (The third time saving state ST5 in the thirtieth embodiment) the first predetermined transition means (the function of executing the setting process for the time saving result of the main side MPU 82 in the thirtieth embodiment),
A second predetermined state ( Second time saving state ST2 in the thirtieth embodiment) second predetermined transition means (subtraction processing of the ceiling counter 325 of the main side MPU82 in the thirtieth embodiment),
When a first termination opportunity (occurrence of a small winning result five times) different from the number of games executed in the first predetermined state reaching a predetermined number occurs, the first predetermined state is terminated. First termination means (function to make an affirmative determination in step SF718 because the value of the third time-saving small hit number counter 411 of the main side MPU 82 in the thirtieth embodiment is "0");
Second end means (thirtieth implementation A function of making an affirmative determination in step SF714 of the main MPU 82 in the form);
A game machine characterized by comprising:

According to feature Z1, based on the occurrence of the first predetermined transition opportunity, the first predetermined state occurs in which the predetermined ball-entering means is more likely to be in the open state than in the normal game state, and based on the occurrence of the second predetermined transition opportunity. A second predetermined state is established in which the predetermined ball-entering means is more likely to be in the open state than in the normal game state. This makes it possible to diversify the game states in which the predetermined ball-entering means is more likely to be in the open state than in the normal game state. In this case, since the first predetermined state ends when a first end opportunity different from the number of game rounds reaching the predetermined number occurs in the first predetermined state, the game rounds are completed in the first predetermined state other than completion of the game rounds. It is also possible to direct the player's attention to In addition, in the second predetermined state, the second predetermined state ends when a second end trigger different from the first end trigger occurs, so it is possible to diversify the end condition of the predetermined state. Therefore, it is possible to suitably realize improvement in the interest of the game.

Feature Z2. The gaming machine according to feature Z1, wherein the second end opportunity is that the number of times the game is executed becomes the end corresponding number of times (150 times) corresponding to the second predetermined state.

According to the feature Z2, when the number of times the game is executed in the second predetermined state becomes the end corresponding number of times corresponding to the second predetermined state, the second predetermined state ends. It is possible to direct the player's attention to the completion of the round.

Feature Z3. When the number of game times executed in the first predetermined state reaches the end corresponding number of times (30 times) corresponding to the first predetermined state, another end means (30th end means) for ending the first predetermined state Feature Z1 or Z2, characterized in that the value of the third time-saving game number counter 412 of the main side MPU 82 in the embodiment is "0" to make an affirmative determination in step SF718) game machine.

According to the feature Z3, in the first predetermined state, not only when the first end opportunity occurs, but also when the number of times the game is executed reaches the end corresponding number of times corresponding to the first predetermined state, the first predetermined state Since the state ends, it is possible to direct the player's attention to various events in the first predetermined state. In addition, when the configuration of the feature Z2 is provided, the number of execution times of the game round becomes the corresponding number of times corresponding to the end, and in terms of grasping the end trigger of the first predetermined state and the second predetermined state, Since the target that the player should pay attention to is common, it is possible to facilitate the understanding of the game contents in the predetermined state.

Feature Z4. The gaming machine according to any one of features Z1 to Z3, wherein the first end opportunity and the second end opportunity are different in likelihood of occurrence.

According to feature Z4, since the first end trigger and the second end trigger are different in easiness of occurrence, it is possible to diversify the predetermined state in terms of ease of ending the predetermined state. becomes.

Feature Z5. The first predetermined state and the second predetermined state are defined by the state in which the predetermined ball entry means is in the open state per unit period when the game is played so that the game ball flows down the game area in the same manner. The gaming machine according to any one of features Z1 to Z4, characterized in that the periods of time are different.

According to the feature Z5, the frequency of occurrence of the game ball entering the predetermined ball entering means differs between the first predetermined state and the second predetermined state. As a result, it is possible to diversify not only the end condition but also the predetermined state regarding the frequency of occurrence of the game ball entering the predetermined ball entering means.

Feature Z6. Variable ball entry means (special electric winning device 32) that allows game balls flowing down the game area to enter,
Variable ball entry control means for executing variable ball entry control to close the variable ball entry means after opening it (process of step S9706 of main side MPU 82, special call start process, special call open process and special call closed process function) and
A variable control state in which the variable entry control is executed based on the result of the determination that the special information corresponds to the predetermined correspondence information (small hit result) is a predetermined correspondence result. a means (a function of executing special electric end processing of the main side MPU 82) that enables the game state to be maintained before and after the variable control state;
with
The gaming machine according to any one of features Z1 to Z5, wherein the first termination opportunity is generated based on the number of times that the predetermined correspondence result is obtained reaches the number of termination opportunities (5 times). .

According to feature Z6, the first predetermined state ends based on the number of times that the predetermined response result is obtained becomes the termination trigger count. It is possible to direct the player's attention to it.

Feature Z7. A game state execution target is set to a standby state in which one of the first predetermined state and the second predetermined state waits for execution of the other predetermined state of the first predetermined state and the second predetermined state. standby state setting means (a function of making an affirmative determination in step SF505 of the main MPU 82 in the thirtieth embodiment and executing the process of step SF508);
Post-standby setting means (of the main MPU 82 in the thirtieth embodiment) for setting the other predetermined state in the standby state as an execution target of the game state when the one predetermined state ends in the standby state. a function to execute the processing of steps SF719 to SF722);
The gaming machine according to any one of features Z1 to Z6, characterized by comprising:

According to feature Z7, when one of the first predetermined state and the second predetermined state is in a state, a standby state may be set to wait execution of the other predetermined state. When the predetermined state ends, the predetermined state in the standby state becomes an execution target. As a result, in a situation where one predetermined state is to be executed, the other predetermined state that can be executed after that can be on standby, and it is possible to diversify the execution mode of the predetermined state. Become.

Feature Z8. When an end trigger corresponding to the other predetermined state of the first end trigger and the second end trigger occurs in the standby state, the other predetermined state in the standby state is set as an execution target. The gaming machine according to feature Z7 is characterized in that the gaming machine ends without any interruption.

According to feature Z8, the predetermined state waiting to become an execution target may not only become an execution target after that, but may also terminate without becoming an execution target. This makes it possible to diversify the manner in which the predetermined state is executed. In addition, since the configuration of the feature Z1 is provided and the first termination trigger for the first predetermined state and the second termination trigger for the second predetermined state are different, the termination trigger for the predetermined state to be executed and the standby It is possible to direct the player's attention to each of the triggers for ending the predetermined state that is in the state, thereby making it possible to improve the interest in the game.

Feature Z9. The termination trigger corresponding to the predetermined state of one of the first termination trigger and the second termination trigger corresponds to the predetermined state of the other of the first termination trigger and the second termination trigger. The gaming machine according to feature Z8, which is more likely to occur.

According to feature Z9, in a situation in which one predetermined state is to be executed and the other predetermined state is a standby state, the termination trigger for one predetermined state is earlier than the termination trigger for the other predetermined state. easily occur. This makes it possible to reduce the possibility that the other predetermined state ends with the standby state.

Feature Z10. When the game is played such that the game ball flows down the game area in the same manner in the other predetermined state than in the one predetermined state, the predetermined ball entry means is opened per unit period. The gaming machine according to any one of features Z7 to Z9, characterized in that the period in which the state is maintained is long.

According to feature Z10, in a situation in which one predetermined state is an execution target and the other predetermined state is a standby state, the other predetermined state is more likely to enter the predetermined ball entry means than the one predetermined state. Since the frequency of ball entry is high, the player expects that one predetermined state end trigger occurs before the other predetermined state end trigger occurs.

For the configuration of features Z1 to Z10, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

<Characteristic group a>
Features a1. Game round production control means (symbol display device 41) for controlling game round production means (symbol display device 41) so that game round production is executed in game rounds (executing processing for determining variation pattern of sound and light side MPU 93 in the fifteenth embodiment) function) and
determining means for determining the predetermined execution content of the game round effect (variable display period of the game round) (function for executing the process of specifying the variable display period of the main side MPU 82 in the fifteenth and nineteenth embodiments);
Predetermined transition means for shifting the game state to a predetermined state (first time saving state ST1, second time saving state ST2 and third time saving state ST3 in the fifteenth and nineteenth embodiments) more advantageous to the player than the normal game state In the fifteenth embodiment, the processing of step S8406, the processing of steps S8605 and S8705 in the main MPU 82 are performed. function) and
with
The determination means is a mode change means for changing the determination mode of the predetermined execution content according to the progress of the predetermined state (in the fifteenth embodiment, the processing of steps S9102 to S9116 and steps S9201 to S9201 in the main MPU 82). A game machine characterized by comprising a function of executing the processing of step S9208, and a function of executing the processing of steps SB504 to SB511 in the main side MPU 82 in the nineteenth embodiment.

According to the feature a1, the determination mode of the predetermined execution content of the game cycle effect changes according to the progress of the predetermined state. As a result, it is possible to diversify the predetermined execution contents of the game-turn effect in the predetermined state while matching the progress of the predetermined state. Therefore, it is possible to suitably realize improvement in the interest of the game.

Feature a2. The gaming machine according to feature a1, wherein the predetermined execution content corresponds to an execution period of the game cycle effect.

According to the feature a2, the determination mode of the execution period of the game cycle effect changes according to the progress of the predetermined state. As a result, it is possible to diversify the execution period of the game-turn effect in the predetermined state while matching the progress of the predetermined state.

Feature a3. Based on the occurrence of an update event (game cycle digestion) in the predetermined state, the trigger storage area (state continuation counter 327 in the 15th embodiment, time saving continuation counter 375 in the 19th embodiment) It is stored in update means for updating the information (in the fifteenth embodiment, the function of executing the processing of step S9101 in the main MPU 82; in the nineteenth embodiment, the function of executing the processing of step SB503 in the main MPU 82);
The gaming machine according to feature a1 or a2, wherein the mode changing means changes a determination mode of the predetermined execution content according to information in the trigger storage area.

According to the feature a3, the determination mode of the predetermined execution content of the game cycle effect changes according to the number of update events occurring in the predetermined state. As a result, it is possible to diversify the predetermined execution content of the game-turn effect in the predetermined state while matching it with the number of update events occurring in the predetermined state.

Feature a4. The mode changing means changes a determination mode of the predetermined execution content in the last game round of the predetermined state from a determination mode of the predetermined execution content in the previous game rounds of the predetermined state. Setting means (in the fifteenth embodiment, the function of executing the processing of steps S9209 and S9210 by referring to the game cycle period table 315 for the third stage time saving in the main side MPU 82, in the nineteenth embodiment, in the main side MPU 82 The gaming machine according to any one of features a1 to a3, further comprising a function of executing the processing of steps SB512 and SB513 after executing the processing of step SB505.

According to the feature a4, the determination mode of the predetermined execution content of the game round effect in the last game round of the predetermined state is different from the determination mode of the predetermined execution content of the game round effect in the previous game rounds of the predetermined state. become a thing. As a result, it is possible to execute the game round effect in a form suitable for the last game round in the predetermined state.

Feature a5. The last setting means makes the execution period of the game round effect in the last game round in the predetermined state longer than the execution period of the game round effect in the previous game rounds in the predetermined state. The gaming machine according to feature a4, characterized in that it is made easy to make or lengthen easily.

According to feature a5, the execution period of the game round effect in the last game round in the predetermined state is longer than the execution period of the game round effect in the previous game rounds in the predetermined state, or tends to be longer. , it is possible to provide an effect corresponding to the last game round in a predetermined state with a sufficient time.

Feature a6. The mode changing means is
From the start of the predetermined state to the occurrence of a predetermined reference trigger (digestion of 20 game rounds), the determination mode of the predetermined execution content is the first determination mode (first stage time saving game cycle period table 313 The first mode setting means (a mode in which the variable display period of the game round is determined by referring to the game round period table 313 for the first stage time saving of the main side MPU 82 in the fifteenth embodiment) and executing the processing of steps S9209 and S9210);
After the predetermined reference trigger occurs in the predetermined state, the determination mode of the predetermined execution content is the second determination mode (the variable display period of the game time is determined by referring to the game time period table 314 for the second stage time saving 2nd mode setting means (main side MPU 82 in the fifteenth embodiment) Execute the processing of steps S9209 and S9210 with reference to the game cycle period table 314 for the second stage time saving function) and
The gaming machine according to any one of features a1 to a5, characterized by comprising:

According to feature a6, from the start of the predetermined state to the occurrence of the predetermined reference opportunity, the determination mode of the predetermined execution content of the game-turn effect is the first determination mode, and after the occurrence of the predetermined reference event in the predetermined state. , the determination mode of the predetermined execution content of the game-turn effect is the second determination mode. As a result, it is possible to reduce the processing load compared to a configuration in which the determination mode of the predetermined execution content of the game round effect in the predetermined state is changed for each game round.

Feature a7. When the predetermined state is executed following the predetermined state after the termination condition is established in the predetermined state, the mode changing means performs the predetermined execution in the first game round of the predetermined state which is subsequently executed. The determination mode of the content is set to be the first determination mode by the first mode setting means (the function of executing the processing of step SB413 or step SB421 of the main side MPU 82 in the nineteenth embodiment). The game machine according to feature a6.

According to the feature a7, when a predetermined state is executed following the predetermined state after the end condition is established in the predetermined state, a predetermined game-turn effect in the first game round of the subsequently executed predetermined state is executed. The determination mode of the contents of the effect of , becomes the first determination mode again. Thus, even when the predetermined state is executed two times in succession, when the rear predetermined state is started, the predetermined execution contents of the performance for the game round are determined in a determination mode corresponding to the start. It is possible to make it possible to

Feature a8. First information setting means (15th a function of executing the processing of steps S8408, S8607 and S8707 of the main MPU 82 in the embodiment of );
Second information setting means (of the main MPU 82 in the fifteenth embodiment) for setting the information in the state correspondence storage area to the second information ("2") when the predetermined reference trigger occurs in the predetermined state. a function to execute the processing of step S9104);
with
The first mode setting means, when the information in the state-corresponding storage area is the first information, sets the determination mode of the predetermined execution content to the first determination mode,
When the information in the state-corresponding storage area is the second information, the second mode setting means sets the determination mode of the predetermined execution content to the second determination mode. Or the gaming machine according to a7.

According to feature a8, when the predetermined state is started, the information in the state-corresponding storage area becomes the first information, and when the information in the state-corresponding storage area is the first information, the predetermined effect for the game cycle The determination mode of the execution content is the first determination mode. Further, when a predetermined reference opportunity occurs in a predetermined state, the information in the state-corresponding storage area becomes the second information, and when the information in the state-corresponding storage area is the second information, the predetermined execution of the game round effect is performed. The content determination mode is the second determination mode. As a result, by referring to the information in the state-corresponding storage area, it is possible to specify the determination mode of the predetermined execution content of the game round effect, so that the processing load for specifying the determination mode of the predetermined execution content can be reduced. can be reduced.

Feature a9. third information setting means (main in the fifteenth embodiment) for setting the information in the state-corresponding storage area to the third information ("0" or "3") when the specific reference trigger occurs in the predetermined state; a function to execute the processing of step S9111 or step S9116 of the side MPU 82),
When the information in the state-corresponding storage area is the third information, the mode changing means determines that the determination mode of the predetermined execution content is the third determination mode (see the game cycle period table 315 for the third stage time saving The third mode setting means (a mode in which the variable display period of the game round is determined by the step S9209 and a function to execute the processing of step S9210),
The gaming machine according to feature a8, wherein the first information, the second information, and the third information are numerical information having serial numbers in a predetermined order.

According to feature a9, by referring to the information in the state-corresponding storage area, it is determined which of the first determination mode, the second determination mode, and the third determination mode is to be used as the determination mode of the predetermined execution content of the game-turn effect. can be specified. In addition, since the first information, the second information and the third information are set as numerical information with serial numbers in a predetermined order in the state correspondence storage area, each of the first information, the second information and the third information On the other hand, even if the flag area is not individually set, it is possible to obtain the excellent effect as described above.

Features a10. The first decision mode information group corresponding to the first decision mode (game turn period table 313 for the first stage time saving) and the second decision mode information group corresponding to the second decision mode (for the second stage time saving A game cycle period table 314) and a readout information group (game cycle period address table 311), and a specific storage means (main side ROM 83) that stores in advance,
In the read information group, the read information of the first decision mode information group is set in a storage area corresponding to a first address ("00A1H"), and the read information corresponds to a second address ("00A2H"). the readout information of the second determination mode information group is set in a storage area;
The first mode setting means uses the first information to derive the first address, and based on the derived first address, sets the first determined mode information group read from the read information group. reading out the first decision mode information group by using the reading information so that the first decision mode information group is used in the determining means;
The second mode setting means uses the second information to derive the second address, and based on the derived second address, sets the second determined mode information group read from the read information group. The gaming machine according to feature a8 or a9, characterized in that the second decision mode information group is read out by using readout information so that the second decision mode information group is used in the determination means. .

According to the feature a10, by referring to the first determination mode information group, the determination mode of the predetermined execution content of the game turn effect becomes the first determination mode, and by referring to the second determination mode information group, the game turn The determination mode of the predetermined execution content of the production is the second determination mode. Further, since the reading information group in which reading information for reading each of the first decision mode information group and the second decision mode information group is set is stored in advance in the specific storage means, the first decision mode information group And it is possible to simplify the processing configuration for reading out the second decision mode information group.

In this case, when the first information is stored in the state-corresponding storage area, the first address of the read information group is derived using the first information, and the read is performed based on the derived first address. The first decision mode information group is read by using the reading information of the first decision mode information group read out from the information group for use. Further, in a situation where the second information is stored in the state-corresponding storage area, the second address of the read information group is derived using the second information, and the read information is based on the derived second address. The second decision mode information group is read by using the reading information of the second decision mode information group read from the group. That is, in order to read out the corresponding read information from the read information group, the information in the state correspondence storage area for specifying each situation in the predetermined state is also used. Therefore, it is possible to reduce the required storage capacity.

Features a11. The first mode setting means derives the first address by executing the address derivation process (the process of steps S9204 to S9206 of the main MPU 82 in the fifteenth embodiment) using the first information. and reading the first decision mode information group by using the read information of the first decision mode information group read from the read information group based on the derived first address,
The second mode setting means derives the second address by executing the address deriving process using the second information, and reads from the read information group based on the derived second address. The gaming machine according to feature a10, wherein the second decision mode information group is read by using the readout information of the second decision mode information group.

According to feature a11, when deriving an address using information in the state-corresponding storage area, a common address derivation process is executed in any given state. This makes it possible to simplify the processing configuration.

Feature a12. The gaming machine according to feature a11, wherein the difference between the second address and the first address corresponds to the difference between the second information and the first information.

According to feature a12, the difference between the second address and the first address corresponds to the difference between the second information and the first information. It is possible to prevent the processing configuration of the address derivation processing for deriving the from becoming complicated.

Feature a13. The address derivation process is a process of deriving an address to be referenced in the read information group by adding information corresponding to the information in the state correspondence storage area to the start address set in the read information group. The gaming machine according to feature a11 or a12, characterized by:

According to feature a13, by adding the information corresponding to the information in the state-corresponding storage area to the start address set in the read-out information group, the address to be referred to in the read-out information group is derived. It is possible to simplify the processing configuration of the address derivation processing for deriving the address using the area information.

Feature a14. Based on the occurrence of an update event (completed game cycle) in the predetermined state, the information stored in the trigger storage area (state continuation counter 327 in the fifteenth embodiment) is changed to end target information ("0" value), updating means (function for executing the process of step S9101 of the main MPU 82 in the fifteenth embodiment);
Means for setting the first start target information ("20") in the trigger storage area when the predetermined state is started (the processing of steps S8407, S8606 and S8706 of the main MPU 82 in the fifteenth embodiment is function) and
with
the predetermined reference trigger is that the information in the trigger storage area in which the first start target information is set becomes the end target information when the predetermined state is started;
This game machine is
Means for setting the second start target information (“79”, “129” or “29”) in the trigger storage area when the predetermined reference trigger occurs (step S9105 to step S9105 of the main MPU 82 in the fifteenth embodiment a function to execute the processing of step S9109);
When the predetermined reference trigger occurs, the information in the trigger storage area in which the second start target information is set becomes the end target information, whereby the predetermined execution content is determined by the second mode setting means. means for terminating the state in which is set to the second determination mode (function for executing the processing of steps S9110 to S9112 of the main MPU 82 in the fifteenth embodiment);
The gaming machine according to any one of features a6 to a13, characterized by comprising:

According to the feature a14, when the predetermined state is started, the first start target information set in the trigger storage area is updated based on the occurrence of the update event and becomes the end target information, so that the game cycle is completed. In this case, the second start target information set in the trigger storage area is updated based on the occurrence of the update event. By being performed, it becomes the end target information, so that the situation where the predetermined execution content of the game cycle effect is determined in the second determination mode ends. This makes it possible to simplify the processing configuration for specifying the end trigger of each situation in the predetermined state.

Feature a15. The control means having the determination means is a means for transmitting predetermined transmission information (command during time saving) including information in the opportunity storage area to the game round production control means (step S9113 of the main MPU 82 in the fifteenth embodiment) A gaming machine according to feature a14, characterized by comprising a function of executing the processing of step S9115.

According to feature a15, since the predetermined transmission information including the information in the trigger storage area is transmitted to the game round performance control means, it is possible for the game round performance control means to specify the progress of each situation in the predetermined state. .

Feature a16. First information setting means (15th a function of executing the processing of steps S8408, S8607 and S8707 of the main MPU 82 in the embodiment of );
Second information setting means (of the main MPU 82 in the fifteenth embodiment) for setting the information in the state correspondence storage area to the second information ("2") when the predetermined reference trigger occurs in the predetermined state. a function to execute the process of step S9104);
with
The first mode setting means, when the information in the state-corresponding storage area is the first information, sets the determination mode of the predetermined execution content to the first determination mode,
The second mode setting means, when the information in the state-corresponding storage area is the second information, sets the determination mode of the predetermined execution content to the second determination mode,
The gaming machine according to feature a15, wherein the predetermined transmission information also includes information in the state-corresponding storage area.

According to feature a16, when the predetermined state is started, the information in the state-corresponding storage area becomes the first information, and when the information in the state-corresponding storage area is the first information, the predetermined effect for the game cycle The determination mode of the execution content is the first determination mode. Further, when a predetermined reference opportunity occurs in a predetermined state, the information in the state-corresponding storage area becomes the second information, and when the information in the state-corresponding storage area is the second information, the predetermined execution of the game round effect is performed. The content determination mode is the second determination mode. As a result, by referring to the information in the state-corresponding storage area, it is possible to specify the determination mode of the predetermined execution content of the game round effect, so that the processing load for specifying the determination mode of the predetermined execution content can be reduced. can be reduced.

In addition, since the predetermined transmission information includes not only the information in the trigger storage area but also the information in the state correspondence storage area, the game spin production control means determines which of the predetermined states is based on the predetermined transmission information. can be identified and the progress of the identified situation can be identified.

Feature a17. The game round production control means is a production content determining means (sound The gaming machine according to feature a15 or a16, characterized in that it has a function of executing production control processing during time saving of the light side MPU 93).

According to the feature a17, when the game round effect control means determines the effect contents of the game round effect control means, the game cycle effect control means can determine It is possible to execute an effect according to the progress of each situation in the predetermined state.

Feature a18. The effect content determining means determines whether the predetermined execution content determination mode is the first determination mode or the predetermined execution content determination mode is the second determination mode. If the information in the trigger storage area set in the predetermined transmission information is restricted information, a restricting means for preventing the restricted effect from being executed (the process of step S9409 of the sound and light side MPU 93 in the fifteenth embodiment is function to execute).

According to the feature a18, when the information in the trigger storage area set in the predetermined transmission information is restricted information, the restricted effect is not executed. , it is possible to prevent the restricted performance from being executed. In addition, it is possible to specify from the predetermined transmission information whether or not execution of such a regulated effect should be regulated.

Feature a19. Acquisition means for acquiring special information (second pending information) based on the establishment of the acquisition condition (function for executing the processing of step S709 of the main side MPU 82);
Acquired information storage means (second special figure reservation area 112) for storing the special information acquired by the acquisition means;
Giving determination means (function of executing right or wrong determination processing of the main side MPU 82) for determining whether or not the special information stored in the acquired information storage means corresponds to the grant correspondence information (appropriateness determination processing) and,
Privilege for awarding a privilege (opening/closing execution mode) to a player based on the granting correspondence result (jackpot result) indicating that the special information corresponds to the granting correspondence information as a result of the granting determination. Giving means (function for executing special electric start processing, special electric open processing, special electric closed processing, and special electric end processing of the main MPU 82);
with
A configuration in which the game round is executed in correspondence with the execution of the grant determination,
In the game machine, the information corresponding to the determination result when the predetermined special information stored in the acquired information storage means is the target of the grant determination, the predetermined special information is the target of the grant determination. Equipped with pre-specifying means (function for executing pre-reading processing of the main side MPU 82 in the fifteenth embodiment) that specifies at a timing earlier than
The effect content determining means executes a predetermined special effect (special pending display) corresponding to the information specified by the destination specifying means at a timing before the predetermined special information becomes a target of the provision determination. means (function for executing the processing of step S9410 in the sound and light side MPU 93 in the fifteenth embodiment),
The regulating means is configured such that the information in the trigger storage area set in the predetermined transmission information does not exceed a predetermined target number of occurrences of the update event required until the information in the trigger storage area becomes the termination target information. The gaming machine according to feature a18, wherein when the regulated information is information indicating that it is within the range, the predetermined special effect is not executed as the regulated effect.

According to feature a19, the number of occurrences of the update event necessary for the information in the trigger storage area set in the predetermined transmission information to become the termination target information is within the range of the predetermined target number of times. If the information indicates that the special effect corresponding to the specified result is regulated, the special effect is not executed in a situation where each situation in the predetermined state is about to end. It becomes possible to In addition, it is possible to specify from the predetermined transmission information whether or not execution of such a regulated effect should be regulated.

Feature a20. Predetermined ball entry means (second operating port 34) that allows game balls flowing down the game area to enter;
Acquisition means for acquiring special information (second reservation information) based on the game ball entering the predetermined ball entry means (function for executing the processing of step S709 of the main side MPU 82);
Giving determination means (function of executing the propriety determination processing of the main side MPU 82) that performs grant determination (property determination processing) as to whether or not the special information corresponds to the grant correspondence information;
Privilege for awarding a privilege (opening/closing execution mode) to a player based on the granting correspondence result (jackpot result) indicating that the special information corresponds to the granting correspondence information as a result of the granting determination. Giving means (function for executing special electric start processing, special electric open processing, special electric closed processing, and special electric end processing of the main MPU 82);
Predetermined ball entry control means (function for executing normal/universal/universal electric control processing of main side MPU 82) capable of switching the predetermined ball entry means between a closed state and an open state;
with
The predetermined state is the normal game state during which the predetermined ball entry means is in the open state per unit period when the game is played in the same manner as the game balls flow down the game area. The gaming machine according to any one of features a1 to a19, characterized in that the gaming state is longer than .

According to feature a20, when the special information is acquired based on the entry of the game ball into the predetermined ball entry means that is switched between the closed state and the open state, and the special information corresponds to the grant correspondence information. In the configuration in which a privilege is given to a player, in the case of a predetermined state, the predetermined ball entry means is opened per unit period when the game is played so that the game ball flows down the game area in the same manner. The advantage of the period in the state is different from that in the normal game state.

For the configuration of features a1 to a20, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

According to the inventions according to the feature W group, the feature X group, the feature Y group, the feature Z group, and the feature group a, the following problems can be solved.

Pachinko machines, slot machines, and the like are known as types of gaming machines. In these gaming machines, it is known that an internal lottery is held based on the establishment of a predetermined lottery condition, and a privilege is given to the player according to the result of the internal lottery.

Specifically, the pachinko machine has a configuration in which a winning result is obtained in an internal lottery based on the entry of a game ball into a ball entry section provided in the game area, and a transition to a special game state. A configuration is known in which a transition is made to a special game state based on a game ball entering a part. When the game shifts to the special game state, for example, opening and closing of a ball entry device provided in the game area is started, and game balls are paid out based on the entry into the ball entry device.

Here, in the gaming machines such as those exemplified above, it is necessary to appropriately improve the interest in the game, and there is still room for improvement in this respect.

<Characteristic group b>
Feature b1. a first control means (main side MPU 82 in the fifteenth embodiment);
Second control means (sound and light side MPU 93 and display side MPU 103) that controls the execution of effects in the effect execution means (symbol display device 41) based on transmission information transmitted from the first control means;
In a game machine equipped with
Based on the occurrence of an update event (game cycle digestion) in a predetermined game situation (first stage of time saving state ST1 to ST3 in the 15th embodiment), the opportunity storage area (state continuation counter in the 15th embodiment 327) for updating the information to be closer to the end target information (value of "0") (the function of executing the processing of step S9101 of the main MPU 82 in the fifteenth embodiment);
When the information in the opportunity storage area is the end target information in the predetermined game situation, a specific game situation different from the predetermined game situation (the second stage of the time saving state ST1 to ST3 in the fifteenth embodiment) Setting means for setting conditions (function for executing the processing of steps S9104 to S9109 of the main MPU 82 in the fifteenth embodiment);
with
The first control means is a predetermined transmission means (main side MPU82 step S9113 ~ step function to execute the processing of S9115),
The second control means includes effect content determination means (sound and light side in the fifteenth embodiment) for determining the effect content in the effect execution means based on the information in the trigger storage area set in the predetermined transmission information. A game machine characterized by comprising a function of executing production control processing during time saving of MPU 93).

According to the feature b1, the information in the opportunity storage area is updated based on the occurrence of an update event in the predetermined game situation, so that the information becomes end target information, thereby ending the predetermined game situation and entering the specific game situation. As a result, it is possible to simplify the processing configuration for specifying the trigger for ending the predetermined game situation. In this case, the predetermined transmission information including the information in the trigger storage area is transmitted from the first control means to the second control means, and the second control means sets the predetermined transmission information when determining the content of the effect in the effect execution means. It is possible to execute an effect according to the progress of the predetermined game situation only by making the determination based on the information. Therefore, it becomes possible to suitably perform execution control of production.

Feature b2. First setting means (step S8407, step S8606 and step function to execute the processing of S8706),
The situation setting means sets the specific game situation when the information in the trigger storage area in which the first start target information is set becomes the end target information when the predetermined game situation is started. The gaming machine according to feature b1, characterized by:

According to the feature b2, when the predetermined game situation is started and the information in the trigger storage area in which the first start target information is set becomes the end target information, the predetermined game situation ends and becomes the specific game situation. In the configuration, it is possible to obtain the excellent effects as described above.

Feature b3. Second setting means (main MPU 82 in the fifteenth embodiment) for setting second start target information ("79", "129" or "29") in the trigger storage area when the specific gaming situation is started function to execute the processing of steps S9105 to S9109),
The situation setting means differs from the specific game situation when the information in the trigger storage area in which the second start target information is set is the end target information when the specific game situation is started. Set it to the game status,
The effect content determining means decides the effect contents of the effect executing means based on the information in the trigger storage area set in the predetermined transmission information regardless of whether the predetermined game situation or the specific game situation. The gaming machine according to feature b2, characterized by determining.

According to the feature b3, in the configuration in which the trigger for ending the predetermined game situation and the specific game situation is specified by referring to the information in the trigger storage area, the second control means determines whether the predetermined game situation or the specific game situation Even if there is, based on the information in the trigger storage area set in the predetermined transmission information transmitted from the first control means, the contents of the effect in the effect executing means are determined. As a result, it is possible to make the contents of the performance in each of the predetermined game situation and the specific game situation correspond to the progress of each situation while achieving commonality of the processing configuration.

Feature b4. A first information setting means (15th a function of executing the processing of steps S8408, S8607 and S8707 of the main MPU 82 in the embodiment);
Second information setting means for setting the information in the state correspondence storage area to be the second information ("2") when the specific game situation is established (the processing of step S9104 of the main side MPU 82 in the fifteenth embodiment) function) and
with
The gaming machine according to feature b3, wherein the predetermined transmission information also includes information in the state-corresponding storage area.

According to the feature b4, the information in the state-corresponding storage area becomes the first information in the case of the predetermined game situation, and the information in the state-corresponding storage area becomes the second information in the case of the specific game situation. By confirming the information in the corresponding storage area, it is possible to specify which of the predetermined game situation and the specific game situation. In this case, the predetermined transmission information includes not only the information in the opportunity storage area but also the information in the state correspondence storage area. It is possible to specify whether the specified situation is progressing and to specify the progress of the specified situation.

Feature b5. When the information in the trigger storage area set in the predetermined transmission information is information subject to regulation, the effect content determining means controls means for preventing execution of the effect subject to regulation (sound and light in the fifteenth embodiment). A gaming machine according to any one of features b1 to b4, characterized in that it has a function of executing the process of step S9409 of the side MPU 93 .

According to the feature b5, when the information in the trigger storage area set in the predetermined transmission information is the regulation object information, the regulation object effect is not executed, so the progress in the prescribed game situation is the regulation object condition. In this case, it is possible to prevent the restricted performance from being executed. In addition, it is possible to specify from the predetermined transmission information whether or not execution of such a regulated effect should be regulated.

Feature b6. First setting means (step S8407, step S8606 and step function to execute the processing of S8706);
Second setting means (main MPU 82 in the fifteenth embodiment) for setting second start target information ("79", "129" or "29") in the trigger storage area when the specific gaming situation is started function to execute the processing of steps S9105 to S9109);
with
The situation setting means sets the specific game situation when the information in the trigger storage area in which the first start target information is set becomes the end target information when the predetermined game situation is started. , when the information in the trigger storage area in which the second start target information is set when the specific game situation is started becomes the end target information, a game situation different from the specific game situation is set. ,
When the information in the trigger storage area set in the predetermined transmission information is the regulation target information, the regulation target performance is not executed in either the predetermined game situation or the specific game situation. The gaming machine according to feature b5, characterized by:

According to the feature b6, when the information in the trigger storage area set in the predetermined transmission information is the regulation object information, the regulation object effect is not executed, so the progress in each of the prescribed game situation and the specific game situation is regulated. When the target situation is met, it is possible to prevent the restricted performance from being executed. In addition, it is possible to specify from the predetermined transmission information whether or not execution of such a regulated effect should be regulated.

Feature b7. Acquisition means for acquiring special information (second pending information) based on the establishment of the acquisition condition (function for executing the processing of step S709 of the main side MPU 82);
Acquired information storage means (second special figure reservation area 112) for storing the special information acquired by the acquisition means;
Giving determination means (function of executing right or wrong determination processing of the main side MPU 82) for determining whether or not the special information stored in the acquired information storage means corresponds to the grant correspondence information (appropriateness determination processing) and,
Privilege for awarding a privilege (opening/closing execution mode) to a player based on the granting correspondence result (jackpot result) indicating that the special information corresponds to the granting correspondence information as a result of the granting determination. Giving means (function for executing special electric start processing, special electric open processing, special electric closed processing, and special electric end processing of the main MPU 82);
with
In the game machine, the information corresponding to the determination result when the predetermined special information stored in the acquired information storage means is the target of the grant determination, the predetermined special information is the target of the grant determination. Equipped with pre-specifying means (function for executing pre-reading processing of the main side MPU 82 in the fifteenth embodiment) that specifies at a timing earlier than
The effect content determining means executes a predetermined special effect (special pending display) corresponding to the information specified by the destination specifying means at a timing before the predetermined special information becomes a target of the provision determination. means (function for executing the processing of step S9410 in the sound and light side MPU 93 in the fifteenth embodiment),
The regulating means is configured such that the information in the trigger storage area set in the predetermined transmission information does not exceed a predetermined target number of occurrences of the update event required until the information in the trigger storage area becomes the termination target information. The gaming machine according to feature b5 or b6, characterized in that, when the regulated information is information indicating that it is within the range, the predetermined special effect is not executed as the regulated effect.

According to feature b7, the number of occurrences of the update event necessary for the information in the trigger storage area set in the predetermined transmission information to become the termination target information is within the range of the predetermined target number of times. If the information indicates that the predetermined special effect corresponding to the specified result is restricted, the predetermined special effect is executed in a situation where the predetermined game situation is about to end. It is possible to prevent it from being done. In addition, it is possible to specify from the predetermined transmission information whether or not execution of such a regulated effect should be regulated.

Feature b8. Predetermined ball entry means (second operating port 34) that allows game balls flowing down the game area to enter;
Acquisition means for acquiring special information (second reservation information) based on the game ball entering the predetermined ball entry means (function for executing the processing of step S709 of the main side MPU 82);
Giving determination means (function of executing the propriety determination processing of the main side MPU 82) that performs grant determination (property determination processing) as to whether or not the special information corresponds to the grant correspondence information;
Privilege for awarding a privilege (opening/closing execution mode) to a player based on the granting correspondence result (jackpot result) indicating that the special information corresponds to the granting correspondence information as a result of the granting determination. Giving means (function for executing special electric start processing, special electric open processing, special electric closed processing, and special electric end processing of the main MPU 82);
Predetermined ball entry control means (function for executing normal/universal/universal electric control processing of main side MPU 82) capable of switching the predetermined ball entry means between a closed state and an open state;
A predetermined state in which a period in which the predetermined ball-entering means is in the open state per unit period is longer than that in the normal game state when the game is played so that the game ball flows down the game area in the same manner. (Time saving state ST1 ~ ST3) means to set (step S8406 of the main side MPU82 in the fifteenth embodiment, the function of executing the processing of step S8605 or step S8705),
with
The gaming machine according to any one of features b1 to b7, wherein the predetermined game situation and the specific game situation are situations included in the predetermined situation once.

According to the feature b8, special information is acquired based on the entry of the game ball into the predetermined ball entry means that is switched between the closed state and the open state, and the special information corresponds to the grant correspondence information. In the configuration in which a privilege is given to a player, in the case of a predetermined state, the predetermined ball entry means is opened per unit period when the game is played so that the game ball flows down the game area in the same manner. The advantage of the period in the state is different from that in the normal game state. In the configuration in which the predetermined game situation and the specific game situation are included in one predetermined state, it is possible to obtain the excellent effects as described above.

For the configuration of features b1 to b8, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

<Characteristic group c>
Characteristics c1. Effect executing means (symbol display device 41) capable of executing a specific effect (game-time effect);
Effect control means (sound and light side MPU 93 and display side MPU 103) that controls the effect execution means so that the specific effect is executed;
determination means for determining the predetermined execution content of the specific effect (variation display period of the game round) (function for executing the process of specifying the variable display period of the main side MPU 82 in the fifteenth and nineteenth embodiments);
In a game machine equipped with
The determining means is
When the predetermined game situation (the first stage of the time saving state ST1 to ST3 in the fifteenth embodiment), the determination mode of the predetermined execution content is the first determination mode (the game cycle period table 313 for the first stage time saving A mode in which the variable display period of the game round is determined by referring to the game round period table 313 for the first stage time saving of the main side MPU 82 in the fifteenth embodiment. a function to execute the processing of steps S9209 and S9210);
If it is a specific game situation (the second stage of the time saving state ST1 to ST3 in the fifteenth embodiment), the determination mode of the predetermined execution content is the second determination mode (the game time period table 314 for the second stage time saving A mode in which the variable display period of the game round is determined by referring to the second mode setting means (see the game round period table 314 for the second stage time saving of the main side MPU 82 in the fifteenth embodiment) a function to execute the processing of steps S9209 and S9210);
with
This game machine is
A first information setting means (15th a function of executing the processing of steps S8408, S8607 and S8707 of the main MPU 82 in the embodiment);
Second information setting means for setting the information in the state correspondence storage area to be the second information ("2") when the specific game situation is established (the processing of step S9104 of the main side MPU 82 in the fifteenth embodiment) functions to perform) and
The first decision mode information group corresponding to the first decision mode (game turn period table 313 for the first stage time saving), the second decision mode information group corresponding to the second decision mode (game for the second stage time saving A game cycle period table 314), and a readout information group (game cycle period address table) in which readout information (start address) for reading each of the first determination mode information group and the second determination mode information group is set 311) is stored in advance (main-side ROM 83);
with
In the read information group, the read information of the first decision mode information group is set in a storage area corresponding to a first address ("00A1H"), and the read information corresponds to a second address ("00A2H"). the readout information of the second determination mode information group is set in a storage area;
The first mode setting means uses the first information to derive the first address, and based on the derived first address, sets the first determined mode information group read from the read information group. reading out the first decision mode information group by using the reading information so that the first decision mode information group is used in the determining means;
The second mode setting means uses the second information to derive the second address, and based on the derived second address, sets the second determined mode information group read from the read information group. A gaming machine, wherein the second decision mode information group is read out by using readout information so that the second decision mode information group is used in the determination means.

According to the feature c1, the determination mode of the predetermined execution content of the specific performance is the first determination mode in the predetermined game situation, and the determination mode of the predetermined execution content of the specific performance is the second determination mode in the specific game situation. Therefore, it is possible to vary the manner in which the predetermined execution content of the specific effect is determined according to each game situation. Further, by referring to the first determination mode information group, the determination mode of the predetermined execution content of the specific performance becomes the first determination mode, and by referring to the second determination mode information group, the predetermined execution content of the specific performance is determined. The aspect becomes the second determination aspect. Further, since the reading information group in which reading information for reading each of the first decision mode information group and the second decision mode information group is set is stored in advance in the specific storage means, the first decision mode information group And it is possible to simplify the processing configuration for reading out the second decision mode information group.

In this case, when the first information is stored in the state-corresponding storage area, the first address of the read information group is derived using the first information, and the read is performed based on the derived first address. The first decision mode information group is read by using the reading information of the first decision mode information group read out from the information group for use. Further, in a situation where the second information is stored in the state-corresponding storage area, the second address of the read information group is derived using the second information, and the read information is based on the derived second address. The second decision mode information group is read by using the reading information of the second decision mode information group read from the group. That is, in order to read out the corresponding readout information from the readout information group, the information in the state correspondence storage area for specifying each game situation is also used. Therefore, it becomes possible to suitably perform execution control of production.

Feature c2. The gaming machine according to feature c1, wherein the predetermined execution content corresponds to the execution period of the specific effect.

According to the feature c2, since the determination mode of the execution period of the specific effect changes according to the game situation, it is possible to diversify the execution period of the specific effect while matching the game situation. In this case, it is possible to obtain the excellent effects as described above.

Feature c3. The first mode setting means derives the first address by executing the address derivation process (the process of steps S9204 to S9206 of the main MPU 82 in the fifteenth embodiment) using the first information. and reading the first decision mode information group by using the read information of the first decision mode information group read from the read information group based on the derived first address,
The second mode setting means derives the second address by executing the address deriving process using the second information, and reads from the read information group based on the derived second address. The gaming machine according to feature c1 or c2, wherein the second decision mode information group is read by using the reading information of the second decision mode information group.

According to feature c3, when deriving an address using information in the state-corresponding storage area, common address derivation processing is executed in any situation. This makes it possible to simplify the processing configuration.

Feature c4. The gaming machine according to feature c3, wherein the difference between the second address and the first address corresponds to the difference between the second information and the first information.

According to feature c4, since the difference between the second address and the first address corresponds to the difference between the second information and the first information, address It is possible to prevent the processing configuration of the address derivation processing for deriving the from becoming complicated.

Feature c5. The address derivation process is a process of deriving an address to be referenced in the read information group by adding information corresponding to the information in the state correspondence storage area to the start address set in the read information group. The gaming machine according to feature c3 or c4, characterized by:

According to feature c5, the address to be referenced in the read information group is derived by adding the information corresponding to the information in the state correspondence storage area to the start address set in the read information group. It is possible to simplify the processing configuration of the address derivation processing for deriving the address using the area information.

Feature c6. Predetermined ball entry means (second operating port 34) that allows game balls flowing down the game area to enter;
Acquisition means for acquiring special information (second reservation information) based on the game ball entering the predetermined ball entry means (function for executing the processing of step S709 of the main side MPU 82);
Giving determination means (function of executing the propriety determination processing of the main side MPU 82) that performs grant determination (property determination processing) as to whether or not the special information corresponds to the grant correspondence information;
Privilege for awarding a privilege (opening/closing execution mode) to a player based on the granting correspondence result (jackpot result) indicating that the special information corresponds to the granting correspondence information as a result of the granting determination. Giving means (function for executing special electric start processing, special electric open processing, special electric closed processing, and special electric end processing of the main MPU 82);
Predetermined ball entry control means (function for executing normal/universal/universal electric control processing of main side MPU 82) capable of switching the predetermined ball entry means between a closed state and an open state;
A predetermined state in which a period in which the predetermined ball-entering means is in the open state per unit period is longer than that in the normal game state when the game is played so that the game ball flows down the game area in the same manner. (Time saving state ST1 ~ ST3) means to set (step S8406 of the main side MPU82 in the fifteenth embodiment, the function of executing the processing of step S8605 or step S8705),
with
The gaming machine according to any one of features c1 to c5, wherein the predetermined game situation and the specific game situation are situations included in the predetermined situation once.

According to the feature c6, when the special information is acquired based on the entry of the game ball into the predetermined ball entry means which is switched between the closed state and the open state, and the special information corresponds to the grant correspondence information. In the configuration in which a privilege is given to a player, in the case of a predetermined state, the predetermined ball entry means is opened per unit period when the game is played so that the game ball flows down the game area in the same manner. The advantage of the period in the state is different from that in the normal game state. In the configuration in which the predetermined game situation and the specific game situation are included in one predetermined state, it is possible to obtain the excellent effects as described above.

For the configuration of features c1 to c6, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

According to the inventions according to the characteristic b group and the characteristic c group, the following problems can be solved.

Pachinko machines, slot machines, and the like are known as types of gaming machines. In these gaming machines, it is known that an internal lottery is held based on the establishment of a predetermined lottery condition, and a privilege is given to the player according to the result of the internal lottery.

Specifically, the pachinko machine has a configuration in which a winning result is obtained in an internal lottery based on the entry of a game ball into a ball entry section provided in the game area, and a transition to a special game state. A configuration is known in which a transition is made to a special game state based on a game ball entering a part. When the game shifts to the special game state, for example, opening and closing of a ball entry device provided in the game area is started, and game balls are paid out based on the entry into the ball entry device.

Here, in the game machines such as the above examples, it is necessary to suitably execute the performance execution control, and there is still room for improvement in this respect.

<Characteristic group d>
Feature d1. Based on the occurrence of a predetermined trigger (end of the opening and closing execution mode triggered by the 5R low probability result in the 15th to 17th embodiments, digestion of the ceiling number of game rounds or execution of the game round corresponding to the time saving result) Then, the advantage of the predetermined event (the frequency with which the second operation port 34 is open) is different from the normal game state (first time saving state ST1 in the 15th to 17th embodiments, second time saving State ST2 or third time-saving state ST3) is set to the execution target of the game state (the function of executing the processing of step S8406 or step S8605 of the main side MPU82 in the 15th, the main side MPU82 in the 16th embodiment A function of executing the processing of step S9506, a function of executing the processing of step S9906 in the seventeenth embodiment);
In the situation of the predetermined state, the first response situation (the situation in which affirmative determination is made in step S9505 in the sixteenth embodiment, the situation in which affirmative determination is made in step S9905 in the seventeenth embodiment, or a situation in which an affirmative determination is made in step SA105 and an affirmative determination is made in step SA106). Continuing means for continuing the predetermined state set to be executed (function of making an affirmative determination in step S9505 of the main MPU 82 in the 16th embodiment, main MPU 82 in the 17th embodiment or a function of making an affirmative judgment in step SA105 of the main MPU 82 and making an affirmative judgment in step SA106);
In the situation of the predetermined state, a second response situation (a situation where a negative determination is made in step S9505 in the sixteenth embodiment, a situation where a negative determination is made in step S9905 in the seventeenth embodiment, or a situation in which a negative determination is made in step SA105 or step SA106). For example, the function of making a negative determination in step S9505 of the main MPU 82, the function of making a negative determination in step S9905 of the main MPU 82 in the seventeenth embodiment, or the function of making a negative determination in step SA105 or SA106 of the main MPU 82 judgment function) and
A game machine characterized by comprising:

According to feature d1, when a predetermined trigger occurs in the situation of the predetermined state and the first response state, the predetermined state that is the current execution target is continued, and in the state of the predetermined state If a predetermined trigger has occurred in the second response state, the predetermined state corresponding to the predetermined trigger is newly started. As a result, when a predetermined opportunity occurs in a predetermined state, it is possible to change the handling of the occurrence of the predetermined opportunity according to the game situation in the predetermined state, and it is possible to suitably realize improvement in the interest of the game. .

Feature d2. The setting means
Based on the occurrence of the first predetermined trigger (execution of the game round corresponding to the time saving result in the fifteenth to seventeenth embodiments) as the predetermined trigger, as the predetermined state, the advantage of the predetermined event is the normal The first setting means (the main MPU 82 in the 16th embodiment to set the first predetermined state (the third time saving state ST3 in the 15th to 17th embodiments) different from the gaming state. function, a function of executing the processing of step S9906 in the seventeenth embodiment);
As the predetermined trigger, the second predetermined trigger (end of the opening and closing execution mode triggered by the 5R low probability result in the 15th to 17th embodiments or digestion of the game times of the ceiling number of times) has occurred. Based on that, the predetermined As a state, the advantage of the predetermined event is different from the normal game state Second setting means for setting to a second predetermined state (first time saving state ST1 or second time saving state ST2 in the fifteenth to seventeenth embodiments) (function of executing the processing of step S8406 or step S8605 of the main MPU 82 in the fifteenth);
with
The continuation means, when the first predetermined trigger occurs in the situation of the second predetermined state and the first response state, does not newly start the first predetermined state, and continuing the second predetermined state to be executed;
The starting means newly starts the first predetermined state when the first predetermined trigger occurs in the second predetermined state and the second response state. The gaming machine according to feature d1.

According to the feature d2, the first predetermined state in which the advantage of the predetermined event is different from the normal game state can be executed based on the occurrence of the first predetermined opportunity, and the predetermined state based on the occurrence of the second predetermined opportunity A second predetermined state in which the event advantage is different from the normal game state can be executed. As a result, it is possible to diversify the game state in relation to the degree of advantage of the predetermined event. In this case, if the first predetermined trigger occurs in the situation of the second predetermined state and the first response state, the second predetermined state that is the current execution target is continued, and the second predetermined state is continued. When the first predetermined trigger occurs when the situation is the predetermined state and the second response state, the first predetermined state is newly started. As a result, whether or not the first predetermined state is started when the first predetermined trigger occurs in the second predetermined state can be changed according to the game situation in the second predetermined state, and the interest in the game can be improved. Realization is possible.

Feature d3. The gaming machine according to feature d2, wherein the advantage of the predetermined event differs between the first predetermined state and the second predetermined state.

According to the characteristic d3, in the configuration in which the advantage of the predetermined event is different between the first predetermined state and the second predetermined state, it is possible to obtain the excellent effects as described above.

Feature d4. The gaming machine according to feature d2 or d3, wherein the advantage of the predetermined event is higher in the second predetermined state than in the first predetermined state.

According to feature d4, since the advantage of the predetermined event is higher in the second predetermined state than in the first predetermined state, the second predetermined state continues when the first predetermined trigger occurs in relation to the advantage. It is possible to direct the attention of the player to each of the first game situation in which the first predetermined state is started and the second game situation in which the first predetermined state is newly started.

Feature d5. Based on the occurrence of an update event (a game round in the 16th embodiment, a game round or a small hit result in the 17th embodiment), the end trigger storage area (in the 16th embodiment, the state determination counter 326 and State continuation counter 327, in the 17th embodiment, the end trigger information stored in the time-saving game number counter 365 and the time-saving small hit number counter 366) is updated to the side closer to the end target information (value of "0") means (in the sixteenth embodiment, the function of executing the processing of steps S9101 to S9112 and step S9116 in the main MPU 82; in the seventeenth embodiment, the function of executing the processing of steps S9803 to S9805 in the main MPU 82); ,
When the termination trigger information becomes the termination target information in the predetermined state, means for terminating the predetermined state (in the 16th embodiment, the function of executing the processing of step S8905 in the main MPU 82; in the 17th embodiment, Then, the function of executing the process of step S9807 in the main MPU 82);
with
In the first correspondence situation, the end trigger information is the first information range (in the 16th embodiment, the remaining number of times is 50 times or more, in the 17th embodiment, the remaining number of small wins is 5 times or more, in the 17th embodiment In another form, the number of remaining small hits is 5 times or more and the remaining number of times is 30 times or more),
In the second correspondence situation, the end trigger information is the second information range (in the 16th embodiment, the remaining number of times is less than 50 times, in the 17th embodiment, the remaining number of small hits is less than 5 times, of the 17th embodiment In another form, the gaming machine according to any one of features d1 to d4, characterized in that the number of remaining small wins is less than 5 times or the remaining number of times is less than 30 times.

According to the feature d5, the relationship between the number of occurrences of update events required until the predetermined state to be executed ends and the case where the predetermined state continues when the predetermined trigger occurs in the predetermined state Either the predetermined state corresponding to the predetermined trigger is newly initiated. As a result, it is possible to direct the player's attention to the timing of occurrence of the predetermined trigger in relation to the number of occurrences of the update event required until the predetermined state is terminated, and to suitably improve the interest in the game. It becomes possible.

Feature d6. In the first information range, the end trigger information is predetermined reference information (50 remaining times in the 16th embodiment, 5 times remaining small winning times in the 17th embodiment, In the form, the range of information farther from the end target information than the remaining number of small hits is 5 times and the remaining number of times is 30 times),
The gaming machine according to feature d5, wherein the second information range includes a range of information in which the termination trigger information is closer to the termination target information than the predetermined reference information.

According to feature d6, if a predetermined trigger occurs in a situation in which the predetermined state to be executed is not nearing completion, the predetermined state continues, and in a situation in which the predetermined state to be executed is nearing completion, When the predetermined trigger occurs, the predetermined state corresponding to the predetermined trigger is newly started. As a result, while giving priority to the continuation of the current predetermined state, the predetermined state is newly started in a situation where the current predetermined state is about to end, thereby extending the period of the predetermined state. becomes possible.

Feature d7. The characteristic d6 characterized in that the predetermined reference information is information set in the end trigger storage area when the predetermined state corresponding to the predetermined trigger generated in the situation of the predetermined state is started. The game machine described.

According to feature d7, when the number of occurrences of update events required until the predetermined state to be executed ends is greater than the possible number of initial update events in the predetermined state corresponding to the predetermined trigger, the execution target is continued, and the number of occurrences of update events required until the specified state to be executed ends is less than the possible number of occurrences of initial update events in the specified state corresponding to the specified trigger , a predetermined state corresponding to the predetermined trigger is newly started. As a result, even if the predetermined state to be executed is terminated in the middle due to the occurrence of the predetermined opportunity and the predetermined state corresponding to the predetermined opportunity is newly started, the player does not feel disadvantageous. It becomes possible to

Feature d8. Based on the occurrence of the first update event (small hit result), the first end trigger information stored in the first end trigger storage area (time-saving small hit number counter 366 in the 17th embodiment) is terminated A first updating means (in the seventeenth embodiment, a function of executing the processing of step S9805 in the main side MPU 82) for updating to the side closer to the information;
Based on the occurrence of the second update event (game round), the second end trigger information stored in the second end trigger storage area (the time-saving game number counter 365 in the seventeenth embodiment) is used as the end target information Second updating means for updating to the approaching side (in the 17th embodiment, the function of executing the processing of step S9803 in the main side MPU 82);
terminating the predetermined state when the first end trigger information is end target information in the predetermined state, and terminating the predetermined state when the second end trigger information is end target information in the predetermined state means for causing (in the seventeenth embodiment, the function of executing the processing of step S9807 in the main MPU 82);
The gaming machine according to any one of features d1 to d4, characterized by comprising:

According to feature d8, the predetermined state ends when the first update event has occurred a predetermined number of times, and also ends when the second update event has occurred a predetermined number of times. As a result, events that the player pays attention to in the predetermined state are diversified, and it is possible to suitably realize improvement in the interest of the game.

Feature d9. the first response situation is a situation in which reference target information, which is a predetermined side of the first end trigger information and the second end trigger information, is in a first information range;
The gaming machine according to feature d8, wherein the second correspondence situation is a situation in which the reference target information is within a second information range.

According to the feature d9, based on one of the first end trigger information and the second end trigger information, when the predetermined trigger occurs in the predetermined state, the predetermined state to be executed is continued or the predetermined trigger It is determined whether to newly start the predetermined state corresponding to . This makes it possible for the player to easily understand which situation will occur.

Feature d10. the first response situation is a situation in which the first end trigger information is within a predetermined information range and the second end trigger information is within a specific information range;
The gaming machine according to feature d8, wherein the second correspondence situation is a situation in which the first end trigger information is not within the predetermined information range or the second end trigger information is not within the specific information range.

According to feature d10, when the first end trigger information is in the predetermined information range and the second end trigger information is in the specific information range, the predetermined state of the execution target is continued, and when the first end trigger information is in the predetermined information range If not, or if the second end trigger information is not within the specific information range, the predetermined state corresponding to the predetermined trigger is newly started. As a result, it is possible to set severe conditions for continuation of the predetermined state to be executed.

Feature d11. Predetermined ball entry means (second operating port 34) that allows game balls flowing down the game area to enter;
Acquisition means (function of executing step S709 of main side MPU 82) for acquiring special information (second reservation information) based on the game ball entering the predetermined ball entry means;
Giving determination means (function of executing the propriety determination processing of the main side MPU 82) for performing grant determination (appropriateness determination processing) as to whether the special information corresponds to the grant correspondence information;
Privilege for awarding a privilege (opening/closing execution mode) to a player based on the granting correspondence result (jackpot result) indicating that the special information corresponds to the granting correspondence information as a result of the determination of granting. Giving means (function for executing special electric start processing, special electric open processing, special electric closed processing, and special electric end processing of the main MPU 82);
Predetermined ball entry control means (a function of executing a normal/universal/universal power control process of the main side MPU 82) capable of switching the predetermined ball entry means between a closed state and an open state;
with
The predetermined event is a period during which the predetermined ball entry means is in the open state per unit period when the game is played in the same manner as the game balls flow down the game area. The gaming machine according to any one of features d1 to d10 characterized by:

According to the feature d11, special information is acquired based on the game ball entering the predetermined ball entering means that is switched between the closed state and the open state, and the special information corresponds to the grant correspondence information. In the configuration in which a privilege is given to a player, in the case of a predetermined state, the predetermined ball entry means is opened per unit period when the game is played so that the game ball flows down the game area in the same manner. The advantage of the period in the state is different from that in the normal game state.

For the configuration of features d1 to d11, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

<Characteristic group e>
Features e1. Predetermined trigger (in the 19th embodiment, the end of the opening and closing execution mode triggered by the 5R low probability result, the digestion of the game round of the ceiling number of times or the execution of the game round corresponding to the time saving result, in the 21st to 23rd embodiments Based on the occurrence of a predetermined event (the second The operating port 34 is in the open state) advantage is different from the normal game state (in the nineteenth embodiment, the first time saving state ST1, the second time saving state ST2 or the third time saving state ST3, the In the 21st to 23rd embodiments, setting means (in the 19th embodiment, step SA907 in the main side MPU82, step SB105 or The function of executing the process of step SB204, the function of executing the process of step SC207, step SC305 or step SC404 in the main MPU 82 in the 21st embodiment, and the function of steps SC704 to SC706 in the main MPU 82 in the 22nd embodiment. a function to execute processing, a function to execute the processing of steps SC904 to SC906 in the main MPU 82 in the twenty-third embodiment);
In a situation where the execution target of the game state is the above-mentioned predetermined state, when an opportunity occurs to make it possible to wait for the execution of the new predetermined state, the wait information is stored in the standby storage area (in the nineteenth embodiment, the third Standby information setting means (19th In the embodiment, the function of executing the process of step SB206 after making an affirmative determination in step SB203 in the main MPU 82, in the 21st embodiment, the function of executing the process of step SC409 in the main MPU 82, in the 22nd embodiment, A function of executing the processing of step SC708 in the main MPU 82, a function of executing the processing of steps SD101 to SD110 in the main MPU 82 in the twenty-third embodiment);
Post-wait setting means (second In the 19th embodiment, the main MPU 82 has a function of executing the processing of step SB409; in the 21st and 22nd embodiments, the function of executing the processing of steps SC607 to SC609 in the main MPU 82; a function of executing the processing of steps SD309 to SD311 in the side MPU 82);
with
The standby information setting means stores a plurality of A gaming machine characterized in that the standby information of the above is prevented from being stored.

According to feature e1, in a configuration in which the advantage of a predetermined event is set to a predetermined state different from the normal game state based on the occurrence of a predetermined opportunity, a new Execution of a predetermined state may be on standby, and when the predetermined state to be executed ends in the waiting state, the predetermined state corresponding to the waiting information stored in the standby storage area is the game state to be executed. becomes. As a result, in a situation where the predetermined state is the execution target of the game state, the predetermined state that can be the execution target after that can be on standby, and it is possible to diversify the execution mode of the predetermined state. .

In addition, in a situation where standby information is stored in the standby storage area, if there is a trigger that makes it possible to wait for the execution of a new predetermined state, a state in which a plurality of pieces of standby information are stored in the standby storage area. should not. This makes it possible to prevent a situation in which a plurality of predetermined states are on standby at the same time, and makes it easier for the player to understand the contents of the predetermined states that are waiting. Therefore, it is possible to suitably realize improvement in the interest of the game.

Feature e2. Characteristic feature e1 characterized in that, when a trigger for ending the predetermined state corresponding to the standby information stored in the standby storage area occurs, the predetermined state is terminated without being set to a game state. game machine.

According to feature e2, the predetermined state waiting to become an execution target may not only become an execution target afterward, but may also terminate without becoming an execution target. This makes it possible to diversify the manner in which the predetermined state is executed.

Feature e3. update processing so that the number of occurrences of the remaining update events in the predetermined state corresponding to the standby information stored in the standby storage area is reduced based on the occurrence of an update event (execution of a game cycle); (the function of executing the processing of step SB405 in the main MPU 82 in the 19th embodiment, the function of executing the processing of step SC604 in the main MPU 82 in the 21st and 22nd embodiments, the function of executing the processing of step SC604 in the 23rd In the embodiment, the function of executing the processing of step SD304 in the main side MPU 82) is provided,
The gaming machine according to feature e2, wherein the termination trigger is that the remaining number of occurrences of the update event becomes zero.

According to feature e3, if an update event occurs while the execution of the predetermined state is waiting, the number of occurrences of the remaining update events in the waiting predetermined state decreases. When an update event occurs in the waiting state, it is possible to gradually approach the side where the trigger for ending the predetermined state occurs.

Feature e4. When the predetermined state to be executed ends while the standby information is stored in the standby storage area, the post-wait setting means determines that the predetermined state corresponding to the standby information has been to be executed until then. The game according to feature e3, characterized in that the predetermined state is set to be able to continue until the number of occurrences of the remaining update events after being updated by the updating means is exhausted before the predetermined state ends. machine.

According to feature e4, when the predetermined state to be executed ends while the predetermined state is waiting, the predetermined state that can continue until the number of occurrences of the remaining update events at that time is exhausted is the game to be executed. state. As a result, it is possible to start the waiting predetermined state from an intermediate state according to the period required from the time when the predetermined state becomes the waiting state until it becomes an execution target.

Feature e5. As the predetermined state, at least the first state (3A time saving state ST3A in the 21st to 23rd embodiments) and the second state (3B time saving state ST3B in the 21st to 23rd embodiments) exist. cage,
The standby information setting means sets first standby information as the standby information when a trigger for making it possible to wait for the execution of the new first state occurs in a situation where the execution target of the game state is the predetermined state. ("50") is set in the standby storage area, and in the situation where the execution target of the game state is the predetermined state, when an opportunity occurs to make it possible to wait for the execution of the new second state, the above The gaming machine according to any one of features e1 to e4, wherein second standby information ("100") is set in the standby storage area as standby information.

According to feature e5, the first standby information is set in the standby storage area when the first state is waiting, and the second standby information is set in the standby storage area when the second state is waiting. is set. As a result, it is possible to set the standby state according to the type of the predetermined state that triggered the standby.

Feature e6. The standby information setting means, when an opportunity occurs to allow the execution of the new predetermined state to wait while the standby information is stored in the standby storage area, sets the new predetermined state. The gaming machine according to any one of features e1 to e5, wherein the corresponding standby information is overwritten in the standby storage area.

According to the feature e6, when a trigger for waiting the execution of a new predetermined state occurs in a situation where the standby information is stored in the standby storage area, the standby corresponding to the new predetermined state occurs. Since the information is overwritten in the standby storage area, when the predetermined state to be executed ends, the predetermined state corresponding to the last waiting trigger can be executed.

Feature e7. update processing so that the number of occurrences of the remaining update events in the predetermined state corresponding to the standby information stored in the standby storage area is reduced based on the occurrence of an update event (execution of a game cycle); (the function of executing the processing of step SB405 in the main MPU 82 in the 19th embodiment, the function of executing the processing of step SC604 in the main MPU 82 in the 22nd embodiment, the function of executing the processing of step SC604 in the 23rd embodiment, function to execute the processing of step SD304 in the main side MPU 82),
Characteristic feature e6 characterized in that when the standby information is overwritten in the standby storage area, the number of occurrences of the remaining update events in the predetermined state corresponding to the standby information becomes the initial number corresponding to the predetermined state. The gaming machine described in .

According to the feature e7, when an update event occurs while execution of a predetermined state is waiting, the number of occurrences of the remaining update events in the waiting predetermined state decreases, so execution of the predetermined state is prevented. When an update event occurs in the waiting state, it is possible to gradually approach the side where the trigger for ending the predetermined state occurs. In this case, if the standby information is overwritten in the standby storage area due to the occurrence of a trigger that makes it possible to wait for the execution of a new predetermined state in the situation where the standby information is stored in the standby storage area Since the number of occurrences of the remaining update events in the predetermined state corresponding to the standby information is the initial number of times corresponding to the predetermined state, the predetermined state to be executed ends and the predetermined state corresponding to the standby information is restored. When initiated, it is possible to ensure that the number of occurrences of the remaining update events in the given state is reasonably high.

Feature e8. When the waiting information setting means generates a trigger that makes it possible to wait for the execution of the new predetermined state in the situation where the waiting information is stored in the waiting storage area, the waiting information setting means responds to the occurrence of the trigger The gaming machine according to any one of features e1 to e5, wherein information in the standby storage area is not set.

According to feature e8, when a trigger that makes it possible to wait for the execution of a new predetermined state occurs in a situation where standby information is stored in the standby storage area, the Since information is not set, the processing configuration can be simplified, and the player can easily understand the content of the predetermined waiting state.

Feature e9. The standby information setting means, when an opportunity occurs to allow the execution of the new predetermined state to wait in a situation where the standby information is stored in the standby storage area, the predetermined state is set to the predetermined state. If the priority (priority of the third time saving state ST3A to ST3C in the 23rd embodiment) is higher than the predetermined state corresponding to the standby information stored in the standby storage area, the new predetermined state The gaming machine according to any one of features e1 to e5, wherein the corresponding standby information is overwritten in the standby storage area.

According to the feature e9, when a trigger for waiting execution of a new predetermined state occurs in a situation where standby information is stored in the standby storage area, the predetermined state is stored in the standby storage area. If the priority is higher than the predetermined state corresponding to the existing standby information, the standby information corresponding to the new predetermined state is overwritten in the standby storage area. As a result, it is possible to make the predetermined state with the higher priority stand by.

Features e10. The setting means
As the predetermined trigger, the first predetermined trigger (execution of the game round corresponding to the time saving result in the 19th embodiment, execution of the game round corresponding to the first to third time saving results in the 21st to 23rd embodiments) is Based on what has occurred, as the predetermined state, the advantage of the predetermined event is different from the normal game state. In the form, the first setting means to be set to the third time saving state ST3A to ST3C) (in the 19th embodiment, the function of executing the process of step SB204 in the main side MPU82, in the 21st embodiment, the step SC404 in the main side MPU82 a function of executing processing, a function of executing the processing of step SC704 in the main MPU 82 in the twenty-second embodiment, and a function of executing the processing of step SC904 in the main MPU 82 in the twenty-third embodiment;
As the predetermined trigger, the second predetermined trigger (end of the opening and closing execution mode triggered by the 5R low probability result in the 19th, 21st to 23rd embodiments or digestion of the game round of the ceiling number of times) , As the predetermined state, the advantage of the predetermined event is a second predetermined state different from the normal game state (first time saving state ST1 or second time saving state ST2 in the 19th, 21st to 23rd embodiments) Second setting means for setting (in the 19th embodiment, the function of executing the processing of step SA907 or step SB105 in the main MPU 82, in the 21st to 23rd embodiments, the processing of step SC207 or step SC305 in the main MPU 82 functions to perform) and
with
The standby information setting means sets the standby information in the standby storage area based on the occurrence of the first predetermined opportunity in a situation where the execution target of the game state is the second predetermined state,
The post-wait setting means changes the first predetermined state corresponding to the standby information to the game state when the second predetermined state to be executed ends in a situation where the standby information is stored in the standby storage area. The gaming machine according to any one of features e1 to e9, which is set as an execution target.

According to the feature e10, the first predetermined state in which the advantage of the predetermined event is different from the normal game state can be executed based on the occurrence of the first predetermined opportunity, and the predetermined state based on the occurrence of the second predetermined opportunity A second predetermined state in which the event advantage is different from the normal game state can be executed. As a result, it is possible to diversify the game state in relation to the degree of advantage of the predetermined event. In this case, the configuration is such that execution of the first predetermined state can be put on hold in the situation of the second predetermined state, and when the second predetermined state ends while the first predetermined state is waiting, , the waiting first predetermined state becomes a game state to be executed. This makes it possible to increase the frequency with which each of the first predetermined state and the second predetermined state is to be executed.

Feature e11. Characteristic e10 characterized in that the standby information setting means does not set the standby information in the standby storage area when the second predetermined trigger occurs in a situation where the execution target of the game state is the first predetermined state. The gaming machine described in .

According to the feature e11, when the second predetermined state occurs in the situation where the execution target of the game state is the first predetermined state, the standby information is not set in the standby storage area. This makes it possible to limit the types of predetermined states that trigger the setting of standby information.

Feature e12. The second setting means sets the execution target of the game state to the second predetermined state when the second predetermined opportunity occurs in a situation where the execution target of the game state is the first predetermined state. The gaming machine according to feature e10 or e11.

According to feature e12, when the second predetermined opportunity occurs in a situation where the execution target of the game state is the first predetermined state, the execution target of the game state becomes the second predetermined state, so the second predetermined state is executed. Priority can be given.

Feature e13. In a situation where the execution target of the game state is the predetermined state, a predetermined game round (a game round corresponding to the time saving result in the 19th embodiment, the 1st to 3rd time saving results in the 21st to 23rd embodiments) When the game round to be played) is executed, a trigger is generated that makes it possible to wait for the execution of the new predetermined state,
In this gaming machine, when the standby information is set in the standby storage area by executing the predetermined game round in a situation where the game state to be executed is the predetermined state, the game in the predetermined game round Means for setting the effect mode of the time effect to the standby effect mode (function for executing the processing of steps SB311 and SB312 in the sound and light side MPU 93 in the 19th embodiment, step SC 513 in the sound and light side MPU 93 in the 21st embodiment and the function of executing the processing of step SC514, the function of executing the processing of steps SC812 and SC813 in the sound and light side MPU 93 in the twenty-second embodiment, and the functions of steps SD214 and SD215 in the sound and light side MPU 93 in the twenty-third embodiment. The gaming machine according to any one of features e1 to e12, characterized in that it has a function of executing processing.

According to the feature e13, when the standby information is set in the standby storage area due to the execution of the predetermined game cycle, the effect mode of the game cycle effect in the predetermined game cycle becomes the standby effect mode. It is possible to make the player recognize that the execution of a new predetermined state has come to a stand-by state in a certain situation by using the game-turn effect.

Characteristic e14. In the situation where the execution target of the game state is the predetermined state, a predetermined game round (a game round corresponding to the time saving result in the 19th embodiment, the 1st to 3rd time saving results in the 21st to 23rd embodiments) When the game round to be played) is executed, a trigger is generated that makes it possible to wait for the execution of the new predetermined state,
In this gaming machine, when the predetermined game round is executed in a situation where the game state to be executed is the predetermined state, but the standby information is not set in the standby storage area, the game round for the predetermined game round Means for setting the effect mode of the effect to a non-waiting effect mode that can occur even in a game time different from the predetermined game time (in the 19th embodiment, the function of executing the processing of steps SB306 and SB307 in the sound and light side MPU 93 , the function of executing the processing of steps SC506 and SC507 in the sound and light side MPU 93 in the 21st embodiment, the function of executing the processing of steps SC806 and SC807 in the sound and light side MPU 93 in the 22nd embodiment, and the 23rd In the embodiment, the gaming machine according to any one of features e1 to e13 is provided with a function of executing the processing of steps SD206 and SD207 in the sound and light side MPU 93 .

According to feature e14, when the game state to be executed is the predetermined state and the predetermined game cycle is executed but the standby information is not set in the standby storage area, the effect mode of the game cycle effect in the predetermined game cycle. is a non-waiting effect mode that can occur even in a game round different from the predetermined game round, so that it is possible to prevent the player from recognizing that the predetermined game round has occurred.

Feature e15. Predetermined ball entry means (second operating port 34) that allows game balls flowing down the game area to enter;
Acquisition means for acquiring special information (second reservation information) based on the game ball entering the predetermined ball entry means (function for executing the processing of step S709 of the main side MPU 82);
Giving determination means (function of executing the propriety determination processing of the main side MPU 82) that performs grant determination (property determination processing) as to whether or not the special information corresponds to the grant correspondence information;
Privilege for awarding a privilege (opening/closing execution mode) to a player based on the granting correspondence result (jackpot result) indicating that the special information corresponds to the granting correspondence information as a result of the granting determination. Giving means (function for executing special electric start processing, special electric open processing, special electric closed processing, and special electric end processing of the main MPU 82);
Predetermined ball entry control means (function for executing normal/universal/universal electric control processing of main side MPU 82) capable of switching the predetermined ball entry means between a closed state and an open state;
with
The predetermined event is a period in which the predetermined ball entry means is in the open state per unit period when the game is played in the same manner as the game balls flow down the game area. The gaming machine according to any one of features e1 to e14, characterized by:

According to feature e15, when special information is acquired based on the fact that a game ball enters a predetermined ball entry means that is switched between a closed state and an open state, and the special information corresponds to grant correspondence information. In the configuration in which a privilege is given to a player, in the case of a predetermined state, the predetermined ball entry means is opened per unit period when the game is played so that the game ball flows down the game area in the same manner. The advantage of the period in the state is different from that in the normal game state.

For the configuration of features e1 to e15, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

<Feature f group>
Features f1. A predetermined trigger (end of the opening and closing execution mode triggered by the 5R low probability result in the 26th to 29th embodiments, digestion of the game round of the ceiling number of times or execution of the game round corresponding to the first to third time saving results) Based on what has occurred, the advantage of the predetermined event (the frequency with which the second operation port 34 is in the open state) is different from the normal game state (the first time saving state in the 26th to 29th embodiments ST1, second time saving state ST2 or third time saving state ST3A to ST3C) setting means (in the 26th embodiment, step SC207 in main side MPU 82, step SC305 or step SD704 to step SD711 function to execute the process, In the twenty-seventh embodiment, the function of executing the processing of steps SE104 to SE113 in the main MPU 82; Function to execute the processing of steps SE704 to SE713, in the twenty-ninth embodiment, to execute the processing of steps SE804 to SE811, steps SF104 to SF111, steps SF204 to SF211, or steps SF404 to SF413 in the main MPU 82 function) and
In a situation where the execution target of the game state is the above-mentioned predetermined state, when an opportunity occurs to make it possible to wait for the execution of the new predetermined state, the wait information is stored in the standby storage area (3A in the twenty-sixth embodiment). Short working hours standby counter 401, 3B short working hours standby counter 402 and 3C short working hours standby counter 403, 3A short working hours standby counter 401 in the 28th embodiment, 3B short working hours standby counter 402, 3C short working hours standby counter 403 and occurrence order storage area 405, the first standby counter 406, the second standby counter 407 and the third standby counter 408 in the twenty-ninth embodiment) (in the twenty-sixth embodiment, step SC207, step SC305 or A function of executing the processing of steps SD704 to SD711, a function of executing the processing of steps SE104 to SE113 in the main MPU 82 in the twenty-seventh embodiment, steps SE304 to SE311 in the main MPU 82 in the twenty-eighth embodiment, Function to execute the processing of steps SE504 to SE511, steps SE604 to SE611 or steps SE704 to SE713, steps SE804 to SE811, steps SF104 to SF111, steps SF204 to steps in the main MPU 82 in the twenty-ninth embodiment SF211 or a function to execute the processing of steps SF404 to SF413);
Post-wait setting means (second In the twenty-sixth embodiment, the function of executing steps SD901 to SD909 in the main MPU 82; in the twenty-seventh embodiment, the function of executing steps SE201 to SE209 in the main MPU 82; a function of executing the processes of steps SE411 to SE413 in the side MPU 82, and a function of executing the processes of steps SE911 to SE913 or steps SF311 to SF314 in the main side MPU 82 in the twenty-ninth embodiment);
with
The standby storage area is
The first standby storage area that can store the standby information (the 3C short time standby counter 403 in the 26th embodiment, the 3C short time standby counter 403 in the 28th embodiment, the 1st standby counter in the 29th embodiment 406) and
A second standby storage area that can store the standby information (the 3B short time standby counter 402 in the 26th embodiment, the 3B short time standby counter 402 in the 28th embodiment, the 2nd standby counter in the 29th embodiment 407) and
A game machine characterized by comprising:

According to the feature f1, in the configuration in which the advantage of the predetermined event is set to a predetermined state different from the normal game state based on the occurrence of the predetermined opportunity, a new Execution of a predetermined state may be on standby, and when the predetermined state to be executed ends in the waiting state, the predetermined state corresponding to the waiting information stored in the standby storage area is the game state to be executed. becomes. As a result, in a situation where the predetermined state is the execution target of the game state, the predetermined state that can be the execution target after that can be on standby, and it is possible to diversify the execution mode of the predetermined state. .

Further, the standby storage area is provided with a first standby storage area and a second standby storage area, each of which can store standby information. As a result, it is possible to set a plurality of predetermined states to the standby state at the same time, and to ensure a long period during which the standby state is executed. Therefore, it is possible to suitably realize improvement in the interest of the game.

Feature f2. Characteristic f1, characterized in that, when a trigger for ending the predetermined state corresponding to the standby information stored in the standby storage area occurs, the predetermined state is terminated without being set to a game state. game machine.

According to the feature f2, the predetermined state waiting to become an execution target may not only become an execution target after that, but may also terminate without becoming an execution target. This makes it possible to diversify the manner in which the predetermined state is executed.

Feature f3. update processing so that the number of occurrences of the remaining update events in the predetermined state corresponding to the standby information stored in the standby storage area is reduced based on the occurrence of an update event (execution of a game cycle); (26th embodiment, the function of executing the processing of steps SD804 to SD806 in the main MPU 82; in the 28th embodiment, the function of executing the processing of steps SE404 to SE406 in the main MPU 82; In the twenty-ninth embodiment, the function of executing the processing of steps SE904 to SE906 or steps SF304 to SF306 in the main MPU 82),
The gaming machine according to feature f2, wherein the termination trigger is that the remaining number of occurrences of the update event becomes zero.

According to feature f3, when an update event occurs while execution of a predetermined state is waiting, the number of occurrences of the remaining update events in the waiting predetermined state decreases. When an update event occurs in the waiting state, it is possible to gradually approach the side where the trigger for ending the predetermined state occurs.

Feature f4. When the predetermined state to be executed ends while the standby information is stored in the standby storage area, the post-wait setting means determines that the predetermined state corresponding to the standby information has been to be executed until then. The game according to feature f3, characterized in that the predetermined state is set to be able to continue until the number of occurrences of the remaining update events after being updated by the updating means is exhausted by the time the predetermined state ends. machine.

According to the feature f4, when the predetermined state to be executed ends while the predetermined state is waiting, the predetermined state that can continue until the number of occurrences of the remaining update events at that time is exhausted is the game to be executed. state. As a result, it is possible to start the waiting predetermined state from an intermediate state according to the period required from the time when the predetermined state becomes the waiting state until it becomes an execution target.

Feature f5. As the predetermined state, at least the first state (3C time saving state ST3C in the 26th to 29th embodiments) and the second state (3B time saving state ST3B in the 26th to 29th embodiments) exist. cage,
The standby information setting means sets first standby information as the standby information when a trigger for making it possible to wait for the execution of the new first state occurs in a situation where the execution target of the game state is the predetermined state. ("130") is set in the first standby storage area, and an opportunity occurs to make it possible to wait for execution of the new second state in a situation where the execution target of the game state is the predetermined state. The gaming machine according to any one of features f1 to f4, wherein second standby information ("100") is set in the second standby storage area as the standby information.

According to feature f5, the first standby information is set in the first standby storage area when the first state is waiting, and the second standby storage area is set when the second state is waiting. Second standby information is set. As a result, it is possible to set the standby state according to the type of the predetermined state that triggered the standby.

Feature f6. The post-standby setting means determines whether the predetermined state to be executed is set in a situation where the standby information is stored in the first standby storage area and the standby information is stored in the second standby storage area. When finished, the predetermined state corresponding to the standby information with higher priority among the standby information is set as an execution target of the game state (in the twenty-sixth embodiment, the processing of steps SD901 to SD909 in the main side MPU 82 , and in the twenty-seventh embodiment, the function of executing the processing of steps SE201 to SE209 in the main side MPU 82).

According to the feature f6, when a predetermined state to be executed ends in a situation where a plurality of predetermined states are waiting, the predetermined state corresponding to the standby information with the higher priority is to be executed. As a result, it is possible to provide many opportunities for the predetermined state with the higher priority to be executed.

Feature f7. The post-standby setting means determines whether the predetermined state to be executed is set in a situation where the standby information is stored in the first standby storage area and the standby information is stored in the second standby storage area. When finished, the predetermined state corresponding to the standby information stored in the first standby storage area is set as an execution target of the game state (in the twenty-sixth embodiment, steps SD901 to SD909 in the main side MPU 82 function of executing processing, function of executing the processing of steps SE201 to SE209 in the main MPU 82 in the twenty-seventh embodiment, and function of executing the processing of steps SE911 to SE913 in the main MPU 82 in the twenty-ninth embodiment) The game machine according to any one of features f1 to f6 characterized by:

According to feature f7, when the predetermined state to be executed ends in a situation where the standby information is stored in both the first standby storage area and the second standby storage area, it is stored in the first standby storage area. Since it is sufficient to set the predetermined state corresponding to the standby information as the execution target of the game state, it is possible to reduce the processing load for setting the predetermined state corresponding to the standby information as the execution target of the game state.

Feature f8. The post-standby setting means determines whether the predetermined state to be executed is set in a situation where the standby information is stored in the first standby storage area and the standby information is stored in the second standby storage area. When finished, regardless of the order in which the standby information is set in the corresponding standby storage area, the predetermined state corresponding to the standby information stored in the first standby storage area is set as the execution target of the game state. (in the twenty-sixth embodiment, the function of executing the processing of steps SD901 to SD909 in the main MPU 82; in the twenty-seventh embodiment, the function of executing the processing of steps SE201 to SE209 in the main MPU 82). The game machine according to feature f7.

According to the feature f8, when the predetermined state to be executed ends in a situation where the standby information is stored in both the first standby storage area and the second standby storage area, the standby storage area to which the standby information corresponds A predetermined state corresponding to the standby information stored in the first standby storage area is the execution target of the game state regardless of the order set in . This makes it possible to give priority to the execution of the predetermined state corresponding to the standby information stored in the first standby storage area.

Feature f9. The standby information setting means, when an opportunity occurs in which the standby information is stored in the first standby storage area and enables the execution of the new predetermined state to wait, the new predetermined state is set. The gaming machine according to feature f6 or f8, wherein the standby information corresponding to the state is overwritten in the first standby storage area.

According to feature f9, when a trigger that makes it possible to wait for the execution of a new predetermined state occurs in a situation where the standby information is stored in the first standby storage area, the new predetermined state is handled. Since the standby information is overwritten in the first standby storage area, when the predetermined state to be executed ends, the predetermined state corresponding to the waiting trigger on the rearmost side can be executed. It becomes possible.

Feature f10. The standby information setting means executes the new predetermined state in a situation where the standby information is stored in the first standby storage area but the standby information is not stored in the second standby storage area. is set in the second standby storage area, the standby information corresponding to the new predetermined state occurs,
In this game machine, the predetermined state to be executed is completed in a situation where the standby information is stored in the first standby storage area and the standby information is stored in the second standby storage area. When the predetermined state corresponding to the standby information stored in the first standby storage area is set as an execution target of the game state, the standby information stored in the second standby storage area is changed to the The gaming machine according to feature f7, characterized by comprising a means for setting in the first standby storage area (a function of executing the processing of step SE913 or step SF314 of the main side MPU 82 in the twenty-ninth embodiment).

According to the feature f10, when the trigger that makes it possible to wait for execution of a new predetermined state occurs multiple times in a situation where the execution target of the game state is the predetermined state, the wait information is first stored in the first standby storage area is set, and then the standby information is set in the second standby storage area. Further, when the predetermined state to be executed ends, the predetermined state corresponding to the standby information stored in the first standby storage area is executed and stored in the second standby storage area. The standby information is shifted to the first standby storage area. As a result, in a situation where the execution target of the game state is the predetermined state, when the trigger that makes it possible to wait for the execution of the new predetermined state occurs multiple times, the predetermined state corresponding to the trigger that occurred first is executed in order. It is possible to make it a target.

Feature f11. The post-standby setting means determines whether the predetermined state to be executed is set in a situation where the standby information is stored in the first standby storage area and the standby information is stored in the second standby storage area. When it is finished, the predetermined state corresponding to the waiting information whose order is stored in the corresponding waiting storage area is set as the execution target of the game state (the main MPU 82 in the twenty-eighth embodiment). A gaming machine according to any one of features f1 to f5, characterized by:

According to the feature f11, in a situation where the execution target of the game state is the predetermined state, when the opportunity that makes it possible to wait for the execution of the new predetermined state occurs multiple times, the predetermined state corresponding to the previously generated opportunity It is possible to make it to be executed in order from.

Feature f12. The standby information setting means waits execution of the new predetermined state corresponding to the setting of the standby information in the first standby storage area in a situation where the standby information is stored in the first standby storage area. The gaming machine according to feature f10 or f11, characterized in that, when an opportunity to enable the above occurs, the information in the first standby storage area is not set in response to the occurrence of the opportunity.

According to feature f12, in a situation where standby information is stored in the first standby storage area, execution of a new predetermined state corresponding to the setting of standby information in the first standby storage area can be put on hold. When a trigger occurs, the information in the first standby storage area is not set in response to the occurrence of the trigger, so processing to be executed in order from the predetermined state corresponding to the trigger that occurred first It is possible to simplify the configuration.

Feature f13. When a predetermined game round (a game round corresponding to the first to third time saving results) is executed in a situation where the execution target of the game state is the predetermined state, the execution of the new predetermined state is made to wait. It is a configuration that generates an opportunity to make it possible,
In this gaming machine, when the standby information is set in the standby storage area by executing the predetermined game round in a situation where the game state to be executed is the predetermined state, the game in the predetermined game round Means for setting the effect mode of the time effect to the standby effect mode (function of executing the processing of steps SD214 and SD215 in the sound and light side MPU 93 in the 26th and 29th embodiments, and the sound and light side MPU 93 in the 28th embodiment The gaming machine according to any one of features f1 to f12, characterized in that it has a function of executing the processing of steps SC513 and SC514 in step SC514.

According to the feature f13, when the standby information is set in the standby storage area due to the execution of the predetermined game round, the effect mode of the game cycle effect in the predetermined game time becomes the standby effect mode, so that the predetermined state It is possible to make the player recognize that the execution of a new predetermined state has come to a stand-by state in a certain situation by using the game-turn effect.

Feature f14. When a predetermined game round (a game round corresponding to the first to third time saving results) is executed in a situation where the execution target of the game state is the predetermined state, the execution of the new predetermined state is made to wait. It is a configuration that creates an opportunity to make it possible,
In this gaming machine, when the predetermined game round is executed in a situation where the game state to be executed is the predetermined state, but the standby information is not set in the standby storage area, the game round for the predetermined game round Means for setting the effect mode of the effect to a non-waiting effect mode that can occur even in a game time different from the predetermined game time The gaming machine according to any one of features f1 to f13, characterized in that it has a function to execute the processing of steps SC506 and SC507 in the sound and light side MPU 93 in the twenty-eighth embodiment.

According to the feature f14, when the game state to be executed is the predetermined state and the predetermined game cycle is executed but the standby information is not set in the standby storage area, the effect mode of the game cycle effect in the predetermined game cycle. is a non-waiting effect mode that can occur even in a game round different from the predetermined game round, so that it is possible to prevent the player from recognizing that the predetermined game round has occurred.

Feature f15. Predetermined ball entry means (second operating port 34) that allows game balls flowing down the game area to enter;
Acquisition means (function of executing step S709 of main side MPU 82) for acquiring special information (second reservation information) based on the game ball entering the predetermined ball entry means;
Giving determination means (function of executing the propriety determination processing of the main side MPU 82) for performing grant determination (appropriateness determination processing) as to whether the special information corresponds to the grant correspondence information;
Privilege for awarding a privilege (opening/closing execution mode) to a player based on the granting correspondence result (jackpot result) indicating that the special information corresponds to the granting correspondence information as a result of the determination of granting. Giving means (function for executing special electric start processing, special electric open processing, special electric closed processing, and special electric end processing of the main MPU 82);
Predetermined ball entry control means (a function of executing a normal/universal/universal power control process of the main side MPU 82) capable of switching the predetermined ball entry means between a closed state and an open state;
with
The predetermined event is a period during which the predetermined ball entry means is in the open state per unit period when the game is played in the same manner as the game balls flow down the game area. The gaming machine according to any one of features f1 to f14 characterized by:

According to the feature f15, when the special information is acquired based on the entry of the game ball into the predetermined ball entry means which is switched between the closed state and the open state, and the special information corresponds to the grant correspondence information. In the configuration in which a privilege is given to a player, in the case of a predetermined state, the predetermined ball entry means is opened per unit period when the game is played so that the game ball flows down the game area in the same manner. The advantage of the period in the state is different from that in the normal game state.

For the configuration of features f1 to f15, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

<Characteristic group g>
Features g1. Predetermined trigger (execution of the game round corresponding to the time saving result in the 15th to 20th embodiments, execution of the game round corresponding to the first to third time saving results in the 21st to 29th embodiments) occurred Based on, the advantage of the predetermined event (the frequency with which the second operation port 34 is open) is different from the normal game state (in the fifteenth to twentieth embodiments, the third time-saving state ST3, the 21 ~ 29th embodiment 3rd time saving state ST3A ~ ST3C) setting means (15th embodiment the function of executing the processing of step S8705 in the main side MPU82, in the 16th embodiment the main side MPU82 , the function of executing the processing of step S9906 in the main MPU 82 in the 17th embodiment, the function of executing the processing of step SA503 in the main MPU 82 in the 18th embodiment, the 19th The function of executing the process of step SB204 in the main MPU 82 in the embodiment, the function of executing the process of step SB904 in the main MPU 82 in the twentieth embodiment, and the process of step SC404 in the main MPU 82 in the 21st embodiment in the 22nd embodiment, the function of executing the process of step SC704 in the main MPU 82, the function of executing the process of step SC904 in the main MPU 82 in the 23rd embodiment, and the function of executing the process of step SC904 in the 25th embodiment. The function of executing the processing of steps SD504 to SD513 in the side MPU 82, the function of executing the processing of steps SD704 to SD711 in the main MPU 82 in the twenty-sixth embodiment, and the steps SE105 to S in the main MPU 82 in the twenty-seventh embodiment. The function of executing the processing of step SE113, the function of executing the processing of steps SE304 to SE311 in the main MPU 82 in the twenty-eighth embodiment, and the processing of steps SE804 to SE811 in the main MPU 82 in the twenty-ninth embodiment. function),
A gaming machine characterized in that the predetermined opportunity can occur even after the predetermined opportunity has occurred and before the predetermined state corresponding to the predetermined opportunity ends.

According to the feature g1, the advantage of the predetermined event is set to a predetermined state different from the normal game state based on the occurrence of the predetermined opportunity, so the player pays attention to whether or not the predetermined opportunity occurs. becomes. In this case, the predetermined trigger may occur even after the predetermined trigger has occurred and before the predetermined state corresponding to the predetermined trigger has ended. As a result, it is possible to diversify the situations in which the predetermined trigger is generated, and it is possible to suitably improve the interest in the game.

Feature g2. Means (15th and 16th In the embodiment, the function of executing the processing of step S9101 in the main MPU 82, in the 17th embodiment, the function of executing the processing of steps S9803 to S9805 in the main MPU 82, and in the 18th embodiment, step SA701 in the main MPU 82 function of executing the process of (in the nineteenth embodiment, the function of executing the process of step SB405 in the main MPU 82);
Means for terminating the predetermined state based on the number of occurrences of the remaining update events becoming 0 in the predetermined state (in the fifteenth and sixteenth embodiments, the processing of step S8905 in the main MPU 82 is executed In the 17th embodiment, the main MPU 82 performs the processing of step S9807; in the 18th embodiment, the main MPU 82 performs step SA605; in the 19th embodiment, the main MPU 82 a function to execute the processing of step SB423);
When the predetermined trigger occurs in the predetermined state, means for setting the number of occurrences of the remaining update events in the predetermined state to the initial number corresponding to the predetermined state (step S8706 in the main MPU 82 in the fifteenth embodiment). and the function of executing the processing of step S8707, the function of executing the processing of steps S9507 and S9508 in the main MPU 82 in the sixteenth embodiment, and the processing of steps S9907 and S9908 in the main MPU 82 in the seventeenth embodiment. function to execute, a function of executing the processing of steps SA503 and SA504 in the main MPU 82 in the eighteenth embodiment, and a function of executing the processing of step SB206 in the main MPU 82 in the nineteenth embodiment);
The gaming machine according to feature g1, characterized by comprising:

According to feature g2, when a predetermined trigger occurs in a predetermined state, the number of occurrences of the remaining update events in the predetermined state is set to the initial number corresponding to the predetermined state, so the predetermined state continues for a long time. A player who expects to expect a predetermined opportunity to occur in a predetermined state.

Feature g3. Standby state setting means (in the 19th embodiment, in step SB203 of the main MPU 82 in the nineteenth embodiment, A function of executing the process of step SB206 after making an affirmative determination, a function of executing the process of step SB811 or step SB908 in the main MPU 82 in the 20th embodiment, and the process of step SC409 in the main MPU 82 in the 21st embodiment. in the twenty-sixth embodiment, the function of executing the processing of steps SD712 to SD716 in the main MPU 82; in the twenty-eighth embodiment, the function of executing the processing of steps SE312 to SE325 in the main MPU 82; 29, the function of executing the processing of steps SE812 to SE820 in the main MPU 82);
Post-wait setting means for setting the predetermined state in the standby state to the execution target of the game state when the predetermined state to be executed in the standby state ends (in the nineteenth embodiment, the step in the main MPU 82 A function of executing the processing of SB409 or step SB417, a function of executing the processing of step SC109 or step SC113 in the main MPU 82 in the 20th embodiment, and the processing of steps SC607 to SC609 in the main MPU 82 in the 21st embodiment. in the twenty-sixth embodiment, the function of executing the processing of step SD809 in the main MPU 82; in the twenty-eighth embodiment, the function of executing the processing of steps SE411 to SE413 in the main MPU 82; In the form, the function of executing the processing of steps SE911 to SE913 in the main side MPU 82),
The gaming machine according to feature g1 or g2, characterized by comprising:

According to feature g3, when a predetermined trigger occurs in a situation where the execution target of the game state is a predetermined state, a standby state may be set to wait for the execution of the predetermined state. When the state ends, the predetermined state that is the standby state becomes the execution target of the game state. As a result, in a situation where the predetermined state is the execution target of the game state, the predetermined state that can be the execution target after that can be on standby, and it is possible to diversify the execution mode of the predetermined state. .

Feature g4. The gaming machine according to feature g3, wherein when an end opportunity occurs in the standby state, the predetermined state in the standby state is terminated without being set to a game state.

According to the characteristic g4, not only the predetermined state waiting to be executed becomes the execution target after that, but also the state may end without becoming the execution target. This makes it possible to diversify the manner in which the predetermined state is executed.

Feature g5. Based on the occurrence of the update event (execution of the game round), the end trigger storage area (in the nineteenth embodiment the third time saving state counter 374, in the twentieth embodiment the second time saving standby counter 382 or the third time saving Waiting counter 383, in the 21st embodiment, the 3rd time saving waiting counter 387, the 26th and 28th embodiments, the 3A time saving waiting counter 401, the 3B time saving waiting counter 402 or the 3C time saving waiting counter 403, the 29th In the embodiment, updating means (second In the 19th embodiment, the function of executing the process of step SB405 in the main MPU 82, in the 20th embodiment, the function of executing the process of step SC104 or SC105 in the main MPU 82, and in the 21st embodiment, the main MPU 82 A function of executing the processing of step SC604, a function of executing the processing of steps SD804 to SD806 in the main MPU 82 in the twenty-sixth embodiment, and the processing of steps SE404 to SE406 in the main MPU 82 in the twenty-eighth embodiment. function to execute the processing of steps SE904 to SE906 in the main MPU 82 in the twenty-ninth embodiment),
The termination trigger is that the termination trigger information becomes the termination target information,
The gaming machine according to feature g4, wherein the update means updates the termination trigger information to a side closer to the termination target information even when the update event occurs in the standby state.

According to feature g5, in the configuration in which the predetermined state of the standby state ends when the termination trigger information updated based on the occurrence of the update event becomes the termination trigger information, the update event occurs in the standby state. Even if this occurs, the termination trigger information is updated to the side closer to the termination target information. As a result, when the predetermined state is the standby state, each time an update event occurs, it is possible to gradually approach the side where the trigger for ending the predetermined state occurs.

Feature g6. The post-waiting setting means sets the predetermined state corresponding to the state of the end trigger information stored in the end trigger storage area to a game state to be executed when the predetermined state to be executed ends in the standby state. The gaming machine according to feature g5, characterized in that it is set to .

According to the characteristic g6, when the predetermined state to be executed ends while the predetermined state is waiting, the predetermined state corresponding to the state of the termination trigger information at that time becomes the game state to be executed. As a result, the predetermined state that has been in the standby state can be started from an intermediate state according to the period required from when the predetermined state becomes the standby state until it becomes an execution target.

Feature g7. Information setting means (in the nineteenth embodiment, Function to execute the process of step SB206 after making a negative determination in step SB208 in the main side MPU82, in the twentieth embodiment of step SB811 in a situation where the value of the second time saving standby counter 382 in the main side MPU82 is 1 or more The function of executing the process or the function of executing the process of step SB908 in a situation where the value of the third time saving waiting counter 383 is 1 or more, in the 22nd embodiment the value of the third time saving waiting counter 387 in the main side MPU82 is 1 Function to execute the process of step SC708 in the above situation, in the twenty-sixth embodiment the third time saving state ST3A ~ ST3C in the main side MPU82 in the latent situation of step SD712 ~ step SD716 function to execute the process, In the 28th embodiment, the function of executing the processing of steps SE312 to SE325 in the situation where the third time saving state ST3A to ST3C in the main side MPU82 is latent, in the 29th embodiment the third time saving state in the main side MPU82 A gaming machine according to feature g5 or g6, characterized in that it has a function of executing the processing of steps SE812 to SE820 while ST3A to ST3C are hiding.

According to the feature g7, when the predetermined trigger corresponding to the predetermined state occurs while the predetermined state is waiting, the end trigger information is updated to the side away from the end target information. As a result, it is possible to prevent the predetermined opportunity generated while the predetermined state is waiting from being wasted.

Feature g8. When the predetermined trigger corresponding to the predetermined state in the standby state occurs in the standby state, the information setting means sets the initial number of times corresponding to the predetermined state as the termination trigger information in the termination trigger storage area. The gaming machine according to feature g7, characterized in that the information of is set.

According to feature g8, when a predetermined trigger corresponding to a predetermined state in the standby state occurs in the standby state, the number of occurrences of the remaining update events in the predetermined state in the standby state is the predetermined state. Therefore, when the predetermined state to be executed ends and the predetermined state corresponding to the standby state starts, the number of occurrences of the remaining update events in the predetermined state is relatively large. It is possible to make it as follows.

Feature g9. Characteristic g5 characterized in that, when the predetermined trigger corresponding to the predetermined state in the standby state occurs in the standby state, the setting regarding the predetermined state is not performed for the occurrence of the predetermined trigger, or The gaming machine described in g6.

According to the characteristic g9, even if a predetermined trigger corresponding to the predetermined state occurs while the predetermined state is waiting, the setting regarding the predetermined state is not performed for the occurrence of the predetermined trigger. This makes it possible to simplify the processing configuration for waiting for the predetermined state.

Feature g10. The predetermined trigger is a predetermined game round (a game round corresponding to the time saving result in the 19th embodiment, and a game round corresponding to the first to third time saving results in the 21st to 23rd embodiments) is executed. is that
When the gaming machine is set to the standby state due to the execution of the predetermined game round in a situation where the game state to be executed is the predetermined state, the gaming machine produces an effect for the game round in the predetermined game round. Means for setting the mode to the standby effect mode (function of executing the processing of steps SB311 and SB312 in the sound and light side MPU 93 in the 19th embodiment, the processing of steps SC513 and SC514 in the sound and light side MPU 93 in the 21st embodiment In the twenty-second embodiment, the function of executing the processing of steps SC812 and SC813 in the sound and light side MPU 93. In the twenty-third embodiment, the function of executing the processing of steps SD214 and SD215 in the sound and light side MPU 93. ), the gaming machine according to any one of features g3 to g9.

According to the feature g10, when the standby state is set due to the execution of the predetermined game round, the effect mode of the game round effect in the predetermined game time becomes the standby effect mode. It is possible to make the player recognize that the execution of the new predetermined state is in a waiting state by using the game cycle effect.

Feature g11. The predetermined trigger is a predetermined game round (in the 19th embodiment, the game round corresponding to the time saving result, and in the 21st to 23rd embodiments, the game round corresponding to the first to third time saving results) is executed. is that
In this gaming machine, when the game state to be executed is the predetermined state and the predetermined game cycle is executed but the setting regarding the standby state is not performed, the game cycle effect in the predetermined game cycle is performed. Means for setting the effect mode to a non-waiting effect mode that can occur even in game times different from the predetermined game times 21, the function of executing the processing of steps SC506 and SC507 in the sound and light side MPU 93, the function of executing the processing of steps SC806 and SC807 in the sound and light side MPU 93 in the 22nd embodiment, and the 23rd embodiment. The gaming machine according to any one of features g3 to g10, further comprising a function of executing the processing of steps SD206 and SD207 in the sound and light side MPU 93).

According to the feature g11, when a predetermined game round is executed in a situation where the game state to be executed is a predetermined state, but no setting regarding the standby state is performed, the effect mode of the game round effect in the predetermined game round is Since the non-waiting performance mode is set to occur even in a game round different from the predetermined game round, it is possible to prevent the player from recognizing that the predetermined game round has occurred.

Feature g12. Predetermined ball entry means (second operating port 34) that allows game balls flowing down the game area to enter;
Acquisition means (function of executing step S709 of main side MPU 82) for acquiring special information (second reservation information) based on the game ball entering the predetermined ball entry means;
Giving determination means (function of executing the propriety determination processing of the main side MPU 82) for performing grant determination (appropriateness determination processing) as to whether the special information corresponds to the grant correspondence information;
Privilege for awarding a privilege (opening/closing execution mode) to a player based on the granting correspondence result (jackpot result) indicating that the special information corresponds to the granting correspondence information as a result of the determination of granting. Giving means (function for executing special electric start processing, special electric open processing, special electric closed processing, and special electric end processing of the main MPU 82);
Predetermined ball entry control means (a function of executing a normal/universal/universal power control process of the main side MPU 82) capable of switching the predetermined ball entry means between a closed state and an open state;
with
The predetermined event is a period during which the predetermined ball entry means is in the open state per unit period when the game is played in the same manner as the game balls flow down the game area. The gaming machine according to any one of features g1 to g11, characterized by:

According to the feature g12, when the special information is acquired based on the entry of the game ball into the predetermined ball entry means which is switched between the closed state and the open state, and the special information corresponds to the grant correspondence information. In the configuration in which a privilege is given to a player, in the case of a predetermined state, the predetermined ball entry means is opened per unit period when the game is played so that the game ball flows down the game area in the same manner. The advantage of the period in the state is different from that in the normal game state.

For the configuration of features g1 to g12, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

<Characteristic h group>
Features h1. Game round production control means (symbol display device 41) for controlling game round production means (symbol display device 41) so that game round production is executed in game rounds (execution of determination processing of variation pattern of sound and light side MPU 93 in 19th embodiment) function) and
A predetermined trigger (end of the opening and closing execution mode triggered by the 5R low probability result in the nineteenth embodiment, digestion of the game round of the ceiling number of times or execution of the game round corresponding to the time saving result) has occurred Based on the occurrence of the predetermined The advantage of the event (the frequency that the second operation port 34 is in the open state) is different from the normal game state (in the nineteenth embodiment, the first time saving state ST1, the second time saving state ST2 or the third time saving setting means for setting to state ST3) (function for executing the processing of step SA907, step SB105 or step SB204 of the main MPU 82 in the nineteenth embodiment);
Standby state setting means for setting a standby state to wait execution of the predetermined state in a situation where the execution target of the game state is the predetermined state (after making an affirmative determination in step SB203 of the main side MPU 82 in the nineteenth embodiment a function to execute the processing of step SB206);
Post-waiting setting means (step of the main MPU 82 in the nineteenth embodiment) for setting the predetermined state in the standby state as an execution target in the game state when the predetermined state to be executed in the standby state ends SB409 or a function to execute the processing of step SB417);
with
The game round effect control means is a specific effect setting means (19th A gaming machine characterized by comprising a function of executing the processing of step SB609 of the sound and light side MPU 93 in the embodiment).

According to the feature h1, in a situation where the execution target of the game state is a predetermined state, the standby state may be set to wait for the execution of the predetermined state, and when the predetermined state of the execution target ends in the standby state, the standby state is set. The predetermined state that is in the state is the execution target of the game state. As a result, in a situation where the predetermined state is the execution target of the game state, the predetermined state that can be the execution target after that can be on standby, and it is possible to diversify the execution mode of the predetermined state. .

Further, the effect mode of the game round effect executed in the specific game time in the predetermined state in the standby state is the specific effect mode. As a result, the player can recognize that the game is in the waiting state in the predetermined state from the game-turn effect, and the game can be made more interesting.

Feature h2. The gaming machine according to feature h1, wherein the specific game round is the last game round in the predetermined state in the standby state.

According to the feature h2, the effect mode of the game round effect executed in the last game round of the predetermined state in the standby state is the specific effect mode, so that the player can wait until the current predetermined state ends. It is possible to grasp that the predetermined state is newly executed from the game cycle effect.

Feature h3. The execution period of the game round effect executed in the last game round of the predetermined state at least in the standby state is longer than the execution period of the game round effect in the previous game rounds of the predetermined state. The gaming machine according to feature h2, characterized by comprising a period setting means (a function of executing the processing of step SB505 of the main side MPU 82 in the nineteenth embodiment) that makes or tends to lengthen .

According to feature h3, the execution period of the game round effect executed in the last game round in the predetermined state in the standby state is the execution period of the game round effect in the game rounds in the predetermined state up to that point. By making it longer or more likely to be longer, it is possible to secure a sufficient period for making the specific effect mode the effect mode of the game cycle effect.

Feature h4. The period setting means sets the execution period of the game round effect to be executed in the last game round in the predetermined state, regardless of whether or not it is in the standby state, to the game round in the predetermined state up to that time. The gaming machine according to feature h3, characterized in that the execution period of the game cycle effect is longer than or tends to be longer than the execution period of the game cycle effect.

According to the feature h4, the execution period of the game round effect executed in the last game round in the predetermined state is the same as the game round effect in the game round up to that point in the predetermined state regardless of whether it is in the standby state. Since the execution period is longer or tends to be longer than the execution period, it is not necessary to specify whether or not it is in a standby state when determining the execution period of the game-turn effect in the last game turn of the predetermined state. Therefore, it is possible to obtain the excellent effects as described above while reducing the processing load.

Feature h5. The specific effect setting means does not set the effect mode of the game cycle effect to the specific effect mode when the specific game cycle in the predetermined state in the standby state corresponds to the provision of a predetermined privilege. (A function of making an affirmative determination in step SB606 of the sound and light side MPU 93 in the nineteenth embodiment and executing the processing of step SB608).

According to the feature h5, even if it is a specific game round in a predetermined state in the standby state, if the specific game round corresponds to the provision of a predetermined privilege, the production mode of the game round production is performed. does not become the specific effect mode, it is possible to direct the player's attention to the game cycle effect of the game cycle corresponding to the provision of the predetermined privilege.

Feature h6. The gaming machine according to any one of features h1 to h5, wherein when an end opportunity occurs in the standby state, the predetermined state in the standby state is terminated without being set to a game state. .

According to the characteristic h6, the predetermined state waiting to become an execution target may not only become an execution target after that, but may also terminate without becoming an execution target. This makes it possible to diversify the manner in which the predetermined state is executed.

Feature h7. Based on the occurrence of the update event (execution of the game round), the end trigger information stored in the end trigger storage area (the third time saving state counter 374 in the nineteenth embodiment) is changed to the end target information ("0" value)) for updating to the side closer to the
The termination trigger is that the termination trigger information becomes the termination target information,
The gaming machine according to feature h6, wherein the update means updates the termination trigger information to a side closer to the termination target information even when the update event occurs in the standby state.

According to feature h7, in the configuration in which the predetermined state of the standby state is terminated when the end trigger information updated based on the occurrence of the update event becomes the end trigger information, the update event occurs in the standby state. Even if this occurs, the termination trigger information is updated to the side closer to the termination target information. As a result, when the predetermined state is the standby state, each time an update event occurs, it is possible to gradually approach the side where the trigger for ending the predetermined state occurs.

Feature h8. The post-waiting setting means sets the predetermined state corresponding to the state of the end trigger information stored in the end trigger storage area to a game state to be executed when the predetermined state to be executed ends in the standby state. The gaming machine according to feature h7, characterized in that it is set to .

According to the feature h8, when the predetermined state to be executed ends while the predetermined state is waiting, the predetermined state corresponding to the state of the termination trigger information at that time becomes the game state to be executed. As a result, the predetermined state that has been in the standby state can be started from an intermediate state according to the period required from when the predetermined state becomes the standby state until it becomes an execution target.

Feature h9. The predetermined trigger is that a predetermined game round (game round corresponding to the time saving result in the nineteenth embodiment) is executed,
When the gaming machine is set to the standby state due to the execution of the predetermined game round in a situation where the game state to be executed is the predetermined state, an effect for the game round is produced in the predetermined game round. Any one of features h1 to h8 characterized by having a means for setting the mode to a standby effect mode (a function of executing the processing of steps SB311 and SB312 of the sound and light side MPU 93 in the nineteenth embodiment) The game machine described.

According to the feature h9, when the standby state is set due to the execution of the predetermined game round, the effect mode of the game round effect in the predetermined game time becomes the standby effect mode. It is possible to make the player recognize that the execution of the new predetermined state is in a waiting state by using the game cycle effect.

Feature h10. The predetermined trigger is that a predetermined game round (game round corresponding to the time saving result in the nineteenth embodiment) is executed,
In this gaming machine, when the game state to be executed is the predetermined state and the predetermined game cycle is executed but the setting regarding the standby state is not performed, the game cycle effect in the predetermined game cycle is performed. Means (a function of executing the processing of steps SB306 and SB307 of the sound and light side MPU 93 in the 19th embodiment) for setting the presentation mode to a non-waiting presentation mode that can occur even in a game round different from the predetermined game round The gaming machine according to any one of features h1 to h9, characterized by comprising:

According to the feature h10, when a predetermined game round is executed in a situation where the game state to be executed is a predetermined state, but the setting regarding the standby state is not performed, the effect mode of the game round effect in the predetermined game round is Since the non-waiting performance mode is set to occur even in a game round different from the predetermined game round, it is possible to prevent the player from recognizing that the predetermined game round has occurred.

Feature h11. Predetermined ball entry means (second operating port 34) that allows game balls flowing down the game area to enter;
Acquisition means for acquiring special information (second reservation information) based on the game ball entering the predetermined ball entry means (function for executing the processing of step S709 of the main side MPU 82);
Giving determination means (function of executing the propriety determination processing of the main side MPU 82) that performs grant determination (property determination processing) as to whether or not the special information corresponds to the grant correspondence information;
Privilege for awarding a privilege (opening/closing execution mode) to a player based on the granting correspondence result (jackpot result) indicating that the special information corresponds to the granting correspondence information as a result of the granting determination. Giving means (function for executing special electric start processing, special electric open processing, special electric closed processing, and special electric end processing of the main MPU 82);
Predetermined ball entry control means (function for executing normal/universal/universal electric control processing of main side MPU 82) capable of switching the predetermined ball entry means between a closed state and an open state;
with
The predetermined event is a period in which the predetermined ball entry means is in the open state per unit period when the game is played in the same manner as the game balls flow down the game area. The gaming machine according to any one of features h1 to h10 characterized by:

According to the feature h11, when the special information is acquired based on the entry of the game ball into the predetermined ball entry means which is switched between the closed state and the open state, and the special information corresponds to the grant correspondence information. In the configuration in which a privilege is given to a player, in the case of a predetermined state, the predetermined ball entry means is opened per unit period when the game is played so that the game ball flows down the game area in the same manner. The advantage of the period in the state is different from that in the normal game state.

For the configuration of features h1 to h11, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

According to the inventions according to the feature group d, the feature group e, the feature group f, the feature group g, and the feature group h, the following problems can be solved.

Pachinko machines, slot machines, and the like are known as types of gaming machines. In these gaming machines, it is known that an internal lottery is held based on the establishment of a predetermined lottery condition, and a privilege is given to the player according to the result of the internal lottery.

Specifically, the pachinko machine has a configuration in which a winning result is obtained in an internal lottery based on the entry of a game ball into a ball entry section provided in the game area, and a transition to a special game state. A configuration is known in which a transition is made to a special game state based on a game ball entering a part. When the game shifts to the special game state, for example, opening and closing of a ball entry device provided in the game area is started, and game balls are paid out based on the entry into the ball entry device.

Here, in the gaming machines such as those exemplified above, it is necessary to appropriately improve the interest in the game, and there is still room for improvement in this respect.

<Feature i group>
Features i1. A predetermined operation state (driving state) occurs when a predetermined operation signal (a HI level signal output to the gates of the 0th to 2nd MOSFETs 461 to 463 in the 31st and 32nd embodiments) is received. Predetermined operation means (the 0th MOSFET 461 and the drive unit 32b for the special electric, the 1st MOSFET 462 and the drive unit 163 for the distribution entrance, the 2nd MOSFET 463 and the drive unit 167 for switching),
In a situation where the predetermined operation means is in the predetermined operation state, a predetermined signal (a LOW level drive control signal output from the 0th to second terminals NS0 to NS2 in the 31st embodiment; a predetermined transmission means (main side MPU 82, 0th to 2nd terminals NS0 to NS2, 0th terminal NS10) for transmitting a LOW level drive control signal output from 0 terminal NS10;
a specific transmitting means (a function of outputting a reset signal for the blackout monitoring board 85) that transmits a specific signal (a reset signal of HI level) after the supply of operating power is started;
An operation signal transmission means (31st In the embodiment, the 0th to 2nd malfunction prevention circuits 422 to 424, and in the 32nd embodiment, the malfunction prevention circuit 472),
A game machine characterized by comprising:

According to feature i1, when the predetermined signal is transmitted from the predetermined transmission means and the specific signal is transmitted from the specific transmission means, the predetermined operation signal is transmitted to the predetermined operation means. Therefore, by setting the state in which the specific signal is not transmitted, it is possible to set the state in which the predetermined operation signal is not transmitted regardless of whether or not the predetermined signal is transmitted. As a result, the specific signal is not transmitted during the period in which the transmission state of the predetermined signal is unstable, so that the predetermined operating means enters the predetermined operating state at a timing not intended in the design stage. You can prevent it from being lost.

Feature i2. When the supply of operating power is started, the specific transmission means is in a state in which the operating power is stably supplied (in the 31st and 32nd embodiments, the power supply voltage supplied to the main side MPU 82 is specified). The gaming machine according to feature i1, wherein the specific signal is transmitted after a state in which the voltage does not drop below the operating voltage continues for 2 milliseconds.

According to the feature i2, when the supply of the operating power is started, the operating power is kept in a state in which the specific signal is not transmitted until the operating power is stably supplied. A state can be set in which the predetermined operation signal is not transmitted, regardless of whether the predetermined signal is transmitted or not, until a state of stable supply is reached. As a result, even in a state where the operating power is not stably supplied, it is possible to prevent the predetermined operating means from entering a predetermined operating state at a timing not intended in the design stage.

Feature i3. A special signal transmission means (a function of outputting a power failure signal of the power failure monitoring board 85) that transmits a special signal (power failure signal) after the supply of operating power is started,
The gaming machine according to i1 or i2, wherein the timing at which the specific signal is transmitted after the supply of operating power is started is a timing after the timing at which the special signal is transmitted.

According to feature i3, after the supply of operating power is started, the specific signal is transmitted at a timing later than the timing at which the special signal is transmitted. Compared to the configuration in which the specific signal is transmitted at the previous timing, it is possible to transmit the specific signal in a state in which the operating power supply state is stable. With the configuration of feature i1, when the predetermined signal is transmitted from the predetermined transmission means and the specific signal is transmitted from the specific transmission means, the predetermined operation signal is transmitted to the predetermined operation means, By preventing the specific signal from being transmitted until the supply state of the operating power is stabilized, the predetermined operation signal is not transmitted until the supply state of the operating power is stabilized. As a result, it is possible to prevent the predetermined operating means from malfunctioning immediately after the supply of operating power is started.

Feature i4. The specific transmission means, after starting the transmission of the specific signal after the supply of the operating power is started, until the period ( In the 31st and 32nd embodiments, the specific signal is transmitted over a period from the timing when the reset signal rises to HI level to the timing when 9 milliseconds elapse after the power failure signal falls to LOW level. The gaming machine according to any one of features i1 to i3, characterized in that the current state is continued.

According to feature i4, when the supply of operating power is started and the specific signal is transmitted, it is specified that the supply of operating power is stopped by the specific transmitting means. By transmitting the predetermined signal for a period until the transmission of the specific signal is completed, the predetermined operating means can be placed in a predetermined operating state. As a result, it is possible to simplify the processing configuration for setting the predetermined operation means to the predetermined operation state after the specific signal is transmitted.

Feature i5. Control means (main side MPU 82) for executing various processes;
A special signal transmitting means (blackout a function of outputting a power failure signal of the monitoring board 85);
with
The control means performs a power failure handling process (power failure handling process) based on the completion of the transmission of the special signal (the processing of steps SF801 to SF804 of the main MPU 82 in the 31st embodiment). function) to execute
The gaming machine according to any one of features i1 to i4, wherein the timing at which the transmission of the specific signal ends is a timing after the timing at which the transmission of the special signal ends.

According to feature i5, the configuration of feature i1 is provided, and when the predetermined signal is transmitted from the predetermined transmission means and the specific signal is transmitted from the specific transmission means, the predetermined operation signal is transmitted to the predetermined operation means. In the above configuration, by terminating the transmission of the specific signal at a timing later than the timing at which the transmission of the special signal is terminated, a state is established in which the predetermined operation signal is not transmitted to the predetermined operation means after the power failure handling process is executed. can be done. This enables the predetermined operation means to be in the predetermined operation state until the power failure handling process is executed, while preventing the predetermined operation means from entering the predetermined operation state after the transmission of the specific signal is completed. can.

Feature i6. A control means (main side MPU 82) for executing various processes is provided,
The control means is characterized in that when the specific signal is transmitted in a situation where the specific signal is not transmitted, the control means enters a predetermined operation start state (a state in which the main MPU 82 is reset and main processing is started). The gaming machine according to any one of features i1 to i5.

According to feature i6, the specific signal sent to bring the control means into the predetermined operation start state is used to prevent the predetermined operation means from entering the predetermined operation state at a timing not intended at the design stage. can be prevented. Therefore, compared to a configuration in which a signal for preventing malfunction of the predetermined operation means is provided as a signal separate from the specific signal, the configuration for preventing malfunction of the predetermined operation means is simplified. be able to.

Feature i7. When the supply of operating power is started, a signal having a voltage level corresponding to the power supply voltage supplied to the predetermined transmission means is output from the predetermined transmission means,
The state in which the predetermined transmission means transmits the predetermined signal is the voltage level (HI level) corresponding to the power supply voltage (5 V in the 31st and 32nd embodiments) in the state in which the operating power is stably supplied. ) is output from the predetermined transmission means, the game machine according to any one of features i1 to i6.

According to feature i7, the predetermined operation means enters a predetermined operation state by lowering the voltage level of the signal output from the predetermined transmission means. Therefore, when noise is generated that pushes up the voltage level of the signal, it is possible to prevent the predetermined operating means from entering a predetermined operating state due to the influence of the noise.

Feature i8. A specific signal path (signal line LN14 in the 31st embodiment, signal line LN21 in the 32nd embodiment) used for transmitting the specific signal from the specific transmission means to the operation signal transmission means includes: , signal state maintaining means (pull-down resistor 464 in the 31st embodiment, and The gaming machine according to any one of features i1 to i7, wherein a pull-down resistor 497) is provided.

According to the feature i8, it is possible to prevent a state in which the specific signal is temporarily transmitted due to the influence of noise when the setting for transmitting the specific signal is not performed. Thereby, it is possible to prevent the predetermined operation means from entering a predetermined operation state when the setting for transmitting the specific signal is not performed.

Feature i9. Characteristic i8 characterized in that the signal state maintaining means grounds the specific signal path via a predetermined resistor (pull-down resistor 464 in the 31st embodiment, pull-down resistor 497 in the 32nd embodiment). The gaming machine described in .

According to feature i9, the voltage level of the specific signal path can be in a state of 0 or a state close to 0 until setting to transmit the specific signal is performed. As a result, even when noise is generated to push up the voltage level of the specific signal path, it is possible to prevent the predetermined operating means from entering a predetermined operating state under the influence of the noise.

Feature i10. A control means (main side MPU 82) for executing various processes is provided,
Any one of characteristics i1 to i9, wherein the specific transmission means terminates the transmission of the specific signal at the timing of stopping the operation of the control means when it is specified that the supply of operating power will be stopped. 1. The gaming machine according to 1.

According to feature i10, the configuration of feature i1 is provided, and when the predetermined signal is transmitted from the predetermined transmission means and the specific signal is transmitted from the specific transmission means, the predetermined operation signal is transmitted to the predetermined operation means. In this configuration, by stopping the transmission of the specific signal at the timing when it is specified that the supply of the operating power is stopped and the operation of the control means is stopped, the predetermined operation signal is transmitted at the timing when the operation of the control means is stopped. It can be put in a state where it is not done. As a result, after the operation of the control means is stopped, the predetermined signal is temporarily transmitted at a timing not intended in the design stage under the influence of the power supply voltage supplied to the predetermined transmission means starting to drop. It is possible to prevent the transmission of the predetermined operation signal even in the case of being in the state of being on. Therefore, it is possible to prevent the predetermined operation means from entering a predetermined operation state after the operation of the control means is stopped.

Feature i11. A predetermined board (main control board 81 ),
The predetermined electronic component includes a plurality of predetermined logic circuits (0th to 4th NAND circuits 441 to 445, 0th to 5th NOT circuits 451 to 456 in the 31st embodiment, 0th to 5th NAND circuits in the 32nd embodiment). circuits 491 to 496, 0th to 8th NOT circuits 511 to 519) are provided,
Characteristic i1 characterized in that the operation signal transmitting means is provided on the predetermined substrate using a part of the predetermined logic circuits among the plurality of predetermined logic circuits provided on the predetermined electronic component. The gaming machine according to any one of 1 to i10.

According to feature i11, in a manner in which another circuit can be formed by using a predetermined logic circuit that is not used for providing the operation signal transmission means among the plurality of predetermined logic circuits provided in the predetermined electronic component, An actuation signal transmitting means may be provided. Therefore, it is possible to reduce the number of electronic components that need to be mounted on a predetermined board. As a result, it is possible to improve the efficiency of manufacturing the predetermined substrate on which the electronic components are mounted, and to reduce the manufacturing cost of the predetermined substrate on which the electronic components are mounted.

Feature i12. As the predetermined operation signals, a first predetermined operation signal (HI level signal output to the gate of the 0th MOSFET 461) and a second predetermined operation signal (HI level signal output to the gate of the first MOSFET 462 or the second MOSFET 463). signal) is present and
As the predetermined operation means, a first predetermined operation means (the 0th MOSFET 461 and the driving section 32b for the special electric) which becomes the predetermined operation state when the first predetermined operation signal is received, and the second predetermined operation signal. Second predetermined operating means (a combination of the first MOSFET 462 and the distribution inlet drive unit 163, or a combination of the second MOSFET 463 and the switching drive unit 167) that is in the predetermined operating state when receiving the exists and
As the operation signal transmission means, the predetermined substrate has first operation signal transmission means (0th malfunction prevention circuit 422) for transmitting the first predetermined operation signal and second operation signal transmission means for transmitting the second predetermined operation signal. An operation signal transmission means (first malfunction prevention circuit 423 or second malfunction prevention circuit 424) is provided,
The first operation signal transmitting means is formed using a part of the predetermined logic circuits among the plurality of predetermined logic circuits provided in the predetermined electronic component,
The second operation signal transmission means is formed using the predetermined logic circuit, which is not included in the first operation signal transmission means, among the plurality of the predetermined logic circuits provided in the predetermined electronic component. The gaming machine according to feature i11, characterized in that

According to feature i12, in the configuration in which the first operation signal transmitting means is provided using a portion of the first predetermined logic circuits among the plurality of first predetermined logic circuits provided in the first predetermined electronic component and forming a second operation signal transmission means by using a first predetermined logic circuit, which is not included in the first operation signal transmission means, among the plurality of first predetermined logic circuits provided in the first predetermined electronic component. By doing so, it is possible to suppress the number of the first predetermined electronic components mounted on the predetermined board to form the first operation signal transmission means and the second operation signal transmission means.

Feature i13. A first predetermined electronic component (first logic IC 433 in the 31st embodiment) and a second predetermined electronic component (second logic IC 434 in the 31st embodiment) are mounted on the predetermined substrate as the predetermined electronic components. cage,
the plurality of predetermined logic circuits provided in the first predetermined electronic component are first predetermined logic circuits (0th to fourth NAND circuits 441 to 445),
The plurality of predetermined logic circuits provided in the second predetermined electronic component are second predetermined logic circuits (0th to 5th NOT circuits 451 to 456) different from the first predetermined logic circuit,
The first operation signal transmitting means is provided in a part of the first predetermined logic circuits among the plurality of first predetermined logic circuits provided in the first predetermined electronic component and in the second predetermined electronic component. is formed using a part of the second predetermined logic circuits among the plurality of the second predetermined logic circuits,
the second operation signal transmission means includes a first predetermined logic circuit that is not included in the first operation signal transmission means among the plurality of first predetermined logic circuits provided in the first predetermined electronic component; and The second predetermined logic circuit is formed by using the second predetermined logic circuit that is not included in the second operation signal transmitting means among the plurality of second predetermined logic circuits provided in the second predetermined electronic component. The gaming machine according to feature i12.

According to feature i13, an electronic component for forming the second operation signal transmission means is mounted on the predetermined substrate as an electronic component different from the electronic component mounted on the predetermined substrate for forming the first operation signal transmission means. and a first operation signal transmitting means including a first predetermined logic circuit and a second predetermined logic circuit, and a second operation signal transmitting means including a first predetermined logic circuit and a second predetermined logic circuit. It is possible to reduce the number of first predetermined electronic components and second predetermined electronic components that need to be mounted on a predetermined substrate in order to form them.

Feature i14. Among the plurality of first predetermined logic circuits provided in the first predetermined electronic component, the number of the first predetermined logic circuits used to form the first operation signal transmission means is the second number. The number of the second predetermined logic circuits used to form the first operation signal transmission means among the plurality of the second predetermined logic circuits provided in the predetermined electronic component is different from the number of the second predetermined logic circuits. The gaming machine according to feature i13.

According to feature i14, the number of first predetermined logic circuits necessary to form the first operation signal transmitting means and the number of second predetermined logic circuits necessary to form the first operation signal transmitting means are different, a first predetermined logic circuit that is a part of the plurality of first predetermined logic circuits provided in the first predetermined electronic component and a plurality of second predetermined logic circuits provided in the second predetermined electronic component A first predetermined electronic component necessary for forming the first operation signal transmission means by forming the first operation signal transmission means by using a part of the second predetermined logic circuits of the two predetermined logic circuits. and the number of second predetermined electronic components can be suppressed.

Feature i15. Equipped with specific mode means (external output circuit 431 in the 31st and 32nd embodiments) that outputs an output signal corresponding to an input signal in a specific mode,
The specific mode means is formed on the predetermined substrate using the predetermined logic circuit, which is not included in the operation signal transmitting means, among the plurality of predetermined logic circuits provided in the predetermined electronic component. The gaming machine according to any one of features i11 to i14, characterized in that

According to feature i15, by forming the specific mode means using a predetermined logic circuit that is not used to form the operation signal transmission means among the plurality of predetermined logic circuits provided in the predetermined electronic component, Compared to a configuration in which an electronic component for forming the specific mode means is mounted on a predetermined substrate as an electronic component separate from the electronic component for forming the operation signal transmitting means, the operation signal transmitting means and the specific mode means are different. It is possible to reduce the number of electronic components mounted on a given substrate in order to form the .

Feature i16. As the predetermined operation means, the first predetermined operation means (the 0th MOSFET 461 and the driving section 32b for the special electric) which is in the predetermined operation state when the predetermined operation signal is received, and the predetermined operation signal are received. There is a second predetermined operating means (combination of the first MOSFET 462 and the drive section 163 for the sorting entrance, or a combination of the second MOSFET 463 and the drive section 167 for switching) that is in the predetermined operating state when the
The predetermined transmission means transmits the predetermined signal in a situation in which at least one of the first predetermined operation means and the second predetermined operation means is in the predetermined operation state,
A first predetermined response means ( a first selection circuit 473);
A second predetermined response means ( a second selection circuit 474 or a third selection circuit 475);
Means (main side) for transmitting a first selection signal (high level first selection signal in the thirty-second embodiment) to the first predetermined response means so that the predetermined operation signal is received by the first predetermined response means MPU 82, first terminal NS11),
A second selection signal (the second selection signal at HI level in the thirty-second embodiment or the third selection signal at HI level in the thirty-second embodiment) is applied to the second predetermined response means so that the predetermined operation signal is received by the second predetermined response means. ) (main side MPU 82, second terminal NS12 or third terminal NS13),
The gaming machine according to any one of features i1 to i15, characterized by comprising:

According to feature i16, the first selection signal is used in addition to the predetermined signal to set the first predetermined operation means to the predetermined operation state, thereby suppressing noise in either the predetermined signal or the first selection signal. is generated, it is possible to prevent the first predetermined operation means from entering a predetermined operation state at a timing not intended in the design stage due to the influence of the noise. Further, by using the second selection signal in addition to the predetermined signal to set the second predetermined operation means to the predetermined operating state, even if noise occurs in either the predetermined signal or the second selection signal. In addition, it is possible to prevent the second predetermined operation means from entering a predetermined operation state at a timing not intended at the design stage due to the influence of the noise.

Feature i17. The gaming machine according to feature i16, wherein the predetermined operation signal is transmitted from one of the operation signal transmission means to the first predetermined response means and the second predetermined response means.

According to feature i17, the number of operation signal transmission means is reduced to one compared to the configuration in which the operation signal transmission means are provided in one-to-one correspondence with the first predetermined correspondence means and the second predetermined correspondence means. can be reduced to one. By reducing the number of operation signal transmission means, the number of necessary electronic components can be reduced, the manufacturing efficiency of the game machine can be improved, and the manufacturing cost of the game machine can be reduced.

Feature i18. A predetermined board (main control board 81) on which predetermined electronic components (first logic IC 481 and second logic ICs 482 to 484 in the 32nd embodiment) are mounted,
The predetermined electronic component is provided with a plurality of predetermined logic circuits (0th to 5th NAND circuits 491 to 496, 0th to 8th NOT circuits 511 to 519),
The operation signal transmitting means is formed on the predetermined substrate using a part of the predetermined logic circuits among the plurality of predetermined logic circuits provided in the predetermined electronic component,
The first predetermined correspondence means is formed on the predetermined substrate using the predetermined logic circuit, which is not included in the operation signal transmitting means, among the plurality of predetermined logic circuits provided in the predetermined electronic component. The gaming machine according to feature i16 or i17, characterized in that

According to feature i18, in the configuration in which the operation signal transmitting means is provided using a part of the predetermined logic circuits among the plurality of predetermined logic circuits provided in the predetermined electronic component, The operation signal transmitting means and the first predetermined corresponding means are formed by forming the first predetermined corresponding means by using a predetermined logic circuit that is not included in the operation signal transmitting means among the plurality of predetermined logic circuits included in the operating signal transmitting means. Therefore, the number of predetermined electronic components mounted on a predetermined substrate can be suppressed.

For the configuration of features i1 to i18, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

<Feature j group>
Feature j1. In a situation where the first predetermined operation means (the 0th MOSFET 461 and the special electric drive unit 32b in the 32nd embodiment) is caused to perform the first predetermined operation (the opening and closing operation of the special electric winning device 32), the predetermined signal path (the 0th terminal NS10 and A first predetermined operation signal (LOW level drive control signal output from the 0th terminal NS10) is transmitted through a signal path electrically connecting the 0th to second MOSFETs 461 to 463), and a second predetermined operation means (the Combination of 1 MOSFET 462 and distribution entrance driving section 163, or combination of second MOSFET 463 and switching driving section 167), second predetermined operation (opening/closing operation of distribution side opening/closing member 162 or rotating operation of switching piece 166) a predetermined control means (main-side MPU 82, 0th terminal NS10) for transmitting a second predetermined operation signal (low-level drive control signal output from 0th terminal NS10) through the predetermined signal path in a situation where the
capable of receiving the first predetermined operation signal transmitted through the predetermined signal path, and causing the first predetermined operation means to perform the first predetermined operation when the first predetermined operation signal is received; a first predetermined corresponding means (first selection circuit 473) that enables
The second predetermined operation signal transmitted through the predetermined signal path can be received, and the second predetermined operation means is caused to perform the second predetermined operation when the second predetermined operation signal is received. a second predetermined corresponding means (second selection circuit 474 or third selection circuit 475) that enables
sending a first selection signal (high level first selection signal) to the first predetermined response means so that the first predetermined operation signal transmitted through the predetermined signal path is received by the first predetermined response means; means (main side MPU 82, first terminal NS11) for
A second selection signal (HI level second selection signal or HI level) is supplied to the second predetermined response means so that the second predetermined operation signal transmitted through the predetermined signal path is received by the second predetermined response means. means (main side MPU 82, second terminal NS12 or third terminal NS13) for transmitting a third selection signal of
provided at a position closer to the predetermined control means than the point where the signal path branches toward the first predetermined response means and the second predetermined response means in the predetermined signal path, and through the predetermined signal path, the predetermined control a specific means (malfunction prevention circuit 472) that enables the signal transmitted from the means to be used normally;
A game machine characterized by comprising:

According to feature j1, the first predetermined operation signal and the first selection signal are used in addition to the first predetermined operation signal to cause the first predetermined operation means to perform the first predetermined operation. When noise occurs in one of the signals, it is possible to prevent the first predetermined operation of the first predetermined operation means from being performed at a timing not intended at the design stage due to the influence of the noise. Further, by using the second selection signal in addition to the second predetermined operation signal to cause the second predetermined operation means to perform the second predetermined operation, either the second predetermined operation signal or the second selection signal When noise occurs on one side, it is possible to prevent the second predetermined operation of the second predetermined operation means from being performed at a timing not intended at the design stage due to the influence of the noise. A plurality of predetermined operation means (first (predetermined operation means and second predetermined operation means) can be reduced to one. By suppressing the number of specifying means, the number of required electronic components can be reduced, the manufacturing efficiency of the gaming machine can be improved, and the manufacturing cost of the gaming machine can be reduced.

Feature j2. A specific transmission means (a function of outputting a reset signal of the power failure monitoring board 85) that transmits a specific signal (HI level reset signal) after the supply of operating power is started,
The specifying means receives the first predetermined operation signal from the predetermined control means while the first selection signal is being sent to the first predetermined response means, and the specific signal is sent from the specific transmission means. is transmitted, the first predetermined operation signal is received by the first predetermined response means, and in a state in which the second selection signal is transmitted to the second predetermined response means, the predetermined When the second predetermined operation signal is transmitted from the control means and the specific signal is transmitted from the specific transmission means, the second predetermined operation signal is received by the second predetermined response means. The gaming machine according to feature j1, characterized by:

According to feature j2, in a state in which the first selection signal is being transmitted to the first predetermined corresponding means, the first predetermined operation signal is being transmitted from the predetermined control means and the specific signal is being transmitted from the specific transmitting means. In this case, the first predetermined action signal can be received by the first predetermined response means to cause the first predetermined action means to perform the first predetermined action. Further, in a state where the second selection signal is transmitted to the second predetermined response means, when the second predetermined operation signal is transmitted from the predetermined control means and the specific signal is transmitted from the specific transmission means, the A second predetermined action signal may be received by the second predetermined response means to cause the second predetermined action means to perform the second predetermined action.

The first predetermined operation means is prevented from receiving the first predetermined operation signal by the first predetermined response means regardless of whether or not the first predetermined operation signal is transmitted by setting the state in which the specific signal is not transmitted. can be prevented from performing the first predetermined operation. By setting the state in which the specific signal is not transmitted, the second predetermined operation signal is prevented from being received by the second predetermined response means regardless of whether or not the second predetermined operation signal is transmitted. It is possible to prevent the second predetermined operation of the operating means from being performed. As a result, the specific signal is not transmitted during the period in which the transmission states of the first predetermined operation signal and the second predetermined operation signal are unstable. It is possible to prevent the first predetermined motion of the first predetermined motion means and the second predetermined motion of the second predetermined motion means from being performed.

Feature j3. When the supply of operating power is started, the specific transmission means is in a state in which the operating power is stably supplied (in the thirty-second embodiment, the power supply voltage supplied to the main side MPU 82 exceeds the specified operating voltage). The gaming machine according to feature j2, wherein the specific signal is transmitted after the state of not falling below has continued for 2 milliseconds.

According to the feature j3, when the supply of the operating power is started, the operating power is kept in a state in which the specific signal is not transmitted until the operating power is stably supplied. Regardless of whether or not the first predetermined operation signal and the second predetermined operation signal are transmitted, the first predetermined operation of the first predetermined operation means and the second predetermined operation of the second predetermined operation means are performed until the state of stable supply is reached. 2. It is possible to create a state in which the predetermined operation is not performed. As a result, it is possible to prevent the first predetermined operation of the first predetermined operation means from being performed at a timing not intended in the design stage even in a state where the operating power is not stably supplied. It is possible to prevent the second predetermined operation of the second predetermined operation means from being performed.

Feature j4. A special signal transmission means (a function of outputting a power failure signal of the power failure monitoring board 85) that transmits a special signal (power failure signal) after the supply of operating power is started,
The gaming machine according to feature j2 or j3, wherein the timing at which the specific signal is transmitted after the supply of operating power is started is timing after the timing at which the special signal is transmitted.

According to feature j4, after the supply of operating power is started, the specific signal is transmitted at a timing later than the timing at which the special signal is transmitted. Compared to the configuration in which the specific signal is transmitted at the previous timing, it is possible to transmit the specific signal in a state in which the operating power supply state is stable. With the configuration of feature j2, in a state where the first selection signal is being transmitted to the first predetermined response means, the first predetermined operation signal is being transmitted from the predetermined control means and the specific signal is being transmitted from the specific transmitting means. In this case, the first predetermined operation signal is received by the first predetermined response means and the first predetermined operation means performs the first predetermined operation. By preventing transmission of the specific signal, it is possible to prevent the first predetermined operation of the first predetermined operation means from being performed until the operating power supply state is stabilized. Further, in the configuration of feature j2, in a state where the second selection signal is transmitted to the second predetermined response means, the second predetermined operation signal is transmitted from the predetermined control means and the specific signal is transmitted from the specific transmission means. When the second predetermined operation signal is transmitted, the second predetermined response means receives the second predetermined operation signal and the second predetermined operation means performs the second predetermined operation. By preventing the specific signal from being transmitted until the state of supply of operating power is stabilized, the second predetermined operation of the second predetermined operation means can be prevented from being performed. As a result, it is possible to prevent malfunction of the first predetermined operation means and the second predetermined operation means immediately after the supply of operation power is started.

Feature j5. The specific transmission means, after starting the transmission of the specific signal after the supply of the operating power is started, until the period ( In the thirty-second embodiment, the specific signal is transmitted over a period from the timing when the reset signal rises to HI level to the timing when 9 milliseconds elapse after the power failure signal falls to LOW level. The gaming machine according to any one of features j2 to j4, characterized in that the state is continued.

According to feature j5, it is specified that the supply of operating power is stopped by the specified transmission means when the supply of operating power is started and the specified signal is being transmitted. By transmitting the first selection signal and the first predetermined operation signal over a period until the transmission of the specific signal is completed, the first predetermined operation means can be made to perform the first predetermined operation. In addition, by transmitting the second selection signal and the second predetermined operation signal, the second predetermined operation means can be made to perform the second predetermined operation. Thereby, after the specific signal is transmitted, the processing configuration for causing the first predetermined operation means to perform the first predetermined operation and the process for causing the second predetermined operation means to perform the second predetermined operation. Configuration can be simplified.

Feature j6. Control means (main side MPU 82) for executing various processes;
A special signal transmitting means (blackout a function of outputting a power failure signal of the monitoring board 85);
with
The control means performs a power failure handling process (power failure handling process) based on the termination of the transmission of the special signal (processing of steps SF801 to SF804 of the main MPU 82 in the 31st embodiment). function) to execute
The gaming machine according to any one of features j2 to j5, wherein the timing at which the transmission of the specific signal ends is a timing after the timing at which the transmission of the special signal ends.

According to characteristic j6, the configuration of characteristic j2 is provided, and in a state in which the first selection signal is transmitted to the first predetermined response means, the first predetermined operation signal is transmitted from the predetermined control means, and the specific transmission means When the specific signal is transmitted from the first predetermined response means, the first predetermined operation signal is received by the first predetermined response means, and the first predetermined operation means performs the first predetermined operation. When the second selection signal is being transmitted, the second predetermined operation signal is being transmitted from the predetermined control means, and the specific signal is being transmitted from the specific transmission means, the second predetermined operation signal is the second selection signal. Since the second predetermined operation means performs the second predetermined operation after being received by the predetermined response means, the transmission of the specific signal is terminated at a timing later than the timing when the transmission of the special signal is terminated, thereby coping with a power failure. After the process is executed, a state can be set in which the first predetermined action of the first predetermined action means and the second predetermined action of the second predetermined action means are not performed. As a result, the transmission of the specific signal ends while allowing the first predetermined operation means to perform the first predetermined operation and the second predetermined operation means to perform the second predetermined operation until the power failure handling process is executed. After that, it is possible to prevent the first predetermined operation of the first predetermined operation means and the second predetermined operation of the second predetermined operation means from being performed at unintended timings in the design stage.

Feature j7. Equipped with control means (main side MPU 82) for executing various processes,
The control means is characterized in that when the specific signal is transmitted in a situation where the specific signal is not transmitted, the control means enters a predetermined operation start state (a state in which the main MPU 82 is reset and main processing is started). The gaming machine according to any one of features j2 to j6.

According to feature j7, the first predetermined operation of the first predetermined operation means is performed at a timing not intended in the design stage by using the specific signal transmitted to bring the control means into the predetermined operation start state. By adopting a configuration that prevents the second predetermined operation from being put away and the second predetermined operation of the second predetermined operation means from being performed, malfunction of the first predetermined operation means and the second predetermined operation means can be detected as a signal separate from the specific signal. The configuration for preventing the malfunction of the first predetermined operation means and the second predetermined operation means can be simplified as compared with the configuration in which a signal for preventing the above is provided.

Feature j8. When the supply of the operating power is started, a signal having a voltage level corresponding to the power supply voltage supplied to the predetermined control means is output from the predetermined control means,
The state in which the predetermined control means transmits the first predetermined operation signal or the second predetermined operation signal is the power supply voltage (5 V in the thirty-second embodiment) in the state in which the operating power is stably supplied. The gaming machine according to any one of characteristics j2 to j7, characterized in that a signal of a voltage level (LOW level) lower than a corresponding voltage level (HI level) is output from the predetermined control means. .

According to feature j8, in order to perform the first predetermined operation of the first predetermined operation means and the second predetermined operation of the second predetermined operation means, the voltage level of the signal output from the predetermined control means must be lowered. By adopting the necessary configuration, when noise is generated that raises the voltage level of the signal output from the predetermined control means, the first predetermined operation or the first predetermined operation of the first predetermined operation means is affected by the noise. It is possible to prevent the second predetermined operation of the second predetermined operation means from being performed.

Feature j9. A specific signal path (signal line LN21 in the thirty-second embodiment) used for transmitting the specific signal from the specific transmitting means to the specific means is set to transmit the specific signal. The gaming machine according to any one of features j2 to j8, further comprising signal state maintaining means (pull-down resistor 497) for maintaining a state in which the specific signal is not transmitted in a non-transmission state.

According to the characteristic j9, it is possible to prevent a state in which the specific signal is temporarily transmitted due to the influence of noise when the setting for transmitting the specific signal is not performed. Accordingly, it is possible to prevent the first predetermined operation of the first predetermined operation means and the second predetermined operation of the second predetermined operation means from being performed in a state where the setting for transmitting the specific signal is not performed.

Feature j10. The game machine according to feature j9, wherein the signal state maintaining means grounds the specific signal path through a predetermined resistor (pull-down resistor 497).

According to the characteristic j10, the voltage level of the specific signal path can be kept at 0 or close to 0 until the setting for transmitting the specific signal is performed. As a result, even when noise is generated to push up the voltage level of the specific signal path, the first predetermined operation of the first predetermined operation means and the second predetermined operation of the second predetermined operation means are affected by the noise. You can prevent it from happening.

Feature j11. A control means (main side MPU 82) for executing various processes is provided,
Any of features j2 to j10, wherein the specific transmission means terminates transmission of the specific signal at the timing of stopping the operation of the control means when it is specified that the supply of operating power will be stopped. 1. The gaming machine according to 1.

According to characteristic j11, the configuration of characteristic j2 is provided, and in a state where the first selection signal is transmitted to the first predetermined response means, the first predetermined operation signal is transmitted from the predetermined control means, and the specific transmission means When the specific signal is transmitted from the first predetermined response means, the first predetermined operation signal is received by the first predetermined response means, and the first predetermined operation means performs the first predetermined operation. When the second selection signal is being transmitted, the second predetermined operation signal is being transmitted from the predetermined control means, and the specific signal is being transmitted from the specific transmission means, the second predetermined operation signal is the second selection signal. In the configuration in which the second predetermined operation means performs the second predetermined operation after being received by the predetermined response means, the transmission of the specific signal is terminated at the timing when it is specified that the supply of operating power is stopped and the operation of the control means is stopped. By doing so, at the timing when the operation of the control means stops, the first predetermined response means does not receive the first predetermined operation signal and the second predetermined response means does not receive the second predetermined operation signal. As a result, after the operation of the control means is stopped, the first predetermined operation signal or the first predetermined operation signal is temporarily generated at a timing not intended in the design stage under the influence of the power supply voltage supplied to the predetermined control means starting to drop. 2. It is possible to prevent the first predetermined operation of the first predetermined operation means and the second predetermined operation of the second predetermined operation means from being performed even when the predetermined operation signal is being transmitted. .

Feature j12. A predetermined board (main control board 81) on which predetermined electronic components (first logic IC 481 and second logic ICs 482 to 484 in the 32nd embodiment) are mounted,
The predetermined electronic component is provided with a plurality of predetermined logic circuits (0th to 5th NAND circuits 491 to 496, 0th to 8th NOT circuits 511 to 519),
Characteristics j1 to j11 characterized in that the identifying means is provided on the predetermined substrate using a part of the predetermined logic circuits among the plurality of predetermined logic circuits provided on the predetermined electronic component. The gaming machine according to any one of 1.

According to the feature j12, the specified logic circuit is formed in a manner in which another circuit can be formed by using a specified logic circuit that is not used to form the specifying means among the plurality of specified logic circuits provided in the specified electronic component. Means can be formed. Therefore, it is possible to reduce the number of electronic components that need to be mounted on a predetermined substrate. As a result, it is possible to improve the efficiency of manufacturing the predetermined substrate on which the electronic components are mounted, and to reduce the manufacturing cost of the predetermined substrate on which the electronic components are mounted.

Feature j13. The first predetermined correspondence means is formed on the predetermined substrate using the predetermined logic circuit that is not included in the specifying means among the plurality of predetermined logic circuits provided in the predetermined electronic component. The gaming machine according to feature j12, characterized by:

According to feature j13, in the configuration having the configuration of feature j12, in which the specifying means is provided by using some of the predetermined logic circuits among the plurality of predetermined logic circuits provided in the predetermined electronic component, By forming the first predetermined correspondence means using a predetermined logic circuit not included in the identification means among a plurality of predetermined logic circuits provided in the predetermined electronic component, the identification means and the first predetermined correspondence means are formed. It is possible to reduce the number of predetermined electronic components mounted on a predetermined substrate for forming.

Feature j14. A specific mode means (external output circuit 431 in the 32nd embodiment) that outputs an output signal corresponding to an input signal in a specific mode,
The specific mode means is formed on the predetermined substrate using the predetermined logic circuit that is not included in the specific means among the plurality of the predetermined logic circuits provided in the predetermined electronic component. The gaming machine according to feature j12 or j13, characterized by:

According to the characteristic j14, the specifying means is formed by forming the specifying mode means by using a predetermined logic circuit that is not used to form the specifying means among the plurality of predetermined logic circuits provided in the predetermined electronic component. Compared to the configuration in which the electronic component for forming the specific mode means is mounted on a predetermined substrate as an electronic component separate from the electronic component for forming the specified means and the specific mode means It is possible to reduce the number of predetermined electronic components mounted on the board.

For the configuration of features j1 to j14, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

According to the inventions according to the i group and the j group of features, the following problems can be solved.

Pachinko machines, slot machines, and the like are known as types of gaming machines. In these gaming machines, it is known that a lottery is held based on the establishment of a predetermined lottery condition, and a privilege is given to the player according to the result of the lottery. In addition, it is common that an effect is performed to make the player predict or recognize the result of the lottery. In these gaming machines, control of various devices is executed.

Specifically, for a pachinko machine, a lottery is held based on the entry of a game ball into a ball entry section provided in the game area, and a changing pattern is displayed on the display surface of the display device, and the lottery is performed. A configuration is known in which, when a winning result is obtained, a combination of specific patterns, etc. is displayed on the display surface in a final stop, and the game state is shifted to an advantageous game state for the player. Then, when the game state is shifted to the advantageous game state, for example, by executing the control of the ball entering device provided in the game area, the opening and closing of the ball entering device is started, and the ball is entered into the ball entering device. Based on this, game balls are paid out. Further, sound output control of a device having a sound output section, light emission control of a device having a light emitting section, and the like are performed, and effects are executed.

Here, in the game machines such as those exemplified above, it is necessary to appropriately control various devices, and there is still room for improvement in this respect.

<Characteristic k group>
Features k1. A predetermined board (main control board 81 ),
The predetermined electronic component includes a plurality of predetermined circuits (0th to 4th NAND circuits 441 to 445, 0th to 5th NOT circuits 451 to 456 in the 31st embodiment, and 0th to 5th NAND circuits in the 32nd embodiment). 491 to 496, 0th to 8th NOT circuits 511 to 519) are provided,
The predetermined substrate includes a predetermined circuit (the 0th malfunction prevention circuit 422 in the 31st embodiment and the malfunction prevention circuit 472 in the 32nd embodiment) and a specific circuit (the 1st malfunction prevention circuit in the 31st embodiment). An operation prevention circuit 423, a second malfunction prevention circuit 424, an external output circuit 431, first to third selection circuits 473 to 475 in the thirty-second embodiment, and an external output circuit 431) are provided,
The specific circuit is formed using a part of the predetermined circuits among the plurality of predetermined circuits provided in the predetermined electronic component,
A gaming machine, wherein the predetermined circuit is formed using a predetermined circuit that is not included in the specific circuit among the plurality of predetermined circuits provided in the predetermined electronic component. .

According to feature k1, a specific circuit is formed by using a part of the predetermined circuits among the plurality of predetermined circuits provided in the predetermined electronic component, and the specific circuit included in the plurality of predetermined circuits is By forming a predetermined circuit using a predetermined circuit that is not included in the specific circuit, the predetermined electronic component is used as a separate electronic component from the predetermined electronic component mounted on the predetermined substrate to provide the predetermined circuit included in the specific circuit. The number of predetermined electronic components mounted on a predetermined substrate can be reduced compared to a configuration in which predetermined electronic components for providing a predetermined circuit included in a circuit are mounted on a predetermined substrate. As a result, it is possible to improve the manufacturing efficiency of the predetermined substrate on which the electronic components are mounted, and to reduce the manufacturing cost of the predetermined substrate on which the electronic components are mounted.

Feature k2. A first predetermined electronic component (first logic IC 433 in the 31st embodiment) and a second predetermined electronic component (second logic IC 434 in the 31st embodiment) are mounted on the predetermined substrate as the predetermined electronic components. cage,
the plurality of predetermined circuits provided in the first predetermined electronic component are first predetermined circuits (0th to fourth NAND circuits 441 to 445 in the 31st embodiment),
the plurality of predetermined circuits provided in the second predetermined electronic component are second predetermined circuits (0th to 5th NOT circuits 451 to 456 in the 31st embodiment) different from the first predetermined circuit;
The specific circuit includes a part of the first predetermined circuits among the plurality of first predetermined circuits provided in the first predetermined electronic component, and a plurality of the first predetermined circuits provided in the second predetermined electronic component. is formed using a part of the second predetermined circuit of the second predetermined circuit,
The predetermined circuit includes a first predetermined circuit not included in the specific circuit among the plurality of first predetermined circuits provided in the first predetermined electronic component, and a first predetermined circuit provided in the second predetermined electronic component. The gaming machine according to feature k1, wherein the game machine is formed by using the second predetermined circuit that is not included in the specific circuit among the plurality of second predetermined circuits that are provided.

According to feature k2, electronic components for forming a predetermined circuit are mounted on a predetermined substrate as electronic components separate from electronic components mounted on a predetermined substrate for forming a specific circuit. a first predetermined circuit that includes a first predetermined circuit and a second predetermined circuit, and a specific circuit that includes the first predetermined circuit and a second predetermined circuit. The number of predetermined electronic components and second predetermined electronic components can be suppressed.

Feature k3. The number of the first predetermined circuits used to form the predetermined circuits among the plurality of first predetermined circuits provided in the first predetermined electronic component is provided in the second predetermined electronic component. The gaming machine according to feature k2, wherein the number of the second predetermined circuits used to form the predetermined circuit is different from the number of the second predetermined circuits used to form the predetermined circuit. .

According to feature k3, in a configuration in which the number of first predetermined circuits required to form a predetermined circuit is different from the number of second predetermined circuits required to form the predetermined circuit, a first predetermined circuit of a plurality of first predetermined circuits provided in one predetermined electronic component and a second predetermined circuit of a plurality of second predetermined circuits provided in the second predetermined electronic component; By forming the predetermined circuit using the predetermined circuit, the number of the first predetermined electronic components and the second predetermined electronic components required to form the predetermined circuit can be suppressed.

Feature k4. The predetermined substrate is provided with a first specific circuit (first selection circuit 473 in the thirty-second embodiment) and a second specific circuit (second selection circuit 474 in the thirty-second embodiment) as the specific circuits. and
The predetermined circuit transmits a predetermined signal (a signal transmitted from the malfunction prevention circuit 472 to the first to third selection circuits 473 to 475) to the first specific circuit and the second specific circuit. is possible and
The first specific circuit and the second specific circuit are formed using a part of the predetermined circuits among the plurality of predetermined circuits provided in the predetermined electronic component,
The predetermined circuit is formed using a predetermined circuit that is not included in the first specific circuit and the second specific circuit among the plurality of predetermined circuits provided in the predetermined electronic component. The gaming machine according to any one of features k1 to k3, characterized in that

According to feature k4, a predetermined signal is transmitted from one predetermined circuit to the first specific circuit and the second specific circuit, so that each of the first specific circuit and the second specific circuit , the number of predetermined circuits can be reduced compared to a configuration in which predetermined circuits are provided in one-to-one correspondence with each other. A predetermined circuit provided in one predetermined electronic component is used to form a predetermined circuit that transmits a predetermined signal, and a first specific circuit and a second specific circuit that receive the predetermined signal. Thus, it is possible to reduce the number of predetermined electronic components mounted on a predetermined substrate to form these circuits.

For the configuration of features k1 to k4, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

According to the invention according to the characteristic k group, the following problems can be solved.

Pachinko machines, slot machines, and the like are known as types of gaming machines. In these gaming machines, it is known that a lottery is held based on the establishment of a predetermined lottery condition, and a privilege is given to the player according to the result of the lottery. In addition, it is common that an effect is performed to make the player predict or recognize the result of the lottery. These game machines are equipped with a board on which electronic parts are mounted.

Specifically, for a pachinko machine, a lottery is held based on the entry of a game ball into a ball entry section provided in the game area, and a changing pattern is displayed on the display surface of the display device, and the lottery is performed. A configuration is known in which, when a winning result is obtained, a combination of specific patterns, etc. is displayed on the display surface in a final stop, and the game state is shifted to an advantageous game state for the player. Then, when the game state shifts to the advantageous game state, for example, opening and closing of a ball entry device provided in the game area is started, and game balls are paid out based on the ball entered into the ball entry device. . A pachinko machine has a board on which electronic components are mounted for controlling various devices.

Here, in the gaming machines such as those exemplified above, it is necessary to make the structure of the board on which the electronic components are mounted suitable, and there is still room for improvement in this respect.

<Characteristic group l>
Features l1. A predetermined process (RAM clear process) is executed based on occurrence of a predetermined execution trigger (setting change operation, RAM clear operation, affirmative determination in step SG608) when supply of operating power is started. a process executing means (a function of executing the RAM clearing process of the main MPU 82 in the 33rd to 40th embodiments);
When the predetermined processing is executed, predetermined confirmation processing (input/output confirmation processing in the 33rd to 39th embodiments, port output confirmation processing), and if the predetermined processing is not executed, the predetermined confirmation means (for input/output confirmation of the main MPU 82 in the 33rd to 39th embodiments) is not executed. a function of executing processing, a function of executing port output confirmation processing of the main MPU 82 in the fortieth embodiment);
A game machine characterized by comprising:

According to feature l1, after the supply of operating power is started, the predetermined confirmation process is executed when the predetermined process is executed, and when the predetermined process is not executed, the predetermined confirmation process is executed. By adopting a configuration that does not execute the predetermined processing and the predetermined confirmation processing, compared to a configuration in which it is determined whether or not to execute the predetermined confirmation processing regardless of whether or not the predetermined processing is executed. can be simplified. Thereby, the processing configuration for executing the predetermined processing and the predetermined confirmation processing can be made suitable.

Feature l2. The predetermined process executing means is an information erasing means (RAM clearing process) for erasing information stored in an area to be erased in the predetermined storage means (main RAM 84) as the predetermined process. A gaming machine according to feature l1, characterized in that it has a function of executing RAM clear processing in the main MPU 82 .

According to feature l2, after the supply of operating power is started, the predetermined confirmation process is executed when the information erasure process is executed, and when the information erasure process is not executed, the predetermined confirmation process is executed. You can prevent it from running. As a result, it is possible to make it possible to perform a predetermined operation check by setting the state in which the information erasing process is executed.

Feature l3. The predetermined confirmation execution status (input/output confirmation period) in which the predetermined confirmation process is executed is a predetermined game progress process (timer interrupt process) for controlling the progress of the game after the supply of operating power is started. Characteristic l1 or l2 characterized by ending at a timing before the timing at which the situation (playable state in the 33rd to 40th embodiments) is started. The gaming machine described in .

According to the feature l3, after the supply of operating power is started, the state in which the predetermined operation can be confirmed at the timing before the timing at which the predetermined game progress processing is started. can be generated. As a result, it is possible to reduce the possibility that the game will be started in a state in which the predetermined operation confirmation has not yet been performed. In addition, it is possible to prevent a situation in which a predetermined game progress process is executed in a state in which the predetermined operation confirmation has not been completed.

Feature l4. Equipped with control means (main side MPU 82) for executing various processes,
The control means is
Predetermined start-up means for executing predetermined start-up processing (processing at the start of supply of operating power) when supply of operating power is started (processing of steps SL501 to SL528 of the main MPU 82 in the 40th embodiment function) and
Predetermined post-startup execution means for repeatedly executing a predetermined post-startup process (residual process) after the predetermined start-up process is executed (steps SL529 to SL532 of the main MPU 82 in the 40th embodiment are executed function) and
and
Any one of characteristics l1 to l3, wherein the predetermined confirmation process is executed at a timing before the timing at which the predetermined post-startup process is started when supply of operating power is started. 1. The gaming machine according to 1.

According to feature l4, it is possible to generate a state in which a predetermined operation check can be performed after the supply of operating power is started and before the predetermined post-startup processing is started. Further, it is possible to prevent the predetermined post-startup processing from being started before the state in which the predetermined operation check can be performed ends.

Features l5. Means for executing profit giving processing (property determination processing) in a manner corresponding to the set value set as the object to be used (function for executing the propriety determination processing in the main MPU 82),
A configuration in which the predetermined execution trigger occurs based on a predetermined related operation (setting change operation) being performed when supply of operating power is started,
The predetermined processing executing means is configured to set the set value to be used in the predetermined processing based on the predetermined related operation being performed when the supply of operating power is started. predetermined setting execution means (a function of executing the processing of step SG618 in the main MPU 82 in the 33rd to 39th embodiments, and a function of executing the processing of step SL518 in the main MPU 82 in the 40th embodiment). The gaming machine according to any one of features l1 to l4, characterized in that

According to the feature l5, it is possible to set the setting value to be used based on the fact that the predetermined related operation is performed when the supply of the operating power is started, and the predetermined operation Conditions can occur that allow confirmation. As a result, the administrator of the gaming hall, which sets the set values to be used by performing the predetermined related operations, can set the set values and confirm the predetermined operation. can be

Feature l6. a setting execution state (state in which setting value update processing is executed) in which the setting value to be used is set based on the predetermined related operation being performed when the supply of operating power is started; If so, the predetermined confirmation process is executed based on the fact that an operation (operation to switch the setting key insertion portion 143 from the ON state to the OFF state) for ending the setting execution state has been performed. The game machine according to feature 15, characterized by:

According to feature l6, when an operation for ending the setting execution status is performed, a state in which a predetermined operation can be confirmed while making an additional operation for starting the predetermined confirmation process unnecessary. can be generated. This makes it possible to simplify the processing configuration for ending the setting execution status and starting the predetermined confirmation processing. In addition, the number of operations required for confirming a predetermined operation can be suppressed, and the management burden of the game machine on the manager of the game hall can be reduced.

Feature l7. The predetermined confirmation execution status (input/output confirmation period) in which the predetermined confirmation process is executed is terminated when a predetermined termination opportunity (10 seconds after the start of the input/output confirmation period) occurs. The gaming machine according to any one of features l1 to l6.

According to feature l7, even if no operation is performed to end the predetermined confirmation execution situation, the predetermined confirmation execution situation can be ended at the timing when the predetermined termination opportunity occurs. As a result, the operation for ending the predetermined confirmation execution status can be made unnecessary or omissible, and the management burden of the game machine by the manager of the game hall can be reduced.

Feature l8. An operation for ending the predetermined confirmation execution status (input/output confirmation period) in which the predetermined confirmation process is executed (in the 33rd to 34th and 37th to 38th embodiments, the game ball is maintained in the through gate 35 operation) is performed, confirmation status termination means (the function of executing the processing of step SH717 of the main MPU 82 in the 33rd embodiment, the main MPU 82 in the 34th embodiment, and The function of executing the processing of step SI122 of the side MPU 82, the function of executing the processing of step SJ422 of the main side MPU 82 in the thirty-fifth embodiment, the function of executing the processing of step K625 of the main side MPU 82 in the thirty-seventh embodiment) The gaming machine according to any one of features l1 to l7, characterized by comprising:

According to the feature l8, by performing an operation for ending the predetermined confirmation execution status, it is possible for the manager of the game hall to terminate the predetermined confirmation execution status at an arbitrary timing. As a result, it is possible to shorten the period during which the predetermined operation confirmation can be performed. Therefore, it is possible to reduce the management burden of the game machine on the manager of the game hall.

Feature l9. Predetermined confirmation execution status notification (input/output confirmation display device 521 lighting state ) (the input/output confirmation display device 521, the function of executing the processing of step SH401 of the main MPU 82 in the third embodiment, the processing of step SI901 of the main MPU 82 in the thirty-fifth embodiment the function of executing the processing of step SJ601 of the main MPU 82 in the thirty-sixth embodiment; the function of executing the processing of step SK704 of the main MPU 82 in the thirty-seventh embodiment; function of executing the processing of step SL204).

According to the feature l9, by performing the predetermined confirmation execution status notification, it is possible to notify the manager of the game hall that the predetermined confirmation execution status is in an easy-to-understand manner. As a result, it is possible to prevent the loss of the opportunity to perform the predetermined operation confirmation due to the manager of the game hall not noticing the occurrence of the predetermined confirmation execution situation. Therefore, it is possible to increase the possibility that the predetermined operation confirmation is performed in the predetermined confirmation execution status.

Features l10. As the predetermined confirmation process, the predetermined confirmation means performs the confirmation target object (the special electric prize winning device 32, the general electric prize 34a, the special prize winning device 151, the V prize winning device 531, the switching piece 536) for changing the state of the predetermined state change execution means (th Features 11 to 19 characterized by having a function of executing input/output confirmation processing of the main MPU 82 in the 33rd to 39th embodiments, port output confirmation processing of the main MPU 82 in the 40th embodiment). The gaming machine according to any one of 1.

According to the feature 110, when a predetermined process is executed, by confirming the manner in which the state of the object changes, management of the game hall determines whether or not the state of the object changes normally. can be made identifiable. As a result, it is possible to reduce the possibility that the game will be played in a state where the state change of the object is not performed normally.

Features l11. As the object, movable means (special electric prize winning device 32, general electric accessory 34a, special prize winning device 151, V winning device 531, switching piece 536) exists,
As the predetermined state change process, the predetermined state change execution means performs a predetermined operation of the movable means (opening/closing operation of the special electric prize winning device 32, opening/closing operation of the general electric accessory 34a, opening/closing operation of the special prize winning device 151, V prize Predetermined operation processing (input/output confirmation processing in the thirty-third to thirty-ninth embodiments) for opening and closing the device 531, returning the switching piece 536 to the retracted position, and rotating the switching piece 536. , port output confirmation processing in the 40th embodiment) (the function of executing input/output confirmation processing of the main MPU 82 in the 33rd to 39th embodiments; The gaming machine according to feature 110, characterized by comprising a port output confirmation process of the main side MPU 82).

According to the feature l11, when the predetermined process is executed, the administrator of the game hall checks whether or not the predetermined operation of the movable means is normally performed by confirming the operation mode of the movable means. can be made identifiable. As a result, it is possible to reduce the possibility that the game will be played in a state in which the predetermined operation of the movable means is not performed normally.

Features l12. Predetermined ball entry means (special electric winning device 32, second operation port 34, special winning device 151, V winning device 531) that allows game balls flowing down the game area to enter,
As the movable means, a predetermined opening/closing switching means (the opening/closing door 32a of the special electric prize winning device 32, the ordinary electric role of the second operation opening 34) is provided so as to switch the predetermined ball entry means between an open state and a closed state. The object 34a, the guide member 155 and blocking member 157 of the special winning device 151, and the V winning side opening/closing member 532 of the V winning device 531 are present,
The gaming machine according to feature l11, wherein the predetermined operation of the predetermined opening/closing switching means is an operation of switching the predetermined ball-entering means between the open state and the closed state.

According to feature l12, when the predetermined process is executed, the operation of switching the predetermined ball-entering means between the open state and the closed state is normally performed by confirming the operation mode of the predetermined opening/closing switching means. It is possible for the manager of the game hall to specify whether or not it is in a state of being played. As a result, it is possible to reduce the possibility that the game will be played in a state in which the action is not normally executed.

Features l13. As the movable means, the first movable means (special electric prize winning device 32) and the second movable means (general electric accessory 34a in the 33rd, 34th, 36th to 40th embodiments, 35th to 36th embodiments , there is a special winning device 151),
Predetermined game progress processing (processing for progressing the game in timer interrupt processing) for controlling the progress of the game includes first operation control processing (special figure special electric control) for operating the first movable means processing), in a configuration in which a second operation control process (normal figure normal electrical control process) for operating the second movable means is set as a separate process,
The feature l11 or l12 characterized in that both the predetermined operation of the first movable means and the predetermined operation of the second movable means are performed by executing one of the predetermined operation processes. The game machine described.

According to feature l13, the predetermined game progress processing includes a second motion control process for operating the second movable means as a separate process from the first motion control process for operating the first movable means. is set, by performing predetermined operations of the first movable means and the second movable means by one predetermined operation process, the predetermined motions of the first movable means and the second movable means It is possible to simplify the processing configuration for performing the operation. In addition, compared to a configuration in which there is a period during which the second movable means performs a predetermined operation as a period other than a period during which the first movable means performs a predetermined operation, the first movable means and the second movable means It is possible to shorten the time required to confirm whether or not the predetermined operation of the movable means is normally performed.

Feature l14. Predetermined ball entry means (general winning port 31, special electric winning device 32, second operation port 34, through gate 35, special winning device 151, V winning device 531) that allows game balls flowing down the game area to enter prepared,
When the predetermined process is executed, the predetermined confirmation means, as the predetermined confirmation process, notifies that a game ball that has entered the predetermined ball entry means is detected ( Entering ball occurrence notification processing (entering ball notification command transmission processing in main side MPU 82 in the 33rd to 36th embodiments, input in the main side MPU 82 in the 37th to 38th embodiments) Execute ball notification processing (in the thirty-ninth embodiment, ball entry notification command transmission processing in the main side MPU 82), and if the predetermined processing is not executed, the predetermined ball entry notification processing is not executed. Predetermined ball entry notification means (a function of executing a ball entry notification command transmission process in the main side MPU 82 in the 33rd to 36th embodiments, and a ball entry notification process in the main side MPU 82 in the 37th to 38th embodiments) function to execute the processing for transmitting the entering notification command in the main side MPU 82 in the thirty-ninth embodiment).

According to the feature l14, in a situation where the predetermined confirmation process is executed, by confirming whether or not the game ball is entered into the predetermined ball entry means and the predetermined ball entry notification is performed, the predetermined entry is performed. It is possible for the administrator of the game hall to specify whether or not the detection of the game ball hit by the ball means is normally performed. As a result, it is possible to reduce the possibility that the game will be played in a state in which the game ball is not normally detected.

Features l15. Predetermined ball entry means (general prize winning port 31, special electric prize winning device 32, second operation port 34, through gate 35, special prize winning device 151, V winning device 531) into which game balls flowing down the game area can enter ,
In a predetermined confirmation execution situation (input/output confirmation period in the 33rd to 35th and 37th to 38th embodiments) in which the predetermined confirmation process is executed, a game ball entered by the predetermined ball entry means is detected. Based on the fact, a predetermined situation ending means (a function of executing the processing of step SH717 of the main side MPU 82 in the 33rd to 35th embodiments, and a function of executing the process of step SK625 of the main side MPU 82);
The gaming machine according to any one of features l1 to l14, characterized by comprising:

According to feature 115, while eliminating the need for an operation unit operated to terminate the predetermined confirmation execution status, the manager of the game hall enters the game ball into the predetermined ball-entering means at an arbitrary timing to perform the predetermined confirmation. It may be possible to terminate the execution status.

Features l16. Control means (main MPU 82) that executes various processes and temporarily stores information in internal storage means (registers of main MPU 82) when executing the processes;
a predetermined storage means (main-side RAM 84) in which information is temporarily stored when processing is executed in the control means;
with
The control means comprises the predetermined confirmation means,
Any one of the characteristics l1 to l15, wherein the predetermined confirmation means executes the predetermined confirmation process using the internal storage means, and does not use the predetermined storage means when executing the predetermined confirmation process. 1. The gaming machine according to 1.

According to feature l16, the predetermined confirmation process is executed using the internal storage means without using the predetermined storage means. You can keep it from changing. Thus, after executing the predetermined confirmation process, it is possible to use the information stored in the predetermined storage means before executing the predetermined confirmation process.

Features l17. The gaming machine according to feature l16, wherein the predetermined confirmation process is executed after the predetermined process is executed when the predetermined execution opportunity occurs.

According to the feature l17, in the configuration in which the predetermined confirmation process is executed after the predetermined process is performed, the configuration of the feature l16 is provided, and the predetermined confirmation process does not use the predetermined storage means. Even after execution of the confirmation process, the state of the predetermined storage means immediately after execution of the predetermined process can be maintained. As a result, it is possible to start a state in which the game can be progressed while maintaining the state of the predetermined storage means immediately after the predetermined process is executed.

Feature l18. A control means (main MPU 82) that executes various processes and temporarily stores information in internal storage means (registers of the main MPU 82) when executing the processes,
The control means is
First predetermined processing execution means for executing the first predetermined processing (processing corresponding to specific control) among the various types of processing (in the thirty-seventh embodiment, the main side MPU 82 performs processing other than input/output confirmation processing and management processing in the thirty-eighth to thirty-ninth embodiments, a function of executing processing other than input/output confirmation execution processing and management processing at the main side MPU 82);
Second predetermined processing execution means for executing second predetermined processing (processing corresponding to non-specific control) among the various types of processing (in the thirty-seventh embodiment, main side MPU 82 performs processing other than input/output confirmation processing and management processing) a function to execute processing, a function to execute processing other than input/output confirmation execution processing and management processing in the main side MPU 82 in the thirty-eighth to thirty-ninth embodiments;
At least one stored in the internal storage means when the situation where the first predetermined process is being executed changes to the situation where the second predetermined process is executed or when the situation becomes the situation where the second predetermined process is executed save execution means (thirty-seventh embodiment) for saving predetermined information (data stored in the WA register, BC register, DE register, IX register and IY register), which is the information of the unit, to a predetermined storage means (main RAM 84); Then, the function of executing the processing of steps SK502 to SK507 in the main MPU 82, the function of executing the processing of steps SL102 to SL107 in the main MPU 82 in the thirty-eighth embodiment, and the step in the main MPU 82 in the thirty-ninth embodiment function to execute the processing of SL302 to step SL307);
When or after the second predetermined process is finished, the return executing means (in the thirty-seventh embodiment, steps SK511 to A function of executing the processing of step SK516, a function of executing the processing of steps SL111 to SL116 in the main MPU 82 in the thirty-eighth embodiment, and executing the processing of steps SL311 to SL316 in the main MPU 82 in the thirty-ninth embodiment. function) and
and
The gaming machine according to any one of features l1 to l17, wherein the predetermined confirmation process is included in the second predetermined process.

According to feature l18, it is possible to execute the predetermined confirmation process while preventing the data volume of the program for executing the first predetermined process from increasing. Further, the first predetermined process can be executed after the second predetermined process is completed while the predetermined information stored in the internal storage means before the start of the second predetermined process is stored in the internal storage means. .

Feature l19. The predetermined storage means is
a first predetermined storage area (work area 211 for specific control, stack area 212 for specific control) in which information is stored when the first predetermined process is executed;
a second predetermined storage area (work area 213 for non-specific control, stack area 214 for non-specific control) in which information is stored when the second predetermined process is executed;
and
The predetermined process execution means is
As a process included in the first predetermined process among the predetermined processes, a first information erasing process (37th First erasure execution means (the processing of steps SK101 and SK102 executed by the main MPU 82 in the embodiment) (the function of executing the processing of steps SK101 and SK102 by the main MPU 82 in the thirty-seventh embodiment) )and,
As a process included in the second predetermined process among the predetermined processes, a second information erasing process (clear for confirmation) for erasing information stored in a second erase target area in the second predetermined storage area process) (a function of executing a confirmation clear process in the main MPU 82 in the thirty-seventh embodiment);
and
The second predetermined storage area includes a predetermined execution information setting area (confirmation timer counter 573) in which predetermined execution information (numerical information corresponding to the input/output confirmation period) for executing the predetermined confirmation process is set. and
The second information erasing process includes the process of setting the predetermined execution information in the predetermined execution information setting area (the process of step SK305 executed by the main MPU 82 in the thirty-seventh embodiment). The gaming machine according to feature 118, characterized by:

According to feature l19, the first predetermined process is executed because the second information erasing process included in the second predetermined process includes the process of setting the predetermined execution information in the predetermined execution information setting area. The number of transitions from the situation where the second predetermined process is being executed to the situation where the second predetermined process is being executed and the number of times of transition from the situation where the second predetermined process is being executed to the situation where the first predetermined process is being executed increase. While avoiding this, it is possible to set the predetermined execution information in the predetermined execution information setting area so that the predetermined confirmation process is executed. Thereby, the processing configuration for executing the predetermined confirmation processing can be simplified.

For the configuration of features l1 to l19, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

<Characteristic group m>
Features m1. A gaming machine provided with predetermined unit execution means (function for executing timer interrupt processing of main side MPU 82) for starting predetermined unit processing (timer interrupt processing in the 33rd to 39th embodiments) when a processing execution opportunity occurs in
The predetermined unit execution means is
In the predetermined unit process, game progress means (main in the 33rd to 36th embodiments) for executing a predetermined game progress process (process for progressing the game in the timer interrupt process) for controlling the progress of the game a function of executing the processing of steps SG911 to SG924 in the side MPU 82, and a function of executing the processing of steps SK411 to SK423 in the main side MPU 82 in the thirty-seventh to thirty-ninth embodiments;
In the predetermined unit process, predetermined confirmation means (input/output of the main MPU 82 in the 33rd to 39th embodiments) that executes a predetermined confirmation process (input/output confirmation process) that enables a predetermined operation confirmation function to execute confirmation processing),
and
In the predetermined unit process executed when the process execution trigger occurs in a predetermined confirmation execution situation (input/output confirmation period in the 33rd to 39th embodiments) in which the predetermined confirmation process is executed, the predetermined confirmation A gaming machine characterized in that a process for progressing a game is executed, and the predetermined process for progressing the game is not executed.

According to feature m1, since the predetermined confirmation process is executed in the predetermined unit process, the predetermined confirmation process can be executed each time a process execution trigger occurs in the predetermined confirmation execution situation. Thereby, it is possible to simplify the processing configuration for executing the predetermined confirmation process every time a process execution trigger occurs in the predetermined confirmation execution situation.

When the predetermined unit process is executed in the predetermined confirmation execution state, the predetermined game progress processing is not executed. You can prevent it from happening. In addition, the processing load for executing the predetermined unit process is reduced compared to the configuration in which both the predetermined confirmation process and the predetermined game progress process are executed when the predetermined unit process is executed in the predetermined confirmation execution situation. can be mitigated.

Feature m2. The predetermined unit execution means is
In the predetermined unit process, predetermined supply state monitoring means for executing a predetermined monitoring process (power failure monitoring process) for monitoring the supply state of the operating power (in the 33rd to 36th embodiments, the processing of step SG901 in the main MPU 82 is executed a function to execute the processing of step SK401 in the main MPU 82 in the thirty-seventh to thirty-ninth embodiments);
a power failure handling means (a function of executing a power failure process in the main MPU 82) for executing a power failure handling process (power failure process) when it is specified that the supply of operating power is stopped in the predetermined monitoring process;
and
When the predetermined unit process is executed in the predetermined confirmation execution situation where the predetermined confirmation process is executed, and when the predetermined unit process is executed in a situation where the predetermined confirmation process is not executed The gaming machine according to feature m1, wherein the predetermined monitoring process is executed.

According to feature m2, when the supply of operating power is stopped in a state in which a predetermined confirmation process is being performed and a predetermined unit process is being performed, or when a predetermined confirmation process is not being performed and a predetermined unit process is being performed. The power failure handling process can be executed in any case where the supply of operating power is stopped in the state where the power failure is being performed. As a result, it is possible to prevent a problem from occurring due to failure to execute the power failure handling process when the supply of operating power is stopped.

Feature m3. If the supply of operating power is stopped in the predetermined confirmation execution status, means for generating the predetermined confirmation execution status after the supply of operating power is resumed (main MPU 82 in the 33rd to 36th embodiments) feature m1 or The gaming machine described in m2.

According to feature m3, when the supply of operating power is stopped in a situation where it is possible to perform a predetermined operation check, it is possible to perform a predetermined operation check again after the supply of operating power is resumed. situation can occur. As a result, when the supply of operating power is stopped while the predetermined operation check is being performed, it is possible to prevent the predetermined operation check that has been performed halfway from being interrupted and not resumed. .

Feature m4. The predetermined unit execution means is
In the predetermined unit process, predetermined supply state monitoring means for executing a predetermined monitoring process (power failure monitoring process) for monitoring the supply state of the operating power (in the 33rd to 36th embodiments, the processing of step SG901 in the main MPU 82 is executed a function to execute the processing of step SK401 in the main MPU 82 in the thirty-seventh to thirty-ninth embodiments);
means for executing a power failure response process (power failure process) when it is specified in the predetermined monitoring process that the supply of operating power will be stopped (a function of executing the power failure process in the main MPU 82);
and
When the predetermined unit process is executed in a special situation (the situation in which the startup process is being executed in the 33rd to 39th embodiments, the situation in which the game stop flag of the main side RAM 84 is set to "1") The gaming machine according to any one of features m1 to m3, wherein the predetermined game progress processing and the predetermined confirmation processing are not executed, and the predetermined monitoring processing is executed. .

According to the feature m4, it is possible to prevent the game from progressing in the special situation by preventing the execution of the predetermined game progress process when the predetermined unit process is executed in the special situation. Further, by preventing the execution of the predetermined confirmation process when the predetermined unit process is executed in the special situation, it is possible to prevent a situation in which it is possible to perform the predetermined operation confirmation in the special situation. By configuring the predetermined monitoring process to be executed when the predetermined unit process is executed in the special situation, the supply of operating power is stopped in the special situation in which the predetermined game progress process and the predetermined confirmation process are not executed. Even in this case, it is possible to prevent a problem from occurring due to failure to execute the power failure handling process when the supply of operating power is stopped.

Feature m5. Characteristic m1 characterized in that the predetermined confirmation execution status is terminated at a timing before a timing at which a status for executing the predetermined game progress process is started after supply of operating power is started. The game machine according to any one of thru m4.

According to the feature m5, after the supply of the operating power is started, the state in which the predetermined operation can be confirmed at the timing before the timing at which the predetermined game progress processing is started. can be generated. As a result, it is possible to reduce the possibility that the game is started before the predetermined operation confirmation is performed. Also, it is possible to prevent a situation in which a predetermined game progress process is executed before a situation in which a predetermined operation can be confirmed ends.

Feature m6. According to any one of the characteristics m1 to m5, the predetermined confirmation execution status is terminated based on occurrence of a predetermined termination trigger (10 seconds after the start of the input/output confirmation period). game machine.

According to feature m6, even if an operation for ending the predetermined confirmation execution situation is not performed, the predetermined confirmation execution situation can be ended at the timing when the predetermined termination opportunity occurs. As a result, the operation for ending the predetermined confirmation execution status can be made unnecessary or omissible, and the management burden of the game machine by the manager of the game hall can be reduced.

Feature m7. The predetermined confirmation based on the fact that the operation for terminating the predetermined confirmation execution status (the operation of cleaning the game ball to the through gate 35 in the 33rd to 34th and 37th to 38th embodiments) is performed Confirmation status termination means for terminating the execution status (the function of executing the processing of step SH717 of the main MPU 82 in the 33rd embodiment, the function of executing the processing of step SI122 of the main MPU 82 in the 34th embodiment, the 35th a function of executing the processing of step SJ422 of the main MPU 82 in the embodiment of 1, and a function of executing the processing of step K625 of the main MPU 82 in the thirty-seventh embodiment). 1. The gaming machine according to any one of the above.

According to feature m7, it is possible for the administrator of the gaming hall to end the predetermined confirmation execution status at any timing by performing an operation for ending the predetermined confirmation execution status. As a result, it is possible to shorten the period during which the predetermined operation confirmation can be performed. Therefore, it is possible to reduce the management burden of the game machine on the manager of the game hall.

Feature m8. Predetermined status notification means (input/output confirmation display device 521, main side MPU 82 in the third embodiment) for performing predetermined confirmation execution status notification (lighting state of input/output confirmation display device 521) for notifying that it is the predetermined confirmation execution status , the function of executing the processing of step SH401 of the main MPU 82 in the thirty-fifth embodiment, the function of executing the processing of step SJ601 of the main MPU 82 in the thirty-sixth embodiment, the thirty-seventh and a function of executing step SL204 of the main MPU 82 in the thirty-eighth embodiment). 1. The gaming machine according to any one of the above.

According to the feature m8, by performing the predetermined confirmation execution status notification, it is possible to notify the manager of the game hall that the predetermined confirmation execution status is in an easy-to-understand manner. As a result, it is possible to prevent the loss of the opportunity to perform the predetermined operation confirmation due to the manager of the game hall not noticing the occurrence of the predetermined confirmation execution situation. Therefore, it is possible to increase the possibility that the predetermined operation confirmation is performed in the predetermined confirmation execution status.

Feature m9. The predetermined confirmation means, as the predetermined confirmation processing in the predetermined unit processing, selects an object to be confirmed in the predetermined operation confirmation (the special electric prize winning device 32, the general electric prize 34a, the special prize winning device 151, the V prize Predetermined state change execution means (thirty-third to thirty-ninth implementations) for executing predetermined state change processing (input/output confirmation processing in the thirty-third to thirty-ninth embodiments) for changing the state of the device 531, switching piece 536) The gaming machine according to any one of features m1 to m8, characterized in that it has a function of executing input/output confirmation processing of the main side MPU 82 in the form.

According to feature m9, the predetermined state change process can be executed each time a process execution trigger occurs in a predetermined confirmation execution situation. As a result, it is possible to simplify the processing configuration for executing the predetermined state change processing each time the processing execution trigger occurs in the predetermined confirmation execution situation. Further, when the predetermined unit process is executed in the predetermined confirmation execution situation, the predetermined state change process is executed without executing the predetermined game progress process, so the state of the object is changed. It is possible to prevent the situation from becoming a state in which the game can be progressed. By confirming the manner in which the state of the object changes in the predetermined confirmation execution situation, it is possible for the manager of the game hall to specify whether or not the state of the object changes normally. As a result, it is possible to reduce the possibility that the game will be played in a state where the state change of the object is not performed normally.

Features m10. As the object, movable means (special electric prize winning device 32, general electric accessory 34a, special prize winning device 151, V winning device 531, switching piece 536) exists,
As the predetermined state change processing, the predetermined state change execution means performs a predetermined operation of the movable means (opening/closing operation of the special electric prize winning device 32, opening/closing operation of the general electric accessory 34a, opening/closing operation of the special prize winning device 151, V prize Predetermined operation processing (input/output confirmation processing in the 33rd to 39th embodiments) for opening and closing the device 531, returning the switching piece 536 to the retracted position, rotating the switching piece 536) ) (the function of executing input/output confirmation processing of the main side MPU 82 in the 33rd to 39th embodiments).

According to the feature m10, the game hall manager can specify whether or not the predetermined operation of the movable means is normally performed by confirming the operation mode of the movable means in the predetermined confirmation execution situation. be able to. As a result, it is possible to reduce the possibility that the game will be played in a state in which the predetermined operation of the movable means is not performed normally.

Feature m11. Predetermined ball entry means (special electric winning device 32, second operation opening 34, special winning device 151, V winning device 531) that allows game balls flowing down the game area to enter,
As the movable means, a predetermined opening/closing switching means (the opening/closing door 32a of the special electric prize winning device 32, the ordinary electric role of the second operation opening 34) is provided so as to switch the predetermined ball entry means between an open state and a closed state. The object 34a, the guide member 155 and blocking member 157 of the special winning device 151, and the V winning side opening/closing member 532 of the V winning device 531 are present,
The gaming machine according to feature m10, wherein the predetermined operation of the predetermined opening/closing switching means is an operation of switching the predetermined ball-entering means between the open state and the closed state.

According to feature m11, in a predetermined confirmation execution situation, by confirming the operation mode of the predetermined opening/closing switching means, the operation of switching the predetermined ball-entering means between the open state and the closed state is normally performed. Whether there is or not can be specified by the manager of the game hall. As a result, it is possible to reduce the possibility that the game will be played in a state in which the action is not normally executed.

Feature m12. As the movable means, the first movable means (special electric prize winning device 32) and the second movable means (general electric accessory 34a in the 33rd to 34th and 37th to 39th embodiments, 35th to 36th embodiments , there is a special winning device 151),
The predetermined game progress processing includes a first motion control processing (special figure special electric control processing) for operating the first movable means, and a second motion control processing for operating the second movable means. 2 In the configuration in which the operation control process (normal figure normal power control process) is set,
The feature m10 or m11, characterized in that both the predetermined operation of the first movable means and the predetermined operation of the second movable means are performed by executing one of the predetermined operation processes. The game machine described.

According to feature m12, the predetermined game progress process includes a second motion control process for operating the second movable means as a separate process from the first motion control process for operating the first movable means. is set, by performing predetermined operations of the first movable means and the second movable means by one predetermined operation process, the predetermined motions of the first movable means and the second movable means It is possible to simplify the processing configuration for performing the operation. In addition, compared to a configuration in which there is a period during which the second movable means performs a predetermined operation as a period other than a period during which the first movable means performs a predetermined operation, the first movable means and the second movable means It is possible to shorten the time required to confirm whether or not the movable means is in a state of normal operation.

Feature m13. Predetermined ball entry means (general winning port 31, special electric winning device 32, second operation port 34, through gate 35, special winning device 151, V winning device 531) that allows game balls flowing down the game area to enter prepared,
The predetermined confirmation means, as the predetermined confirmation process, performs a predetermined input that notifies that a game ball that has entered the predetermined ball entry means has been detected (outputs a ball entry notification sound). Ball occurrence notification processing (entering ball notification command transmission processing in the main side MPU 82 in the 33rd to 36th embodiments, ball entry notification processing in the main side MPU 82 in the 37th to 38th embodiments, and in the 39th embodiment Predetermined ball entry notification means (in the 33rd to 36th embodiments, the function of executing the entry notification command transmission process in the main side MPU 82, 37th to 38th In the third embodiment, the function of executing a ball entry notification process in the main side MPU 82, and in the thirty-ninth embodiment, a function of executing a ball entry notification command transmission process in the main side MPU 82). The gaming machine according to any one of m1 to m12.

According to the feature m13, in the predetermined confirmation execution state, the game ball is entered into the predetermined ball entry means and it is confirmed whether or not the predetermined ball entry notification is performed, thereby entering the ball into the predetermined ball entry means. It is possible for the manager of the game hall to specify whether or not the detection of the game ball is normally performed. As a result, it is possible to reduce the possibility that the game will be played in a state in which the game ball is not normally detected.

Feature m14. Predetermined ball entry means (general prize winning port 31, special electric prize winning device 32, second operation port 34, through gate 35, special prize winning device 151, V winning device 531) into which game balls flowing down the game area can enter ,
Predetermined situation termination means (in the 33rd to 35th embodiments, a function of executing the process of step SH717 of the main MPU 82, and a function of executing the process of step SK625 of the main MPU 82 in the thirty-seventh to thirty-ninth embodiments;
The gaming machine according to any one of features m1 to m13, characterized by comprising:

According to the characteristic m14, the manager of the game hall makes the game ball enter the predetermined ball-entering means at an arbitrary timing to perform the predetermined confirmation while eliminating the need for the operation unit operated to end the predetermined confirmation execution status. It may be possible to terminate the execution status.

Features m15. Control means (main MPU 82) that executes various processes and temporarily stores information in internal storage means (registers of main MPU 82) when executing the processes;
a predetermined storage means (main side RAM 84) in which information is temporarily stored when processing is executed in the control means;
with
The control means is
First predetermined processing execution means for executing the first predetermined processing (processing corresponding to specific control) among the various types of processing (in the thirty-seventh embodiment, the main side MPU 82 performs processing other than input/output confirmation processing and management processing in the thirty-eighth to thirty-ninth embodiments, a function of executing processing other than input/output confirmation execution processing and management processing at the main side MPU 82);
Second predetermined processing execution means for executing second predetermined processing (processing corresponding to non-specific control) among the various types of processing (in the thirty-seventh embodiment, main side MPU 82 performs processing other than input/output confirmation processing and management processing) a function to execute processing, a function to execute processing other than input/output confirmation execution processing and management processing in the main side MPU 82 in the thirty-eighth to thirty-ninth embodiments;
At least one stored in the internal storage means when the situation where the first predetermined process is being executed changes to the situation where the second predetermined process is executed or when the situation becomes the situation where the second predetermined process is executed save execution means (thirty-seventh embodiment) for saving predetermined information (data stored in the WA register, BC register, DE register, IX register and IY register), which is the information of the unit, to a predetermined storage means (main RAM 84); Then, the function of executing the processing of steps SK502 to SK507 in the main MPU 82, the function of executing the processing of steps SL102 to SL107 in the main MPU 82 in the thirty-eighth embodiment, and the step in the main MPU 82 in the thirty-ninth embodiment function to execute the processing of SL302 to step SL307);
When or after the second predetermined process is finished, the return executing means (in the thirty-seventh embodiment, steps SK511 to A function of executing the processing of step SK516, a function of executing the processing of steps SL111 to SL116 in the main MPU 82 in the thirty-eighth embodiment, and executing the processing of steps SL311 to SL316 in the main MPU 82 in the thirty-ninth embodiment. function) and
and
The gaming machine according to any one of features m1 to m14, wherein the predetermined confirmation process is included in the second predetermined process.

According to feature m15, it is possible to execute the predetermined confirmation process while preventing the data volume of the program for executing the first predetermined process from increasing. Further, the first predetermined process can be executed after the second predetermined process is completed while the predetermined information stored in the internal storage means before the start of the second predetermined process is stored in the internal storage means. .

Feature m16. The predetermined storage means is
a first predetermined storage area (work area 211 for specific control, stack area 212 for specific control) in which information is stored when the first predetermined process is executed;
a second predetermined storage area (work area 213 for non-specific control, stack area 214 for non-specific control) in which information is stored when the second predetermined process is executed;
and
This game machine is
When a predetermined information erasure trigger (setting change operation, RAM clear operation, affirmative determination in step SG608) occurs at the start of supply of operating power, the first predetermined processing is performed as processing included in the first predetermined processing. The first information erasing process for erasing the information stored in the first erasing target area in the storage area (the process of steps SK101 and SK102 executed by the main MPU 82 in the thirty-seventh embodiment) is executed. 1 erasing execution means (a function of executing the processing of steps SK101 and SK102 in the main MPU 82 in the thirty-seventh embodiment);
Information stored in a second area to be erased in the second predetermined storage area as a process included in the second predetermined process when the predetermined information erasure trigger occurs at the start of supply of operating power. a second erasing execution means (a function of executing a confirmation clearing process in the main MPU 82 in the thirty-seventh embodiment) for executing a second information erasing process (confirmation clearing process) for erasing the
with
The second predetermined storage area includes a predetermined execution information setting area (confirmation timer counter 573) in which predetermined execution information (numerical information corresponding to the input/output confirmation period) for executing the predetermined confirmation process is set. and
The second information erasing process includes the process of setting the predetermined execution information in the predetermined execution information setting area (the process of step SK305 executed by the main MPU 82 in the thirty-seventh embodiment). The gaming machine according to feature m15, characterized by:

According to the feature m16, the first predetermined process is executed because the second information erasing process included in the second predetermined process includes the process of setting the predetermined execution information in the predetermined execution information setting area. The number of transitions from the situation where the second predetermined process is being executed to the situation where the second predetermined process is being executed and the number of times of transition from the situation where the second predetermined process is being executed to the situation where the first predetermined process is being executed increase. While avoiding this, it is possible to set the predetermined execution information in the predetermined execution information setting area so that the predetermined confirmation process is executed. Thereby, the processing configuration for executing the predetermined confirmation processing can be simplified.

For the configuration of features m1 to m16, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

<Feature n group>
Features n1. Predetermined unit execution means (timer interrupt processing of the main MPU 82 in the 33rd to 39th embodiments) for starting predetermined unit processing (timer interrupt processing in the 33rd to 39th embodiments) when a process execution trigger occurs function) and
In the predetermined unit process, game progress means (main in the 33rd to 36th embodiments) for executing a predetermined game progress process (process for progressing the game in the timer interrupt process) for controlling the progress of the game a function of executing the processing of steps SG911 to SG924 in the side MPU 82, and a function of executing the processing of steps SK411 to SK423 in the main side MPU 82 in the thirty-seventh to thirty-ninth embodiments;
with
The predetermined game progress processing includes predetermined processing (entering ball detection processing, timer update processing),
When the predetermined unit process is executed in a predetermined situation (input/output confirmation period), the predetermined game progress process is not executed,
This game machine uses the same program as the program called when the predetermined process is executed in the predetermined game progress process when the predetermined unit process is executed in the predetermined situation, A gaming machine comprising predetermined execution means for executing the predetermined processing (function for executing ball entry detection processing in the main side MPU 82, function for executing timer update processing in the main side MPU 82).

According to the feature n1, in a configuration in which a predetermined game progress process is not executed when a predetermined unit process is executed in a predetermined situation, the program used for executing the predetermined process in that case is a predetermined It is the same program as the program used for executing the predetermined process when the game progress process is executed. For this reason, when a predetermined unit process is executed in a predetermined situation, the predetermined process is executed as a program different from the program used for executing the predetermined process when the predetermined game progress process is executed. Compared to a configuration in which a program used for execution is set, it is possible to reduce the data volume of the program stored in advance for executing the predetermined game progress processing and predetermined processing.

When a predetermined unit process is executed in a predetermined situation, the predetermined process is executed without executing the predetermined game progress process, so that the predetermined game progress process is executed in this case. , the processing load for executing the predetermined unit process can be reduced. Further, even in a predetermined situation where the predetermined game progress process is not executed, the predetermined process can be executed each time the process execution trigger occurs.

Feature n2. The predetermined execution means is configured to prevent the predetermined process from being executed when the predetermined unit process is executed in a specific situation (playable state in the 33rd to 39th embodiments),
The gaming machine according to feature n1, wherein when the predetermined unit process is executed in the specific situation, the predetermined game progress process including the predetermined process is executed.

According to feature n2, when the predetermined unit process is executed in a specific situation, the predetermined process is executed in the predetermined game progress process while avoiding the redundant execution of the predetermined process. can be Thus, the predetermined process is executed each time the process execution trigger occurs both when the predetermined unit process is executed in a predetermined situation and when the predetermined unit process is executed in a specific situation. can be done.

Feature n3. When the predetermined unit process is executed in the predetermined situation, specific processing not included in the predetermined game progress processing (in the 33rd to 36th embodiments, entering ball notification command transmission processing and operation confirmation specific execution means (thirty-third implementation the function of executing the processing of line number "1004" and line number "1005" of the main MPU 82 in the embodiment, the function of executing the processing of steps SL108 and SL109 of the main MPU 82 in the thirty-eighth embodiment, the thirty-ninth embodiment The gaming machine according to feature n1 or n2, characterized in that it has a function of executing the processing of step SL308 and step SL309 of the main side MPU 82 in the form).

According to feature n3, the configuration of feature n1 is provided, and when a predetermined unit process is executed in a predetermined situation, the predetermined process is executed without executing the predetermined game progress process. Therefore, in this case, the predetermined process included in the predetermined game progress process and the specific process not included in the predetermined game progress process can be executed. With the configuration of the feature n1, when the predetermined unit process is executed in a predetermined situation, the same program as the program called when the predetermined process is executed in the predetermined game progress process is used. Since it is a configuration in which the process is executed, when the predetermined process and the specific process are executed in the predetermined unit process as a program different from the program used when the predetermined game progress process is executed in the predetermined unit process The data volume of the program stored in advance for executing the predetermined unit process can be reduced compared to the configuration in which the program used for the processing is stored.

Feature n4. The specific execution means performs, as the specific process, a predetermined state change process for changing the state of the object (the special electric prize winning device 32, the general electric prize 34a, the special prize winning device 151, the V prize winning device 531, the switching piece 536). (input/output confirmation processing in the 33rd to 39th embodiments, port output confirmation processing in the 40th embodiment). The gaming machine according to feature n3, characterized by having a function of executing output confirmation processing (port output confirmation processing of main side MPU 82 in the fortieth embodiment).

According to the feature n4, when the predetermined unit process is executed in a situation other than the predetermined situation, the predetermined state change process is not executed, and when the predetermined unit process is executed in the predetermined situation, the predetermined state change process is prevented. A change operation may be performed to change the state of the object. When a predetermined unit process is executed in a predetermined situation, the manager of the game hall confirms whether or not the state of the object changes normally by confirming the manner in which the state of the object changes. can be made identifiable. As a result, it is possible to reduce the possibility that the game will be played in a state where the state change of the object is not performed normally.

Feature n5. As the object, movable means (special electric prize winning device 32, general electric accessory 34a, special prize winning device 151, V winning device 531, switching piece 536) exists,
As the predetermined state change processing, the predetermined state change execution means performs a predetermined operation of the movable means (opening/closing operation of the special electric prize winning device 32, opening/closing operation of the general electric accessory 34a, opening/closing operation of the special prize winning device 151, V prize Predetermined operation processing (input/output confirmation processing in the 33rd to 39th embodiments) for opening and closing the device 531, returning the switching piece 536 to the retracted position, rotating the switching piece 536) ) (the function of executing input/output confirmation processing of the main side MPU 82 in the 33rd to 39th embodiments).

According to feature n5, when a predetermined unit process is executed in a predetermined situation, the game hall determines whether or not the predetermined operation of the movable means is normally performed by confirming the operation mode of the movable means. administrator can be made identifiable. As a result, it is possible to reduce the possibility that the game will be played in a state in which the predetermined operation of the movable means is not performed normally.

Feature n6. A control means (main MPU 82) that executes various processes and temporarily stores information in internal storage means (registers of the main MPU 82) when executing the processes,
The control means is
First predetermined processing execution means for executing the first predetermined processing (processing corresponding to specific control) among the various types of processing (in the thirty-seventh embodiment, the main side MPU 82 performs processing other than input/output confirmation processing and management processing in the thirty-eighth to thirty-ninth embodiments, a function of executing processing other than input/output confirmation execution processing and management processing at the main side MPU 82);
Second predetermined processing execution means for executing second predetermined processing (processing corresponding to non-specific control) among the various types of processing (in the thirty-seventh embodiment, main side MPU 82 performs processing other than input/output confirmation processing and management processing) a function to execute processing, a function to execute processing other than input/output confirmation execution processing and management processing in the main side MPU 82 in the thirty-eighth to thirty-ninth embodiments;
At least one stored in the internal storage means when the situation where the first predetermined process is being executed changes to the situation where the second predetermined process is executed or when the situation becomes the situation where the second predetermined process is executed save execution means (thirty-seventh embodiment) for saving predetermined information (data stored in the WA register, BC register, DE register, IX register and IY register), which is the information of the unit, to a predetermined storage means (main RAM 84); Then, the function of executing the processing of steps SK502 to SK507 in the main MPU 82, the function of executing the processing of steps SL102 to SL107 in the main MPU 82 in the thirty-eighth embodiment, and the step in the main MPU 82 in the thirty-ninth embodiment function to execute the processing of SL302 to step SL307);
When or after the second predetermined process is finished, the return executing means (in the thirty-seventh embodiment, steps SK511 to A function of executing the processing of step SK516, a function of executing the processing of steps SL111 to SL116 in the main MPU 82 in the thirty-eighth embodiment, and executing the processing of steps SL311 to SL316 in the main MPU 82 in the thirty-ninth embodiment. function) and
and
At least part of the plurality of processes included in the predetermined process (input/output confirmation process in the thirty-seventh embodiment, input/output confirmation execution process in the thirty-eighth to thirty-ninth embodiments) The gaming machine according to any one of features n1 to n5, characterized by being included in the predetermined process.

According to feature n6, by configuring at least a portion of the plurality of processes included in the predetermined process to be included in the second predetermined process, the plurality of processes included in the predetermined process can be The data capacity of the program stored for executing the first predetermined process can be reduced compared to a configuration in which everything is included in the first predetermined process. Further, the first predetermined process can be executed after the second predetermined process is completed while the predetermined information stored in the internal storage means before the start of the second predetermined process is stored in the internal storage means. .

Feature n7. When the predetermined unit process is executed in the predetermined situation, specific processing not included in the predetermined game progress processing (in the 33rd to 36th embodiments, entering ball notification command transmission processing and operation confirmation specific execution means (thirty-third implementation the function of executing the processing of line number "1004" and line number "1005" of the main MPU 82 in the embodiment, the function of executing the processing of steps SL108 and SL109 of the main MPU 82 in the thirty-eighth embodiment, the thirty-ninth embodiment function to execute the processing of step SL308 and step SL309 of the main side MPU 82 in the form),
The predetermined process for progressing the game and the predetermined process executed by the predetermined executing means when the predetermined unit process is executed in the predetermined situation are included in the first predetermined process,
The gaming machine according to feature n6, wherein the specific process is included in the second predetermined process.

According to the characteristic n7, while suppressing the data capacity of the program stored in advance for executing the first predetermined process, when the predetermined unit process is executed in a predetermined situation, it is included in the predetermined game progress process. It is possible to make it possible to execute a predetermined process that is included in the game and a specific process that is not included in the predetermined game progress process.

Feature n8. The information stored in the area to be erased in the predetermined storage means (main RAM 84) is erased based on the occurrence of a predetermined information erasure trigger (setting change operation, RAM clear operation, affirmative determination in step SG608). Erase executing means for executing information erasing processing (RAM clearing processing) (in the 33rd to 36th embodiments, the function of executing the processing of steps SG801 to SG806 in the main MPU 82; in the 37th embodiment, the main MPU 82 A function to execute the processing of steps SK101 and SK102, a function of executing the processing of steps SK901 and SK902 in the main side MPU 82 in the thirty-eighth to thirty-ninth embodiments),
The gaming machine according to feature n7, wherein the predetermined situation occurs when the predetermined information erasure opportunity occurs, and does not occur when the predetermined information erasure opportunity does not occur.

According to feature n8, when a predetermined information erasing opportunity occurs and information erasing processing is executed, a predetermined operation of the movable means can be performed, and the predetermined information erasing opportunity does not occur. In some cases, it is possible to prevent the predetermined movement of the movable means from being performed.

For the configuration of features n1 to n8, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

<Characteristic group o>
Features o1. Specific processing execution means (main MPU 82 in the 33rd to 39th embodiments) that executes specific processing (RAM clear processing) based on the occurrence of the first execution opportunity (RAM clear operation is performed) function to execute RAM clear processing);
Predetermined process executing means (thirty-third to thirty-ninth a function of executing the set value update process of the main MPU 82 in the embodiment);
with
The predetermined process execution means executes the specific process in the predetermined process using the same program as the program used by the specific process execution means to execute the specific process. game machine.

According to feature o1, both when a specific process is executed based on the occurrence of the first execution trigger and when the predetermined process is executed based on the occurrence of the second execution trigger, Specific processing can be performed. A program used to execute a specific process in a predetermined process that is executed based on the occurrence of the second execution trigger is used to execute the specific process based on the occurrence of the first execution trigger. Since it is the same program as the program used for the first execution trigger, the second execution trigger occurs as a program different from the program used to execute a specific process based on the occurrence of the first execution trigger Pre-stored for executing predetermined processing and specific processing compared to the configuration in which the program used for executing the specific processing in the predetermined processing executed based on the fact is set The data capacity of the program can be reduced.

Feature o2. Means for executing profit giving processing (property determination processing) in a manner corresponding to the setting value set as a use target (function for executing the propriety determination processing in the main MPU 82),
A configuration in which the second execution opportunity is generated based on a predetermined related operation (setting change operation) being performed when supply of operating power is started,
The predetermined processing execution means performs predetermined set value setting processing (set value update) for setting the set value to be used as the predetermined processing based on the occurrence of the second execution trigger. processing) (the function of executing the processing of step SG618 in the main MPU 82 in the 33rd to 39th embodiments, the function of executing the processing of step SL518 in the main MPU 82 in the 40th embodiment ), the gaming machine according to feature o1.

According to the feature o2, it is possible to set the setting value to be used based on the fact that the predetermined related operation is performed when the supply of the operating power is started, and the specific processing is performed. can be executed.

Feature o3. A configuration in which the first execution opportunity is generated based on the fact that a specific related operation (RAM clear operation) is performed when supply of operating power is started,
The specific process executing means erases information stored in an area to be erased in a predetermined storage means (main-side RAM 84) as the specific process based on the occurrence of the first execution opportunity. Erase execution means for executing processing (RAM clearing processing) (function for executing the processing of steps SG801 to SG806 in the main MPU 82 in the 33rd to 36th embodiments, step SK101 in the main MPU 82 in the 37th embodiment and the function of executing the processing of step SK102, and the function of executing the processing of step SK901 and step SK902 in the main side MPU 82 in the thirty-eighth to thirty-ninth embodiments). game machine.

According to feature o3, information stored in a region to be erased in the predetermined storage means is erased based on the fact that a specific related operation is performed when supply of operating power is started. and specific processing can be performed.

Feature o4. For the specific processing, a predetermined confirmation setting for executing predetermined confirmation processing (input/output confirmation processing in the thirty-third to thirty-ninth embodiments) that enables predetermined operation confirmation is performed. Processing (processing of step SG807 of the main MPU 82 in the 33rd embodiment, processing of step SK305 of the main MPU 82 in the 37th embodiment, processing of step SK903 of the main MPU 82 in the 38th embodiment) is included. The game machine according to any one of features o1 to o3, characterized in that

According to feature o4, having the configuration of feature o1, a specific process is executed based on the occurrence of the first execution trigger and a predetermined process is executed based on the occurrence of the second execution trigger. Since the configuration is such that the specific processing is executed in any of the cases, a situation can be generated in which the predetermined operation confirmation can be performed in any of these cases.

Feature o5. In the predetermined confirmation setting process, specific period information (numerical information corresponding to the input/output confirmation period) corresponding to the period in which the predetermined confirmation process is executed is stored in specific information storage means (confirmation timer counters 523a, 573, 581). ), and
This game machine includes a predetermined confirmation executing means (main side MPU 82 in the 33rd to 39th embodiments) that executes the predetermined confirmation process based on the fact that the specific period information is set in the specific information storage means. function for executing input/output confirmation processing).

According to the feature o5, in addition to the predetermined confirmation setting process for setting the specific period information in the specific information storage means, the predetermined confirmation process is executed as a separate process from the predetermined confirmation setting process. Compared to the configuration in which the processing is set, it is possible to simplify the processing configuration for generating a situation in which the predetermined operation confirmation can be performed over the period corresponding to the specific period information.

Feature o6. Predetermined confirmation execution status notification (lighting state of input/output confirmation display device 521) for notifying that it is a predetermined confirmation execution status (input/output confirmation period in the 33rd to 39th embodiments) in which the predetermined confirmation process is executed (the input/output confirmation display device 521, the function of executing the processing of step SH401 of the main MPU 82 in the third embodiment, the processing of step SI901 of the main MPU 82 in the thirty-fifth embodiment function of the main MPU 82 in the thirty-sixth embodiment to execute the process of step SJ601; function of the main MPU 82 in the thirty-seventh embodiment to execute the process of step SK704; A gaming machine according to feature o4 or o5, characterized by comprising a function of executing the processing of step SL204.

According to the feature o6, by performing the predetermined confirmation execution status notification, it is possible to notify the manager of the game hall that the predetermined confirmation execution status is in an easy-to-understand manner. As a result, it is possible to prevent the loss of the opportunity to perform the predetermined operation confirmation due to the manager of the game hall not noticing the occurrence of the predetermined confirmation execution situation. Therefore, it is possible to increase the possibility that the predetermined operation confirmation is performed in the predetermined confirmation execution status.

Feature o7. The predetermined confirmation execution status (input/output confirmation period) in which the predetermined confirmation process is executed is a predetermined game progress process (timer interrupt process) for controlling the progress of the game after the supply of operating power is started. Features o4 to o6 characterized by ending at a timing before the timing at which the situation (playable state in the 33rd to 39th embodiments) in which the game progresses) is started The gaming machine according to any one of 1.

According to the feature o7, after the supply of the operating power is started, the situation in which the predetermined operation can be confirmed at the timing before the timing at which the predetermined game progress processing is started. can be generated. As a result, it is possible to reduce the possibility that the game will be started in a state in which the predetermined operation confirmation has not yet been performed. In addition, it is possible to prevent a situation in which a predetermined game progress process is executed in a state in which the predetermined operation confirmation has not been completed.

Feature o8. The predetermined confirmation execution status (input/output confirmation period in the 33rd to 39th embodiments) in which the predetermined confirmation process is executed has a predetermined end opportunity (10 seconds after the start of the input/output confirmation period). The game machine according to any one of features o4 to o7, characterized in that the game ends based on what has occurred.

According to feature o8, even if no operation is performed to terminate the predetermined confirmation execution status, the predetermined confirmation execution status can be terminated at the timing when a predetermined termination opportunity occurs. As a result, the operation for ending the predetermined confirmation execution status can be made unnecessary or omissible, and the management burden of the game machine by the manager of the game hall can be reduced.

Feature o9. An operation for ending the predetermined confirmation execution status (input/output confirmation period) in which the predetermined confirmation process is executed (in the 33rd to 34th and 37th to 38th embodiments, the game ball is maintained in the through gate 35 operation) is performed, confirmation status termination means (the function of executing the processing of step SH717 of the main MPU 82 in the 33rd embodiment, the main MPU 82 in the 34th embodiment, and The function of executing the processing of step SI122 of the side MPU 82, the function of executing the processing of step SJ422 of the main side MPU 82 in the thirty-fifth embodiment, the function of executing the processing of step K625 of the main side MPU 82 in the thirty-seventh embodiment) The gaming machine according to any one of features o4 to o8, characterized by comprising:

According to the feature o9, it is possible for the administrator of the game hall to end the predetermined confirmation execution status at any timing by performing an operation for ending the predetermined confirmation execution status. As a result, it is possible to shorten the period during which the predetermined operation confirmation can be performed. Therefore, it is possible to reduce the management burden of the game machine on the manager of the game hall.

Features o10. As the predetermined confirmation processing, the state of the objects to be confirmed in the predetermined operation confirmation (the special electric winning device 32, the general electric accessory 34a, the special winning device 151, the V winning device 531, the switching piece 536) is changed. Predetermined state change execution means (input/output confirmation processing of the main MPU 82 in the 33rd to 39th embodiments) for executing predetermined state change processing (input/output confirmation processing in the 33rd to 39th embodiments) for A gaming machine according to any one of features o4 to o9, characterized by comprising a function of executing

According to feature o10, both when a specific process is executed based on the occurrence of the first execution trigger and when the predetermined process is executed based on the occurrence of the second execution trigger, A predetermined state change process can be executed to change the state of the object. Also, by confirming the mode of the state change of the object in these cases, it is possible for the manager of the game hall to specify whether or not the state change of the object is normally performed. As a result, it is possible to reduce the possibility that the game will be played in a state where the state change of the object is not performed normally.

Features o11. As the object, movable means (special electric prize winning device 32, general electric accessory 34a, special prize winning device 151, V winning device 531, switching piece 536) exists,
As the predetermined state change process, the predetermined state change execution means performs a predetermined operation of the movable means (opening/closing operation of the special electric prize winning device 32, opening/closing operation of the general electric accessory 34a, opening/closing operation of the special prize winning device 151, V prize Predetermined operation processing (input/output confirmation processing in the 33rd to 39th embodiments) for opening and closing the device 531, returning the switching piece 536 to the retracted position, rotating the switching piece 536) ) (the function of executing input/output confirmation processing of the main side MPU 82 in the 33rd to 39th embodiments).

According to feature o11, both when a specific process is executed based on the occurrence of the first execution trigger and when the predetermined process is executed based on the occurrence of the second execution trigger, A predetermined operation of the movable means can be performed. Further, by confirming the operation mode of the movable means in these cases, it is possible for the manager of the game hall to specify whether or not the predetermined operation of the movable means is normally performed. As a result, it is possible to reduce the possibility that the game will be played in a state in which the predetermined operation of the movable means is not performed normally.

Features o12. Predetermined ball entry means (special electric winning device 32, second operation opening 34, special winning device 151, V winning device 531) that allows game balls flowing down the game area to enter,
As the movable means, a predetermined opening/closing switching means (the opening/closing door 32a of the special electric prize winning device 32, the ordinary electric role of the second operation opening 34) is provided so as to switch the predetermined ball entry means between an open state and a closed state. The object 34a, the guide member 155 and blocking member 157 of the special winning device 151, and the V winning side opening/closing member 532 of the V winning device 531 are present,
The gaming machine according to feature o11, wherein the predetermined operation of the predetermined opening/closing switching means is an operation of switching the predetermined ball-entering means between the open state and the closed state.

According to the feature o12, by confirming the operation mode of the predetermined opening/closing switching means in the situation where the predetermined confirmation process is executed, the operation of switching the predetermined ball-entering means between the open state and the closed state can be performed normally. It is possible for the manager of the game hall to specify whether or not the state is to be executed. As a result, it is possible to reduce the possibility that the game will be played in a state in which the action is not normally executed.

Features o13. As the movable means, the first movable means (special electric prize winning device 32) and the second movable means (general electric accessory 34a in the 33rd, 34th, 36th to 39th embodiments, 35th to 36th embodiments , there is a special winning device 151),
Predetermined game progress processing (processing for progressing the game in the timer interrupt processing) for controlling the progress of the game includes first operation control processing for operating the first movable means (special figure special electric control processing), in a configuration in which a second operation control process (normal figure normal electrical control process) for operating the second movable means is set as a separate process,
The feature o11 or o12 characterized in that both the predetermined operation of the first movable means and the predetermined operation of the second movable means are performed by executing one of the predetermined operation processes. The game machine described.

According to feature o13, the predetermined game progress processing includes a second motion control process for operating the second movable means as a separate process from the first motion control process for operating the first movable means. is set, by performing predetermined operations of the first movable means and the second movable means by one predetermined operation process, the predetermined motions of the first movable means and the second movable means It is possible to simplify the processing configuration for performing the operation. In addition, compared to a configuration in which there is a period during which the second movable means performs a predetermined operation as a period other than a period during which the first movable means performs a predetermined operation, the first movable means and the second movable means It is possible to shorten the time required to confirm whether or not the movable means is in a state of normal operation.

Feature o14. Predetermined ball entry means (general prize winning port 31, special electric prize winning device 32, second operation port 34, through gate 35, special prize winning device 151, V winning device 531) into which game balls flowing down the game area can enter ,
In a predetermined confirmation execution situation (input/output confirmation period) in which the predetermined confirmation process is executed, predetermined ball entry notification (ball entry notification) for notifying that a gaming ball that has entered the predetermined ball entry means is detected output of sound) (entering ball notification command transmission processing in the main side MPU 82 in the 33rd to 36th embodiments, for entering ball informing in the main side MPU 82 in the 37th to 38th embodiments) In the thirty-ninth embodiment, the predetermined ball entry notification means (in the thirty-third to thirty-sixth embodiments, the entry notification command transmission process in the main MPU 82 is executed). a function to execute a ball entry notification process in the main side MPU 82 in the thirty-seventh to thirty-eighth embodiments, and a function to execute a ball entry notification command transmission process in the main side MPU 82 in the thirty-ninth embodiment);
The gaming machine according to any one of features o4 to o13, characterized by comprising:

According to the feature o14, in the predetermined confirmation execution state, a game ball is entered into the predetermined ball entry means, and it is confirmed whether or not the predetermined ball entry notification is performed, thereby entering the predetermined ball entry means. It is possible for the manager of the game hall to specify whether or not the detection of the game ball is normally performed. As a result, it is possible to reduce the possibility that the game will be played in a state in which the game ball is not normally detected.

Features o15. Predetermined ball entry means (general prize winning port 31, special electric prize winning device 32, second operation port 34, through gate 35, special prize winning device 151, V winning device 531) into which game balls flowing down the game area can enter ,
Predetermined situation termination means (in the 33rd to 35th embodiments, a function of executing the process of step SH717 of the main MPU 82, and a function of executing the process of step SK625 of the main MPU 82 in the thirty-seventh to thirty-ninth embodiments;
The gaming machine according to feature o14, characterized by comprising:

According to the feature o15, while eliminating the need for an operation unit operated to end the predetermined confirmation execution status, the manager of the game hall enters the game ball into the predetermined ball-entering means at an arbitrary timing to perform the predetermined confirmation. It may be possible to terminate the execution status.

Feature o16. A control means (main MPU 82) that executes various processes and temporarily stores information in internal storage means (registers of the main MPU 82) when executing the processes,
The control means is
First predetermined processing execution means for executing the first predetermined processing (processing corresponding to specific control) among the various types of processing (in the thirty-seventh embodiment, the main side MPU 82 performs processing other than input/output confirmation processing and management processing in the thirty-eighth to thirty-ninth embodiments, a function of executing processing other than input/output confirmation execution processing and management processing at the main side MPU 82);
Second predetermined processing execution means for executing second predetermined processing (processing corresponding to non-specific control) among the various types of processing (in the thirty-seventh embodiment, main side MPU 82 performs processing other than input/output confirmation processing and management processing) a function to execute processing, a function to execute processing other than input/output confirmation execution processing and management processing in the main side MPU 82 in the thirty-eighth to thirty-ninth embodiments;
At least one stored in the internal storage means when the situation where the first predetermined process is being executed changes to the situation where the second predetermined process is executed or when the situation becomes the situation where the second predetermined process is executed save execution means (thirty-seventh embodiment) for saving predetermined information (data stored in the WA register, BC register, DE register, IX register and IY register), which is the information of the unit, to a predetermined storage means (main RAM 84); Then, the function of executing the processing of steps SK502 to SK507 in the main MPU 82, the function of executing the processing of steps SL102 to SL107 in the main MPU 82 in the thirty-eighth embodiment, and the step in the main MPU 82 in the thirty-ninth embodiment function to execute the processing of SL302 to step SL307);
When or after the second predetermined process is finished, the return executing means (in the thirty-seventh embodiment, steps SK511 to A function of executing the processing of step SK516, a function of executing the processing of steps SL111 to SL116 in the main MPU 82 in the thirty-eighth embodiment, and executing the processing of steps SL311 to SL316 in the main MPU 82 in the thirty-ninth embodiment. function) and
and
The gaming machine according to any one of features o4 to o15, wherein the predetermined confirmation setting process is included in the second predetermined process.

According to the feature o16, by configuring the predetermined confirmation setting process to be included in the second predetermined process, while suppressing an increase in the data capacity of the program stored for executing the first predetermined process, A situation in which a predetermined operation confirmation can be performed can occur based on the execution of the predetermined confirmation setting process in the process.

For the configuration of features o1 to o16, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

According to the inventions according to the above-described features l group, m group, n group, and o group, the following problems can be solved.

Pachinko machines, slot machines, and the like are known as types of gaming machines. In these gaming machines, it is known that an internal lottery is held based on the establishment of a predetermined lottery condition, and a privilege is given to the player according to the result of the internal lottery.

Specifically, the pachinko machine has a configuration in which a winning result is obtained in an internal lottery based on the entry of a game ball into a ball entry section provided in the game area, and a transition to a special game state. A configuration is known in which a transition is made to a special game state based on a game ball entering a part. When the game shifts to the special game state, for example, opening and closing of a ball entry device provided in the game area is started, and game balls are paid out based on the entry into the ball entry device.

Here, in the game machines such as those exemplified above, it is necessary to execute the processing favorably, and there is still room for improvement in this respect.

<Characteristic p group>
Features p1. movable means (switching piece 536);
A specific action of controlling the movable means so as to perform a specific action of the movable means (rotating action of the switching piece 536 during the execution period of the V winning round game) in a special game state (execution period of the V winning round game). Execution means (the function of executing the special figure special electric control process in the main side MPU 82 in the 35th to 36th embodiments),
The movable means is moved to a predetermined position (retracted position) based on the occurrence of a predetermined execution trigger (setting change operation, RAM clear operation, affirmative determination in step SG608) when the supply of operating power is started. a predetermined operation execution means (a function of executing a retreat position return process by the main MPU 82 in the thirty-fifth to thirty-sixth embodiments) for controlling the movable means so as to perform a predetermined movement (return to the retreat position) for positioning; ,
A game machine characterized by comprising:

According to the characteristic p1, a predetermined operation of the movable means is performed and the movable means is positioned at a predetermined position based on the occurrence of the predetermined operation trigger when the supply of operating power is started. can be made to be By positioning the movable means at a predetermined position, it is possible to reduce the possibility of unintended operation of the movable means at the design stage.

Feature p2. Predetermined processing execution means for executing predetermined processing (RAM clear processing) based on the occurrence of the predetermined execution trigger when the supply of operating power is started (RAM clear processing in the main MPU 82 is executed) function),
The gaming machine according to feature p1, wherein the predetermined action executing means controls the movable means so that the predetermined action is performed when the predetermined process is executed.

According to the feature p2, when the predetermined process is executed after the supply of operating power is started, the movable means performs a predetermined operation. It is possible for the manager of the game hall to grasp whether or not the predetermined operation of the means is normally performed.

Feature p3. The predetermined process executing means performs the predetermined process based on the fact that the predetermined execution trigger occurs when the supply of operating power is started, and erases an area to be erased from the predetermined storage means (main-side RAM 84) as the predetermined process. (a function for executing RAM clear processing in the main MPU 82 in the thirty-fifth and thirty-sixth embodiments) for executing information erasure processing (RAM clear processing) for erasing information stored in the The gaming machine according to feature p2, characterized by:

According to the feature p3, by performing a predetermined operation of the movable means when the information erasing process is executed, the movable means is positioned at a predetermined position each time the information erasing process is executed. can do. As a result, it is possible to reduce the possibility of unintended operation of the movable means at the design stage.

Feature p4. The predetermined storage means stores operating state information (data set in the switching control counter 542 and the V winning timer counter 543) indicating the operating state of the movable means. A timer counter 543) is provided,
The specific action executing means does not erase the action state information stored in the action state storage area when the special game state ends, and stores the action state information in the action state storage area when the special game state starts. A configuration for controlling the movable means using the operating state information stored in the
The gaming machine according to feature p3, wherein the operating state information stored in the operating state storage area is erased in the information erasing process.

According to the feature p4, in the configuration having the configuration of the feature p3 and performing the predetermined operation of the movable means when the information erasing process is executed, the operation state information is erased by executing the information erasing process. . Therefore, at the timing when the information erasing process is executed, the actual operating state of the movable means can be matched with the operating state information stored in the operating state storage area. As a result, even if there is a discrepancy between the actual operating state of the movable means and the operating state information stored in the operating state storage area, the information erasing process is executed to eliminate the discrepancy. can be

Feature p5. The game machine according to any one of features p2 to p4, wherein the predetermined action of the movable means is not performed when the predetermined process is not performed.

According to the feature p5, the state of the movable means before the supply of operating power is started can be maintained by preventing the predetermined operation of the movable means from being performed when the predetermined process is not executed. can. Since the configuration of the feature p2 is provided and the predetermined operation of the movable means is performed when the predetermined process is performed, the predetermined operation of the movable means is performed when the predetermined process is performed. , it is possible to prevent the predetermined operation from being performed when the predetermined process is not performed.

Feature p6. Predetermined operation abnormality notification means (thirty-fifth to thirty-sixth implementations) for executing predetermined operation abnormality notification (switching piece control error notification) when the movable means is not positioned at the predetermined position in the predetermined operation of the movable means The gaming machine according to any one of the characteristics p1 to p5, characterized in that it has a function of executing the processing of steps SJ113 to SJ115 in the main side MPU 82 in the form.

According to the feature p6, it is possible to notify the manager of the game hall that the predetermined action of the movable means was not performed normally by performing the predetermined action abnormality notification in a manner that the manager of the game hall can easily notice. As a result, it is possible to reduce the possibility that the game will be played in a state in which the failure of the predetermined operation of the movable means to be performed normally is overlooked after the supply of operating power is started.

Feature p7. Special ball entry means (V winning device 531) having a first special area (V winning passage area 535c) and a second special area (discharging passage area 535b) through which game balls can pass;
First special detection means (V winning detection sensor 539) for detecting the game ball guided to the first special area,
Second special detection means (count detection sensor 538) for detecting the game ball guided to the second special area,
with
The movable means has a first guiding state (a state in which the switching piece 536 is arranged at the guiding position) in which the game ball entering the special ball entering means is guided to the first special area, and the special ball entering means. It is for switching between the second guide state (the state where the switching piece 536 is arranged at the retracted position) in which the game ball that has entered the second special area is guided to the second special area. The gaming machine according to any one of features p1 to p6.

According to the feature p7, by switching between the first guide state and the second guide state using the movable means, the game ball entering the special ball entering means is guided to the first special area. It is possible to create a detected state and a state in which the game ball entering the special ball entering means is guided to the second special area and detected. As a result, it is possible to complicate the content of the game while suppressing an increase in the number of ball-entering means, and to improve the interest of the game.

Feature p8. When the predetermined operation of the movable means is performed, the predetermined operation of the movable means (the switching piece 536 is switched) until a predetermined termination trigger (the value of the confirmation timer counter 523a becomes "0") occurs. predetermined operation execution means (function for executing the processing of steps SJ601 to SJ619 and step SJ621 by the main side MPU 82 in the 36th embodiment) for controlling the movable means so that the rotation operation) is performed. The gaming machine according to any one of features p1 to p7, characterized in that

According to the feature p8, the manager of the game hall checks whether or not the predetermined motion of the movable means is normally performed by confirming the motion mode of the movable means after the predetermined motion of the movable means is performed. can be made identifiable. As a result, it is possible to reduce the possibility that the game will be played in a state in which the predetermined operation of the movable means is not performed normally.

Feature p9. The predetermined action execution means uses the same program as the program used by the specific action execution means to execute processing for causing the movable means to perform the specific action, and The gaming machine according to feature p8, characterized by executing a process (a switching process executed by the main MPU 82 in the thirty-sixth embodiment) for performing a predetermined operation.

According to feature p9, a program for executing a process for causing the movable means to perform a predetermined movement is set as a separate program from the program for executing the process for causing the movable means to perform a specific movement. Compared to the configuration described above, it is possible to reduce the data volume of the program stored in advance for executing the processing for causing the movable means to perform a predetermined operation and the processing for causing the movable means to perform a specific operation. can.

Features p10. Special ball entry means (V winning device 531) having a first special area (V winning passage area 535c) and a second special area (discharging passage area 535b) through which game balls can pass;
First special detection means (V winning detection sensor 539) for detecting the game ball guided to the first special area,
Second special detection means (count detection sensor 538) for detecting the game ball guided to the second special area,
with
The movable means has a first guiding state (a state in which the switching piece 536 is arranged at the guiding position) in which the game ball entering the special ball entering means is guided to the first special area, and the special ball entering means. It is for switching between the second guide state (the state where the switching piece 536 is arranged at the retracted position) in which the game ball that has entered the ball is guided to the second special area,
In a predetermined operation execution situation (input/output confirmation period) in which the predetermined operation of the movable means is performed, detection of the game ball guided to the first special area and detection of the game ball guided to the second special area Predetermined detection confirmation notification means (confirmed display device 544, main side MPU 82 in the 36th embodiment) for executing predetermined detection confirmation notification (confirmed notification) when both detections occur The gaming machine according to feature p8 or p9, characterized in that it has a function of executing processing.

According to the feature p10, by confirming that the predetermined detection confirmation notification has been performed, it is confirmed that the movable means is operating normally inside the special ball entering means, and the game guided to the first special area It is possible for the manager of the game hall to grasp that the detection of the ball is normally performed and that the detection of the game ball guided to the second special area is normally performed.

For the configuration of features p1 to p10, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

According to the invention according to the group of features p, the following problems can be solved.

Pachinko machines, slot machines, and the like are known as types of gaming machines. In these gaming machines, it is known that an internal lottery is held based on the establishment of a predetermined lottery condition, and a privilege is given to the player according to the result of the internal lottery.

Specifically, the pachinko machine has a configuration in which a winning result is obtained in an internal lottery based on the entry of a game ball into a ball entry section provided in the game area, and a transition to a special game state. A configuration is known in which a transition is made to a special game state based on a game ball entering a part. When the game shifts to the special game state, for example, opening and closing of a ball entry device provided in the game area is started, and game balls are paid out based on the entry into the ball entry device.

Here, in the gaming machine such as the above example, it is necessary to appropriately control the movable means provided in the gaming machine, and there is still room for improvement in this respect.

<Characteristic group q>
Feature q1. Variable ball entry means (33rd, 34th, 37th to 39th embodiments, special electric winning device 32 , the second operation port 34, the special winning device 151 in the 35th and 36th embodiments, the V winning device 531),
Special state (in the 33rd, 34th, 37th to 39th embodiments, the opening period of the special electric prize winning device 32 in the opening and closing execution mode, the opening period of the general electric role 34a based on the electric role open winning, the 35th, 36th In the above embodiment, during the execution period of the normal round game, the execution period of the V winning round game, and the opening period of the special winning device 151 based on the electric win open winning, the open state and the closed state of the variable ball entry means are changed. Specific switching means for switching between (the function of executing the special figure special electric control process of the main side MPU 82, the function of executing the general figure general electric control process of the main side MPU 82),
Predetermined detection means for detecting a game ball that has entered the variable ball entry means (in the 33rd, 34th, 37th to 39th embodiments, the special electric detection sensor 234a, the second operation opening detection sensor 236a, the 35th and 39th In the embodiment of 36, a special prize detection sensor 556, a count detection sensor 538, a V prize detection sensor 539),
In a game machine equipped with
Based on the occurrence of a predetermined execution trigger (setting change operation, RAM clear operation, affirmative determination in step SG608), the variable ball entering means is switched between the open state and the closed state. a first predetermined situation generation means (function for executing input/output confirmation processing of the main side MPU 82 in the 33rd to 39th embodiments) that causes a predetermined situation (input/output confirmation period) to occur;
A second predetermined situation (33rd, 34th, 37th to 39th embodiments) in which switching between the open state and the closed state of the variable ball entering means is not performed after the end of the first predetermined situation In the 35th and 36th embodiments, the post-confirmation invalidation period, the post-confirmation invalidation period, and the V winning invalidation period) are generated. a function of executing invalidation processing in the main MPU 82 in
Based on the fact that the game ball is detected by the predetermined detection means in the special state, the predetermined ball entry corresponding processing (the processing of steps SH604 and SH614 of the main MPU 82 in the 33rd embodiment, the processing of steps SH614 in the 35th embodiment, The processing of steps SJ204 and SJ214 of the main side MPU 82) is executed (the function of executing the processing of steps SH604 and SH614 in the main side MPU 82, the processing of steps SJ204 and SJ214 in the main side MPU 82 is executed) function) and
with
In the first predetermined situation and the second predetermined situation, even if a state in which a game ball exists within the detection range of the predetermined detection means occurs, the predetermined ball entry corresponding processing is not executed. .

According to the characteristic q1, by confirming the manner in which switching between the open state and the closed state of the variable ball entry means is executed in the first predetermined situation, it is possible to determine whether the variable ball entry means is switched between the open state and the closed state. It is possible for the administrator of the game hall to be able to specify whether or not the switching operation between is normally performed. As a result, it is possible to reduce the possibility that the game will be played in a state in which the switching operation of the variable ball-entering means is not normally performed. By generating the second predetermined situation after the end of the first predetermined situation, the game ball entering the variable ball entering means immediately before the end of the first predetermined situation is generated in the second predetermined situation after the end of the first predetermined situation. Even if a state exists in the detection range of the predetermined detection means in , the predetermined ball entry corresponding processing can be prevented from being executed. As a result, it is possible to prevent the execution of the predetermined ball-entering process due to the game ball entering the variable ball-entering means in the first predetermined situation.

Feature q2. The predetermined ball entry handling means provides a predetermined profit as the predetermined ball entry handling process (processing of step SH604 and step SH614 of the main MPU 82 in the 33rd embodiment, main side MPU 82 in the 35th embodiment, (processing of step SJ204 and step SJ214 of the MPU 82) (function of executing the processing of step SH604 and step SH614 of the main MPU 82 in the 33rd embodiment, step SJ204 of the main MPU 82 in the 35th embodiment and The gaming machine according to feature q1, characterized by comprising a function of executing the processing of step SJ214.

According to the feature q2, it has the configuration of the feature q1, and in the special state, the variable ball entry means is switched between the open state and the closed state. Since a predetermined profit is given based on the occurrence of the detection, it is possible to play a game aiming at making the game ball enter the variable ball entering means in the special state. Having the configuration of the feature q1, in the first predetermined situation and the second predetermined situation, even if a game ball exists within the detection range of the predetermined detection means, the predetermined ball entry processing is not executed. Therefore, a state occurs in which the game ball entering the variable ball entry means immediately before the end of the first predetermined situation exists within the detection range of the predetermined detection means in the second predetermined situation occurring after the end of the first predetermined situation. Even if it does, it is possible to prevent a predetermined profit from being granted. As a result, it is possible to prevent the predetermined profit from being awarded due to the game ball entering the variable ball entering means in the first predetermined situation.

Feature q3. Specific end trigger (end of post-confirmation invalidation period in 33rd, 34th, 37th to 39th embodiments, end of post-confirmation invalidation period in 35th and 36th embodiments, invalidation for V winning feature q1 or The gaming machine described in q2.

According to the feature q3, after the first predetermined situation ends, the second predetermined situation can be maintained until the occurrence of the specific termination trigger. Based on this, the second predetermined situation can be terminated. As a result, after the occurrence of the specific end opportunity, it is possible to set a state in which the predetermined ball-entering corresponding process can be executed based on the detection of the game ball by the predetermined detecting means.

Feature q4. Predetermined lottery opportunities (in the 33rd, 34th, 37th to 39th embodiments, winning the first operating port 33, winning the second operating port 34, winning the through gate 35, winning the 35th, 36th In the embodiment, predetermined lottery processing (win/fail judgment processing, general-figure judgment processing) is performed based on the occurrence of winning to the first operation port 33, winning to the special winning device 151, and winning to the through gate 35). Predetermined lottery processing execution means to be executed (function to execute the processing of steps SG917 and SG918 in the main side MPU 82 in the 33rd to 36th embodiments, step SK417 and step SK417 in the main side MPU 82 in the 37th to 39th embodiments function to execute the processing of SK418);
A predetermined game rotation operation (variation display of the pattern in the special figure display units 37a and 37b, normal The predetermined game round execution means (first special figure display portion 37a, second special figure display portion 37b, Predetermined game round control means for controlling the general pattern display unit 38a) (the function of executing the processing of steps SG917 and SG918 in the main side MPU 82 in the 33rd to 36th embodiments, the main in the 37th to 39th embodiments a function of executing the processing of steps SK417 and SK418 in the side MPU 82);
When the result of the predetermined lottery process becomes a predetermined result (jackpot result, electrified open winning), and the predetermined game rotation operation for controlling the predetermined game rotation execution means to be in a state corresponding to the predetermined result is completed. Special transition means for transitioning to the special state (function to execute special figure special electric control processing in main side MPU 82, function to perform general figure general electric control processing in main side MPU 82),
with
The period from the timing when the first predetermined situation ends to the timing when the second predetermined situation occurs In the embodiment, the invalidation period after confirmation, the invalidation period for V winning) is the shortest period selected as the predetermined duration first after the first predetermined situation ends (special figure display section in normal game state Characteristic q3 characterized by being shorter than the shortest fluctuation display period of the reach display mode of 37a and 37b, the fluctuation period of the normal pattern in the normal game state) or the same length as the shortest period game machine.

According to feature q4, the game is started after the end of the first predetermined situation, the result of the predetermined lottery process performed based on the occurrence of the predetermined lottery opportunity becomes the predetermined result, and the state corresponding to the predetermined result is established. When the predetermined game rotation operation for controlling the predetermined game rotation execution means ends and shifts to the special state, the timing before the transition to the special state or the second at the timing to transition to the special state A given situation can be terminated. As a result, although the game is started after the end of the first predetermined situation and the transition to the special state occurs, the predetermined ball entry corresponding processing is executed based on the detection of the game ball by the predetermined detection means in the special state. It is possible to prevent unexecuted situations.

Feature q5. After the end of the special state, a third predetermined situation (thirty-third, thirty-fourth, thirty-seventh to thirty-ninth) in which the predetermined ball entry processing is executed based on the detection of the game ball by the predetermined detection means In the embodiment, a special electric monitoring delay period, a general electric monitoring delay period, and in the 35th and 36th embodiments, a special electric monitoring delay period, a V winning monitoring delay period, and a general electric monitoring delay period) occur. (33rd, 34th and 37th to 39th embodiments, the main MPU 82 performs the processing of step SH105; in the 35th to 36th embodiments, the main MPU 82 the function of executing steps SI510 and SI513 in the main side MPU 82 in the thirty-third to thirty-ninth embodiments). game machine.

According to the feature q5, when the game ball that entered the variable ball entry means immediately before the end of the special state is detected by the predetermined detection means in the third predetermined situation occurring after the end of the special state, the game ball It is possible to execute the predetermined ball entry handling process based on the occurrence of the detection of. As a result, it is possible to prevent a situation in which the predetermined ball-entering process is not executed even though the game ball has entered the variable ball-entering means in the special state. Therefore, by making the game ball enter the variable ball entering means in the special state, even if the timing at which the game ball enters the variable ball entering means is the timing immediately before the end of the special state, the predetermined ball entering correspondence is ensured. It is possible to reassure the player by making the player feel that the processing is executed.

Feature q6. Predetermined abnormality response situation that does not correspond to any of the special state, the first predetermined situation, and the second predetermined situation Situation that does not fall under any of the open period, special electric monitoring delay period, input/output confirmation period, and post-confirmation invalidation period, open period of the second operation port 34 based on the electric power open election, general electric monitoring delay period, input A situation where neither the output confirmation period nor the post-confirmation invalidation period applies, and in the 35th and 36th embodiments, the opening period of the special electric prize winning device 32 in the opening and closing execution mode, the special electric monitoring delay period, the input/output confirmation period and confirmation A situation that does not fall under any of the post-disabled period, a period that does not correspond to the special prize winning device 151 opening period based on the electric power open winning, a general electric monitoring delay period, an input/output confirmation period, and a post-confirmation invalidation period. ), based on the occurrence of detection of a game ball by the predetermined detection means, a predetermined ball entry abnormality notification (in the 33rd, 34th, 37th to 39th embodiments, a special electric ball error notification, a general electric Predetermined ball ball error notification means (33rd, 34th, 3rd In the thirty-seventh to thirty-ninth embodiments, the function of executing the processing of steps SH608 to SH610 and SH618 in the main MPU 82. In the thirty-fifth and thirty-sixth embodiments, the processing in steps SJ208 to SJ210 and SJ218 in the main MPU 82. and a function of executing the processes of steps SJ311 to SJ313).

According to the feature q6, based on the execution of the predetermined ball entry abnormality notification, the variable ball entry means receives the game ball in the predetermined abnormality response situation that does not correspond to any of the special state, the first predetermined situation, and the second predetermined situation. It is possible for the manager of the game hall to grasp that the game ball has been detected by the predetermined detection means in the predetermined abnormal situation. The event in which the game ball is detected by the predetermined detection means in the second predetermined situation is excluded from the events subject to execution of the predetermined ball entry abnormality notification. Therefore, when the game ball entering the variable ball entering means immediately before the end of the first predetermined situation is detected in the second predetermined situation occurring after the end of the first predetermined situation, the game ball is detected. It is possible to prevent the predetermined ball entry abnormality notification from being performed based on the fact that the ball has been entered. As a result, it is possible to prevent the predetermined ball entry abnormality notification from being performed due to the game ball entering the variable ball entry means in the first predetermined situation.

Feature q7. The first predetermined condition generating means is characterized in that the first predetermined condition is generated based on the occurrence of the predetermined execution opportunity when supply of operating power is started. The gaming machine according to any one of q1 to q6.

According to feature q7, switching between the open state and the closed state of the variable ball-entering means is performed based on occurrence of a predetermined execution trigger when supply of operating power is started. be able to. As a result, when switching between the open state and the closed state of the variable ball-entering means is started after the supply of the operating power is started, the switching operation of the variable ball-entering means is confirmed and the variable It is possible for the administrator of the game hall to specify whether or not the switching operation of the ball entering means is normally performed. Therefore, it is possible to reduce the possibility that the game is played in a state where the switching operation of the variable ball-entering means is not normally performed.

For the configuration of features q1 to q7, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

According to the invention according to the characteristic q group, the following problems can be solved.

Pachinko machines, slot machines, and the like are known as types of gaming machines. In these gaming machines, it is known that an internal lottery is held based on the establishment of a predetermined lottery condition, and a privilege is given to the player according to the result of the internal lottery.

Specifically, the pachinko machine has a configuration in which a winning result is obtained in an internal lottery based on the entry of a game ball into a ball entry section provided in the game area, and a transition to a special game state. A configuration is known in which a transition is made to a special game state based on a game ball entering a part. When the game shifts to the special game state, for example, opening and closing of a ball entry device provided in the game area is started, and game balls are paid out based on the entry into the ball entry device.

Here, in a gaming machine such as the one exemplified above, it is necessary to suitably execute a process corresponding to the entry of a game ball into the ball entry means provided in the gaming machine. There is room for

<Characteristic r group>
Feature r1. Control means (main MPU 82) that executes various processes and temporarily stores information in internal storage means (registers of main MPU 82) when executing the processes;
a predetermined storage means (main-side RAM 84) in which information is temporarily stored when the control means executes various processes;
In a game machine equipped with
The control means uses the internal storage means without using the predetermined storage means to perform a predetermined confirmation process (port output confirmation process) that enables a predetermined operation confirmation. A game machine characterized by comprising means (a function of executing port output confirmation processing in the main side MPU 82 in the 40th embodiment).

According to the characteristic r1, the predetermined confirmation process is executed using the internal storage means without using the predetermined storage means. You can keep it from changing. Thus, after executing the predetermined confirmation process, it is possible to use the information stored in the predetermined storage means before executing the predetermined confirmation process.

Feature r2. The predetermined confirmation means performs, as the predetermined confirmation process, a predetermined state change process ( The gaming machine according to feature r1, further comprising predetermined state change execution means (a function of executing the port output confirmation process in the main MPU 82 in the fortieth embodiment) for executing the port output confirmation process). .

According to the feature r2, in the situation where the predetermined state change process is executed, the state change of the object is checked to confirm whether or not the state of the object changes normally. Can be made identifiable by an administrator. As a result, it is possible to reduce the possibility that the game will be played in a state where the state change of the object is not performed normally.

Feature r3. As the object, movable means (special electric prize winning device 32, general electric accessory 34a) exists,
Characteristic feature r2, characterized in that a predetermined operation of the movable means (opening/closing operation of the special electric prize winning device 32 and the general electric accessory 34a during the output confirmation period) is performed by executing the predetermined state change processing. game machine.

According to the feature r3, in a situation where the predetermined state change process is executed, the manager of the game hall checks whether or not the predetermined operation of the movable means is normally performed by confirming the operation mode of the movable means. can be made identifiable. As a result, it is possible to reduce the possibility that the game will be played in a state in which the predetermined operation of the movable means is not performed normally.

Feature r4. Equipped with predetermined ball entry means (special electric winning device 32, second operation port 34) that allows game balls flowing down the game area to enter,
As the movable means, a predetermined opening/closing switching means (the opening/closing door 32a of the special electric prize winning device 32, the ordinary electric role of the second operation opening 34) is provided so as to switch the predetermined ball entry means between an open state and a closed state. entity 34a) is present and
The gaming machine according to feature r3, wherein the predetermined operation of the predetermined opening/closing switching means is an operation of switching the predetermined ball-entering means between the open state and the closed state.

According to the feature r4, by checking the operation mode of the predetermined opening/closing switching means in the situation where the predetermined state change process is executed, the operation of switching the predetermined ball-entering means between the open state and the closed state can be performed normally. It is possible for the manager of the game hall to specify whether or not the state is to be executed. As a result, it is possible to reduce the possibility that the game will be played in a state in which the action is not normally executed.

Feature r5. The predetermined state change executing means stores predetermined state information (first output setting data) for setting the object to a predetermined state (open state) in the predetermined state change processing. Predetermined state information setting means (line number “1307” ” processing),
The predetermined state information setting process is repeatedly executed a predetermined number of times (327675 times in the fortieth embodiment) in the predetermined state change process. game machine.

According to the feature r5, the state in which the predetermined state information is set in the predetermined internal storage area can be maintained over the period in which the predetermined state information setting process is repeatedly executed a predetermined number of times. can. As a result, the target object is kept in a predetermined state over a period in which the predetermined state information setting processing is repeatedly executed a predetermined number of times, while eliminating the need for the processing for measuring the period using the timer counter. can do. Therefore, it is possible to simplify the processing configuration for keeping the object in a predetermined state over the period.

Feature r6. In the predetermined state change process, the predetermined state change executing means stores specific state information (second output setting data) for setting the object to a specific state (closed state) in a predetermined internal storage area of the internal storage means. Specific state information setting means (line number “1307” ” processing),
The specific state information setting process is repeatedly executed a predetermined number of times (327675 times in the fortieth embodiment) in the predetermined state change process. game machine.

According to feature r6, the state in which the specific state information is set in the predetermined internal storage area can be maintained over the period in which the specific state information setting process is repeatedly executed a predetermined number of times. can. As a result, the target object is kept in a specific state over a period in which the specific state information setting process is repeatedly executed a predetermined number of times while eliminating the need for the process of measuring the period using the timer counter. can do. Therefore, it is possible to simplify the processing configuration for keeping the object in the specific state over the period.

Feature r7. a state (open state or closed state) corresponding to information (first output setting data or second output setting data) set in a predetermined internal storage area (output register 594) of the internal storage means; The game machine according to any one of features r2 to r6, characterized by comprising an object control means (port setting circuit 595) for making the

According to the characteristic r7, since the predetermined internal storage area is provided in the internal storage means, it is possible to change the state of the object without using the predetermined storage means.

Feature r8. In the predetermined state change processing, the predetermined state change execution means performs a predetermined information setting process ( predetermined information setting means (function for executing the process of line number "1307" in the main MPU 82) for executing the process of the line number "1307" of the main MPU 82 in the 40th embodiment,
The gaming machine according to feature r7, wherein the predetermined information setting process is repeatedly executed in the predetermined state change process.

According to the feature r8, in a situation where the predetermined state change process is being executed, the state of the object is set to the state corresponding to the information set in the specific internal storage area of the internal storage means without using the predetermined storage means. can be This makes it possible to change the state of the object by changing the information set in the specific internal storage area.

Feature r9. Predetermined number of times information corresponding to the number of times the predetermined information setting process is repeatedly executed in the predetermined state change process ("32H" set in the B register 592a in the fortieth embodiment, "32H" set in the C register 592b) 05H" and "FFFFH" set in the DE register 593) are set in the special internal storage areas (B register 592a, C register 592b, DE register 593) of the internal storage means, and using the special internal storage areas Predetermined number of times of execution measuring means for measuring the number of times of execution of the predetermined information setting process (executing the processes of line number "1308", line number "1310" and line number "1316" of the main side MPU 82 in the 40th embodiment function).

According to feature r9, since the special internal storage area is provided in the internal storage means, the predetermined information setting process is performed corresponding to the predetermined number of times information set in the special internal storage area without using the predetermined storage means. It can be run repeatedly for a number of times. Thereby, the state of the object is set to the state corresponding to the information set in the specific internal storage area of the internal storage means over the period in which the predetermined information setting process is executed the number of times corresponding to the predetermined number of information. be able to. Since the configuration uses a special internal storage area to measure the number of executions of the predetermined information setting process, compared to a configuration in which instructions for executing the predetermined information setting process are set for the predetermined number of times, It is possible to simplify the processing configuration for repeatedly executing a predetermined information setting process over a predetermined number of times.

Feature r10. When predetermined state information (first output setting data) for setting the object to a predetermined state (open state) is set in the specific internal storage area, the object is specified in the specific internal storage area. state (closed state) is set so that the specific state information (second output setting data) is set, and when the specific state information is set in the specific internal storage area, the State information change processing (processing of line number "1313" and line number "1314" of the main side MPU 82 in the 40th embodiment) for setting the predetermined state information in the specific internal storage area The gaming machine according to feature r8 or r9, characterized by comprising status information changing means to be executed (a function of executing the processing of line number "1313" and line number "1314" in the main side MPU 82).

According to feature r10, by executing the state information change process in a state where the predetermined state information is set in the specific internal storage area, the information set in the specific internal storage area is changed from the predetermined state information to the specific state information. In addition, by executing the state information change process in a state where the specific state information is set in the specific internal storage area, the information set in the specific internal storage area can be changed from the specific state information to the predetermined Can be changed to state information. Thereby, it is possible to simplify the processing configuration for changing the information set in the specific internal storage area between the predetermined state information and the specific state information.

Feature r11. The specific state information is numerical information (“00000000B” in the fortieth embodiment) in which all bits have a value of “0”,
The state information change processing inverts information of "0" or "1" stored in each bit of information stored in the specific internal storage area between "0" and "1". (numerical information calculated by the processing of line number "1313" of the main MPU 82 in the fortieth embodiment), and deriving the logical product of the post-inversion information and the predetermined state information. The gaming machine according to feature r10, characterized by:

According to the characteristic r11, the information set in the specific internal storage area can be changed between the specific status information and the specific status information without using the specific storage means. Also, it is possible to simplify the processing configuration for changing the information set in the specific internal storage area between the predetermined state information and the specific state information.

Feature r12. In the state information change processing, the post-inversion information is derived by deriving the logical sum of the information set in the specific internal storage area and numerical information in which the value of all bits is "0". The gaming machine according to feature r11, characterized by:

According to the characteristic r12, the information of "0" or "1" stored in each bit of the information stored in the specific internal storage area is inverted between "0" and "1", and after inversion A processing configuration for deriving information can be simplified.

Feature r13. The gaming machine according to any one of features r10 to r12, wherein the state information change process is repeatedly executed a plurality of times in one process of the predetermined state change process.

According to feature r13, in a configuration in which the state information change process is repeatedly executed a plurality of times in one process of the predetermined state change process, the configuration of feature r10 is provided, and the predetermined state information is set in the specific internal storage area. By executing the state information change processing in the state where the specified internal storage area is set, the information set in the specific internal storage area is changed from the predetermined state information to the specific state information, and the specific state information is set in the specific internal storage area. By executing the state information change process in the state where the state information is set, the information set in the specific internal storage area is changed from the specific state information to the predetermined state information. As a result, the information set in the specific internal storage area is changed from the specific status information to the specific status information as a separate process from the process of changing the information set in the specific internal storage area from the specific status information to the specific status information. Compared to a configuration in which a change process is set, the processing configuration for changing the information set in the specific internal storage area between the predetermined state information and the specific state information can be simplified.

Feature r14. The control means includes a specific state change process (special figure special electric control process, general figure general electric control processing) specific state change execution means (function to execute special figure special electric control processing in main side MPU 82, function to perform general figure general electric control processing in main side MPU 82),
The predetermined storage means stores specific state change information (information set in the special figure side timer counter 523c, information set in the general figure side timer counter 523d) when the specific state change process is executed. The gaming machine according to any one of features r2 to r13, characterized by comprising a specific state change information storage area (special figure side timer counter 523c, normal figure side timer counter 523d).

According to the characteristic r14, in the configuration having the configuration of the characteristic r1 and executing the predetermined confirmation process using the internal storage means without using the predetermined storage means, when the specific state change process is executed Since the predetermined storage means is used, the internal storage means can be made available for executing processes other than the specific state change process while the specific state change process is being executed.

Feature r15. Information erasure processing (RAM clear processing) (function for executing RAM clear processing in the main MPU 82),
The predetermined state change executing means executes the predetermined state change processing when the predetermined information erasure trigger occurs,
The gaming machine according to feature r14, wherein the specific state change information storage area is included in the erasure target area in the information erasure process.

According to feature r15, even if the predetermined state change process is executed, the information stored in the predetermined storage means does not change. In this case, the first specific state change process can be executed with the information in the specific state change information storage area erased.

Feature r16. The feature r15 characterized in that when the predetermined information erasing opportunity does not occur, the information erasing process is not executed, and the information stored in the specific state change information storage area is maintained. The game machine described.

According to the feature r16, when the predetermined information erasing opportunity does not occur, the specific state change process is executed in the special game state using the information stored in the specific state change information storage area. can be made possible.

Feature r17. Information erasure processing (RAM clear processing) (function of executing the processing of step SL520 in the main MPU 82 in the 40th embodiment, function of executing the processing of step SG701 in the main MPU 82),
The gaming machine according to any one of features r1 to r16, wherein the predetermined confirmation means executes the predetermined confirmation process when the predetermined information erasure trigger occurs.

According to the feature r17, the configuration of the feature r1 is provided, and the predetermined confirmation process is executed using the internal storage means without using the predetermined storage means. In both the case where the processing for confirmation is executed, and the case where the information erasure processing is executed after the execution of the predetermined confirmation processing, after the information erasure processing and the predetermined confirmation processing are completed, the predetermined storage means is deleted in the information erasure processing. It is possible to maintain the state in which the information stored in the area to be erased among the areas is erased.

Feature r18. Means for executing profit granting processing (property determination processing) in a manner corresponding to the set value set as the object to be used (function for executing the propriety determination processing in the main MPU 82);
Predetermined setting executing means (thirty-third to In the thirty-ninth embodiment, the function of executing the processing of step SG618 in the main MPU 82; in the fortieth embodiment, the function of executing the processing of step SL518 in the main MPU 82;
with
The gaming machine according to feature r17, wherein the predetermined information erasure trigger is generated based on the fact that the predetermined related operation is performed when supply of operating power is started.

According to the feature r18, it is possible to set the setting value to be used based on the fact that the predetermined related operation is performed when the supply of the operating power is started, and the predetermined confirmation processing can be performed. As a result, a manager of a game hall in which a set value to be used is set by performing a predetermined related operation can set the set value and confirm a predetermined operation. can be done.

Feature r19. Based on the fact that the predetermined related operation is performed when the supply of operating power is started, or the fact that a specific related operation (RAM clear operation) is performed when the supply of operating power is started, the predetermined It is a configuration that triggers the information erasure of
The predetermined confirmation means executes the predetermined confirmation process after the information erasure process is executed,
The program used for executing the predetermined confirmation process after the information erasing process is executed based on the execution of the predetermined related operation when supply of operating power is started, The program is the same as the program used for executing the predetermined confirmation process after the information erasing process is executed based on the fact that the specific related operation is performed when the supply is started. The gaming machine according to feature r18.

According to feature r19, what is the program used to execute the predetermined confirmation process after the information erasure process is executed based on the execution of the predetermined related operation when the supply of operating power is started? As another program, a program is stored that is used for executing a predetermined confirmation process after the information erasing process is executed based on the fact that a specific related operation is performed when the supply of operating power is started. The data volume of the program stored in advance for executing the predetermined confirmation process can be reduced compared to the configuration in which the confirmation process is performed.

For the configuration of features r1 to r19, features A1 to A8, features B1 to B8, features C1 to C8, features D1 to D8, features E1 to E9, features F1 to F6, features G1 to G11, features H1 to H8, features I1-I5, features J1-J7, features K1-K7, features L1-L5, features M1-M4, features N1-N8, features O1-O8, features P1-P6, features Q1-Q16, features R1- R6, features S1-S7, features T1-T3, features U1-U5, features V1-V6, features W1-W11, features X1-X14, features Y1-Y10, features Z1-Z10, features a1-a20, features b1- b8, features c1-c6, features d1-d11, features e1-e15, features f1-f15, features g1-g12, features h1-h11, features i1-i18, features j1-j14, features k1-k4, features l1- 119, features m1 to m16, features n1 to n8, features o1 to o16, features p1 to p10, features q1 to q7, and features r1 to r19. As a result, it is possible to obtain a synergistic effect due to the combined configuration.

According to the invention according to the characteristic r group, the following problems can be solved.

Pachinko machines, slot machines, and the like are known as types of gaming machines. In these gaming machines, it is known that an internal lottery is held based on the establishment of a predetermined lottery condition, and a privilege is given to the player according to the result of the internal lottery.

Specifically, the pachinko machine has a configuration in which a winning result is obtained in an internal lottery based on the entry of a game ball into a ball entry section provided in the game area, and a transition to a special game state. A configuration is known in which a transition is made to a special game state based on a game ball entering a part. When the game shifts to the special game state, for example, opening and closing of a ball entry device provided in the game area is started, and game balls are paid out based on the entry into the ball entry device.

Here, in the game machines such as those exemplified above, it is necessary to execute the processing favorably, and there is still room for improvement in this regard.

The basic configuration of a gaming machine to which each of the above features can be applied or to which each feature is applied is shown below.

Pachinko machine: an operation means operated by a player, a game ball shooting means for shooting game balls based on the operation of the operation means, a ball passage for guiding the shot game balls to a predetermined game area, and a game This game machine is provided with game parts arranged in an area, and gives a privilege to a player when a game ball passes through a predetermined passing part of the game parts.

A game machine such as a slot machine: equipped with a pattern display device for variably displaying a plurality of patterns, the variable display of the plurality of patterns is started by the operation of the start operation means, and the operation of the stop operation means is caused by the operation of the stop operation means. The game machine stops the variable display of the plurality of pictures after a predetermined period of time has passed, and gives a privilege to the player according to the pictures after the stop.

DESCRIPTION OF SYMBOLS 10... Pachinko machine, 24a... Out mouth, 27... Game ball shooting mechanism, 31... General winning opening, 32... Special electric winning device, 32a... Open/close door, 32b... Drive unit for special electric electric, 33... First operation opening, 34 ... second operation port, 34a ... general electric accessory, 35 ... through gate, 37a ... first special figure display section, 37b ... second special figure display section, 38a ... general figure display section, 41 ... pattern display device, 43 State suggesting area 81 Main control board 82 Main MPU 83 Main ROM 84 Main RAM 85 Power outage monitoring board 93 Sound and light MPU 103 Display MPU 131 Ceiling counter 133 High probability state counter 134 Time saving state counter 143 Setting key insertion part 151 Special winning device 155 Guide member 157 Blocking member 162 Distribution side opening/closing member 163 Shaking Drive unit for minute entrance 166 Switching piece 167 Switching drive unit 195 Setting key insertion unit 196 Reset button 201 to 204 First to fourth notification display devices 205 Setting display device , 211 work area for specific control, 211a first security counter, 211b special electric monitoring delay timer counter, 211c general electric monitoring delay timer counter, 211d confirmation flag group, 211e previous value storage area, 212 Stack area for specific control 213 Work area for non-specific control 213a to 213h 1st to 8th award monitoring timer counter 213k Second security counter 213l to 213r Abnormality flag 214 Non-specific Stack area for control 223...Register area 223b...Command transmission buffer 223c...Protect register 224...Command transmission circuit 225...RAM management circuit 234a...Special electric detection sensor 236a...Second operation port detection sensor 251 ... normal counter area, 252 ... calculation result storage area, 311 ... address table for game cycle period, 313 ... game cycle period table for first stage time reduction, 314 ... game cycle period table for second stage time reduction, 315 ... Game cycle period table for third stage time saving, 322... 1st time saving state flag, 323... 2nd time saving state flag, 324... 3rd time saving state flag, 325... ceiling counter, 326... counter for state determination, 327... state Continuation counter 332 External terminal for the first jackpot signal 333 External terminal for the second jackpot signal 365 Time-saving game number counter 366 Time-saving small win number counter 371 Event target counter 37 4 ... 3rd time reduction state counter, 375 ... time reduction continuation counter, 382 ... 2nd time reduction standby counter, 383 ... 3rd time reduction standby counter, 387 ... 3rd time reduction standby counter, 395 ... standby target counter, 401 ... 3A reduction time standby Counter, 402... 3B time saving standby counter, 403... 3C time saving waiting counter, 406... 1st waiting counter, 407... 2nd waiting counter, 408... 3rd waiting counter, 411... 3rd time saving small hit number counter, 412 ... 3rd time-saving game number counter, 422 to 424 ... 0th to 2nd malfunction prevention circuit, 431 ... external output circuit, 433 ... first logic IC, 434 ... second logic IC, 441 to 445 ... 0th to 4th NAND circuit 451 to 456 0th to 5th NOT circuit 464 pull-down resistor 472 malfunction prevention circuit 473 to 475 first to third selection circuit 481 first logic IC 482 to 484 Second logic IC 491 to 496 0th to 5th NAND circuits 497 Pull-down resistors 511 to 519 0th to 8th NOT circuits 521 Input/output confirmation display device 523a Confirmation timer counter 523c Special Figure side timer counter 523d... Normal figure side timer counter 531... V winning device 532... V winning side opening/closing member 535b... Ejection passage area 535c... V winning passage area 536... Switching piece 538... Count detection sensor , 539... V winning detection sensor, 542... Switching control counter, 543... V winning timer counter, 544... Confirmed display device, 556... Special winning detection sensor, 573... Timer counter for confirmation, 581... Timer counter for confirmation, 591b ... A register, 592a ... B register, 592b ... C register, 593 ... DE register, 594 ... output register, 595 ... port setting circuit, LN14, LN21 ... signal line, NS0 to NS2 ... 0th to 2nd terminals, NS10 NS13: 0th to 3rd terminals, PA2: left side area, PA3: right side area.

Claims (10)

a movable means;
specific action executing means for controlling the movable means so that the specific action of the movable means is performed in a special game state;
Predetermined action executing means for controlling the movable means so as to perform a predetermined action of positioning the movable means at a predetermined position based on occurrence of a predetermined execution trigger when supply of operating power is started. and,
A game machine characterized by comprising: a predetermined process executing means for executing a predetermined process based on occurrence of the predetermined execution trigger when supply of operating power is started;
2. A game machine according to claim 1, wherein said predetermined action executing means controls said movable means so that said predetermined action is performed when said predetermined process is executed. The predetermined process executing means stores the predetermined process in an area to be erased in the predetermined storage means as the predetermined process based on the occurrence of the predetermined execution trigger when the supply of operating power is started. 3. The game machine according to claim 2, further comprising erasure execution means for executing information erasure processing for erasing information. The predetermined storage means has an operating state storage area for storing operating state information indicating the operating state of the movable means,
The specific action executing means does not erase the action state information stored in the action state storage area at the end of the special game state, and stores the action state information in the action state storage area at the start of the special game state. A configuration for controlling the movable means by using the operating state information stored in the
4. The game machine according to claim 3, wherein the operating state information stored in the operating state storage area is erased in the information erasing process. 5. The gaming machine according to any one of claims 2 to 4, wherein the predetermined action of the movable means is not performed when the predetermined process is not performed. 6. The apparatus according to any one of claims 1 to 5, further comprising predetermined operation abnormality annunciation means for executing a predetermined operation abnormality notification when said movable means is not positioned at said predetermined position in said predetermined operation of said movable means. 1. The gaming machine according to any one of the above. special ball entry means having a first special area and a second special area through which a game ball can pass;
a first special detection means for detecting a game ball guided to the first special area;
a second special detection means for detecting the game ball guided to the second special area;
with
The movable means has a first guide state in which a game ball that has entered the special ball entering means is guided to the first special area, and a game ball that has entered the special ball entering means is guided to the second special area. 7. The game machine according to any one of claims 1 to 6, wherein the game machine is for switching between a second guidance state and a guidance state. predetermined operation execution means for controlling the movable means so that the predetermined operation of the movable means is performed until a predetermined termination trigger occurs when the predetermined operation of the movable means is performed; 8. The gaming machine according to any one of claims 1 to 7, characterized by: The predetermined action execution means uses the same program as the program used by the specific action execution means to execute processing for causing the movable means to perform the specific action, and 9. The game machine according to claim 8, wherein a process for performing a predetermined action is executed. special ball entry means having a first special area and a second special area through which a game ball can pass;
a first special detection means for detecting a game ball guided to the first special area;
a second special detection means for detecting the game ball guided to the second special area;
with
The movable means has a first guide state in which a game ball that has entered the special ball entering means is guided to the first special area, and a game ball that has entered the special ball entering means is guided to the second special area. for switching between a guided second guidance state,
Both detection of a game ball guided to the first special area and detection of a game ball guided to the second special area occur in a predetermined operation execution situation in which the predetermined operation of the movable means is performed. 10. The game machine according to claim 8, further comprising predetermined detection confirmation notification means for executing predetermined detection confirmation notification when the game is detected.

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