JP6061211B1 - Game machine - Google Patents

Abstract

A gaming machine capable of maintaining a gaming interest is provided. The pachinko machine 1 has a starting port that can receive a game ball driven into a game area 5a. When a game ball enters the starting port, a determination process for winning is performed. After that, the variable display according to the result of the determination process is started, and when a winning symbol is displayed in the variable display, a winning game is started. In this regard, in the pachinko machine 1, a timer effect related to a predetermined effect can be started during the execution of the variable display, and the degree of expectation for the player can be indicated by the state of the effect at that time. [Selection] Figure 60

Description

  The present invention relates to a gaming machine such as a pachinko gaming machine (generally also referred to as a “pachinko machine”).

  2. Description of the Related Art Conventionally, as can be seen in, for example, Patent Document 1, a gaming machine in which an effect corresponding to a result of jackpot determination is performed is known.

  That is, in the gaming machine described in Patent Document 1, it is first determined whether or not there is a winning game ball at the starting port. Then, when a game ball is won at the starting port, a determination process for determining whether or not a big hit is made is performed. At this time, the special symbol is variably displayed on the predetermined display for a predetermined fluctuation time. Then, when a predetermined fluctuation time has elapsed, after the special symbol is stopped and displayed in a special display mode indicating that the jackpot is won, a special game in which a lot of prize balls are paid out to the player is performed.

  In addition, in the gaming machine described in Patent Document 1, a game effect is maintained until a special game is performed by performing a count effect display for performing a count display related to a predetermined effect.

Japanese Patent Laying-Open No. 2015-085082

However, in the conventional gaming machines, lowering of Yu technique interest is concerned.

  This invention is made in view of such a situation, and it aims at providing the gaming machine which can suppress the fall of a game entertainment attraction.

Means 1: Determination means for performing determination based on the fact that the game medium has passed through the starting area;
A symbol effect control means for performing a symbol effect based on a result of the determination by the determination means;
A gaming state control means capable of executing a control to shift to a specific gaming state advantageous to the player after the particular symbol aspect appears when a particular symbol aspect appears in the symbol effect executed by the symbol effect control means. When
With
The symbol effect control means is:
A first effect executing means capable of executing a first effect in a first period of the symbol effects ;
A second effect executing means capable of executing a second effect in a second period that does not overlap the first period of the symbol effects ; and
A first aspect that spans the first period and does not straddle the second period as a count effect in which a count display related to an effect different from both the first effect and the second effect is performed during the execution of the symbol effect And a second mode that does not straddle the first period and straddle the second period are prepared, and the count effect is executed in any of a plurality of modes including at least the first mode and the second mode. Possible count production means
Have
When both the first effect and the second effect are executed in one symbol effect in which the count effect is not executed, the second effect is not executed in the one symbol effect in which the count effect is not executed. The ratio of the specific pattern appearance is higher than when one stage is executed.
Even if the second effect is not executed and the first effect is executed within one symbol effect, the first effect is performed when the count effect is executed in the first mode across the first effect. And the second effect is performed in one symbol effect, and the ratio of the specific symbol aspect is higher than when the count effect is executed in the second aspect across the second effect. As described above , the gaming machine characterized in that the first effect executing means, the second effect executing means, and the count effect means are controlled based on the result of the determination by the determining means .

  According to the present invention, it is possible to suppress a decrease in gaming interest.

It is a front view of the pachinko machine which is one embodiment of the present invention. It is a right view of a pachinko machine. It is a left view of a pachinko machine. It is a rear view of a pachinko machine. It is the perspective view which looked at the pachinko machine from the front right. It is the perspective view which looked at the pachinko machine from the left front. It is the perspective view which looked at the pachinko machine from back. It is the perspective view of the pachinko machine seen from the front in the state where the door frame was opened from the main body frame and the main body frame was opened from the outer frame. It is the disassembled perspective view which decomposed | disassembled the pachinko machine into the door frame, the game board, the main body frame, and the outer frame, and was seen from the front. It is the disassembled perspective view which decomposed | disassembled the pachinko machine into the door frame, the game board, the main body frame, and the outer frame, and was seen from the back. It is a front view of the outer frame in a pachinko machine. It is a right view of an outer frame. It is the perspective view which looked at the outer frame from the front. It is the perspective view which looked at the outer frame from back. It is the disassembled perspective view which decomposed | disassembled the outer frame and was seen from the front. (A) is the perspective view which looked at the site | part of the outer frame side upper hinge member in an outer frame from the lower side, omitting the left frame member, (b) is the exploded perspective view which decomposes | disassembles and shows (a). is there. (A) is a perspective view which expands and shows the state by which the main body frame side upper hinge member of the main body frame is removed with respect to the outer frame side upper hinge member of an outer frame, (b) is an outer upper hinge member. It is a perspective view which expands and shows the state by which the main body side upper hinge member is attached to. It is explanatory drawing which shows the effect | action of the lock member in an outer frame. It is a front view of the door frame in a pachinko machine. It is a right view of a door frame. It is a left view of a door frame. It is a rear view of a door frame. It is the perspective view which looked at the door frame from the right front. It is the perspective view which looked at the door frame from the left front. It is the perspective view which looked at the door frame from back. It is sectional drawing cut | disconnected by the AA line in FIG. It is sectional drawing cut | disconnected by the BB line in FIG. It is sectional drawing cut | disconnected by the CC line | wire in FIG. It is the disassembled perspective view which decomposed | disassembled the door frame for every main member and was seen from the front. It is the disassembled perspective view which decomposed | disassembled the door frame for every main member and was seen from back. (A) is the perspective view which looked at the door frame base unit in a door frame from the front, (b) is the perspective view which looked at the door frame base unit from the back. It is the disassembled perspective view which decomposed | disassembled the door frame base unit for every main member, and was seen from the front. It is the disassembled perspective view which decomposed | disassembled the door frame base unit for every main member, and was seen from back. (A) is a front view of the rendering operation unit in the door frame, and (b) is a right side view of the rendering operation unit. (A) is the perspective view which looked at the production operation unit from the front, (b) is the perspective view which looked at the production operation unit from the back. FIG. 11 is an explanatory view of the effect operation unit as viewed from the direction in which the central axis of the operation button extends. It is sectional drawing cut | disconnected by the DD line | wire in Fig.34 (a). It is sectional drawing cut | disconnected by the EE line | wire in FIG.34 (b). (A) is sectional drawing cut | disconnected by the FF line | wire in FIG.34 (b), (b) is an enlarged view of the A section in (a). It is the disassembled perspective view which decomposed | disassembled the production operation unit for every main member, and was seen from the front. FIG. 10 is an exploded perspective view of the production operation unit as seen from the rear after being disassembled for each main member. (A) is the disassembled perspective view which decomposed | disassembled the operation button and was seen from the front, (b) was the exploded perspective view which disassembled the operation button and was seen from the back. It is the disassembled perspective view which decomposed | disassembled the decoration board | substrate unit of the production operation unit, and was seen from the front. It is explanatory drawing which shows the state which pressed the operation button in sectional drawing of the production operation unit of FIG. (A) is a view of the production operation unit as viewed from the direction in which the central axis of the operation button extends, and shows a part of the operation button that is notched and hidden by the first button decoration portion or the button frame of the operation button. It is explanatory drawing shown, (b) is explanatory drawing which shows the site | part which is going to hide by the 1st button decoration part of an operation button, a button frame, etc. in sectional drawing of an effect operation unit. (A) is explanatory drawing shown in the perspective view which looked at the external appearance of the production | presentation operation unit from the front, (b) is explanatory drawing which looked at the external appearance of the production | presentation operation unit from the direction where the central axis of an operation button is extended. . (A) is a front view of the door frame left side unit in the door frame, (b) is a perspective view of the door frame left side unit viewed from the front, and (c) is a view of the door frame left side unit from the back. FIG. It is the disassembled perspective view which decomposed | disassembled the door frame left side unit and was seen from the front. It is the disassembled perspective view which decomposed | disassembled the door frame left side unit and was seen from the back. It is sectional drawing cut | disconnected by the LL line | wire in Fig.47 (a). (A) is a front view of the door frame right side unit in the door frame, (b) is a perspective view of the door frame right side unit viewed from the front, and (c) is a view of the door frame right side unit from the rear. FIG. It is the disassembled perspective view which decomposed | disassembled the door frame right side unit and was seen from the front. It is the disassembled perspective view which decomposed | disassembled the door frame right side unit and was seen from the back. It is sectional drawing cut | disconnected by the MM line | wire in Fig.51 (a). (A) is sectional drawing cut | disconnected by the NN line | wire in Fig.51 (a), (b) is sectional drawing cut | disconnected by the OO line in Fig.51 (a). (A) is the front view of the door frame top unit in a door frame, (b) is the perspective view which looked at the door frame top unit from the front, (c) is the perspective view which looked at the door frame top unit from the back It is. It is the disassembled perspective view which decomposed | disassembled the door frame top unit and was seen from the front. It is the disassembled perspective view which decomposed | disassembled the door frame top unit and was seen from back. It is sectional drawing cut | disconnected by the PP line in FIG. It is a front view of a game board. It is the disassembled perspective view which decomposed | disassembled the game board for every main structure and was seen from the front. It is the disassembled perspective view which decomposed | disassembled the game board for every main structure and was seen from back. It is a front view of the game board except a front unit and a back unit. It is the disassembled perspective view which decomposed | disassembled the game board of FIG. 63 and was seen from before. It is the disassembled perspective view which decomposed | disassembled the game board of FIG. 63 and was seen from the back. It is explanatory drawing which expands and shows the site | part of a function display unit from the front in the state which attached the game board to the pachinko machine. It is the disassembled perspective view which looked at the game panel of the form different from FIG. 63 from the front with the front structural member, the board | substrate holder, and the main control unit. FIG. 68 is an exploded perspective view of FIG. 67 viewed from behind. It is a block diagram of a main control board, a payout control board, and a peripheral control board. FIG. 70 is a block diagram showing a continuation of FIG. 69. It is the schematic of the various detection signals input / output to lending device connection terminal boards, such as a game ball which relays the electrical connection of the payout control board which comprises a main board, CR unit, and a frequency display board. FIG. 70 is a block diagram showing a continuation of FIG. 69. It is a block diagram which shows the outline of peripheral control MPU. It is a block diagram around VDP with a built-in sound source in the liquid crystal and the sound control unit. It is a block diagram which shows the power supply system of a pachinko machine. FIG. 76 is a block diagram showing a continuation of FIG. 75. It is a circuit diagram which shows the circuit of a main control board. It is a circuit diagram which shows a power failure monitoring circuit. It is a circuit diagram which shows the interface circuit for communication between the board | substrates of a main control board and a peripheral control board. It is a circuit diagram which shows the circuit etc. of a payout control part. It is a circuit diagram which shows the payout control input circuit. FIG. 82 is a circuit diagram showing a continuation of FIG. 81. It is a circuit diagram which shows a payout motor drive circuit. It is a circuit diagram which shows CR unit input / output circuit. It is an input / output diagram showing various input / output signals to / from the main control board and various output signals to the external terminal board. It is a figure which shows the arrangement | sequence of the output terminal of an external terminal board. It is a circuit diagram which shows the liquid crystal module circuit which draws the display area of an upper plate side liquid crystal display device. It is a table which shows an example of the various commands transmitted to the payout control board from the main control board. It is a table which shows an example of the various commands transmitted to a peripheral control board from a main control board. 90 is a table showing a continuation of various commands transmitted from the main control board to the peripheral control board in FIG. 89. It is a table which shows an example of the various commands from the payout control board which a main control board receives. It is a flowchart which shows an example of the main control side power-on process. FIG. 93 is a flowchart showing a continuation of main control-side power-on processing in FIG. 92. FIG. It is a flowchart which shows an example of the main control side timer interruption process. It is a flowchart which shows an example of a peripheral control part power-on process. It is a flowchart which shows an example of the peripheral control part V blank interruption process. It is a flowchart which shows an example of a peripheral control part 1ms timer interruption process. It is a flowchart which shows an example of a peripheral control part command reception interruption process. It is a flowchart which shows an example of a peripheral control part power failure warning signal interruption process. It is a flowchart which shows an example of a LOCKN signal log | history creation process. It is a flowchart which shows an example of a connection malfunction determination process. It is a flowchart which shows an example of a connection recovery process. It is a timing chart explaining the timing which outputs a connection confirmation signal with respect to the INIT terminal of the transmitter IC for upper plate side liquid crystals. It is a figure which shows typically a mode that integration was achieved only in components (discrete components) with high security performance with respect to fraud in 1st control part MCG. It is a figure which shows the partial area | region in this base substrate about the base substrate of the main control board concerning a modification. It is a schematic diagram for demonstrating the acquisition principle of the operation information in the vicinity of an opening window. It is AA arrow sectional drawing in FIG. The figure which shows typically the relationship between the special operation receiving part when the pachinko machine 1 is seen by a front view, and the various effect members arrange | positioned in the position which overlaps with this special operation receiving part by a front view. is there. (A) is a figure explaining the 1st operation control aspect with respect to a display part, (b) is a figure explaining the 2nd operation control aspect with respect to a display part. It is a figure explaining the 3rd operation control aspect with respect to a display part. It is a figure explaining the 3rd operation control aspect with respect to a display part. It is a figure explaining the 3rd operation control aspect with respect to a display part. It is a figure explaining the 4th operation control mode to a movable body. It is a figure explaining the 4th operation control mode to a movable body. It is a flowchart which shows the example of a control about the detection information analysis process of the physical object performed in a periphery control part regular process. (A) is a time chart which shows the control when production | generation reception generate | occur | produces in several operation site | parts, (b) shows the mode of generation | occurrence | production of production | production operation | movement when production | generation reception each generate | occur | produces in several operation site | parts. FIG. It is a figure showing example production 1 using a special operation receiving part. It is a figure showing example production 1 using a special operation receiving part. It is a figure which shows the example 2 of production using a special operation receiving part. It is a figure which shows the example 2 of production using a special operation receiving part. It is a flowchart which shows the procedure about a special symbol and a special electric accessory control process (FIG. 94: step S114). It is a flowchart which shows the procedure about a 1st starting port passage process (step S232). It is a flowchart which shows the procedure about a 2nd starting port passage process (step S234). It is a flowchart which shows the procedure about a 1st special symbol process process (step S238). It is a flowchart which shows the procedure about a 1st special symbol normal process (step S280). It is a flowchart which shows the procedure about jackpot determination processing (step S305). (A) is a figure which shows a jackpot determination table, (B), (C) is a figure which shows a symbol determination table. It is a flowchart which shows the procedure about a 1st special symbol stop symbol setting process (step S281). It is a flowchart which shows the procedure about a 1st fluctuation pattern setting process (step S282). It is a flowchart which shows the procedure about a 1st special symbol fluctuation | variation process (step S283). It is a flowchart which shows the procedure about a 1st special symbol stop process (step S284). It is a flowchart which shows the procedure about a normal symbol and a normal electric accessory control process (step S116). It is a flowchart which shows the procedure about a gate part passage process (step S402). It is a flowchart which shows the procedure about a normal symbol normal process (step S403). It is a figure which shows the determination table T1 of the effect pattern (variation effect) referred by the said effect symbol variation start process when it is in a normal game state. It is a flowchart which shows an example of the process sequence about the lottery (notice lottery performed within an effect symbol variation start process) regarding the notice effect which appears within the execution period (design variation time) of an effect pattern. It is a figure which shows an example of the timer notice determination table T2 referred when the said fluctuation | variation (pending to be digested) is not the object of a timer prefetching effect in a normal game state (2nd timer notice lottery). (A) is a figure which shows an example of 1st mission effect determination table T3a (1st mission effect lottery) referred when a notice side timer effect is performed in a normal game state, (b) is a normal game. It is a figure which shows an example of 2nd mission effect determination table T3b (2nd mission effect lottery) referred when a notice side timer effect is not performed in a state. It is a figure which shows an example of the notice side timer type determination table T4 referred in notice side timer type lottery (step S505). The reach type and processing status (when the decision to execute the mission effect (make the conversation notice appear) and when the decision to execute the mission effect (make the conversation notice appear) has not been made) It is a figure which compares and shows the upper limit number of appearance of the timer object candidate effect determined according to the below-mentioned 5th processing status and 6th processing status etc. besides the 1st-4th processing status. Step S508 is a single timer mode (YES in step S506), and in the first processing situation in which a decision to execute a mission effect (make a conversation notice appear) is made (YES in step S507). It is a figure which shows an example of table T5a referred in the process of. If it is in the second processing situation that is a single timer mode (YES in step S506) and that it is determined that the mission effect (make the conversation notice appear) is not executed (NO in step S507), step S523 is performed. It is a figure which shows an example of table T5b referred in the process of. Step S533 is in a third processing state that is a double timer mode (NO in step S506) and that is determined to execute a mission effect (make a conversation notice appear) (YES in step S532). It is a figure which shows an example of table T5c referred in the process of. If it is in the fourth processing state that is a double timer mode (NO in step S506) and has been determined to not execute the mission effect (make the conversation notice appear) (NO in step S532), step S543 It is a figure which shows an example of table T5d referred in the process of. In the first processing situation that is a single timer mode (YES in step S506) and that a mission effect (make a conversation notice appear) is executed (YES in step S507), the process in step S508 It is a figure which shows an example of table T6a-1 referred when it is determined that the number of notices is set to 1 as a result of performing (step S509). In the second processing situation that is a single timer mode (YES in step S506) and that the mission effect (make the conversation notice appear) is not executed (NO in step S507), the process in step S523 It is a figure which shows an example of table T6b-1 referred when the number of notices is determined to be 1 as a result of performing (step S524). In a fourth processing situation that is a double timer mode (NO in step S506) and has been determined to not execute a mission effect (make a conversation notice appear) (NO in step S532), the process of step S543 It is a figure which shows an example of table T6d-2 referred when it is determined that the number of notices is set to 2 as a result of performing (step S544). Corresponds to character reach in the second processing situation that is a single timer mode (YES in step S506) and that the mission effect (make the conversation notice appear) is determined not to be executed (NO in step S507) It is a time chart for demonstrating the specific content of the count display lottery (step 510) performed when the fluctuation number to select is selected. Corresponds to SP reach in the second processing situation where it is a single timer mode (YES in step S506) and a decision is made not to execute a mission effect (make a conversation notice appear) (NO in step S507) It is a time chart for demonstrating the specific content of the count display lottery (step 510) performed when the fluctuation number to select is selected. It is a figure which shows an example of table T7a referred by 1st timer non-target notice lottery (step S512). It is a figure which shows an example of table T7b referred by the 2nd timer non-target notice lottery (step S525). When it is in the fifth processing situation in which the notice timer operation is not executed (NO in step S503) and the decision to execute the mission effect (make the conversation notice appear) (YES in step S552) is made. It is a figure which shows an example of table T5e referred in the process of step S553. In the sixth processing situation in which the notice timer performance is not executed (NO in step S503) and the decision is made not to execute the mission effect (make the conversation notice appear) (NO in step S552). It is a figure which shows an example of table T5f referred in the process of step S563. In the fifth processing situation in which the notice timer performance is not executed (NO in step S503) and the mission effect (make the conversation notice appear) is determined (YES in step S552), step S553 is performed. It is a figure which shows an example of table T6e-1 referred when the number of notices is determined to be 1 as a result of performing this process (step S554). In the fifth processing situation in which the notice timer performance is not executed (NO in step S503) and the mission effect (make the conversation notice appear) is determined (YES in step S552), step S553 is performed. It is a figure which shows an example of table T6e-2 referred when it is determined that the number of notices is set to 2 as a result of performing the process (step S554). In the sixth processing situation in which the notification side timer effect is not executed (NO in step S503) and the mission effect (NO in step S552) is determined not to be executed (NO in step S552), step S563 is performed. It is a figure which shows an example of table T6f-1 referred when it is determined that the number of notices is set to 1 as a result of performing this process (step S564). In the sixth processing situation in which the notification side timer effect is not executed (NO in step S503) and the mission effect (NO in step S552) is determined not to be executed (NO in step S552), step S563 is performed. It is a figure which shows an example of table T6f-2 referred when it is determined that the number of notices is set to 2 as a result of performing this process (step S564). (A) stores hold information (first special symbol) in which the variable display is in execution and three hold information in which the variable display is not executed (all are the first special symbol). It is a figure which shows the example about table T7a referred in the 1st special figure prefetch process when a new winning (1st special symbol) generate | occur | produces in a state. Further, (b) stores hold information (first special symbol) in which the variable display is being executed and two hold information (both being the first special symbol) in which the variable display is not yet executed. It is a figure which shows the example about table T7b referred in the 1st special figure prefetch process, when a new winning (1st special symbol) generate | occur | produces in the state which is in the state. (A), (b) is a figure which shows the example about the table T8a-1 and table T8a-2 which are referred when determining the execution aspect of a timer prefetch effect in the situation where the number of prefetch fluctuation | variation is four. . (A), (b) is a figure which shows the example about the table T8b-1 and table T8b-2 referred when determining the execution aspect of a timer prefetch effect in the condition where the number of prefetch fluctuation | variation is three. . Usually referred to when there is nothing that causes a big hit symbol to appear in the hold information in which the variable display is in execution and the hold information in which the variable display is not executed (for example, hold 1 to hold 3) It is a figure which shows the time holding | maintenance change table T9a. Special that is referenced when there is something that causes a big hit symbol to appear in the hold information in which the variable display is in execution and the hold information in which the variable display is not executed (for example, hold 1 to hold 3) It is a figure which shows the time holding | maintenance change table T9b. It is a figure which shows an example of the process sequence about the process performed in order to implement | achieve a change effect. It is a figure which shows the example of a timer production concretely. It is a figure which shows the example of a timer production concretely. It is a figure which shows the example of a timer production concretely. It is a figure which shows the example of a timer production concretely.

[1. Overall structure of pachinko machine]
A pachinko machine 1 according to an embodiment of the present invention will be described in detail with reference to the drawings. First, with reference to FIG. 1 thru | or FIG. 10, the whole structure of the pachinko machine 1 of this embodiment is demonstrated. FIG. 1 is a front view of a pachinko machine according to an embodiment of the present invention. 2 is a right side view of the pachinko machine, FIG. 3 is a left side view of the pachinko machine, and FIG. 4 is a rear view of the pachinko machine. 5 is a perspective view of the pachinko machine viewed from the right front, FIG. 6 is a perspective view of the pachinko machine viewed from the left front, and FIG. 7 is a perspective view of the pachinko machine viewed from the rear. FIG. 8 is a perspective view of the pachinko machine viewed from the front with the door frame opened from the main frame and the main frame opened from the outer frame. FIG. 9 is an exploded perspective view of the pachinko machine as seen from the front after disassembling the door frame, game board, main body frame, and outer frame. FIG. 10 shows the pachinko machine as a door frame, game board, main body frame, and outer frame. It is the disassembled perspective view which decomposed | disassembled and was seen from the back.

  A pachinko machine 1 according to the present embodiment includes a frame-shaped outer frame 2 installed in an island facility (not shown) of a game hall, a door frame 3 that closes the front surface of the outer frame 2 so that it can be opened and closed, and a door frame 3. A main body frame 4 that is supported so as to be opened and closed, and is attached to the outer frame 2 so as to be openable and closable, and is detachably attached to the main body frame 4 from the front side, and is visible from the player side through the door frame 3. And a game board 5 having a game area 5a into which a game ball is driven.

  As shown in FIGS. 9 and 10, the outer frame 2 of the pachinko machine 1 includes an upper frame member 10 and a lower frame member 20 that are separated from each other in the vertical direction and extend to the left and right, and the upper frame member 10 and the lower frame member. 20 includes a left frame member 30 and a right frame member 40 which are connected to each other at both ends and extend vertically. The upper frame member 10, the lower frame member 20, the left frame member 30, and the right frame member 40 are formed to have the same width in the front-rear direction. The upper and lower lengths of the left frame member 30 and the right frame member 40 are longer than the left and right lengths of the upper frame member 10 and the lower frame member 20.

  The outer frame 2 is attached to the left end of the left frame member 30 and the right frame member 40 by connecting the lower ends of the left frame member 30 and the right frame member 40 to the front side of the lower frame member 20 and the left end portion of the upper frame member 10 when viewed from the front. An outer frame side upper hinge member 60, and an outer frame side lower hinge member 70 attached to the upper left end portion of the curtain plate member 50 and the left frame member 30. The main frame 4 and the door frame 3 are attached to be openable and closable by an outer frame side upper hinge member 60 and an outer frame side lower hinge member 70 of the outer frame 2.

  The door frame 3 of the pachinko machine 1 has a frame-shaped door frame base unit 100 having a through-hole 111 penetrating front and rear in a quadrilateral shape whose front view extends vertically, and a through-hole of the door frame base unit 100 A handle unit 300 that is attached to the lower right corner of the front surface below 111 and can be operated by a player to drive a game ball into the game area 5 a of the game board 5, and a through-hole 111 of the door frame base unit 100. The player is provided with a tray unit 320 attached to the lower portion of the front side below the player and the game state that is attached to the center of the tray unit 320 and changes when the game ball is driven into the game area 5a. A stage operation unit 400 capable of presenting a participatory stage, and attached to the upper left side of the front side of the door frame base unit 100 on the left side of the through-hole 111 above the plate unit 320. Door frame left side unit 530, door frame right side unit 550 attached to the front right side of the door frame base unit 100 on the right side of the through-hole 111 above the plate unit 320, and the door frame left side unit 530. And a door frame top unit 570 attached to the upper part of the front surface of the door frame base unit 100 above the through-hole 111 above the right side unit 550 of the door frame.

  The main body frame 4 of the pachinko machine 1 includes a frame-shaped main body frame base 600 that can be partially inserted into the frame of the outer frame 2 and can support the outer periphery of the game board 5, and the main body frame base 600. Attached to both the upper and lower ends on the left side of the front view and rotatably attached to the outer frame side upper hinge member 60 and the outer frame side lower hinge member 70 of the outer frame 2, and the door frame side upper hinge member 140 and the door frame of the door frame 3 respectively. The main body frame side upper hinge member 620 and the main body frame side lower hinge member 640 to which the lower side hinge member 150 is rotatably attached, the reinforcing frame 660 attached to the left side surface of the main body frame base 600 when viewed from the front, and the main body frame base 600 The ball launcher 680 for driving a game ball into the game area 5a of the game board 5, and the outer frame 2 and the main body frame are attached to the right side surface of the main body frame base 600 when viewed from the front. 4, And a locking unit 700 that locks between the door frame 3 and the main body frame 4 and an inverted L-shape that is attached to the rear side along the front side and the left side of the main body frame base 600 and pays out a game ball to the player side. -Shaped payout unit 800, board unit 900 attached to the lower rear portion of main body frame base 600, and rear of game board 5 attached to main body frame base 600 and attached to the rear side of main body frame base 600 so as to be openable and closable. And a back cover 980 covering the side.

  The payout unit 800 of the main body frame 4 has an inverted L-shaped payout unit base 801 attached to the rear side of the main body frame base 600, and is attached to the upper part of the payout unit base 801 and extends to the left and right open upward. A ball tank 802 that stores a game ball supplied from an island facility (not shown) in a box shape, and is attached to the payout unit base 801 below the ball tank 802. The game ball in the ball tank 802 is moved to the left in a front view. A tank rail 803 that extends to the left and right to guide, a ball guide unit 820 that is attached to the rear surface of the upper left portion of the payout unit base 801 and guides a game ball from the tank rail 803 downward in a meandering manner, and a ball guide unit 820 A game ball that is detachably attached from the payout unit base 801 and guided by the ball guiding unit 820. Based on instructions from the payout control board 951 housed in the payout control board box 950, the payout device 830 pays out one by one, and the game balls attached to the rear surface of the payout unit base 801 and paid out by the payout device 830 downward. An upper full ball path unit 850 that guides and discharges a game ball from either the normal discharge port 850d or the full discharge port 850e according to the storage state of the game ball in the upper plate 321 in the tray unit 320, and a payout unit A normal guiding path 861 that is attached to the lower end of the base 801 and that guides the game ball released from the normal discharge port 850d of the upper full ball path unit 850 forward and guides it from the front end to the through ball path 273 of the door frame 3 and the full guide path 861. The game ball released from the tongue outlet 850e is guided forward and guided from the front end to the full ball receiver 274 of the door frame 3. A lower full sphere path unit 860 having a RuMitsurutan taxiway 862, and a.

  The board unit 900 of the main body frame 4 includes a board unit base 910 that is attached to the rear side of the main body frame base 600, and a speaker for bass that is attached to the rear side of the main body frame base 600 on the left side when viewed from the front of the board unit base 910. A speaker unit 920 having 921, a power supply board box 930 that is attached to the right side of the front view on the rear side of the board unit base 910 and accommodates a power supply board therein, and is attached to the rear side of the speaker unit 920. The interface control board box 940 in which the interface control board is housed, and the payout control board 951 that is mounted across the power supply board box 930 and the interface control board box 940 and controls the payout of the game ball is housed inside. A payout control board box 950 .

  As shown in FIGS. 9 and 10, the game board 5 of the pachinko machine 1 defines the outer periphery of the game area 5 a into which the game ball is to be shot and moves the game ball launched from the ball launcher 680 to the upper part of the game area 5 a. A front component member 1000 having an outer rail 1001 and an inner rail 1002 that are guided to the front, and a flat gaming panel 1100 that is attached to the rear side of the front component member 1000 and defines the rear end of the game area 5a. Yes.

  In the pachinko machine 1 according to the present embodiment, when the player rotates the handle 302 in a state where the game ball is stored in the upper plate 321, the ball launcher 680 causes the game ball to have strength according to the rotation angle of the handle 302. The game board 5 is driven into the game area 5a. When the game balls that have been thrown into the game area 5a are received in the winning opening, a predetermined number of gaming balls are paid out to the upper plate 321 by the payout device 830 in accordance with the received winning opening. Since the player's interest can be enhanced by paying out this game ball, the game ball in the upper plate 321 can be driven into the game area 5a, and the game can be enjoyed by the player.

[2. Overall structure of outer frame]
The outer frame 2 of the pachinko machine 1 will be described with reference to FIGS. 11 to 16. FIG. 11 is a front view of the outer frame in the pachinko machine, and FIG. 12 is a right side view of the outer frame. FIG. 13 is a perspective view of the outer frame as viewed from the front, and FIG. 14 is a perspective view of the outer frame as viewed from the rear. FIG. 15 is an exploded perspective view of the outer frame as seen from the front. FIG. 16A is a perspective view of a portion of the outer frame side upper hinge member in the outer frame, viewed from below with the left frame member omitted, and FIG. FIG. The outer frame 2 is attached to an island facility (not shown) where the pachinko machine 1 such as a game hall is installed.

  As shown in the figure, the outer frame 2 is connected to both ends of the upper frame member 10 and the lower frame member 20 which are separated from each other in the vertical direction and extend to the left and right, and the upper frame member 10 and the lower frame member 20. The left frame member 30 and the right frame member 40 are provided. The upper frame member 10, the lower frame member 20, the left frame member 30, and the right frame member 40 are formed to have the same width in the front-rear direction. The upper and lower lengths of the left frame member 30 and the right frame member 40 are longer than the left and right lengths of the upper frame member 10 and the lower frame member 20. The outer frame 2 is assembled so that the left and right end surfaces of the upper frame member 10 and the lower frame member 20 and the side surfaces of the left frame member 30 and the right frame member 40 facing outward in the left-right direction are the same surface. It has been.

  The outer frame 2 includes an outer frame side upper hinge member 60 attached to the left end portion of the upper frame member 10 when viewed from the front, a lock member 66 attached to the lower surface of the outer frame side upper hinge member 60, An outer frame side lower hinge member 70 attached to the upper left end of the curtain plate member 50 and the left frame member 30 is provided. With the outer frame side upper hinge member 60 and the outer frame side lower hinge member 70 of the outer frame 2, the main body frame 4 and the door frame 3 can be attached so as to be opened and closed.

  The outer frame 2 connects the lower ends of the left frame member 30 and the right frame member 40 and is attached to the front side of the lower frame member 20 and is attached to the rear side of the curtain plate member 50. A curtain plate reinforcing member 80 whose both ends are attached to the left frame member 30 and the right frame member 40 respectively, a flat plate-like left sliding member 81 attached to the left side of the upper surface of the curtain plate member 50 from the left and right center, and a curtain A plate-like right sliding member 82 attached at a position near the right end on the upper surface of the plate member 50. The curtain plate reinforcing member 80 is formed of a solid member (for example, wood, plywood, etc.), and is attached to the lower frame member 20, the left frame member 30, and the right frame member 40.

  Further, the outer frame 2 includes an upper frame member 10 and a left frame member 30, an upper frame member 10 and a right frame member 40, a lower frame member 20 and a left frame member 30, and a lower frame member 20 and a right frame member 40, respectively. A connecting member 85 is provided. The outer frame 2 is attached to the inner side (left side) of the right frame member 40 and includes an upper hook member 90 and a lower hook member 91 to which an outer frame hook 703 of a locking unit 700 described later is locked. Have.

[2-1. Upper frame member]
The upper frame member 10 of the outer frame 2 is formed of a solid (solid) material (for example, wood, plywood, etc.) having a predetermined thickness. The upper frame member 10 includes an engagement notch portion 11 penetrating vertically in the center in the front-rear direction at both left and right ends and recessed toward the center in the left-right direction. In the engagement notch portion 11, an upper left fixing member 87 of the upper left connecting member 85A and an upper right connecting member 85B, which will be described later, of the connecting member 85 are attached. Moreover, the upper frame member 10 is provided with the mounting step part 12 which became depressed rather than the general surface in the upper surface and front surface of a left end part by front view. An outer frame side upper hinge member 60 is attached to the attachment step portion 12.

[2-2. Lower frame member]
The lower frame member 20 of the outer frame 2 is formed of a solid (solid) material (for example, wood, plywood, etc.) having a predetermined thickness. The lower frame member 20 is formed such that the left and right lengths and the upper and lower thicknesses are the same as the left and right lengths and the upper and lower thicknesses of the upper frame member 10, and the front and rear width is the upper frame member 10. It is formed longer than the width before and after. The lower frame member 20 includes an engagement notch portion 21 penetrating vertically and recessed toward the center in the left-right direction at a position closer to the rear side than the center in the front-rear direction at both left and right ends. In the engagement notch portion 21, a lower left connecting member 85C and a lower lateral fixing portion 88 of the connecting member 85, which will be described later, are attached.

  In addition, the lower frame member 20 includes front end notch portions 22 that are recessed rearward from the front surfaces at both left and right ends. In the lower frame member 20, the width in the front-rear direction from the rear end of the front end notch 22 to the rear surface of the lower frame member 20 is formed to the same size as the width in the front-rear direction of the upper frame member 10. When the lower frame member 20 is assembled to the outer frame 2, a portion between the left and right front end cutout portions 22 is inserted into the curtain plate member 50.

[2-3. Left frame member and right frame member]
The left frame member 30 and the right frame member 40 of the outer frame 2 extend vertically with a constant cross-sectional shape, and are formed of a metal extruded shape such as an aluminum alloy. The left frame member 30 and the right frame member 40 are formed in symmetrical shapes in plan view. When the left frame member 30 and the right frame member 40 are assembled as the outer frame 2, the left frame member 30 and the right frame member 40 are recessed inwardly from the rearward position to the vicinity of the rear end with respect to the center in the front-rear direction. The concave portions 31 and 41 and the protruding portions 32 and 42 that bulge from the side surface on the opposite side of the concave portions 31 and 41 and are formed in a hollow shape are provided. The left frame member 30 and the right frame member 40 are enhanced in strength and rigidity by the protrusions 32 and 42. In addition, in the protrusions 32 and 42, a lower horizontal fixing portion 88 on the rear side of the upper left connecting member 85A and the upper right connecting member 85B, which will be described later, of the connecting member 85 is inserted and attached.

  The left frame member 30 and the right frame member 40 have a plurality of grooves extending vertically on the surface. The plurality of grooves make it easy to hold the pachinko machine 1 as an operator's finger when the pachinko machine 1 is installed or transported in an island facility such as a game hall. The design of the appearance of the machine 1 can be improved.

[2-4. Curtain plate member]
The curtain plate member 50 of the outer frame 2 is formed in a box shape with the rear side opened. The curtain plate member 50 is formed in a U-shape with a rear extension 51 extending rearward in the vicinity of the left end in front view on the upper surface and a size allowing a game ball to pass from the left end of the rear extension 51. A left discharge hole 52 that is notched and penetrates up and down, and a right discharge hole 53 that penetrates up and down in a size that allows a game ball to pass on the right side of the left discharge hole 52 in the rear extension 51; A standing wall portion 54 that extends upward from the rear end of the upper surface of the curtain plate member 50 including the rear end of the rearward extending portion 51, and a front surface that bulges forward from the vicinity of the upper end of the standing wall portion 54. And a return portion 55 that is inclined so as to go backward as it goes to.

  The curtain plate member 50 is configured so that the outer frame side lower hinge member 70 is placed on the upper surface on the front side of the rear extension 51 and the upper surface of the rear extension 51. A horizontal portion 71 described later is attached. Further, the left discharge hole 52 of the curtain plate member 50 is formed at a position coincident with a discharge hole 74 described later of the outer frame side lower hinge member 70 in a state assembled to the outer frame 2. Further, the right discharge hole 53 is formed at a position on the right side of the outer frame side lower hinge member 70 in a state assembled to the outer frame 2. The right discharge hole 53 is formed larger than the left discharge hole 52.

  Further, the curtain plate member 50 is inclined such that the upper surface on the right side of the rear extension 51 is lower on the front end side. Further, the curtain plate member 50 has a left mounting portion 56 for mounting the left sliding member 81 on the right side of the rear extending portion 51 on the upper surface, and a right mounting for mounting the right sliding member 82 near the right end on the upper surface. Part 57. The lower surface of the main body frame 4 is placed on the upper surface of the curtain plate member 50 via the left sliding member 81 and the right sliding member 82.

  As shown in the figure, the curtain plate member 50 has a shallow relief decoration on the front surface. Further, although not shown, the curtain plate member 50 has a box-shaped interior partitioned into a lattice by a plurality of ribs, thereby enhancing strength and rigidity. The curtain plate member 50 is formed so that the front half of the curtain plate reinforcing member 80 can be accommodated therein.

[2-5. Outer frame side upper hinge member]
As shown in the drawing, the outer frame side upper hinge member 60 of the outer frame 2 is a flat plate extending horizontally and having a rectangular outer shape, and a flat plate extending forward from the front end of the upper fixing portion 61. The front extension 62, the bearing groove 63 extending to the left and right center of the front extension 62 as it goes forward from the right end of the front extension 62, and the top fixing part 61 in plan view. A flat horizontal fixing portion 64 extending downward from the left side, and a horizontal fixing portion extending downward from an end side of the front extending portion 62 from the left end to the portion where the bearing groove 63 is opened around the front end. A flat drooping portion 65 that is continuous with the portion 64 (see FIG. 16B and the like).

  In the outer frame side upper hinge member 60, the upper fixing portion 61 is placed on the upper surface of the mounting step portion 12 of the upper frame member 10 in a state where the outer frame 2 is assembled, and is fixed by a screw (not shown). Yes. Further, the front extension 62 extends forward from the front end of the upper frame member 10. Further, the lateral fixing portion 64 is fixed to the left frame member 30 with screws while being inserted into the recess 31 on the outer side surface of the left frame member 30 from above.

  The outer frame side upper hinge member 60 inserts the main body frame upper hinge pin 622 of the main body frame side upper hinge member 620 into the bearing groove 63, thereby cooperating with the outer frame side lower hinge member 70. It can be supported so that it can be opened and closed. The outer frame side upper hinge member 60 is formed by bending a metal plate by press molding.

[2-6. Lock member]
As shown in FIG. 16, the lock member 66 of the outer frame 2 includes a band plate-like lock main body 66 a extending in the front-rear direction with a predetermined width on the left and right sides, and an operation portion protruding rightward from the rear end of the lock main body 66 a. 66b, an elastically deformable rod-like elastic portion 66c extending leftward from the rear end of the lock main body 66a and extending obliquely left frontward, and a mounting hole penetrating vertically near the rear end of the lock main body 66a 66d. The lock member 66 is made of synthetic resin. The lock member 66 is rotatably attached to the lower surface of the front extension portion 62 of the outer frame side upper hinge member 60 by an attachment screw 67.

  The lock member 66 is attached at a position where the rear end of the lock main body 66a is behind the bearing groove 63 in the front extending portion 62 of the outer frame side upper hinge member 60 through the attachment hole 66d. When the lock member 66 is attached to the outer frame side upper hinge member 60, the lock main body 66a can block the bearing groove 63 in a plan view, and the right side surface near the front end has the outer frame side upper hinge member. 60 extends forward so as to be able to come into contact with a portion extending to the opening of the bearing groove 63 in the hanging portion 65 (see FIG. 18).

  The tip of the elastic portion 66c extending leftward from the rear end of the lock body 66a is in contact with the inner peripheral surface of the hanging portion 65 of the outer frame side upper hinge member 60. The lock member 66 is urged by the urging force of the elastic portion 66c in a direction in which the front end rotates leftward about the attachment hole 66d. Therefore, in a normal state, the right side surface of the lock member 66 near the front end of the lock body 66a is in contact with the hanging portion 65 (see FIG. 18). In this state, a space that can accommodate a body frame upper hinge pin 622 (to be described later) of the body frame side upper hinge member 620 is formed in a portion of the bearing groove 63 on the front side of the lock body 66a.

  The lock member 66 can rotate the lock body 66a against the urging force of the elastic portion 66c by operating the operation portion 66b. Then, by operating the operation portion 66b, the lock main body 66a is rotated in a direction in which the front end thereof moves to the left, whereby the lock main body 66a can be retracted from the bearing groove 63 in a plan view. Can pass through. As a result, the main body frame hinge pin 622 can be inserted into the bearing groove 63, or the main body frame hinge pin 622 can be removed from the bearing groove 63.

[2-7. Outer frame side lower hinge member]
As shown in the figure, the outer frame side lower hinge member 70 of the outer frame 2 stands upward from a horizontally extending flat plate portion 71 and a rear side of the left side of the horizontal portion 71 from the center in the front-rear direction. A rising plate-like rising portion 72, an outer frame lower hinge pin 73 projecting upward from the vicinity of the front end of the horizontal portion 71, and passing through the horizontal portion 71 up and down so that only one game ball can pass therethrough. And a discharge hole 74 having a size. The outer frame side lower hinge member 70 is formed by bending a metal plate by press molding.

  The horizontal portion 71 of the outer frame side lower hinge member 70 is formed in a trapezoidal shape with the left side as the bottom in plan view. The outer frame lower hinge pin 73 has a cylindrical shape, and is formed in a truncated cone shape whose upper end is narrower than the center in the vertical direction. The outer frame lower hinge pin 73 is attached to the left side position in the vicinity of the front end of the horizontal portion 71. The discharge hole 74 is formed in the horizontal portion 71 so as to be in contact with a central portion in the front-rear direction of the rising portion 72 and extend in an inverted U shape from the left side of the horizontal portion 71 to the right. The discharge hole 74 is formed in substantially the same size as the left discharge hole 52 of the curtain plate member 50.

  In the state where the outer frame 2 is assembled, the outer frame side lower hinge member 70 has the horizontal portion 71 placed on the upper surface near the left end of the curtain plate member 50 and the rear extension portion 51. Is fixed to the curtain plate reinforcing member 80 by screws (not shown) penetrating the upper surface of the curtain plate member 50. Further, in a state where the outer frame 2 is assembled, the rising portion 72 is attached to a portion of the inner side surface of the left frame member 30 on the front side of the protruding portion 32 with a screw (not shown). The outer frame side lower hinge member 70 is formed by inserting the outer frame lower hinge pin 73 into a main body frame lower hinge hole (not shown) in the main body frame side lower hinge member 640 of the main body frame 4. The main body frame 4 can be attached so as to be openable and closable in cooperation with the hinge member 60.

  Further, in a state where the outer frame 2 is assembled, the discharge hole 74 coincides with the left discharge hole 52 of the curtain plate member 50. Thereby, the game ball on the horizontal portion 71 can be dropped (discharged) to the rear side of the curtain plate member 50 through the discharge hole 74 and the left discharge hole 52. More specifically, when the main body frame 4 is closed with respect to the outer frame 2, the game balls that have dropped between the outer frame 2 and the main body frame 4 are closed as the main body frame 4 is closed. Is gradually narrowed, so that the gap is rolled to the rear side with a wide interval, and the discharge hole 74 can be discharged. At this time, the discharge hole 74 is formed at a position that is substantially the same as the rear end of the main body frame 4 when the main body frame 4 is closed with respect to the outer frame 2 in a state assembled to the pachinko machine 1. The game ball dropped between the outer frame 2 and the main body frame 4 can be easily prevented from rolling to the rear side of the main body frame 4 by being discharged from the discharge hole 74, and the outer frame side It is possible to make it difficult for the game ball to stay on the lower hinge member 70.

[2-8. Connecting member]
The connecting member 85 of the outer frame 2 includes an upper left connecting member 85A that connects the upper frame member 10 and the left frame member 30, an upper right connecting member 85B that connects the upper frame member 10 and the right frame member 40, and a lower frame member. There are a lower left connecting member 85C that connects 20 and the left frame member 30, and a lower right connecting member 85D that connects the lower frame member 20 and the right frame member 40.

  The connecting member 85 includes a horizontally extending flat plate-like horizontal fixing portion 86, a flat plate-like upper horizontal fixing portion 87 extending upward from either one of the left and right sides of the horizontal fixing portion 86, and a horizontal fixing portion. And a flat lower lateral fixing portion 88 extending downward from the same side as the portion where the upper lateral fixing portion 87 extends. The connecting member 85 is formed by bending a flat metal plate.

  In the upper left connecting member 85 </ b> A and the upper right connecting member 85 </ b> B, the upper horizontal fixing portion 87 extends upward from the center of the horizontal fixing portion 86 in the front-rear direction, and the lower horizontal fixing portions 88 are formed from both front and rear sides of the upper horizontal fixing portion 87. It extends downward. That is, the upper left connecting member 85A and the upper right connecting member 85B are provided with two lower lateral fixing portions 88 that are separated from each other in the front-rear direction. The horizontal fixing portions 86 of the upper left connecting member 85 </ b> A and the upper right connecting member 85 </ b> B are fixed to the upper frame member 10 in contact with the lower surface of the upper frame member 10. Further, the upper horizontal fixing portion 87 of the upper left connecting member 85A and the upper right connecting member 85B is inserted into the engagement notch portion 21 of the upper frame member 10 and is fixed to the left and right ends of the upper frame member 10. In addition, the lower horizontal fixing portions 88 on the front side of the upper left connecting member 85A and the upper right connecting member 85B are fixed to the inner side surfaces on the front side of the protruding portions 32 and 42 of the left frame member 30 and the right frame member 40, respectively. Further, the lower horizontal fixing portion 88 on the rear side of the upper left connecting member 85A and the upper right connecting member 85B is inserted into the protruding portions 32 and 42 of the left frame member 30 and the right frame member 40 and is screwed from the outer side surface. Thus, the left frame member 30 and the right frame member 40 are respectively fixed.

  In the lower left connecting member 85 </ b> C and the lower right connecting member 85 </ b> D, the rear end of the upper horizontal fixing portion 87 protrudes rearward from the rear end of the horizontal fixing portion 86 and is more than the horizontal fixing portion 86 of the upper horizontal fixing portion 87. A lower lateral fixing portion 88 extends below the horizontal fixing portion 86 from the lower end of the portion protruding rearward. The lower left connecting member 85C and the lower right connecting member 85D further include a bent portion 89 that protrudes from the rear end of the upper horizontal fixing portion 87 to the same side as the horizontal fixing portion 86. The horizontal fixing portions 86 of the lower left connecting member 85C and the lower right connecting member 85D are fixed in contact with the upper surface of the lower frame member 20. Further, the upper horizontal fixing portions 87 of the lower left connecting member 85C and the lower right connecting member 85D are fixed to inner side surfaces on the front side of the protruding portions 32 and 42 of the left frame member 30 and the right frame member 40, respectively. Further, the lower horizontal fixing portions 88 of the lower left connecting member 85C and the lower right connecting member 85D are inserted into the engagement notches 21 of the lower frame member 20 and fixed to the end surfaces in the left and right direction of the lower frame member 20, respectively. The

[2-9. Lock mechanism for upper hinge member on outer frame side]
Next, in the outer frame 2 of the pachinko machine 1 according to the present embodiment, a locking mechanism for the main body frame side upper hinge member 620 of the main body frame 4 by the lock member 66 in the outer frame side upper hinge member 60 will be described with reference to FIGS. The description will be given with reference. FIG. 17A is an enlarged perspective view showing a state in which the main body frame side upper hinge member of the main body frame is removed with respect to the outer frame side upper hinge member of the outer frame, and FIG. It is a perspective view which expands and shows the state by which the main body side upper hinge member is attached to the hinge member. FIG. 18 is an explanatory view showing the action of the lock member in the outer frame.

  When the lock member 66 in the outer frame 2 is attached to the front extension portion 62 of the outer frame side upper hinge member 60 (normal state), the tip of the elastic portion 66 c is in contact with the inner peripheral surface of the hanging portion 65. In addition, the lock body 66a is configured to close a part of the bearing groove 63 bent in a square shape, and the distal end portion of the lock body 66a does not close the deepest part of the bearing groove 63. In the deepest portion of the bearing groove 63, a space is formed in which the body frame upper hinge pin 622 of the body frame side upper hinge member 620 of the body frame 4 can be inserted.

  The support mechanism of the body frame upper hinge pin 622 using the outer frame side upper hinge member 60 and the lock member 66 in this embodiment is such that the body frame upper hinge pin 622 is inserted into the deepest portion of the bearing groove 63 and the front end of the lock body 66a. The right side surface of the lock body 66 is in close contact with the right hanging portion 65 (in this state, there is a slight gap between the right side surface at the front end of the lock body 66a and the right hanging portion 65 so that it is in contact with the right hanging surface 65). In the normal shaft support state, the center of the hinge pin 622 on the main body frame located at the deepest portion of the bent bearing groove 63 and the front end surface of the lock main body 66a are opposed to each other in an oblique direction. It is in a state.

  In this normal shaft support state, the main body frame hinge pin 622 supporting the heavy main body frame 4 is in contact with the front end portion of the bearing groove 63. A load from 622 to the front end surface of the lock body 66a is hardly applied. That is, no load is applied to the elastic portion 66c of the lock member 66. Since the front end surface of the lock body 66a is formed in an arc shape, the lock member 66 smoothly rotates when the operation portion 66b is rotated to rotate the lock member 66. Yes. In the drawing, the center of the arc of the front end surface of the lock body 66a is the center of the mounting hole 66d (the rotation center of the lock member 66).

  Therefore, when the acting force F is applied in a direction in which the hinge pin 622 on the body frame is removed along the inclination of the bearing groove 63 formed in a square shape, the acting force is applied to the arcuate front end surface of the lock body 66a. F is a component force F1 (normal direction of the arc of the front end surface of the lock main body 66a) acting on a contact portion between the hinge pin 622 on the main body frame and the arc-shaped front end surface, and the hinge pin 622 on the main body frame and the bearing groove 63. The component force F1 is directed to the center of the mounting hole 66d (mounting screw 67) (the rotation center of the lock member 66) when divided into the component force F2 acting on the contact portion with the inner surface of the one side. The moment of rotating the front end of the lock main body 66 a of the lock member 66 in the direction away from the right hanging portion 65 does not act, and the hinge pin 622 on the main body frame is connected to the front end of the lock main body 66 a of the lock member 66 and the bearing groove 63. Inside Clamped state is maintained between the.

  For this reason, even in a normal shaft support state or a state where the acting force of the hinge pin 622 on the main body frame is applied to the lock member 66, the elastic portion 66c of the lock member 66 is not constantly loaded, and is integrally formed of synthetic resin. It is possible to prevent plastic deformation caused by creep of the elastic portion 66c, and to prevent the hinge pin 622 on the main body frame from coming off from the bearing groove 63 over a long period of time. Even if an excessive force is applied and the front end portion of the lock main body 66a of the lock member 66 is rotated in the direction of moving to the right, the right side surface of the front end of the lock main body 66a contacts the drooping portion 65 and beyond. Since it does not rotate, the lock member 66 is prevented from protruding outside the front extension 62.

  Even if the shape of the front end surface of the lock body 66a is not an arc, the position where the rotational moment does not occur due to the action of the component force F1 described above or the front end portion of the lock member 66 faces the outside of the front extension portion 62. By positioning the rotation center of the lock member 66 (the axis fixed by the mounting screw 67) at a position where the rotational moment to rotate is generated, a load is not applied to the elastic portion 66c of the lock member 66 at all times. Even if the lock member 66 rotates, the right side surface of the front end of the lock body 66 a only abuts on the hanging portion 65, so that the lock member 66 does not protrude outside the front extension portion 62.

  When the main body frame hinge pin 622 of the main body frame side upper hinge member 620 is supported by the bearing groove 63 of the outer frame side upper hinge member 60, the main body frame is inserted into the bearing groove 63 from the open side of the bearing groove 63. The hinge pin 622 is inserted. When the hinge pin 622 on the body frame is inserted into the bearing groove 63, the hinge pin 622 on the body frame comes into contact with the right side surface of the lock body 66a of the lock member 66, and the front end of the lock body 66a is against the urging force of the elastic portion 66c. The lock member 66 rotates about the mounting screw 67 so as to move to the left. As a result, the lock main body 66 a that has closed the bearing groove 63 is retracted, the bearing groove 63 is opened, and the main body frame hinge pin 622 can be moved to the deepest portion (front end) of the bearing groove 63.

  When the body frame hinge pin 622 is moved to the deepest part of the bearing groove 63, the contact between the body frame hinge pin 622 and the lock body 66a of the lock member 66 is released, and the lock body 66a is urged by the urging force of the elastic portion 66c. The lock member 66 rotates so that the front end of the lock member moves to the right, and the lock member 66 returns to the normal state. As a result, the hinge pin 622 on the body frame is accommodated in a space in front of the front end of the lock body 66 a in the bearing groove 63, and the hinge pin 622 on the body frame is rotatable at the deepest portion of the bearing groove 63. The state is held (locked) in the state.

  When the hinge pin 622 on the main body frame is removed from the bearing groove 63, the lock member 66 is rotated so that the front end of the lock main body 66a moves to the left by operating the operation portion 66b of the lock member 66. The lock body 66a is retracted from the bearing groove 63 against the urging force of 66c. As a result, the deepest part of the bearing groove 63 and the opening communicate with each other, and the hinge pin 622 on the main body frame can be removed from the bearing groove 63.

[2-10. Crime prevention mechanism and ball biting prevention mechanism at the outer frame side lower hinge member]
In the pachinko machine 1 of the present embodiment, the ball engagement prevention for preventing the game ball from being sandwiched between the crime prevention mechanism and the outer frame 2 and the main body frame 4 at the outer frame side lower hinge member 70 of the outer frame 2. The mechanism will be described.

  When the outer frame 2 is assembled, an outer frame side lower hinge member 70 is attached to the left end portion in front view on the upper surface of the curtain plate member 50. The horizontal portion 71 of the outer frame side lower hinge member 70 is mounted in a state of being placed near the left end of the upper surface of the curtain plate member 50 and the upper surface of the rear extending portion 51. The curtain plate member 50 includes a standing wall portion 54 that rises upward from the rear end of the upper surface. As a result, even if an unauthorized tool such as a piano wire enters the rear side of the main body frame 4 (pachinko machine 1) through the gap between the outer frame side lower hinge member 70 and the main body frame side lower hinge member 640. Since the tip of the unauthorized tool comes into contact with the standing wall 54 extending upward from the rear end of the upper surface of the curtain plate member 50, it is possible to prevent the unauthorized tool from being inserted further to the rear side. It is possible to prevent an illegal act from being performed via the outer frame side lower hinge member 70.

  Moreover, since the return part 55 extended ahead is provided in the upper end of the standing wall part 54, when the unauthorized tool contact | abutted to the standing wall part 54 bends upwards, the front-end | tip of an unauthorized tool by the return part 55 Can be folded further forward, so that unauthorized tools can be prevented from entering the rear side of the main body frame 4, and an illegal act is performed through the portion of the outer frame side lower hinge member 70. Can be surely prevented.

  By the way, when the upright wall portion 54 extending upward is provided at the rear end of the upper surface of the curtain plate member 50, the game ball is placed on the outer frame side while the main body frame 4 is opened with respect to the outer frame 2. When falling on the lower hinge member 70 (horizontal portion 71), the game ball on the horizontal portion 71 is not discharged backward from the rear end of the horizontal portion 71 due to the presence of the standing wall portion 54, so the outer frame 2 and the main body frame 4 There is a risk of being caught between. On the other hand, in this embodiment, the discharge hole 74 and the left discharge hole 52 through which the game ball can pass through the horizontal part 71 of the outer frame side lower hinge member 70 and the rearward extension part 51 of the curtain plate member 50. And the right discharge hole 53, the game ball on the horizontal portion 71 of the outer frame side lower hinge member 70 can be discharged downward from the discharge hole 74 and the like. It is possible to reduce the game ball being caught between the two.

  Therefore, when the game ball is sandwiched between the outer frame 2 and the main body frame 4, the periphery of the outer frame side lower hinge member 70 is damaged, or the main body frame 4 is not closed in a normal state. It is possible to prevent a gap from being formed between the main body frame 4 and illegal acts using the gap.

[3. Overall structure of door frame]
The door frame 3 of the pachinko machine 1 will be described with reference to FIGS. 19 is a front view of the door frame in the pachinko machine, FIG. 20 is a right side view of the door frame, FIG. 21 is a left side view of the door frame, and FIG. 22 is a rear view of the door frame. FIG. 23 is a perspective view of the door frame as viewed from the right front, FIG. 24 is a perspective view of the door frame as viewed from the left front, and FIG. 25 is a perspective view of the door frame as viewed from the rear. 26 is a sectional view taken along line AA in FIG. 19, FIG. 27 is a sectional view taken along line BB in FIG. 19, and FIG. 28 is a sectional view taken along line CC in FIG. FIG. FIG. 29 is an exploded perspective view in which the door frame is disassembled for each main member and viewed from the front, and FIG. 30 is an exploded perspective view in which the door frame is disassembled for each main member and viewed from the rear.

  As shown in FIGS. 29 and 30, the door frame 3 is attached to the lower right corner of the front surface of the door frame base unit 100 and the square frame-shaped door frame base unit 100 whose front view extends vertically. Handle unit 300, a pan unit 320 attached to the lower front portion of the door frame base unit 100, a rendering operation unit 400 attached to the center of the plate unit 320, and a door frame base unit above the plate unit 320. Door frame left side unit 530 attached to the front left part of the door 100, door frame right side unit 550 attached to the front right part of the door frame base unit 100 above the dish unit 320, and the door frame left side The door frame top attached to the upper part of the front surface of the door frame base unit 100 above the unit 530 and the door frame right side unit 550. Is provided with a knit 570, a.

  The door frame base unit 100 of the door frame 3, which will be described in detail later, is a plate-shaped door frame base 110 having a through-hole 111 penetrating in the front and rear in a rectangular shape (rectangular shape) whose front view extends vertically. A frame-shaped reinforcing unit 130 attached to the rear side of the door frame base 110, and attached to both upper and lower ends of the reinforcing unit 130 on the left end side when viewed from the front, and attached to the main body frame 4 so as to be capable of hinge rotation. A door frame side upper hinge member 140 and a door frame side lower hinge member 150; a glass unit 190 which is attached to the rear surface of the door frame base 110 and closes the through hole 111; and a security cover 200 which covers the lower rear surface of the glass unit 190; The door frame 3 and the main body frame 4, and the main body frame 4 and the outer frame 2 that are attached to the rear surface of the door frame base 110 so as to protrude forward through the door frame base 110. An opening / closing cylinder unit 210 for locking the space, a ball feed unit 250 for sending a game ball to the ball launcher 680 attached to the lower rear surface of the door frame base 110, and a ball attached to the lower rear surface of the door frame base 110 A foul cover unit 270 that receives a game ball that has been launched by the launching device 680 and has not reached the game area 5a and that discharges it to the lower plate 322.

  Although the handle unit 300 of the door frame 3 will be described in detail later, the game ball stored in the upper plate 321 is changed according to the rotation angle of the handle 302 by the player rotating the rotatable handle 302. It can be driven into the game area 5a of the game board 5 with high strength.

  As will be described in detail later, the tray unit 320 of the door frame 3 is attached to a lower portion of the through-hole 111 on the front surface of the door frame base 110 in the door frame base unit 100, and the front surface bulges forward. The effect operation unit 400 is attached to the front end in the center in the left-right direction. The tray unit 320 stores an upper plate 321 for storing game balls to be driven into the game area 5a, and game balls supplied from the upper plate 321 and the foul cover unit 270. Within the range of the lower tray 322 that can be stored, the upper tray ball removal button 327 for removing the game balls stored in the upper tray 321 to the lower tray 322, and the balance of cash or prepaid card that has been put into the ball lending machine A ball lending button 328 for lending a game ball to the player, a return button 329 for returning cash or a prepaid card obtained by subtracting the amount of the game ball lending from the ball lending machine, and cash inserted into the ball lending machine , A ball rental return display unit 330 for displaying the remaining number of prepaid cards, etc., an effect selection left button 331 and an effect selection right button 332 that can be accepted by the player when the effect is presented, and a lower plate Game balls in 22 and lower tray ball vent button 333 for discharging downwardly the dish unit 320, and a.

  The effect operation unit 400 of the door frame 3 is attached to the front portion of the dish unit 320 at the center in the left-right direction when viewed from the front, and can be pressed by the player and presents an effect image to the player. It is something that can be done. As will be described in detail later, the effect operation unit 400 has a large operation button 410 that can be operated by the player, and a door frame side effect that can be viewed from the player side in the operation button 410 and can display an effect image. Display device 460.

  The door frame left side unit 530 of the door frame 3, which will be described in detail later, is attached to the upper left side of the door frame base unit 100 on the left side of the front side of the door frame base unit 100 on the left side of the front side of the plate unit 320. The left outer side of the game area 5a) is decorated. The door frame left side unit 530 includes a left unit decorative lens member (not shown) that can be decorated with light emission.

  The door frame right side unit 550 of the door frame 3, which will be described in detail later, is attached to the upper right side of the door frame base unit 100 on the right side of the front surface of the door frame base unit 100 on the upper side of the plate unit 320. The right outer side of the game area 5a) is decorated. The door frame right side unit 550 protrudes more forward than the door frame left side unit 530, and is provided at the front end with a right unit left decorative member 554 and a right unit right decorative member 557 provided on both left and right sides. The right unit decorative lens member 561 is provided. The door frame right side unit 550 can decorate the right unit left decorative member 554, the right unit right decorative member 557, and the right unit decorative lens member 561 with light emission.

  The door frame top unit 570 of the door frame 3 is attached to the upper side of the through hole 111 on the front surface of the door frame base 110 of the door frame base unit 100 on the upper side of the door frame left side unit 530 and the door frame right side unit 550. The upper part of the frame 3 is decorated. The door frame top unit 570, which will be described in detail later, has a pair of upper speakers 573 spaced left and right, a top middle decorative member 576 protruding forward in the center of the front surface, and both left and right sides of the top middle decorative member 576. A top left decorative lens member 579 and a top right decorative lens member 580 are provided. The door frame top unit 570 can light-decorate the top middle decorative member 576, the top left decorative lens member 579, and the top right decorative lens member 580.

[3-1. Overall configuration of door frame base unit]
The door frame base unit 100 of the door frame 3 will be described in detail with reference to FIGS. 31 to 33. FIG. 31A is a perspective view of the door frame base unit in the door frame as viewed from the front, and FIG. 31B is a perspective view of the door frame base unit as viewed from the rear. FIG. 32 is an exploded perspective view of the main part of the door frame base unit as seen from the front, and FIG. 33 is an exploded perspective view of the main part of the door frame base unit as seen from the rear. is there.

  The door frame base unit 100 is attached to the main body frame 4 so as to be openable / closable (rotatable by hinges) so that the left side when viewed from the front closes the front surface of the main body frame 4. The door frame base unit 100 has a handle unit 300 at the lower front corner, a dish unit 320 to which the rendering operation unit 400 is attached at the lower front surface of the through hole 111, and a door frame left side unit 530 at the left outer front surface of the through hole 111. The door frame right side unit 550 is attached to the right outer front surface of the through hole 111, and the door frame top unit 570 is attached to the upper outer front surface of the through hole 111, respectively.

  As shown in FIGS. 32 and 33, the door frame base unit 100 includes a plate-like door frame base 110 having a through-hole 111 penetrating in the front and rear in a rectangular shape whose front view extends vertically. The frame-shaped reinforcement unit 130 attached to the rear side of the door frame base 110 and the upper and lower ends of the reinforcement unit 130 on the left end side when viewed from the front are projected forward from the door frame base 110 and The door frame side upper hinge member 140 and the door frame side lower hinge member 150 that are rotatably attached to the main body frame side upper hinge member 620 and the main body frame side lower hinge member 640, and the front surface of the through-hole 111 on the front surface of the door frame base 110. A door frame left side decorative board 160 mounted on the left side and mounted with a plurality of LEDs on the front surface, and a glass unit 19 rotatably mounted on the rear side of the door frame base 110. The glass unit mounting member 170 for mounting the detachably, and a.

  The door frame base unit 100 is attached to the lower right corner in front view on the front surface of the door frame base 110 and is attached to the rear surface of the door frame base 110 and a cylindrical handle attachment member 180 for attaching the handle unit 300. A glass unit 190 that closes the through-hole 111, a security cover 200 that covers the lower rear portion of the glass unit 190, and an opening / closing cylinder unit that is attached to the rear surface of the door frame base 110 so as to penetrate the door frame base 110 and protrude forward. 210, a ball feeding unit 250 attached to the lower rear surface of the door frame base 110, and a foul cover unit 270 attached to the lower rear surface of the door frame base 110.

  Further, although not shown, the door frame base unit 100 includes various decorative boards provided in the door frame 3, a ball feeding solenoid 255, a handle rotation detection sensor 307, a handle touch sensor 310, a single button operation sensor 312, Ball rental button 328, return button 329, ball rental return display section 330, effect selection left button 331, effect selection right button 332, vibration motor 424, press detection sensor 440, door frame side effect display device 460 (liquid crystal display device 461) , Etc., and a door main body relay board for relaying the connection between the main body frame 4 and the door frame relay board 911 of the board unit 900.

[3-1a. Door frame base]
The door frame base 110 of the door frame base unit 100 in the door frame 3 will be described in detail mainly with reference to FIGS. 31 to 33. The door frame base 110 is formed in a quadrangle (rectangular shape) whose outer shape in front view extends vertically. The door frame base 110 penetrates back and forth, and includes a through-hole 111 formed in a substantially quadrilateral shape whose inner peripheral shape in a front view extends vertically. In the through-hole 111, the upper side and the left and right sides forming the inner periphery are close to the outer periphery of the door frame base 110, respectively, and the lower side forming the inner periphery is up and down from the lower end of the door frame base 110. It is located at a height of about 1/3 of the direction. Therefore, the door frame base 110 is entirely formed in a frame shape by the through-hole 111 penetrating in the front-rear direction. The door frame base 110 is integrally formed of synthetic resin.

  The door frame base 110 is formed in the front lower right corner of the front surface, and has a handle mounting seat surface 112 that is inclined so that the left end protrudes slightly forward from the right end side, the handle mounting seat surface 112, and the through-hole 111. Between the cylinder mounting portion 113 to which the cylinder mounting plate 213 of the open / close cylinder unit 210 is mounted, and the open / close cylinder unit 210 passing through the cylinder mounting portion 113 in the front-rear direction. Is inserted through the cylinder insertion hole 114 through which the cylinder lock 211 is inserted, and the cylinder insertion hole 114 and the handle mounting seat surface 112 on the left side when viewed from the front, and forward through the entrance 251a and the ball outlet 251b of the ball feed unit 250. And a ball feed opening 115 for facing the surface.

  Further, the door frame base 110 penetrates forward and rearward at the same height as the handle mounting seat surface 112 to the left of the center of the door frame base 110 in the left-right direction, and faces the ball outlet 276 of the foul cover unit 270 forward. The lower plate passing opening 116 and the door frame base 110 near the left end when viewed from the front are adjacent to the lower side of the through hole 111 so as to be adjacent to the lower side of the door frame base 110 and face the through ball passage 273 of the foul cover unit 270 forward. A dish passage opening 117, a glass unit mounting portion 118 into which the glass frame 191 of the glass unit 190 is inserted and recessed from the rear surface along the inner periphery of the through-hole 111, and both left and right sides of the door frame base 110 And a speaker insertion port 119 through which the rear end of the upper speaker 573 of the door frame top unit 570 is inserted.

[3-1b. Reinforcement unit]
The reinforcing unit 130 of the door frame base unit 100 will be described in detail with reference to FIGS. The reinforcing unit 130 is attached to the rear side of the door frame base 110 to reinforce the door frame base 110 and increase the strength and rigidity of the door frame base 110 (door frame 3). The reinforcing unit 130 includes left and right upper reinforcing metal plates 131 attached along the upper side of the rear surface of the door frame base 110 and left and right middle reinforcing members attached to the lower side of the through hole 111 on the rear surface of the door frame base 110. A sheet metal 132, a left reinforcing sheet metal 133 extending up and down attached along the front left side of the door frame base 110, and a right reinforcing up and down attached along the right side of the door frame base 110 viewed from the front. A sheet metal 134 and a locking engagement portion 135 attached to the rear surface of the right reinforcing sheet metal 134 and to which the door frame collar 702 of the locking unit 700 is engaged are provided.

  In the reinforcing unit 130, the left and right ends of the upper reinforcing sheet metal 131 are connected and fixed to the upper ends of the left reinforcing sheet metal 133 and the right reinforcing sheet metal 134 with screws, and the left end of the middle reinforcing sheet metal 132 is connected to the left reinforcing sheet metal 133 with screws. It is fixed. The right end of the middle reinforcing sheet metal 132 is connected and fixed to the right reinforcing sheet metal 134 via a cylinder mounting sheet metal 213 of the opening / closing cylinder unit 210 described later. Therefore, the reinforcing unit 130 is formed in a frame shape by the upper reinforcing sheet metal 131, the middle reinforcing sheet metal 132, the left reinforcing sheet metal 133, the right reinforcing sheet metal 134, and the like.

  The upper reinforcing sheet metal 131, the middle reinforcing sheet metal 132, the left reinforcing sheet metal 133, the right reinforcing sheet metal 134, and the locking engagement portion 135 of the reinforcing unit 130 are formed by appropriately bending metal plates. The middle reinforcing sheet metal 132 is formed with a notch portion 132a penetrating in the front-rear direction at a position corresponding to the upper plate passage opening 117 of the door frame base 110.

  Although the detailed illustration is omitted, each of the upper reinforcing sheet metal 131, the middle reinforcing sheet metal 132, the left reinforcing sheet metal 133, and the right reinforcing sheet metal 134 has a portion bent in the front-rear direction. This part increases the strength and rigidity, and prevents the entry of unauthorized tools such as a piano wire or a flat-blade screwdriver from the outside.

[3-1c. Door frame side upper hinge member]
The door frame side upper hinge member 140 of the door frame base unit 100 will be described in detail with reference mainly to FIGS. The door frame-side upper hinge member 140 is attached to the door frame base 110 and has a pair of protruding pieces 141a that are spaced apart from each other in the vertical direction, and a pair of protrusions of the door frame upper hinge shaft bracket 141. A cylindrical door frame upper hinge pin 142 inserted into the door frame upper hinge hole 623 of the main body frame side upper hinge member 620 and a pair of projecting pieces 141a in the door frame upper hinge pin 142 that penetrates the piece 141a. A disc-shaped eaves member 143 attached at a position between the eaves member 143, the eaves member 143 and the lower protruding piece 141a of the pair of protruding pieces 141a, and a hinge pin 142 on the door frame , And a lock spring 144 that biases the hinge pin 142 on the door frame upward.

  Although not shown, the door frame upper hinge shaft bracket 141 has a flat mounting piece that connects the rear ends of the pair of protruding pieces 141a, and the shape in a side view is opened forward. It is formed in a letter shape. The door frame upper hinge shaft bracket 141 has a mounting piece connecting a pair of protruding pieces 141a attached to the rear surface of the door frame base 110 with screws.

  The door frame upper hinge pin 142 is rotatably inserted into a door frame upper hinge hole 623 of the main body frame side upper hinge member 620 at a portion (upper end) protruding above the upper protruding piece 141a. Further, although not shown, the door frame upper hinge pin 142 is bent in a horizontal direction at a portion protruding downward from the lower protruding piece 141a. The bent portion abuts on the lower surface of the lower protruding piece 141a, thereby restricting the upward movement of the hinge pin 142 on the door frame.

  The eaves member 143 is an E-ring, and is inserted and held in a groove formed on the outer periphery of the door frame upper hinge pin 142. The lock spring 144 is a coil spring through which the door frame upper hinge pin 142 can be inserted, and has an upper end in contact with the flange member 143 and a lower end in contact with the lower protruding piece 141a. The lock spring 144 is interposed between the flange member 143 and the lower protruding piece 141a in a compressed state, and biases the door frame upper hinge pin 142 upward via the flange member 143. .

  The door frame side upper hinge member 140 is in a state in which the door frame upper hinge pin 142 is urged upward by the lock spring 144, and the horizontally bent portion of the lower end of the door frame upper hinge pin 142 projects downward. By contacting the lower surface of the piece 141a, further upward movement is restricted. In this state, the upper end of the hinge pin 142 on the door frame protrudes a predetermined amount above the upper surface of the upper protruding piece 141a.

  The door frame-side upper hinge member 140 has a portion bent horizontally at the lower end of the door frame upper hinge pin 142, and pulls the portion downward against the urging force of the lock spring 144. The upper hinge pin 142 can be moved generally downward, and the upper end of the door frame upper hinge pin 142 can be immersed below the upper surface of the upper protruding piece 141a. Therefore, the door frame side upper hinge member 140 inserts the upper end of the door frame upper hinge pin 142 into the door frame upper hinge hole 623 of the main body frame side upper hinge member 620 from below or pulls it downward. Can do. As a result, the upper left end of the door frame 3 is inserted into the upper hinge hole 623 for the door frame of the main body frame side upper hinge member 620 by inserting the upper end of the door frame upper hinge pin 142 of the door frame side upper hinge member 140. The main body frame 4 can be supported so as to be capable of hinge rotation.

  Further, the door frame side upper hinge member 140 has a portion of the door frame upper hinge pin 142 that is supported by the pair of protruding pieces 141a of the door frame upper hinge shaft bracket 141. The lower hinge pin 152 is supported coaxially. Thus, the door frame 3 upper hinge member 140 and the door frame side lower hinge member 150 can rotate the door frame 3 with respect to the main body frame 4 in a favorable state.

[3-1d. Door frame side lower hinge member]
The door frame side lower hinge member 150 of the door frame base unit 100 will be described in detail mainly with reference to FIGS. 31 and 32. The door frame side lower hinge member 150 is attached to the door frame base 110 and includes a door frame lower hinge shaft bracket 151 having a flat plate-like extension piece 151a extending forward, and a door frame lower hinge shaft bracket. A columnar door frame lower hinge pin 152 (see FIGS. 21 and 22) protruding downward from the vicinity of the front end of the extending piece 151a.

  The door frame lower hinge shaft bracket 151 has a flat plate-like attachment piece (not shown) extending upward from the rear end of a flat plate-like extension piece 151a extending horizontally, and has an overall shape in a side view. Is formed in a substantially L-shape. The door frame lower hinge shaft bracket 151 has a mounting piece (not shown) attached to the rear surface of the door frame base 110 with screws.

  The door frame lower hinge pin 152 is formed in a truncated cone shape whose lower end is narrowed toward the lower side. The door frame lower hinge pin 152 is rotatably inserted into the door frame hinge hole 644 of the main body frame side lower hinge member 640 in the main body frame 4 described later. The door frame lower hinge pin 152 is arranged coaxially with the door frame upper hinge pin 142 of the door frame side upper hinge member 140.

  The door frame side lower hinge member 150 is capable of hinge-rotating the door frame 3 with respect to the body frame 4 by inserting the door frame lower hinge pin 152 into the door frame hinge hole 644 of the body frame side lower hinge member 640. Can be supported.

[3-1e. Door frame left side decorative board]
The door frame left side decorative board 160 of the door frame base unit 100 will be described in detail with reference mainly to FIGS. The door frame left side decorative substrate 160 is attached to the front side of the through hole 111 on the front side of the door frame base 110. The door frame left side decorative board 160 extends up and down from the height of the position below the speaker insertion port 119 on the left side when viewed from the front in the door frame base 110 to the height near the center of the through hole 111 in the vertical direction. The frame left side upper decorative board 161 and the door frame left side lower decorative board extending up and down from the height of the lower position of the door frame left side upper decorative board 161 to substantially the same height as the lower end of the upper plate passage opening 117. A substrate 162.

  The door frame left side upper decorative substrate 161 and the door frame left side lower decorative substrate 162 of the door frame left side decorative substrate 160 include a plurality of LEDs 161a and 162a that can irradiate light forward. These LEDs 161a and 162a are full-color LEDs.

  The door frame left side decorative board 160 is positioned behind the door frame left side unit 530, which will be described later, in a state where the door frame 3 is assembled, and includes a plurality of LEDs 161a and 162a provided (mounted) on the front surface. By appropriately emitting light, the left unit decorative lens member of the door frame left side unit 530 can be decorated with light emission.

[3-1f. Glass unit mounting member]
The glass unit mounting member 170 of the door frame base unit 100 will be described in detail with reference mainly to FIG. The glass unit attachment member 170 is rotatably attached to the rear side of the door frame base 110, and is for attaching the glass unit 190 in a detachable manner. The glass unit mounting member 170 is a disc-shaped base portion 171 that is rotatably attached to an axis extending in the front-rear direction on the rear side of the door frame base 110, and protrudes in a bar shape from the base portion 171 in a direction perpendicular to the rotation axis. Projecting portion 172.

  The glass unit attachment member 170 is rotatably attached to a portion below the pair of speaker insertion openings 119 on the rear surface of the door frame base 110 and outside the glass unit attachment portion 118.

  When the glass unit mounting member 170 is rotated so that the protruding portion 172 protrudes upward from the base portion 171, the protruding portion 172 is more outward than the glass unit mounting portion 118 of the door frame base 110 in the rear view. The glass unit 190 can be inserted into the glass unit mounting portion 118 of the door frame base 110, or the glass unit 190 can be removed from the glass unit mounting portion 118.

  When the glass unit 190 is rotated so that the protrusion 172 protrudes downward from the base 171 in a state where the glass unit 190 is inserted into the glass unit attachment 118 of the door frame base 110, the protrusion 172 becomes glass. The unit 190 comes into contact with the rear side of the mounting piece 191a, and the rearward movement of the upper portion of the glass unit 190 is restricted, so that the glass unit 190 can be attached to the door frame base 110.

  In the glass unit mounting member 170, the protruding portion 172 protrudes from a disk-shaped base portion 171 that is rotatably mounted on the door frame base 110, so that the gravity center position of the glass unit mounting member 170 is located in the protruding portion 172. . From this, in a state where the glass unit mounting member 170 can freely rotate, the protruding portion 172 is stabilized in a state of protruding downward from the base portion 171. Further, in the glass unit mounting member 170, the rearward movement of the glass unit 190 is regulated by the projecting portion 172 when the projecting portion 172 projects downward from the base portion 171. Even if vibration or the like acts on the member 170, the whole does not rotate so that the protruding portion 172 protrudes upward from the base portion 171, and the restriction of the backward movement of the glass unit 190 is naturally released. Absent.

  When removing the glass unit 190 from the door frame base 110, the glass unit mounting member 170 is rotated so that the protruding portion 172 protrudes upward from the base portion 171, and the protruding portion 172 is attached to the mounting piece 191a of the glass unit 190. By moving the glass unit 190 to the outside, the upper side of the glass unit 190 can be moved rearward, and the glass unit 190 can be removed from the door frame base 110.

[3-1 g. Handle mounting member]
The handle mounting member 180 of the door frame base unit 100 will be described in detail with reference mainly to FIGS. The handle attachment member 180 is for attaching the handle unit 300 to the front surface of the door frame base 110. As shown in FIGS. 32 and 33, the handle mounting member 180 includes a cylindrical tube portion 181 extending in the front-rear direction, and outward from the rear end of the tube portion 181 in a direction perpendicular to the axis of the tube portion 181. An annular flange portion 182 that extends, and a plurality of the flange portions 182 that protrude into the cylindrical portion 181 and extend over the entire length in the axial direction of the cylindrical portion 181 and are arranged at unequal intervals with respect to the circumferential direction of the cylindrical portion 181 ( In this example, three ridges 183, and a plurality of reinforcing ribs 184 that connect the outer peripheral surface of the cylindrical portion 181 and the front surface of the flange portion 182 and are arranged in the circumferential direction of the cylindrical portion 181 are provided. .

  The handle attachment member 180 is attached to the handle attachment seat surface 112 with screws in a state where the rear surface of the flange portion 182 is in contact with the front surface of the handle attachment seat surface 112 in the door frame base 110.

  The cylindrical portion 181 has an inner diameter slightly larger than the outer diameter of the base portion 301 a of the handle base 301 in the handle unit 300. One of the three protrusions 183 is provided on the upper side in the cylindrical portion 181, and the remaining two are provided on the lower side in the cylindrical portion 181. These three protrusions 183 are formed at positions corresponding to the three groove portions 301 c in the handle base 301. Therefore, the handle attachment member 180 can insert the base portion 301a of the handle base 301 into the cylindrical portion 181 only when the three protrusions 183 and the three groove portions 301c of the handle base 301 are aligned. The rotational position of the handle base 301 (handle unit 300) can be restricted with respect to the door frame base 110.

  The handle mounting member 180 is attached to the inclined handle mounting seat surface 112 of the door frame base 110 because the axis of the cylinder 181 extends perpendicularly to the rear surface of the flange 182. Thus, the handle unit 300 can be attached to the door frame base 110 in a tilted state.

[3-1h. Glass unit]
The glass unit 190 of the door frame base unit 100 will be described in detail mainly with reference to FIGS. The glass unit 190 closes the through-hole 111 of the door frame base 110 so that the rear can be visually recognized from the front. The glass unit 190 has a frame-shaped glass frame 191 that is larger than the inner peripheral shape of the through-hole 111 of the door frame base 110 and can be attached to the glass unit attachment portion 118, and the outer periphery of the glass frame 191 is closed. Two transparent glass plates 192 attached to 191. The two glass plates 192 are attached to the front end side and the rear end side of the glass frame 191, respectively, and are spaced apart from each other so that a space is formed between them (see FIG. 26 and the like).

  The glass frame 191 has a pair of mounting pieces 191a extending in a flat plate shape from a position below the upper left and right upper corners when viewed from the front, and a band extending downward from the lower end and extending along the lower side. A plate-like locking piece 191b. The mounting piece 191 a of the glass frame 191 can be brought into contact with the protruding portion 172 of the glass unit mounting member 170. The locking piece 191b can be inserted into a space between the door frame base 110 and the middle reinforcing sheet metal 132 of the reinforcing unit 130 (see FIG. 26).

  The glass unit 190 is formed by inserting a locking piece 191b of the glass frame 191 from the rear side of the door frame base 110 into the gap between the door frame base 110 and the middle reinforcing sheet metal 132 of the reinforcing unit 130 from above. The front end of the glass frame 191 is brought into contact with the rear surface of the glass unit mounting portion 118 of the door frame base 110, the glass unit mounting member 170 is rotated, and the protruding portion 172 of the glass unit mounting member 170 is attached to the mounting piece 191a of the glass frame 191. It is attached to the door frame base 110 by contacting the rear surface.

  When removing the glass unit 190 from the door frame base 110, the glass unit 190 can be removed by a procedure reverse to the above. Thereby, the glass unit 190 can be attached to and detached from the door frame base 110.

[3-1i. Security cover]
The security cover 200 of the door frame base unit 100 will be described in detail mainly with reference to FIGS. The security cover 200 is attached to the rear side of the door frame base 110 so as to cover the lower rear portion of the glass unit 190, and is formed of a transparent synthetic resin. The security cover 200 is arranged with a flat plate-like main body portion 201 whose outer periphery is formed in a predetermined shape, a flat plate-like rear protrusion piece 202 that protrudes short rearward along the outer peripheral edge of the main body portion 201, and left and right. And a pair of locking pieces 203 that protrude forward from the main body 201 and can be locked to the rear side of the door frame base 110.

  The main body 201 of the security cover 200 is formed such that the lower end protrudes below the lower end of the glass unit 190 in a state of being attached to the door frame base 110. Further, the main body 201 is formed in a shape along the lower end of the game area 5 a in the game board 5 in a state where the upper end is assembled to the pachinko machine 1. More specifically, the upper end of the main body 201 is formed in a shape along a part of an inner rail 1002 of the front constituent member 1000 to be described later, an out guiding part 1003, a part of a lower right rail 1004, and a right rail 1005. The pachinko machine 1 is assembled so as not to protrude into the game area 5a.

  The rear protrusion 202 is formed over substantially the entire circumference of the outer peripheral edge of the main body 201. Accordingly, the security cover 200 is formed in a shallow box shape opened rearward by the main body 201 and the rear protrusion piece 202, and has high strength and rigidity. Further, as shown in FIG. 33, the rear protruding piece 202 also protrudes rearward from a part of the rear surface of the main body 201 different from the outer peripheral edge of the main body 201. The rear projecting piece 202 projecting rearward from a part of the rear surface of the main body 201 is formed so as to be along a part of the outer rail 1001 in the front component member 1000 of the game board 5 in a state assembled to the pachinko machine 1. ing.

  The rear projecting piece 202 is not formed in a portion located between the outer rail 1001 and the inner rail 1002 in the game board 5 in a state assembled to the pachinko machine 1. Thereby, a game ball (game ball launched by the ball launching device 680) passing between the outer rail 1001 and the inner rail 1002 does not come into contact with the rear protruding piece 202 of the crime prevention cover 200, and the game area 5a There is no hindrance to the game ball.

  The pair of locking pieces 203 are elastically locked to the rear side of the door frame base 110. Thereby, the security cover 200 can be easily attached to and detached from the door frame base 110.

  When the security cover 200 is assembled in the pachinko machine 1, the front surface of the main body 201 is in contact with the rear surface of the glass unit 190 (the rear end of the glass frame 191) and protrudes backward from the lower side of the main body 201. The removed rear protrusion 202 is in a state of being inserted into a security recess 1008 of the front component 1000 described later. Further, the security cover 200 is in a state in which the rear protruding piece 202 protruding rearward from the lower side of the main body 201 protrudes rearward from the front surface of the front structural member 1000 so as to contact the lower surface of the front structural member 1000. . Accordingly, the space between the security cover 200 and the game board 5 (the front component member 1000) is complicatedly bent by the rear protrusion piece 202 of the security cover 200 and the security recess portion 1008 of the front component member 1000. Even if an unauthorized tool such as a piano wire enters the game area 5a through the space between the security cover 200 and the front structural member 1000 from below the front of the board 5, it will be blocked by the rear protrusion 202 and the security recess 1008. The unauthorized tool can be prevented from entering the game area 5a.

[3-1j. Opening and closing cylinder unit]
The opening / closing cylinder unit 210 of the door frame base unit 100 will be described mainly with reference to FIGS. The opening / closing cylinder unit 210 is attached from the rear side to a cylinder mounting portion 113 at a position between the through-hole 111 and the handle mounting seat surface 112 near the right end of the door frame base 110 in a front view, and cooperates with a locking unit 700 described later. It is used to open and close the door frame 3 and the main body frame 4 and to open and close the outer frame 2 and the main body frame 4.

  The open / close cylinder unit 210 includes a cylindrical cylinder lock 211 having a key hole 211a on the front surface and extending in the front-rear direction, and is attached to the rear end of the cylinder lock 211 and rotates the key inserted into the key hole 211a. A rotation transmission member 212 for transmitting to 700 key cylinders 710 and a cylinder mounting plate 213 for mounting the cylinder lock 211 to the door frame base 110 (reinforcing unit 130) are provided.

  The cylinder lock 211 can rotate a key by inserting a corresponding key (not shown) into the key hole 211a. If the key is a corresponding key, the cylinder lock 211 can be rotated clockwise or counterclockwise. Can also be rotated by a predetermined angle in this direction.

  The rotation transmitting member 212 is formed in a cylindrical shape with an open rear side (specifically, a conical cylinder shape whose diameter increases toward the rear side), and is directed forward from the rear end to a position facing the center axis. It has a pair of cutout portions 212a cut out. The rotation transmitting member 212 is formed such that the key cylinder 710 of the locking unit 700 in the main body frame 4 is inserted from behind, and the protrusion of the key cylinder 710 of the locking unit 700 is inserted into the pair of notches 212a. Thus, the rotation of the rotation transmitting member 212 (the key inserted into the key hole 211a of the cylinder lock 211) can be transmitted to the key cylinder 710 of the locking unit 700 to rotate the key cylinder 710.

  The cylinder mounting sheet metal 213 is formed by bending a single metal plate, and is formed in a convex shape whose shape in plan view protrudes forward. More specifically, the cylinder mounting sheet metal 213 includes a rectangular and flat front plate portion 213a extending vertically when viewed from the front, and a pair of side plate portions 213b extending rearward from the left and right sides of the front plate portion 213a. And a pair of mounting plate portions 213c extending in a flat plate shape in a direction away from the rear sides of each of the pair of side plate portions 213b. In the front plate portion 213a of the cylinder mounting metal plate 213, the cylinder lock 211 penetrates from the rear at a substantially central position in the vertical direction, and the rear end of the cylinder lock 211 is attached to the rear surface of the front plate portion 213a. The pair of mounting plate portions 213 c of the cylinder mounting plate 213 includes a mounting plate portion 213 c on the left side when viewed from the front and is attached to the right end portion of the middle reinforcing sheet metal 132 of the reinforcing unit 130, and a mounting plate portion 213 c on the right side when viewed from the front. Attached to the right reinforcing sheet metal 134. Accordingly, the middle reinforcing sheet metal 132 and the right reinforcing sheet metal 134 are connected by the cylinder mounting sheet metal 213.

  When the open / close cylinder unit 210 is assembled to the door frame base unit 100, the front end of the cylinder lock 211 protruding forward from the front plate portion 213a of the cylinder mounting sheet metal 213 has a cylinder insertion hole from the rear side of the door frame base 110. 114 and protrudes forward of the door frame base 110, and the front plate portion 213 a and the pair of side plate portions 213 b of the cylinder mounting plate 213 are accommodated in a box-shaped cylinder mounting portion 113 that is opened rearward. ing.

[3-4. Overall structure of production operation unit]
The overall configuration of the rendering operation unit 400 in the door frame 3 will be described in detail mainly with reference to FIGS. FIG. 34A is a front view of the effect operation unit in the door frame, and FIG. 34B is a right side view of the effect operation unit. FIG. 35A is a perspective view of the effect operation unit as viewed from the front, and FIG. 35B is a perspective view of the effect operation unit as viewed from the rear. FIG. 36 is an explanatory view of the rendering operation unit as seen from the direction in which the central axis of the operation button extends. FIG. 37 is a cross-sectional view taken along the line DD in FIG. 34 (a), and FIG. 38 is a cross-sectional view taken along the line EE in FIG. 34 (b). 39A is a cross-sectional view taken along line FF in FIG. 34B, and FIG. 39B is an enlarged view of a portion A in FIG. FIG. 40 is an exploded perspective view of the effect operation unit as seen from the front after being disassembled for each main member, and FIG. 41 is an exploded perspective view of the effect operation unit as seen from the rear after being disassembled as the main member. The production operation unit 400 is attached to the front part in the center in the left-right direction when viewed from the front of the dish unit 320, and can be pressed by the player and can also provide a production image to the player. It is.

  The production operation unit 400 has a circular outer shape and a transparent central portion excluding the outer periphery, and an operation button 410 that can be pressed by the player. The production operation unit of the dish unit cover 326 surrounds the outer periphery of the operation button 410. A frame-shaped frame unit 415 attached to the attachment portion 326a, a decorative board unit 420 disposed behind the operation button 410 and capable of emitting and decorating the outer peripheral edge of the operation button 410 and the frame unit 415; The base unit 430 is attached to the rear side of the unit 415, and the operation button 410 and the decorative board unit 420 are attached to the front surface. The base unit 430 is attached to the base unit 430 so as to be visible from the player side through the operation button 410. A door frame side effect display device 460 capable of displaying an image; Eteiru.

[3-4a. Manual operation button]
The operation button 410 of the effect operation unit 400 will be described in detail with reference mainly to FIGS. FIG. 42A is an exploded perspective view of the operation button as seen from the front, and FIG. 42B is an exploded perspective view of the operation button as seen from the back. The operation button 410 is formed in a circular shape whose outer shape is slightly smaller in diameter than the height in the vertical direction of the dish unit 320, and the center side excluding the outer peripheral edge is formed to be transparent. The operation button 410 has a transparent button lens 411 formed in a curved surface shape (a shape of a part of a spherical surface) so that the outer periphery is circular and the center side bulges forward, and on the front side of the outer periphery of the button lens 411. An annular button frame 412 is attached, and a cylindrical button base 413 is attached to the rear side of the button frame 412 so as to sandwich the outer periphery of the button lens 411. The button frame 412 and the button base 413 are formed of members that are difficult to transmit light.

  The button lens 411 is formed with a substantially constant thickness as a whole. Further, the button lens 411 is formed in a smooth curved surface with no irregularities on the surface side. The button lens 411 extends in a predetermined length from the back surface to the center side (inner side) at a position on the inner peripheral side of the button frame 412 in a W-shaped cross section, and is arranged in the circumferential direction. One button decoration part 411a and a line extending within a predetermined angular range in the circumferential direction while extending on the axis toward the center side in a state of being recessed in a circular arc shape from the back surface at a position on the outer peripheral side than the first button decoration part 411a And a plurality of (six) second button decoration portions 411b.

  As shown in the figure, the first button decoration portion 411a of the button lens 411 extends from the inner periphery of the button frame 412 to the center side in a state assembled to the operation button 410. Longer than the center.

  Each of the plurality of second button decoration portions 411b of the button lens 411 extends in an arc shape on the same circumference, and three are formed on each of the left and right sides. These second button decoration portions 411 b are formed so as to face the frame opening 412 a of the button frame 412, and protrude forward so that the front side is substantially flush with the front surface of the button frame 412.

  The button lens 411 exhibits a lens effect in which light is refracted by the concave and convex portions having a W-shaped cross section or a circular arc shape formed on the back surface in the first button decorative portion 411a and the second button decorative portion 411b. Therefore, the rear side is not clearly visible.

  The button frame 412 is formed in an annular shape, and includes a plurality of (six) frame openings 412 a penetrating in the front-rear direction and extending in a circular shape with a predetermined length in the circumferential direction. Six frame openings 412a are provided on each of the left and right sides, and correspond to the six second button decoration portions 411b of the button lens 411. The button frame 412 includes a plating layer having a metallic luster on the surface.

  The button base 413 includes a substantially cylindrical main body 413a that extends short in the front-rear direction, an annular flange 413b that protrudes outward from the front end of the main body 413a, and a main body 413a from the rear side of the flange 413b. A plurality of (four) guide bosses 413c projecting rearward along the outer circumference of the main body 413a at substantially equal intervals in the circumferential direction, and along the outer circumference of the main body 413a from the rear side of the flange 413b. A plurality of (three) detection pieces 413d that protrude rearward in a band shape and penetrate the flange portion 413b in the front-rear direction outside the main body portion 413a and have a predetermined length along the outer periphery. A plurality of (six) base openings 413e extending in the circumferential direction, and extending in a cylindrical shape from the front end of the main body 413a to the front, the front end being the inner surface of the button lens 411 And a, an inner extending portion 413f are narrowed inward (central side) along.

  The outer peripheral edge of the button lens 411 and the button frame 412 are attached to the outer peripheral surface of the inner extending portion 413f and the front surface of the flange portion 413b in the button base 413. The four guide boss portions 413c are respectively disposed at portions corresponding to the four corners of the upper, lower, left, and right with respect to the circumferential direction of the main body portion 413a. These four guide boss portions 413c are slidably inserted into the holding holes 431b of the unit base 431 in the base unit 430, respectively. The three detection pieces 413d are arranged at substantially equal intervals in the circumferential direction so as to be arranged two on the upper side and one on the lower side with respect to the circumferential direction of the main body 413a. These three detection pieces 413d are detected by the press detection sensor 440 of the base unit 430 when the operation button 410 is pressed.

  The six base openings 413 e are provided on each of the left and right sides, and correspond to the second button decoration part 411 b of the button lens 411 and the frame opening 412 a of the button frame 412. In the portion of the base opening 413e in the button base 413, a part of the main body 413a and the inner extension 413f is recessed inward from the outer peripheral side. The inner extension portion 413f has an inner diameter of the front end that is narrowed inward substantially equal to the inner diameter of the button frame 412.

  The operation button 410 has a front surface that bulges forward in a curved surface shape (a shape of a part of a substantially spherical surface) and is formed to be transparent, and the door frame side effect display device 460 disposed on the rear side. Can be viewed from the front. The operation button 410 has four guide boss portions 413 c slidably inserted into the holding holes 431 b of the unit base 431 in the base unit 430, and the operation button springs 438 inserted into the holding holes of the unit base 431 at 431 b. It is urged forward by. The operation button 410 is further prevented from moving forward by the urging force of the operation button spring 438 of the base unit 430, and the front side of the outer peripheral edge abuts on the frame unit 415. As a result, the rear end moves backward until it comes into contact with the front surface of the base unit 430. When the operation button 410 is pressed and moved backward, at least one of the three detection pieces 413d is detected by the press detection sensor 440 of the base unit 430. The operation button 410 is operated by the detection of the detection piece 413d by the press detection sensor 440.

  The operation button 410 is a first button decoration formed over the entire circumference so as to extend from the inner peripheral end of the button frame 412 to the center side in the transparent button lens 411 in a state where the production operation unit 400 is assembled. By the portion 411a, the gap between the inner peripheral surface of the button base 413 and the operation button inner decoration member 432 of the base unit 430 can be made difficult to see from the player side.

  Further, the operation button 410 has a cylindrical button base 413 whose front end opening is closed by a button lens 411 and a button frame 412, and the operation button 410 is attached to the outer periphery of the button lens 411 by the button frame 412. With respect to the outer diameter of 410, a transparent portion whose rear side is visible is formed so as to be constricted inward from the outer periphery. The presence of the button frame 412 also makes it difficult for the player to see the gap between the inner peripheral surface of the button base 413 and the operation button interior decoration member 432 of the base unit 430.

  In addition, when the operation button 410 is assembled to the effect operation unit 400, the rear end of the cylindrical button base 413 (main body 413 a) passes through the inner peripheral side of the decoration board unit 420 and is more than the front surface of the decoration board unit 420. It will be in the state of protruding backward. As a result, the light emitted forward from the first LEDs 422a and 423a and the second LEDs 422b and 423b mounted on the operation button left outer decorative substrate 422 and the operation button right outer decorative substrate 423 of the decorative substrate unit 420 is displayed. It is possible to prevent leakage from the outside of the base 413 to the inside, and the operation button left inner decoration board 433, the operation button right inner decoration board 434, the operation button upper inner decoration board 435, and the operation button lower inside of the base unit 430. It is possible to prevent light emitted forward from the LED mounted on the decorative substrate 436 from leaking from the inside to the outside of the button base 413. Accordingly, the first LED 422a, 423a and the second LED 422b, 423b of the decoration board unit 420 and the operation button left inner decoration board 433, the operation button right inner decoration board 434, the operation button upper inner decoration board 435, and the operation button of the base unit 430. The LEDs mounted on the lower inner decorative board 436 can prevent the portions other than the light emitting decoration target from being decorated with light emission, and can perform the light emission decoration with good appearance.

[3-4b. Frame unit]
The frame unit 415 of the effect operation unit 400 will be described in detail with reference mainly to FIGS. The frame unit 415 is attached from the front side to the effect operation unit attachment portion 326a of the dish unit cover 326 in the dish unit 320 so as to surround the outer periphery from the front side of the operation button 410, and decorates the outside of the operation button 410. The frame unit 415 has an outer shape that matches the front end side of the effect operation unit attachment portion 326a.

  The frame unit 415 includes a frame-shaped frame body 416 having a circular central opening 416a attached to the rendering operation unit attachment part 326a of the dish unit cover 326 in the dish unit 320, and the frame main body 416 on the left and right sides of the central opening 416a. A pair of translucent frame side lenses 417 attached from the rear side, and a translucent frame top lens 418 attached from the front side to the frame body 416 above the central opening 416a. Yes.

  The frame body 416 has a circular central opening 416a that is smaller in diameter than the outer diameter of the operation button 410 and penetrates in the front-rear direction, and penetrates in the front-rear direction on both the left and right sides of the central opening 416a. A plurality of (six) outer peripheral openings 416b extending in a circular arc shape along the peripheral edge of the central opening 416b, and a notch 416c notched with a predetermined width on the upper front surface of the central opening 416a. It is equipped with. The central opening 416a is formed to have substantially the same diameter as the outer diameter of the frame opening 412a of the button frame 412 of the operation button 410. Thereby, the front end side of the flange part 413b of the button base 413 in the operation button 410 can contact | abut on the outer peripheral rear side of the frame opening part 412a.

  Six outer peripheral openings 416b are provided in three each on the left and right outer sides of the central opening 416a, and are closed by a frame side lens 417 from the rear side. The notch 416c penetrates also in the front-rear direction, and the frame top lens 418 is fitted from the front side.

  The frame main body 416 includes a substantially cylindrical inner cylindrical portion 416d extending rearward from a position slightly outside the peripheral edge of the central opening 416a. The inner cylindrical portion 416d extends rearward from a position between the central opening 416a and the outer peripheral opening 416b, and a portion corresponding to the notch 416c is cut away. The inner cylinder portion 416d has the first LED 422a and 423a and the second LED 422b and 423b on the operation button left outer decorative substrate 422 and the operation button right outer decorative substrate 423 of the decorative substrate unit 420 in a state where the effect operation unit 400 is assembled. Between the first LEDs 422a and 423a and the second LEDs 422b and 423b (see FIG. 38).

  Furthermore, the frame main body 416 extends outward at the upper left and right sides of the outer periphery, and includes a pair of attachment portions 416e attached to the effect operation unit attachment portion 326a of the plate unit cover 326 of the plate unit 320. The frame main body 416 (the production operation unit 400) is attached to the production operation unit attachment portion 326a of the plate unit cover 326 of the plate unit 320 at the left and right sides of the pair of attachment portions 416e and the cutout portion 416c.

  The frame body 416 is substantially entirely metal except for a portion having the same width as the notch 416c on the side opposite to the notch 416c side (the side on which the frame top lens 418 is attached) with the central opening 416a in between. A glossy plating layer is formed.

  The frame side lens 417 closes the outer peripheral openings 416b formed on the left and right sides of the frame main body 416 from the rear side. The front side of the frame side lens 417 is formed on a smooth surface without irregularities, and a plurality of irregularities along the periphery of the central opening 416a is formed on the rear side (see FIGS. 39 and 46). The light is refracted by the plurality of irregularities so that the rear side of the frame side lens 417 cannot be seen.

  The frame top lens 418 has a substantially quadrangular outer shape so as to be fitted into the notch 416c of the frame body 416 from the front side. The frame top lens 418 has a smooth front surface. The frame top lens 418 has a plurality of projections and recesses extending in a zigzag shape along the periphery of the central opening 416a on the rear surface side, and is arranged in a plurality of rows in the radial direction of the central opening 416a (see FIGS. 37 and 46). reference). The light is refracted by the plurality of irregularities so that the rear side of the frame top lens 418 cannot be seen.

  The frame unit 415 is a state in which the production operation unit 400 is assembled, and a pair of frame side lenses 417 are arranged on the operation button left outer decorative substrate 422 and the operation button right outer decorative substrate 423 of the decorative substrate unit 420, respectively. The frame top lens 418 is positioned in front of the frame top lens decoration substrate 437 of the base unit 430, and each of the second LEDs 422b, 423b and the like mounted thereon can be decorated with light emission. .

[3-4c. Decorative board unit]
The decorative board unit 420 of the effect operation unit 400 will be described in detail mainly with reference to FIGS. FIG. 43 is an exploded perspective view of the decorative board unit of the effect operation unit as seen from the front. The decorative board unit 420 is attached to the front surface of the base unit 430 below the frame unit 415, and can light-decorate the second button decoration portion 411b of the operation button 410 and the frame side lens 417 of the frame unit 415. The operation unit 400 can be given vibration.

  The decorative substrate unit 420 includes a C-shaped substrate base 421 whose upper side is open, an operation button left outer decorative substrate 422 and an operation button right outer decorative substrate 423 attached to the front surfaces of the left and right sides of the substrate base 421, respectively. A vibration motor 424 attached to the lower front portion of the substrate base 421, and a motor cover 425 attached to the front surface of the substrate base 421 so as to cover the front side of the vibration motor 424.

  The substrate base 421 is formed so that the inner peripheral side is slightly larger than the outer diameter of the cylindrical main body 413 a in the button base 413 of the operation button 410, and the outer peripheral side is larger than the outer diameter of the flange portion 413 b in the button base 413. In addition, it is formed smaller than the outer diameter of the frame unit 415.

  The operation button left outer decorative substrate 422 extends in an arc shape along the front surface of the substrate base 421. The operation button left outer decorative board 422 has a plurality of first LEDs 422a mounted on the front side along the inner circumference of the board base 421, and a radially outer side of the plurality of first LEDs 422a on the inner circumference of the board base 421. And a plurality of second LEDs 422b mounted along. The operation button right outer decorative substrate 423 extends in an arc shape along the front surface of the substrate base 421. The operation button right outer decorative board 423 is provided on the front side with a plurality of first LEDs 423a mounted along the inner circumference of the board base 421, and on the inner circumference of the board base 421 at a radially outer side than the plurality of first LEDs 423a. And a plurality of second LEDs 423b mounted along. The operation button left outer decorative board 422 and the operation button right outer decorative board 423 are white on both front and rear sides.

  The vibration motor 424 has an eccentric weight 424a attached to the rotation shaft, and can generate vibration by rotating the weight 424a.

  When the decorative board unit 420 is assembled to the effect operation unit 400, the rear end side of the cylindrical main body 413 a of the button base 413 of the operation button 410 is inserted inside the board base 421. Further, in the decorative board unit 420, the first LEDs 422a and 423a in the operation button left outer decorative board 422 and the operation button right outer decorative board 423 are located behind the second button decorative portion 411b of the operation button 410, respectively. The second LEDs 422b and 423b are located behind the frame side lens 417 of the frame unit 415. Further, in the assembled state in the production operation unit 400, a frame is provided between the first LEDs 422a and 423a of the operation button left outer decorative board 422 and the operation button right outer decorative board 423 and the second LEDs 422b and 423b, respectively. The inner cylinder part 416d of the unit 415 is located (see FIG. 38).

  Therefore, the decoration board unit 420 emits and decorates only the second button decoration portion 411b of the operation button 410 by the light from the first LEDs 422a and 423a on the operation button left outer decoration board 422 and the operation button right outer decoration board 423. In addition, only the frame side lens 417 of the frame unit 415 can be illuminated and decorated by the light from the respective second LEDs 422b and 423b.

  In addition, the decorative substrate unit 420 can generate vibration by rotating the weight 424a of the vibration motor 424, and can vibrate the effect operation unit 400 as a whole.

[3-4f. Effect of production operation unit]
The effects of the effect operation unit 400 will be described in detail mainly with reference to FIGS. 44 to 46 and the like. FIG. 44 is an explanatory diagram showing a state in which the operation button is pressed in the cross-sectional view of the effect operation unit of FIG. FIG. 45 (a) is a view of the rendering operation unit as viewed from the direction in which the central axis of the operation button extends, and a part of the operation button is cut away so as to be hidden by the first button decoration portion of the operation button, the button frame, or the like. It is explanatory drawing which shows a site | part, (b) is explanatory drawing which shows the site | part which is going to hide by the 1st button decoration part of an operation button, a button frame, etc. in sectional drawing of a production | presentation operation unit. 46 (a) is an explanatory view showing the appearance of the rendering operation unit as viewed from the front, and FIG. 46 (b) is an explanatory view of the appearance of the rendering operation unit as viewed from the direction in which the central axis of the operation button extends. It is.

  The effect operation unit 400 of the present embodiment can show the effect image to the player according to the game state that is changed when the game ball is driven into the game area 5a of the game board 5, and the player can operate the game. It is possible to entertain and entertain the player in the presentation presented to the player by operating the button 410.

  The production operation unit 400 has an overall height that is substantially the same as the height of the lower portion of the through-hole 111 of the door frame base 110 in the door frame base unit 100 of the door frame 3. In addition, the production operation unit 400 has a full width slightly larger than 1/3 of the full width of the door frame 3. The production operation unit 400 is arranged at the center in the left-right direction below the game area 5a (the through hole 111 of the door frame base 110) in the front view.

  In the rendering operation unit 400, the upper part of the frame body 416 of the frame unit 415 is attached to the rendering operation unit mounting portion 326 a of the dish unit cover 326 in the dish unit 320. When the rendering operation unit 400 is attached to the tray unit 320, the bottom surface of the leg portion 442a of the relay board cover 442 serving as the bottom surface is spaced from the top surface of the bottom plate portion 326i of the tray unit cover 326 of the tray unit 320. Is formed. That is, only the upper part of the production operation unit 400 is attached to the dish unit 320 and is attached in a suspended state.

  Further, in the rendering operation unit 400, the front surface of the frame unit 415 (the surface formed by the inner periphery of the front end of the central opening 416a of the frame body 416) is parallel to the inclined surface of the front end opening of the rendering operation unit attachment portion 326a. As installed. As a result, the production operation unit 400 is configured such that the central axis CL of the transparent operation button 410 bulging forward in a curved surface shape (substantially spherical shape) is at an angle of 63 degrees with respect to the vertical line. It is inclined to move upward as it goes forward. Accordingly, when a player sits in front of the pachinko machine 1 in order to play a game using the pachinko machine 1, the head of the player is arranged above the plate unit 320 (the production operation unit 400). Since the game board 5 is positioned in front of the center of the game area 5a, the center axis CL of the operation button 410 passes near the head of the player. Therefore, when the player drops his / her line of sight from the game area 5a to the effect operation unit 400 (operation button 410), the operation button 410 is as close as possible to the front view (projection view from a direction parallel to the central axis CL). Thus, the operation button 410 and the door frame side effect display device 460 in the operation button 410 can be visually recognized in a good state.

  In the effect operation unit 400, the four guide boss portions 413c of the operation button 410 are slidably inserted into the four holding holes 431b of the base unit 430, and are urged forward by the operation button spring 438. In the normal operation state (the state where the operation button 410 is not pressed), the effect operation unit 400 causes the front end of the flange portion 413b of the button base 413 of the operation button 410 to be attached to the frame unit 415 by the urging force of the operation button spring 438. The frame body 416 is in contact with a portion near the central opening 416a on the rear surface.

  In the normal operation state, the rendering operation unit 400 protrudes forward from the central opening 416a of the frame body 416 in the frame unit 415 from the vicinity of the inner periphery of the button frame 412 of the operation button 410 to the center side (center axis line CL side). Yes. In other words, in the transparent button lens 411 that bulges forward in a curved surface shape (substantially spherical shape) in the operation button 410, a portion that protrudes forward from the inner periphery (inside) of the button frame 412 is formed. The frame unit 415 protrudes forward from the central opening 416a of the frame body 416 (see FIG. 37 and the like).

  Incidentally, in the present embodiment, the diameter of the central opening 416a of the frame main body 416 in the frame unit 415 is about 15 cm, and the button lens 411 (the front end) with respect to the central axis CL direction of the operation button 410 is the frame unit. It protrudes about 4 cm forward from the front surface of 415.

  When the player presses the operation button 410 of the effect operation unit 400 in a normal state, the operation button 410 moves backward along the central axis CL against the urging force of the operation button spring 438. Then, when the rear end of the operation button 410 comes into contact with the front surface of the unit base 431 of the base unit 430, the backward movement is restricted and the backward movement of the operation button 410 is stopped. When the player presses the operation button 410, the button lens 411 bulging forward in a curved surface shape (substantially spherical shape) is pressed.

  The operation button 410 has a very large outer diameter compared to the operation buttons for production provided in the conventional pachinko machine, so the periphery of the button lens 411 away from the center is pressed. There is a high possibility of being. More specifically, the operation buttons for effects in the conventional pachinko machine are attached so that the center axis extends substantially parallel to the vertical line, whereas the operation buttons 410 of the effect operation unit 400 of the present embodiment. Is attached with the central axis CL inclined with respect to the vertical line, so that when the player presses the operation button 410 from above as in the conventional pachinko machine, as shown by the white arrow in FIG. The part away from the central axis CL of the operation button 410 is pressed.

  By the way, the operation buttons for performance in the conventional pachinko machine are formed with a flat surface on which the player presses, so when the operation button is enlarged with the flat part being pressed When pressing the part off the center of the operation button, the surface to be pressed is tilted so that the pressed part is retracted first, and the operation button cannot be receded straight, There is a possibility that the pressing operation cannot be performed.

  On the other hand, the operation button 410 of the effect operation unit 400 of this embodiment has a curved surface shape (a part of a substantially spherical surface) in which a portion (button lens 411) pressed by the player bulges forward. Therefore, when a pressing operation is performed at a position away from the center of the operation button 410, the force is distributed over the entire operation button 410, and the operation button 410 becomes difficult to tilt, and the operation button 410 moves rearward straightly. Can do. Therefore, no matter which position on the front side of the operation button 410 is pressed, the operation button 410 can be smoothly retracted without tilting, so that the pressing operation can be reliably detected and the operation button 410 is pressed. The operation to operate can be fully enjoyed.

  In addition, the production operation unit 400 has the vibration motor 424 attached to the lower part of the front surface of the substrate base 421 in the decorative board unit 420, and as described above, only the upper part is a dish so that the production operation unit 400 can be suspended. Since the vibration is generated by rotating the weight 424a by the vibration motor 424, the vibration is generated at a part farthest from the attached part because it is attached to the production operation unit attaching part 326a of the unit cover 326. The entire production operation unit 400 can be vibrated greatly (strongly), and the vibration can be transmitted to the player who is touching the production operation unit 400. In addition, since the vibration motor 424 is disposed immediately below the position where the player is relatively easy to press (the position of the white arrow in FIG. 44), the player who presses the operation button 410 is operated. Strong vibrations can be transmitted, and the player can be surprised and entertained.

  Further, the production operation unit 400 is attached to the dish unit cover 326 in a suspended state, and the lower surface of the leg portion 442a of the relay board cover 442 forming the lower surface and the bottom plate of the dish unit cover 326. Since a gap is formed between the upper surface of the portion 326i and the lower surface of the leg portion 442a comes into contact with the upper surface of the bottom plate portion 326i when the operation button 410 is strongly pressed or hit, the frame The impact can be absorbed by the mounting portion 416e of the unit 415, the rendering operation unit mounting portion 326a of the dish unit cover 326, etc. being bent downward. Further, after the lower surface of the leg portion 442a contacts the upper surface of the bottom plate portion 326i, the downward movement of the rendering operation unit 400 is restricted, and the mounting portion 416e of the frame unit 415 and the rendering operation unit mounting of the dish unit cover 326 are restricted. It is possible to prevent an excessive force from acting on the portion 326a and the like, and it is possible to prevent the rendering operation unit 400 and the like from being damaged. Therefore, even when the operation button 410 is pressed or hit with a strong force when an effect of pressing the operation button 410 of the effect operation unit 400 is presented to the player, the operation button 410 or the effect operation unit Since 400 and the like are not damaged, it is possible to avoid interruption of the game due to the damage, to suppress a decrease in the interest of the player, and to increase the burden on the game hall side by making it difficult to break. Can be suppressed.

  As described above, the button lens 411 of the operation button 410 to be pressed by the player is formed in a curved surface shape projecting forward (a part of the shape of a substantially spherical surface), and thus a flat plate shape. Compared to the case, the strength and rigidity are high, and even if it is strongly struck, the impact can be distributed to the entire button lens 411 and is not easily damaged.

  Further, as shown in FIG. 46, the production operation unit 400 includes a button lens 411, a frame side lens 417, a frame top lens 418, and an operation button interior decoration member 432 made of transparent members. Decorations such as first button decoration part 411a, second button decoration part 411b, first button decoration part 432f, and second button decoration part 432g formed on the back side are on the front side (player side) ). In addition, in the part where the uneven decoration is formed, the light is refracted in a complicated manner because the plate thickness is changed, so that the rear side is difficult to see through the part where the uneven decoration is formed. .

  The effect operation unit 400 includes the first button decoration portion 411a extending from the inner periphery of the button frame 412 to the center side of the button lens 411 of the operation button 410, and thus the uneven decoration of the first button decoration portion 411a. Thus, it is possible to make it difficult to see the rear at the outer peripheral portion of the portion that is inside the button lens 411. Behind the portion where the first button decoration portion 411a is formed (backward in the direction of the central axis CL), the inner peripheral surface of the body portion 413a of the button base 413 of the operation button 410 and the peripheral wall portion of the operation button inner decoration member 432 A gap between the outer peripheral surface of the operation button 432a is positioned, and the outer periphery of the operation button inner decorative member 432 is moved from the front side (player side) by the first button decoration portion 411a positioned in front of the gap. It can be difficult to see. Thereby, even if the operation button 410 that can be pressed is provided with the operation button decoration member 432 whose position is fixed, the appearance of the operation button 410 can be prevented from deteriorating. The player can be prevented from feeling uncomfortable, and the operation button decoration member 432 can be disposed in the transparent operation button 410 without any problem, and the appearance of the operation button 410 can be improved.

  More specifically, the effect operation unit 400 includes the first button decoration portion 411a, the second button decoration portion 411b, and the button frame 412 of the button lens 411 in the operation button 410. The unit base 431 and the decorative board unit 420 on the rear side (back side) on the outer side are formed so as not to be seen from the player side through the transparent button lens 411. Specifically, in FIG. 45, the cross hatched portion surrounded by the alternate long and short dash line is hidden from the player side. As described above, since the operation button 410 includes the first button decoration portion 411a, the second button decoration portion 411b, the button frame 412, and the like, the outside and the back side of the operation button inner decoration member 432 are hidden from view. Therefore, the appearance of the operation button 410 and, consequently, the production operation unit 400 can be improved.

  Further, in the effect operation unit 400, the first button decoration portion 411a of the button lens 411 in the operation button 410 extends toward the central axis CL of the operation button 410 and is arranged in the circumferential direction. Thus, the second button interior decoration portion 432g formed on the front plate portion 432b of the operation button interior decoration member 432 disposed on the inner rear side of the operation button 410 extends in an odd octagonal shape centering on the central axis CL. As shown in FIG. 46, the uneven line of the first button decorative part 411a and the uneven line of the second button internal decorative part 432g intersect each other as shown in FIG. The decoration can be shown to the player.

  In addition, since the first button decoration part 411a and the second button decoration part 432g are separated from each other in the front-rear direction (the direction in which the central axis line CL extends), the effect operation unit 400 is separated from the first button decoration part 411a. By the second button interior decoration portion 432g, a three-dimensional geometric pattern with depth can be shown to the player, and the decoration including the inside of the operation button 410 can be enjoyed.

  Furthermore, in the production operation unit 400, since the first button decoration part 411a and the second button decoration part 432g are separated in the front-rear direction, if the position of the player's eyes moves, the unevenness of the first button decoration part 411a Since the degree of overlap between the line and the concavo-convex line of the second button interior decoration portion 432g changes, a moving decoration can be shown to the player, and the player can be entertained.

  In this way, the effect operation unit 400 provides the player with a three-dimensional decoration with movement by the first button decoration portion 411a of the operation button 410 and the second button decoration portion 432g of the operation button decoration member 432. Since it can be shown, a player's interest can be attracted strongly and it can be set as the pachinko machine 1 with high appeal power.

  Further, the production operation unit 400 is within the operation button 410 (inside the button frame 412) and behind the operation button inner decoration member 432, the operation button left inner decoration board 433, the operation button right inner decoration board 434, and the operation button. The upper inner decoration board 435 and the operation button lower inner decoration board 436 are arranged, and by emitting a plurality of LEDs mounted on the front face thereof, the operation button inner decoration member 432 in the operation button 410 emits light. Can be decorated. That is, the operation button 410 can be illuminated and decorated by the operation button left inner decoration board 433, the operation button right inner decoration board 434, the operation button upper inner decoration board 435, and the operation button lower inner decoration board 436. The LEDs mounted on the front surfaces of the operation button left inner decoration board 433, the operation button right inner decoration board 434, the operation button upper inner decoration board 435, and the operation button lower inner decoration board 436 are as shown in FIG. When viewed from the direction in which the central axis CL extends, the operation button 410 is disposed inside the cylindrical main body 413a of the button base 413, so that light from them does not leak outside the main body 413a. Only the inside of the operation button 410 can be appropriately decorated with light emission.

  In addition, the rendering operation unit 400 has the operation button left outer decorative substrate 422 in the decorative substrate unit 420 behind the second button decorative portion 411b facing the frame opening 412a of the button frame 412 located near the outer periphery of the operation button 410. The first LED 422a and the first LED 423a of the operation button right outer decoration board 423 are arranged, and the six second button decoration portions 411b of the operation button 410 are illuminated and decorated by causing the first LEDs 422a and 423a to emit light. Can do. As shown in FIG. 38, the first LED 422a of the operation button left outer decorative board 422 and the first LED 423a of the operation button right outer decorative board 423 include a cylindrical main body 413a in the button base 413 of the operation button 410 and a frame unit. 415 is located between the cylindrical inner cylinder portion 416d of the frame main body 416, and the light from the first LEDs 422a and 423a does not leak to the inside of the main body portion 413a or the outer side of the inner cylinder portion 416d. Only the second button decoration portion 411b of the button 410 can be appropriately decorated for light emission.

  Further, the rendering operation unit 400 has the second LED 422b of the operation button left outer decorative board 422 and the operation button right outer decorative board behind the frame side lens 417 facing the six outer peripheral openings 416b of the frame body 416 in the frame unit 415. 423 2nd LED423b is arrange | positioned, The frame side lens 417 can be light-decorated by making these 2nd LED422b and 423b light-emit. The second LED 422b of the operation button left outer decorative board 422 and the second LED 423b of the operation button right outer decorative board 423 are disposed between the cylindrical inner cylinder 416d of the frame main body 416 of the frame unit 415 and the outer periphery of the frame main body 416. The light from the second LEDs 422b and 423b does not leak to the inside of the inner cylindrical portion 416d or the outside of the frame main body 416, and only the frame side lens 417 of the frame unit 415 can be appropriately decorated to emit light. .

  In addition, in the rendering operation unit 400, a frame top lens decoration substrate 437 in the base unit 430 is disposed behind the frame top lens 418 of the frame unit 415, and a plurality of elements are mounted on the front surface of the frame top lens decoration substrate 437. By emitting the LED, the frame top lens 418 can be decorated. A flat light-shielding wall 431c projects forward from the lower side of the base unit 430 where the frame top lens decorative substrate 437 of the unit base 431 is attached to the vicinity of the rear of the lower end of the frame top lens 418. The light from the LED on the top lens decoration substrate 437 does not leak to the operation button 410 or the frame side lens 417 side, and only the frame top lens 418 of the frame unit 415 can be decorated with good light emission.

[3-5. Door frame left side unit]
The door frame left side unit 530 of the door frame 3 will be described in detail mainly with reference to FIGS. 47 to 50. 47A is a front view of the door frame left side unit in the door frame, FIG. 47B is a perspective view of the door frame left side unit viewed from the front, and FIG. 47C is the rear view of the door frame left side unit. It is the perspective view seen from. FIG. 48 is an exploded perspective view of the door frame left side unit as seen from the front, and FIG. 49 is an exploded perspective view of the door frame left side unit as seen from the back. 50 is a cross-sectional view taken along line LL in FIG. The door frame left side unit 530 covers the front side of the door frame left side upper decorative substrate 161 and the door frame left side lower decorative substrate 162 (door frame left side decorative substrate 160) on the upper side of the dish unit 320. It is attached to the front left part on the left side of the through hole 111 in 100. The door frame left side unit 530 is for decorating the left side of the through hole 111 of the door frame base 110 when viewed from the front.

  The door frame left side unit 530 includes a band plate-like left unit base 531 extending vertically and attached to the front side of the through-hole 111 on the front surface of the door frame base 110 in the door frame base unit 100, and a left unit base 531 A transparent strip-shaped left unit diffusing lens member 532 attached to the front surface and a translucent material disposed in front of the left unit diffusing lens member 532 and having a polyhedral decoration at the front end. A left unit decorative lens member (not shown) and a left unit decorative lens member mounted on the front upper part of the left unit base 531 from the front side of the left unit decorative lens member, projecting forward in a cylindrical frame shape and extending vertically The decorative base 534 is attached to the lower part of the front surface of the left unit base 531 from the front side of the left unit decorative lens member. The left unit lower decorative base 535 that protrudes forward in a frame shape shorter than the decorative base 534 and the front end side of the left unit decorative lens member from the front side of the left unit upper decorative base 534 and the left unit lower decorative base 535 are covered. A transparent left unit decorative cover 536 attached to the front side of the left unit base 531 and a plurality of decorative members 537 attached to the front side of the left unit decorative cover 536 are provided.

  The left unit base 531 of the door frame left side unit 530 is formed in a shallow box shape with the rear side opened, and has a plurality of openings 531a penetrating front and rear in the front surface. As illustrated, the plurality of openings 531a include a circular hole and a quadrangular hole extending vertically. In the left unit base 531, the LEDs 161a and 162a mounted on the front surface of the door frame left side decorative board 160 (the door frame left side upper decorative board 161 and the door frame left side lower decorative board 162) are provided from a plurality of openings 531a. It is attached to the front left side of the door frame base 110 so as to face forward. Each opening 531a of the left unit base 531 is formed so that each LED 161a, 162a of the door frame left side decorative board 160 is positioned at a substantially vertical center when assembled in the door frame 3. The left unit base 531 is formed of an opaque member.

  Further, the left unit base 531 has a left reflective upright wall portion 538 (see FIGS. 5 and 23) that is erected from the glass plate 192 disposed so as to close the through-hole 111 toward the near side. ing. In the left reflecting vertical wall portion 538, an inner side surface that is formed in a flat surface shape so as to face the through-hole 111 is provided as a reflecting surface capable of reflecting light. This reflective surface can be provided by providing the inner side surface of the left reflecting vertical wall portion 538 from a reflective material such as metal or resin, or by attaching a reflective seal to the inner side surface. Is possible. As will be described later, the left reflective upright wall portion 538 is formed by the left unit base 531 and serves as a portion that bears a part (left side portion) of the reflective upright wall portion 33 described above.

  The left unit diffusion lens member 532 is formed of a transparent member, and is divided into an upper diffusion lens member 532A and a lower diffusion lens member 532B. The left unit diffusing lens member 532 includes a circular lens portion 532a having a circular shape in front view corresponding to the circular opening portion 531a in the left unit base 531, and a square having a rectangular shape in front view corresponding to the rectangular opening portion 531a. A lens portion 532b. The door frame left side unit 530 is assembled to the door frame 3 so that the respective LEDs 161a and 162a of the door frame left side decorative board 160 are positioned immediately after the center of the circular lens portion 532a and the square lens portion 532b. Is formed.

  The circular lens portion 532a of the left unit diffusing lens member 532 is formed in a convex lens shape with smooth front and rear surfaces. By this circular lens portion 532a, the light from the LEDs 161a and 162a disposed on the rear side can be irradiated forward in the form of dots. With the light irradiated forward from the circular lens portion 532a, the circular decorative portion of the left unit decorative lens member can be illuminated and decorated.

  The rectangular lens portion 532b of the left unit diffusing lens member 532 includes a central diffusing reflection portion 532c that is recessed backward in a conical shape at the center of the front surface, and a front diffusing lens portion 532d that is formed outside the central diffusing reflection portion 532c on the front surface. An input lens portion 532e that bulges backward in a curved surface shape at the center of the rear surface (immediately after the central diffuse reflection portion 532c), and forward as the distance from the input lens portion 532e increases as a whole outside the input lens portion 532e on the rear surface. And a front reflecting portion 532f that is inclined so as to move.

  The front diffusing lens portion 532d of the rectangular lens portion 532b is formed by a plurality of concentric arc-shaped grooves that are divided in the circumferential direction by radially extending lines centering on the central diffusive reflecting portion 532c. More specifically, the front diffusing lens portion 532d has a cross-sectional shape when cut along the radial direction, and the groove portion is recessed backward in an arc shape, and the mountain portion between the grooves is forward. It swells in an arc shape, and the front surface is formed in a smooth wave shape. The front diffusing lens portion 532d is formed so that the groove portions and the mountain portions are alternately positioned in the circumferential direction with the radially extending lines divided in the circumferential direction as a boundary.

  The front reflecting portion 532f of the rectangular lens portion 532b is formed by a plurality of concentric arc-shaped grooves that are divided in the circumferential direction by lines extending radially around the input lens portion 532e. The plurality of grooves are recessed in a V shape from the rear to the front, and the deepest part is formed in an arc shape. The front reflecting portion 532f is formed in a saw-like shape in which the cross-sectional shape when cut along the radial direction is formed in a triangular shape in which a peak portion between the grooves is pointed backward. The front reflecting portion 532f is formed such that the groove and the mountain portion move forward as the distance from the center increases. Further, the front reflecting portion 532f is formed so that the groove portions and the mountain portions are alternately positioned in the circumferential direction, with the radially extending lines divided in the circumferential direction as a boundary. The radially extending lines divided in the circumferential direction coincide with the radially extending dividing lines in the front diffusion lens portion 532d.

  When the rectangular lens portion 532b is assembled to the door frame 3, the LEDs 161a and 162a corresponding to the door frame left side decorative board 160 are positioned immediately after the input lens portion 532e.

  In the rectangular lens unit 532b, light emitted forward from the LEDs 161a and 162a is input from the input lens unit 532e into the rectangular lens unit 532b. Since the input lens portion 532e bulges back in a curved surface (convex lens shape), the light spreading forward from the LEDs 161a and 162a is refracted so as to travel in parallel forward, and the input light Almost all can be led to the conical central diffuse reflection portion 532c. The light guided to the central diffuse reflection portion 532c is parallel to the front surface of the door frame left side decorative substrate 160 in a direction perpendicular to the front and rear axes by the inclined conical surface of the central diffuse reflection portion 532c. In other words, the light beam is reflected so as to diffuse in the direction of the light and travels in the rectangular lens portion 532b from the center side toward the outside along the front surface thereof. The light reflected by the central diffuse reflection part 532c travels from the center side to the outside (in the direction away from the center line of the central diffuse reflection part 532c) over the entire thickness of the rectangular lens part 532b in the front-rear direction.

  When the light reflected from the center side toward the outside substantially parallel to the front surface of the door frame left side decorative board 160 reaches the saw-like front reflection part 532f, the front side of the front reflection part 532f moves forward. Reflect to the side. At this time, since the front reflecting portion 532f is inclined so that the rear surface moves forward as it moves away from the central diffuse reflecting portion 532c, the thickness in the front-rear direction of the rectangular lens portion 532b decreases as it moves away from the center. (See FIG. 50). As a result, the light reflected toward the outside over the entire thickness of the rectangular lens portion 532b in the central diffuse reflection portion 532c is sequentially forwarded by the front reflection portion 532f as it goes outward from the center side. Can be reflected.

  The light reflected forward by the front reflecting portion 532f is irradiated forward from the rectangular lens portion 532b through the front diffusion lens portion 532d. At this time, since the front diffusion lens portion 532d has a wavy cross section, the light reflected forward by the front reflection portion 532f can be diffused in various directions, and the square lens portion 532b. It is possible to irradiate the front (the rear surface of the left unit decorative lens member) with light substantially uniformly from the front surface.

  In the front diffuser lens portion 532d and the front reflection portion 532f, the rectangular lens portion 532b is formed by dividing a plurality of concentric circular grooves with a plurality of radially extending lines, and then concentric arc-shaped grooves with the dividing lines as a boundary. Since the concentric arc-shaped grooves are alternately arranged in the circumferential direction by shifting in the radial direction, the light radiated forward from the front surface of the rectangular lens portion 532b has the density of the concentric striped pattern. It is possible to avoid becoming light and to irradiate light with more uniform light and shade forward. As a result, the multi-sided decorative part in front of the rectangular lens part 532b in the left unit decorative lens member can be illuminated and decorated substantially uniformly.

  A left unit decorative lens member (not shown) is formed along the front surface of the left unit decorative cover 536. The left unit decorative lens member is positioned in front of the circular decorative portion formed at the front position of the circular lens portion 532 a of the left unit diffusion lens member 532 and the square lens portion 532 b of the left unit diffusion lens member 532. And a multi-sided decoration part formed on the part. The circular decorative portion is formed in a shape including a plurality of triangular ribs in the circumferential direction on the outer periphery of a cylindrical portion whose front surface is short and extends forward and backward. The polyhedral decorative part has a plurality of quadrangular pyramid-shaped portions arranged in the vertical direction on the front surface of the rectangular parallelepiped extending vertically, and a plurality of triangular polyhedrons arranged in the vertical direction on the left and right sides of the rectangular parallelepiped portion. It is formed in such a shape. The circular decorative portion and the multi-surface decorative portion are formed in the same shape as the circular decorative portion 561a and the multi-surface decorative portion 561b of the right unit decorative lens member 561 in the door frame right side unit 550.

  The left unit decorative lens member can be viewed from the front side (player side) through the transparent left unit decorative cover 536. The left unit decorative lens member has a multi-sided decorative part forward from the square lens part 532b of the left unit diffusing lens member 532 by light emitted from the circular decorative part 532a of the left unit diffusing lens member 532 to the front. Each light is illuminated and decorated.

  The left unit upper decoration base 534 is a quadrangular shape whose front view extends vertically, and is formed in a rectangular tube shape extending forward and backward. The left unit upper decorative base 534 is inclined so that a portion constituting the lower surface on the outer periphery protrudes downward from the front end side toward the rear end side, and a lower portion of the portion penetrates back and forth. The left unit upper decoration base 534 is formed of a light-impermeable member.

  The left unit lower decoration base 535 is formed in a U shape whose front view is opened upward. The left unit lower decoration base 535 is inclined to the rear end so that the upper side from the center in the vertical direction at the front end moves rearward as it goes upward. The left unit lower decoration base 535 is formed of a light-impermeable member.

  The left unit decorative cover 536 extends up and down over the entire height of the door frame left side unit 530. The left unit decoration cover 536 is bent so that the middle part in the vertical direction is recessed backward, and the lower part is bent backward along the front end of the left unit upper decoration base 534, The upper part of the unit-shaped decorative base 535 is bent back so that the upper part is bent backward, and the lower end of the upper character-like part is connected to the upper end of the lower character-like part. And a linear portion.

  The left unit decoration cover 536 has upper and lower ends attached to the front surface of the left unit upper decoration base 534 and the front surface of the left unit lower decoration base 535, respectively. The left unit decorative cover 536 is formed of a transparent member, and the left unit decorative lens member disposed on the rear side can be viewed from the front side.

  The decoration member 537 extends short up and down, and is attached to the front surface of the left unit decoration cover 536 at a predetermined interval in the vertical direction. The decorative member 537 is formed of an opaque member.

[3-6. Door frame right side unit]
The door frame right side unit 550 of the door frame 3 will be described in detail mainly with reference to FIGS. 51A is a front view of the door frame right side unit in the door frame, FIG. 51B is a perspective view of the door frame right side unit viewed from the front, and FIG. 51C is the rear view of the door frame right side unit. It is the perspective view seen from. FIG. 52 is an exploded perspective view of the door frame right side unit as seen from the front, and FIG. 53 is an exploded perspective view of the door frame right side unit as seen from the rear. 54 is a cross-sectional view taken along line MM in FIG. 55A is a cross-sectional view taken along line NN in FIG. 51A, and FIG. 55B is a cross-sectional view taken along line OO in FIG. The door frame right side unit 550 is attached to the right side of the through hole 111 on the front surface of the door frame base 110 of the door frame base unit 100 above the plate unit 320.

  The door frame right side unit 550 includes a box-shaped right unit base 551 extending vertically and attached to the right side of the through-hole 111 in front of the door frame base 110 in the door frame base unit 100, and a front surface of the right unit base 551. The door frame right side decorative board 552 is attached to the front side of the right side of the right side of the right unit base 551 on the front side of the door frame right side decorative board 552 and extends in the vertical and front-rear directions. A transparent flat plate-shaped right unit left diffusing lens member 553, a sheet-like right unit left decorative member 554 attached to the left side surface of the right unit left diffusing lens member 553, and a right unit left decorative member A transparent flat plate-like right unit left cover attached to the right unit left diffusing lens member 553 so as to cover the left side of Includes a over 555, the.

  Further, the door frame right side unit 550 includes a right diffuser and a right unit left diffusing lens from the front center of the front of the right unit base 551 on the front side of the door frame right side decorative board 552 and on the right side of the right unit left diffusing lens member 553. A transparent flat plate-like right unit right diffusing lens member 556 attached to the member 553 and extending in the vertical direction and the front-rear direction, and attached to the right side of the right unit right diffusing lens member 556 and decorated. A sheet-like right unit right decorative member 557, and a transparent flat plate-like right unit right cover 558 attached to the right unit right diffusing lens member 556 so as to cover the right side of the right unit right decorative member 557. Yes.

  Furthermore, the door frame right side unit 550 is disposed between the right unit left diffusing lens member 553 and the right unit right diffusing lens member 556, and extends in the vertical direction and the front-rear direction in which the front and right sides are opened. A box-shaped light-impermeable right unit left light-shielding member 559 and a light-opaque light mounted on the left side of the right unit right-diffusing lens member 556 so as to close the open right side of the right unit left light-shielding member 559 And a flat right unit right light-shielding member 560.

  The door frame right side unit 550 is attached to the front ends of the right unit left diffusing lens member 553 and the right unit right diffusing lens member 556, and has a translucent right having a polyhedral decoration at the front end. The unit decorative lens member 561 is attached to the front surface of the right unit base 551 so as to cover the left and right sides of the right unit decorative lens member 561 and the front end sides of the right unit left diffusion lens member 553 and the right unit right diffusion lens member 556. A frame-shaped right unit decoration base 562 penetrating forward and backward, a transparent right unit cover 563 attached to the front side of the right unit decoration base 562 so as to close the front end opening of the right unit decoration base 562, and a right unit cover And a plurality of decorative members 564 attached to the front side of 563. Although illustration is omitted, the door frame right side unit 550 is attached so as to vertically penetrate the right unit base 551, and the door body relay board of the door frame base unit 100 and the door frame of the door frame top unit 570. A connection cable for connecting the top unit relay board 589 is provided.

  The right unit base 551 of the door frame right side unit 550 is a quadrangular shape whose front view is elongated vertically, and is formed in a box shape in which the center portion in the front-rear direction is closed, extending in a rectangular tube shape short in the front-rear direction. Has been. The right unit base 551 is formed of an opaque member.

  Further, the right unit base 551 has a right reflecting vertical wall 568 (see FIGS. 6 and 24) erected from the glass plate 192 disposed so as to close the through-hole 111 toward the near side. ing. In the right reflecting vertical wall portion 568, an inner side surface that is flat and faces the through-hole 111 is provided as a reflecting surface that can reflect light. In addition, the reflective surface is provided with a reflective material such as metal or resin as the inner side surface of the right reflective vertical wall portion 568 as well as the inner side surface of the left reflective vertical wall portion 538. It can also be provided by attaching a seal for use. As will be described later, the right reflection standing wall portion 568 is formed by the right unit base 551 and serves as a portion that bears a part (right side portion) of the reflection standing wall portion 33 described above.

  The door frame right side decorative substrate 552 is formed in a strip shape extending vertically. The door frame right side decorative board 552 is mounted on the left side of the front left-right center of the plurality of left LEDs 552a, on the front side of the right LED 552b mounted on the right side of the left-right center, and mounted on the front side of the left-right center. A plurality of middle LEDs 552c. The left LED 552a of the door frame right side decorative substrate 552 is for illuminating the right unit left decorative member 554 via the right unit left diffusing lens member 553. Further, the right LED 552b is for illuminating the right unit right decorative member 557 via the right unit right diffusing lens member 556. The middle LED 552c is for decorating the right unit decorative lens member 561 with light emission.

  The door frame right side decorative substrate 552 is formed with white on both front and rear sides. The door frame right side decorative substrate 552 is divided into an upper door frame right side upper decorative substrate 552A and a lower door frame right side lower decorative substrate 552B. Although illustration is omitted, the door frame right side lower decorative board 552B is connected to the door body relay board of the door frame base unit 100, and the door frame right side upper decorative board 552A is the door frame right side lower decorative board 552B. It is connected to the.

  The right unit left diffusing lens member 553 includes a flat plate-like main body portion 553a extending in the vertical direction and the front-rear direction, a rear wall portion 553b protruding in a flat plate shape from the rear side of the main body portion 553a to the right in front view, and A right unit left decorative member on the left side of the main body 553a when viewed from the front side of the main body 553a, and a plurality of cutouts 553c that are cut in a square shape from the right end of the rear wall 553b to the left when viewed from the front. A receiving recess 553d that is shallowly recessed to receive 554, a plurality of input lens portions 553e that protrude rearward from the rear end surface of the main body portion 553a, and a right side surface in front view of the main body portion 553a. And a plurality of side reflecting portions 553f arranged in the vertical direction so that the input lens portion 553e is in the center in the vertical direction.

  The main body portion 553a of the right unit left diffusing lens member 553 has a shape in a side view in which the upper corner of the front end of the quadrangle that extends vertically is obliquely cut out in a C-chamfered shape and the lower side is directed upward as it goes forward It is formed in the shape which inclines so that it may move to. Further, as shown in FIG. 55, the main body 553a as a whole moves to the right from the rear end side toward the front, so that the main body 553a is moved to the right in the front view with respect to the vertical line on the front surface of the door frame right side decorative board 552. Slightly inclined. The front end of the main body 553a protrudes to the front larger than the front end of the door frame left side unit 530 in a state assembled to the door frame 3.

  The rear wall portion 553b is assembled to the door frame right side unit 550, and the right end thereof extends to the center of the right unit base 551 in the left-right direction. The left end of the rear wall portion 556b of the right unit right diffusing lens member 556 is in contact with the right end of the rear wall portion 553b.

  A plurality of notches 553c are formed at predetermined intervals in the vertical direction, and a part thereof corresponds to the LED 552c in the door frame right side decorative board 552. In the state assembled to the door frame right side unit 550, the middle LED 552c of the door frame right side decorative board 552 faces forward from the plurality of notches 553c, and the right unit decorative lens member 561 emits light well by the plurality of middle LEDs 552c. Can be decorated.

  The housing recess 553d has a flat bottom surface, and the outer peripheral shape substantially matches the outer shape of the right unit left decorative member 554. Thereby, the right unit left decorative member 554 can be accommodated.

  The plurality of input lens portions 553e protrude rearward from the rear end surface of the main body portion 553a in the vertical direction at a predetermined interval. More specifically, the right unit left diffusing lens member 553 is formed substantially at the center in the vertical direction when the right unit left diffusing lens member 553 is divided into six equal parts in the vertical direction. Although not shown in detail, the input lens portion 553e is recessed toward the front so as to be curved in a spherical shape from a rectangular parallelepiped portion in which a vertically extending quadrangle protrudes rearward and the rear surface of the rectangular parallelepiped portion. A region. These input lens portions 553e are respectively positioned immediately before the left LED 552a of the door frame right side decorative board 552 in a state assembled to the door frame right side unit 550. Thereby, the light from the left LED 552a can be input so as to be diffused widely in the main body 553a.

  A plurality (six) of side reflecting portions 553f are provided in the vertical direction. Each side reflecting portion 553f is formed by a plurality of concentric arc-shaped grooves that are divided in the circumferential direction by a radially extending line centering on the input lens portion 553e. The plurality of concentric arc-shaped grooves are such that, in each groove, the surface near the input lens portion 553e is inclined with respect to the surface of the main body portion 553a, and the surface far from the input lens portion 553e is the main body portion. It extends perpendicularly to the surface of 553a, and the deepest part is formed in an arc shape. The side reflecting portion 553f is formed in a sharp triangular shape such that the cross-sectional shape when cut in the radial direction centering on the input lens portion 553e is such that the mountain portion between the grooves faces the center side. The whole is formed in a saw shape. Further, the side reflecting portion 553f is formed such that the groove portions and the mountain portions are alternately arranged in the circumferential direction with a radial line dividing a plurality of concentric arc-shaped grooves in the circumferential direction as a boundary. ing.

  In the right unit left diffusing lens member 553, the light emitted forward from the left LED 552a of the door frame right side decorative substrate 552 enters the main body 553a of the right unit left diffusing lens member 553 from the rear surface of the input lens portion 553e. Incident. Since the rear end of the input lens portion 553e is recessed in a curved shape toward the front, it is refracted so that light from the left LED 552a spreads by the curved surface, and each input lens portion 553e is within the main body portion 553a. Will diffuse radially forward from the center.

  Since the main body portion 553a is slightly inclined with respect to a line extending vertically from the front surface of the door frame right side decorative board 552 so that the entire body portion 553a moves to the right as viewed from the front, the door frame The light irradiated from the left LED 552a mounted on the front surface of the right side decorative board 552 and incident on the main body 553a from the input lens portion 553e hits the flat left surface in the main body 553a. However, the direct light from the left LED 552a is not emitted from the left surface of the main body portion 553a to the outside due to the incident angle with respect to the left surface of the main body portion 553a, and is reflected to the side reflecting portion 553f side by the inner surface of the left surface. It becomes.

  Then, the light incident forward from the input lens portion 553e into the main body portion 553a is reflected leftward when viewed from the front by hitting the saw-like side surface reflection portion 553f, and outward from the left surface of the main body portion 553a. It will be irradiated. Light is also emitted outward (rightward in front view) from the right surface (side surface reflection portion 553f) of the main body 553a, but the right unit left light-shielding member 559 disposed on the right side of the main body 553a is white. Since it is a member, the left surface of the right unit left light shielding member 559 is brightly illuminated, and the indirect light reflected by the right unit left light shielding member 559 is irradiated to the left side through the main body 553a. . Therefore, from the left surface of the main body portion 553a, the light reflected leftward by the side surface reflection portion 553f in the main body portion 553a and the left surface of the right unit left light-shielding member 559 are irradiated to the right from the side surface reflection portion 553f. Since the light that has been reflected and passed through the main body portion 553a is irradiated leftward, the right unit left decorative member 554 attached to the left side of the main body portion 553a can be decorated with light emission with good brightness. it can.

  Further, in the side reflecting portion 553f, the concentric circular grooves are divided by a plurality of radially extending lines, and then the concentric arc-shaped grooves are shifted in the radial direction with the dividing line as a boundary. Are alternately arranged in the circumferential direction, so that the light emitted from the left surface of the main body portion 553a to the outside (left) is prevented from becoming light having the density of a concentric striped pattern. It is possible to irradiate light with more uniform light to the left. Thus, the right unit left decorative member 554 accommodated in the accommodation recess 553d on the left surface of the main body 553a can be decorated with light emission substantially uniformly.

  Since the right unit left diffusing lens member 553 is formed of a transparent member, side reflection is formed on the opposite side from the left side (the side on which the housing recess 553d is formed) of the main body 553a. A pattern composed of a plurality of concentric arc-shaped grooves of the portion 553f and a radially extending line can be visually recognized. Therefore, when a transparent portion is formed in the right unit left decorative member 554, the pattern of the side reflecting portion 553f of the right unit left diffusing lens member 553 can be visually recognized through the transparent portion, and the transparent in the right unit left decorative member 554 is visible. This part can be decorated by the side reflection part 553f.

  The right unit left decorative member 554 is formed in a thin sheet shape, and decorations such as a manufacturer logo of the pachinko machine 1 and a logo in accordance with a concept of presentation presented to the player on the game board 5 are translucent. It is given to have. The right unit left cover 555 protects the outer surface of the right unit left decorative member 554 in a state assembled to the door frame right side unit 550.

  The right unit right diffusing lens member 556 is formed substantially symmetrically with the right unit left diffusing lens member 553, and has the same configuration. More specifically, the right unit right diffusing lens member 556 includes a flat plate-like main body portion 556a extending in the vertical direction and the front-rear direction, and a rear wall that protrudes in a flat plate shape from the rear side of the main body portion 556a to the left in the front view. A portion 556b, a plurality of cutout portions 556c that are cut out in a square shape from the left end side in front view of the rear wall portion 556b to the right, and are formed at predetermined intervals in the vertical direction; An accommodation recess 556d that is shallowly recessed to accommodate the unit right decoration member 557, a plurality of input lens portions 556e that protrude rearward from the rear end surface of the main body portion 556a, and a front view of the main body portion 556a. And a plurality of side surface reflecting portions 556f arranged in the vertical direction so that each input lens portion 556e is in the center in the vertical direction on the left side.

  The main body portion 556a of the right unit right diffusing lens member 556 has a shape in a side view in which the upper corner of the front end of the quadrangle that extends vertically is obliquely cut out in a chamfered shape, and the lower side is directed upward as it goes forward The outer shape of the main unit 553a of the right unit left diffusion lens member 553 is substantially the same. Further, as shown in FIG. 55, the main body 556a is moved to the left from the front end as it moves forward from the rear end side, and the whole body portion 556a is entirely perpendicular to the front vertical line of the door frame right side decorative board 552. Slightly inclined. The front end of the main body 556a projects forward more largely than the front end of the door frame left side unit 530 in a state assembled to the door frame 3.

  The rear wall 556b is assembled to the door frame right side unit 550, and the left end of the rear wall 556b extends to the center of the right unit base 551 in the left-right direction. The right end of the rear wall portion 553b of the right unit left diffusing lens member 553 contacts the left end of the rear wall portion 556b.

  A plurality of notches 556 c are formed at predetermined intervals in the vertical direction, and a part thereof corresponds to the LED 552 c in the door frame right side decorative board 552. The plurality of notches 556c are formed at positions corresponding to the plurality of notches 553c of the right unit left diffusing lens member 553. Therefore, in the state assembled to the door frame right side unit 550, a rectangular opening that penetrates forward and backward through the notch 553c of the right unit left diffusing lens member 553 and the notch 556c of the right unit right diffusing lens member 556. The middle LED 552c of the door frame right side decorative substrate 552 faces forward from the opening, and the right unit decorative lens member 561 can be favorably decorated with light emission by the plurality of middle LEDs 552c.

  The accommodation recess 556d has a flat bottom surface, and the outer peripheral shape substantially matches the outer shape of the right unit right decorative member 557. Thereby, the right unit right decorative member 557 can be accommodated.

  The plurality of input lens portions 556e protrude rearward from the rear end surface of the main body portion 556a at a predetermined interval in the vertical direction. Specifically, the right unit right diffusing lens member 556 is formed substantially at the center in the vertical direction when the right unit right diffusing lens member 556 is divided into six equal parts in the vertical direction. Although not shown in detail, the input lens portion 556e is recessed toward the front so as to be curved in a spherical shape from a rectangular parallelepiped portion in which a vertically extending quadrangle protrudes rearward and the rear surface of the rectangular parallelepiped portion. A region. These input lens portions 556e are positioned immediately before the right LED 552b of the door frame right side decorative board 552 in a state assembled to the door frame right side unit 550. Thereby, the light from the right LED 552b can be input so as to be diffused widely in the main body 556a.

  A plurality (six) of side reflecting portions 556f are provided in the vertical direction. Each of the side surface reflecting portions 556f is formed by a plurality of concentric arc-shaped grooves that are divided in the circumferential direction by lines extending radially around the input lens portion 556e. The plurality of concentric arc-shaped grooves are such that, in each groove, the surface near the input lens portion 556e is inclined with respect to the surface of the main body portion 556a, and the surface far from the input lens portion 556e is the main body portion. It extends perpendicularly to the surface of 556a, and the deepest part is formed in an arc shape. The side reflecting portion 556f is formed in a sharp triangular shape such that the cross-sectional shape when cut in the radial direction centering on the input lens portion 556e is such that the peak portion between the grooves faces the center side. The whole is formed in a saw shape. Further, the side reflecting portion 556f is formed so that the groove portions and the mountain portions are alternately arranged in the circumferential direction with a radial line dividing the plurality of concentric arc-shaped grooves in the circumferential direction as a boundary. ing.

  In the right unit right diffusing lens member 556, the light irradiated forward from the right LED 552b of the door frame right side decorative board 552 enters the main body 556a of the right unit right diffusing lens member 556 from the rear surface of the input lens portion 556e. Incident. Since the rear end of the input lens portion 556e is recessed in a curved shape toward the front, it is refracted so that the light from the right LED 552b spreads by the curved surface, and each input lens portion 556e in the main body portion 556a. Will diffuse radially forward from the center.

  The main body portion 556a is slightly inclined with respect to a line extending vertically from the front surface of the door frame right side decorative board 552 so that the entire body portion 556a moves to the left as viewed from the front as it goes forward. The light irradiated from the right LED 552b mounted on the front surface of the right side decorative board 552 and incident on the main body 556a from the input lens portion 556e hits the flat right surface in the main body 556a. However, the direct light from the right LED 552b is not emitted from the left surface of the main body 556a to the outside because of the incident angle with respect to the right surface of the main body 556a, but is reflected to the side reflecting portion 556f side by the inner surface of the right surface. It becomes.

  Then, the light incident forward from the input lens portion 556e into the main body portion 556a is reflected rightward when viewed from the front by hitting the saw-like side surface reflection portion 556f, and outward from the right surface of the main body portion 556a. It will be irradiated. Light is also emitted outward (leftward in front view) from the right surface (side surface reflection portion 556f) of the main body 556a, but the right unit right light shielding member 560 disposed on the left side of the main body 556a is white. Therefore, the right surface of the right unit right light shielding member 560 is brightly illuminated, and the indirect light reflected by the right unit right light shielding member 560 is irradiated to the right side through the main body 556a. . Therefore, from the right surface of the main body portion 556a, the light reflected to the right by the side surface reflection portion 556f in the main body portion 556a and the right side of the right unit right light shielding member 560 are irradiated to the left from the side surface reflection portion 556f. Since the light that has been reflected and passed through the main body portion 556a is irradiated to the right, the right unit right decorative member 557 attached to the right side of the main body portion 556a can be illuminated and decorated with good brightness. it can.

  Further, in the side reflecting portion 556f, the concentric circular grooves are divided by a plurality of radially extending lines, and then the concentric arc-shaped grooves are shifted in the radial direction with the dividing line as a boundary. Are alternately arranged in the circumferential direction, so that the light radiated outward from the right surface of the main body portion 556a (right) is prevented from becoming light having the density of a concentric striped pattern. It is possible to irradiate light with more uniform light to the right. Thereby, the right unit right decoration member 557 housed in the housing recess 556d on the right surface of the main body 556a can be illuminated and decorated substantially uniformly.

  Since the right unit right diffusing lens member 556 is formed of a transparent member, the side reflection formed on the opposite side from the right side of the main body 556a when viewed from the front (side where the housing recess 556d is formed). A pattern composed of a plurality of concentric arc-shaped grooves of the part 556f and a radially extending line can be visually recognized. Therefore, when a transparent portion is formed in the right unit right decorative member 557, the pattern of the side reflecting portion 556f of the right unit right diffusing lens member 556 can be visually recognized through the transparent portion, and the transparent in the right unit right decorative member 557 is transparent. This part can be decorated by the side reflection part 556f.

  The right unit right decoration member 557 is formed in a thin sheet shape, and the decoration such as the manufacturer logo of the pachinko machine 1 or the logo in accordance with the concept of presentation presented to the player on the game board 5 is translucent. It is given to have. The right unit right cover 558 protects the outer surface of the right unit right decorative member 557 when assembled to the door frame right side unit 550. The right unit right decorative member 557 and the right unit right cover 558 are formed substantially symmetrically with the right unit left decorative member 554 and the right unit left cover 555. Further, the decoration applied to the right unit left decorative member 554 and the right unit right decorative member 557 may be the same decoration or different decorations.

  The right unit left light-shielding member 559 is formed in substantially the same shape as the side view of the right unit left diffusion lens member 553 and the right unit right diffusion lens member 556 in side view. The right unit left light shielding member 559 is formed in a shallow box shape with the front and right sides open. The right unit left light-shielding member 559 includes a flat plate-like main body portion 559a extending in the vertical direction and the front-rear direction, a rear wall portion 559b protruding in a flat plate shape from the rear side of the main body portion 559a to the right in front view, The wall portion 559b is cut out to the left from the right end side in front view in a square shape, and a plurality of cutout portions 559c are formed at predetermined intervals in the vertical direction, and the body portion 559a extends from the right surface to the right and is rearward. A plurality of flat plate-like reinforcing portions 559d extending from the wall portion 559b to the front end of the main body portion 559a.

  The main body 559a of the right unit left shading member 559 has a shape in a side view in which the upper corner of the front end of the quadrangle extending vertically is cut obliquely in a chamfered shape, and the lower side is directed upward as it goes forward The outer shape of the right unit left diffusing lens member 553 and the right unit right diffusing lens member 556 is substantially the same shape as the main body portions 553a and 556a.

  The rear wall 559b is assembled to the door frame right side unit 550, and the left end of the rear wall 559b extends to the right side from the substantially horizontal center of the right unit base 551. The left surface of the right unit right light shielding member 560 is in contact with the right end of the rear wall portion 559b.

  A plurality of notches 559c are formed at predetermined intervals in the vertical direction, and a part thereof corresponds to the LED 552c in the door frame right side decorative board 552. The plurality of notches 559c are formed at positions corresponding to the notches 553c and 556c of the right unit left diffusing lens member 553 and the right unit right diffusing lens member 556. Therefore, in the state assembled to the door frame right side unit 550, the middle LED 552c of the door frame right side decorative substrate 552 faces forward from the plurality of notches 559c, and the right unit decorative lens member 561 emits light well by the plurality of middle LEDs 552c. Can be decorated.

  The plurality of reinforcing portions 559d are provided as a pair of a pair of reinforcing portions 559d that are substantially the same height as the left and right widths and are spaced apart in the vertical direction, and are separated by a predetermined distance in the vertical direction. Each set of reinforcing portions 559 d is formed at a position behind the decorative member 564 attached to the right unit cover 563. The plurality of reinforcing portions 559d increase the overall strength and rigidity of the door frame right side unit 550.

  The right unit right light shielding member 560 has a shape in a side view such that the upper corner of the front end side of the quadrangle extending vertically is obliquely cut out in a chamfered shape, and the lower side moves upward as it goes forward. It is formed in an inclined shape, and is formed in substantially the same shape as the main body 559a in the right unit left light shielding member 559. The right unit right light-shielding member 560 closes the right-side opening opened to the right of the right unit left light-shielding member 559 formed in a shallow box shape in a state assembled to the door frame right side unit 550.

  The right unit left light shielding member 559 and the right unit right light shielding member 560 are each formed of a white member. As shown in FIG. 55, the right unit left light-shielding member 559 and the right unit right light-shielding member 560 are assembled to the door frame right side unit 550, and the main body 559a and the right unit right light-shielding member 560 are connected to the right unit. The left diffuser lens member 553 and the right unit right diffuser lens member 556 are disposed so as to be close to the main body portions 553a and 556a. As a result, the main body 559a of the right unit left light shielding member 559 and the right unit right light shielding member 560 are separated from each other in the left-right direction, forming a space extending in the up-down direction and the front-rear direction with a predetermined width in the left-right direction. . Through the space formed between the main body 559a of the right unit left light shielding member 559 and the right unit right light shielding member 560, light emitted forward from the LED 552c in the door frame right side decorative substrate 552 is transmitted to the right unit decoration. Irradiate the rear side of the lens member 561.

  Further, the right unit left light shielding member 559 and the right unit right light shielding member 560 are formed of a light-impermeable member, and irradiate forward from the left LED 552a, the middle LED 552c, and the right LED 552b on the door frame right side decorative board 552, respectively. The right unit left decorative member 554, the right unit right decorative member 557, and the right unit decorative lens member 561 corresponding to the left LED 552a, the right LED 552b, and the right unit decorative member 561, respectively. Only the middle LED 552c can be decorated.

  Further, the right unit left light shielding member 559 and the right unit right light shielding member 560 are arranged on the rear side of each divided space because the internal space is divided into four in the vertical direction by three sets of reinforcing portions 559d. The middle LED 552c of the door frame right side decorative substrate 552 can prevent light from interfering with each other, and a portion located in front of each space of the right unit decorative lens member 561 , Each can be independently illuminated. That is, on the front end side of the door frame right side unit 550, it can be divided into a plurality of (four) regions in the vertical direction and each can be decorated with light emission independently.

  The right unit decorative lens member 561 is formed in a shape along the front end shape of the right unit left diffusing lens member 553 and the right unit right diffusing lens member 556. The right unit decorative lens member 561 includes a circular decorative portion 561a that is formed in a circular shape when viewed from the front, and a polyhedral decorative portion 561b that extends vertically and has a plurality of polyhedrons. The circular decorative portion 561a is formed in a shape in which a plurality of triangular ribs are provided in the circumferential direction on the outer periphery of a cylindrical portion whose front surface is recessed and extends shortly before and after. The polyhedral decorative portion 561b has a plurality of quadrangular pyramid-shaped portions arranged in the vertical direction on the front surface of the rectangular parallelepiped extending vertically, and a plurality of polyhedrons composed of a plurality of triangles on the left and right sides of the rectangular parallelepiped portion in the vertical direction. It is formed in the shape as provided.

  More specifically, the right unit decorative lens member 561 includes a plurality of circular decorative portions 561a and a multi-surface decorative portion 561b divided into four by three sets of reinforcing portions 559d in the right unit left light shielding member 559. In the three parts from the top in the part located in the front, one multi-face decoration part 561b is arranged on each of the upper and lower sides of the circular decoration part 561a arranged in the center in the vertical direction, and in the lowermost part, the multi-face decoration Only the portion 561b is formed.

  The right unit decorative lens member 561 is attached to the front end of the right unit left diffusing lens member 553 and the right unit right diffusing lens member 556. The right unit decorative lens member 561 can be viewed from the front side (player side) through the transparent right unit cover 563. The right unit decorative lens member 561 is decorated with light emission by the LED 552c in the door frame right side decorative board 552 arranged on the rear side.

  The right unit decoration base 562 is formed in a cylindrical frame shape penetrating in the front-rear direction. The right unit decoration base 562 is formed in a shape along the shape of the front end and the upper end of the right unit left diffusion lens member 553 and the right unit right diffusion lens member 556. The right unit decorative base 562 is formed so as to be able to cover both the left and right outer sides near the front end of the right unit left diffusing lens member 553 and the right unit right diffusing lens member 556 and the left and right sides of the right unit decorative lens member 561. When assembled in the door frame right side unit 550, the front end of the right unit decorative lens member 561 slightly protrudes forward from the front end of the right unit decorative base 562. The right unit decoration base 562 is formed of an opaque member.

  The right unit cover 563 is formed so that the front end opening of the right unit decoration base 562 can be closed. The right unit cover 563 is formed of a transparent member, and the right unit decorative lens member 561 disposed on the rear side can be viewed from the front side.

  The decorative member 564 extends short in the vertical direction, and is attached to the front surface of the right unit cover 563 at a predetermined interval in the vertical direction. The decorative member 564 is formed of an opaque member. The three decorative members 564 divide the right unit cover 563 (the right unit decorative lens member 561) into four parts in the vertical direction.

  The door frame right side unit 550, when assembled to the door frame 3, projects in a large plate shape forward than the door frame left side unit 530, and projects slightly forward from the front end of the upper plate 321 of the plate unit 320. Yes. The door frame right side unit 550 includes a right unit left decorative member 554 and a right unit right decorative member 557 provided on the left and right sides of the protruding left side, and a right unit decorative lens member 561 provided on the front end, respectively. And can be decorated with light emission.

  Since the door frame right side unit 550 is plate-like and protrudes greatly forward, when the pachinko machine 1 is installed in an island facility of the game hall, the door frame right side unit 550 is adjacent to the right side of the pachinko machine. An effect like a partition can be exhibited. As a result, a player who plays with the pachinko machine 1 can have an illusion that he / she is playing in a private room, and the game can be played in a relaxed atmosphere without hesitation of other players around. Can do.

  Moreover, since the door frame right side unit 550 protrudes greatly forward, even if the pachinko machine 1 is not located in front of the pachinko machine 1 in the game hall installed with the pachinko machine 1 side by side, The pachinko machine 1 can be conspicuous in a game hall in which a large number of pachinko machines are arranged. Therefore, when the right unit left decorative member 554 and the right unit right decorative member 557 on the left and right sides of the door frame right side unit 550 are light-decorated, the book can be viewed from a distance even if it is not located near the front of the pachinko machine 1. The presence of the pachinko machine 1 can be notified, and the pachinko machine 1 having high appeal to the player can be obtained.

  Further, in the door frame right side unit 550, when a defect such as ball clogging or an error occurs in the pachinko machine 1, the right unit left decorative member 554, the right unit right decorative member 557, and the right unit decorative lens on both the left and right sides. By causing the member 561 and the like to be decorated with light emission in a unique manner, it is possible to immediately notify and recognize the occurrence of the malfunction to the staff of the game hall, and to respond quickly to the malfunction. Therefore, the interruption of the game of the player can be solved at an early stage, and the player can be frustrated and the decrease in the interest in the game can be suppressed.

[3-7. Door frame top unit]
The door frame top unit 570 of the door frame 3 will be described in detail mainly with reference to FIGS. 56 to 59 and the like. 56A is a front view of the door frame top unit in the door frame, FIG. 56B is a perspective view of the door frame top unit viewed from the front, and FIG. 56C is a view of the door frame top unit from the rear. It is a perspective view. FIG. 57 is an exploded perspective view of the door frame top unit as seen from the front, and FIG. 58 is an exploded perspective view of the door frame top unit as seen from the back. 59 is a cross-sectional view taken along the line PP in FIG. The door frame top unit 570 is attached to the upper side of the door frame left side unit 530 and the door frame right side unit 550 and above the through-hole 111 on the front surface of the door frame base 110 of the door frame base unit 100.

  The door frame top unit 570 is attached to the left and right sides of the center base 571 and the center base 571 attached to the center in the left-right direction above the through hole 111 on the front surface of the door frame base 110 of the door frame base unit 100. A pair of side bases 572 attached to the front surface of the door frame base 110, a pair of upper speakers 573 respectively attached to the front surfaces of the pair of side bases 572, and the center in the left-right direction project forward. A pair of openings 574a penetrating front and rear at a front position of the pair of upper speakers 573 in a box shape with the rear open, and from a position closer to the center in the left-right direction than the pair of openings 574a to the vicinity of the center A plurality of (three each on the left and right) slips extending in each direction and penetrating in the front-rear direction and spaced apart from each other. The unit main body 271 that has 574b and is attached to the front side of the central base 571 and the pair of side bases 572, and the front side of the pair of upper speakers 573, respectively, closes the pair of openings 574a. And a speaker cover 575 made of punching metal attached to the rear side of the unit main body 271.

  Here, although illustration is omitted, each of the pair of side bases 572 (the left side base 572a and the right side base 572b) has an internal space that is opened only toward the side where the opening window is provided. In the inner space, the above-mentioned outer-peripheral light-emitting part 34 (left outer-periphery light-emitting part 34a, right-outer outer-periphery light-emitting part 34b) provided to emit light from the outer periphery into the outer periphery of the opening window The outer-periphery light detector 35 (the left-hand outer light detector 35a and the right-hand outer light detector 35b) that detects the light outside the outer periphery is provided.

  That is, as will be described later, according to such a structure, the outer peripheral light emitting section 34 and the outer peripheral light detecting section 35 are disposed outside the outer periphery of the opening window. It is possible to make the entire area of the window function as a portion (operation receiving portion) that receives an operation by the player. Further, the outer periphery outside light detection unit 35 is not disposed in a dew state, but is disposed in the internal space 3435 (see FIG. 106) of the side base 572 opened only toward the side where the opening window is provided. As a result, when detecting the light by the outer periphery outside light detection unit 35, it is possible to suitably eliminate the effect light that may be a disturbance.

  Further, the door frame top unit 570 is attached to the front surface at the center in the left-right direction of the unit main body 271 and is attached to the rear side of the top middle decorative member 576 and the top middle decorative member 576. A door frame top middle decorative board 577 having a plurality of LEDs mounted on the front face thereof, and a plurality of slits 574b respectively attached to the front face of the unit main body 271, and the left and right ends of the top middle decorative member 576 being closed. A plurality of transparent flat plate-like light guide members 578 extending from the vicinity to the vicinity of both left and right ends of the unit main body 271 across the opening 574a, and a top middle decorative member 576 on the front surface of the unit main body 271. The top left decorative lens member 579 and the top left decorative lens member 579 that are respectively attached to the left and right sides and respectively cover the front surfaces of a plurality of (three) light guide members 578. The top right decorative lens member 580, the top left decorative lens member 579, and the top right decorative lens member 580 are respectively attached to the front surface of the unit main body 271 from the front side thereof, and the openings 574a from both the left and right sides of the top middle decorative member 576. And a top middle left decorative member 581 and a top middle right decorative member 582 that extend to the vicinity of the center side end portion.

  Further, the door frame top unit 570 is attached to the inside of the left and right side surfaces of the unit main body 271, and LEDs are respectively mounted at portions facing the left and right outer ends of the plurality (three) light guide members 578. The door frame top left decorative substrate 583 and the door frame top right decorative substrate 584, and a plurality of (three) slits 574b formed on the left and right sides of the center in the left-right direction on the rear side of the unit main body 271 pass therethrough. A pair of board bases 585 attached to the respective parts, and doors which are attached to the front surfaces of the pair of board bases 585 and have a plurality of LEDs 586a and 587a mounted at positions behind the slits 574b of the unit main body 271. Frame top middle left decorative board 586, door frame top middle right decorative board 587, door frame top middle left decorative board 586 and And a, a pair of light blocking members 588 which are respectively attached to the rear side of the unit body 271 at the front side of the door frame top right in decorative substrate 587.

  Further, the door frame top unit 570 is attached to the central base 571 so as to cover the door frame top unit relay board 589 attached to the front surface of the central base 571 in the unit main body 271 and the front surface of the door frame top unit relay board 589. The relay board cover 590 attached, the upper cover 591 attached to the unit body 271 so as to close the upper opening 574c of the unit body 271, and the unit so as to close the lower opening 574d of the unit body 271. A lower cover 592 attached to the main body 271.

  The center base 571 of the door frame top unit 570 is formed in a quadrangular shape whose front view extends to the left and right. The central base 571 is formed in a box shape opened rearward, and has a plurality of irregularities on the front surface. The pair of side bases 572 are attached to the left and right ends of the central base 571, respectively. The pair of upper speakers 573 are attached to the front surfaces of the side bases 572, respectively. The pair of upper speakers 573 are attached to the door frame top unit 570 in an oblique manner so that the front surfaces of the upper speakers 573 move rearward on the side close to the center in the left-right direction of the door frame top unit 570. The pair of upper speakers 573 are full-range cone type speakers capable of outputting sound in a wide frequency band.

  The unit main body 271 is formed in such a shape that the lower part in the vicinity of the left and right ends of a quadrangle extending left and right bulges downward when viewed from the front. In other words, the unit main body 271 is formed in such a shape that the shape of the front view is cut out of a quadrangle extending left and right by a trapezoid that is narrowed upward from the lower end side. The unit main body 271 has a rectangular shape in plan view extending from the left and right and a half of the width (length in the left-right direction) about the center in the left-right direction on the front end side of the quadrangle. The trapezoid protruding forward and the quadrangle protruding short forward with the front end side of the trapezoid as a long side are formed in a combined shape. Accordingly, the unit main body 271 is a line in which both sides of a portion projecting forward at the center in the left-right direction on the front face connect the left-right end portion of the unit main body 271 and the left-right end portion of the front end of the projecting portion. It is located behind (it is depressed).

  In the unit main body 271, openings 574 a penetrating in the front-rear direction are formed at positions on the front surface from the both ends in the left-right direction to positions outside the portions protruding forward. Further, the unit main body 271 has a plurality of slits extending in the vertical direction at a predetermined height in the left and right directions and penetrating in the front-rear direction, in a portion extending obliquely forward from the front portion of the trapezoidal portion. 574b is formed. The plurality of slits 574b extend from the vicinity of the front end of the portion extending obliquely forward to the front surface of the unit body 271 to the vicinity of the opening 574a. The plurality of slits 574b are formed on the both sides of the center of the unit main body 271 in the left-right direction so as to be spaced apart from each other by three.

  Further, the unit main body 271 has an upper opening 574c squarely cut from the rear end to the front at the center in the left-right direction on the upper surface, and a lower opening 574d cut from the rear end to the front in the left-right direction on the lower surface. It is equipped with. The upper opening 574c of the unit main body 271 is closed by the upper cover 591. The lower opening 574d is closed by the lower cover 592.

  Further, the unit main body 271 includes a top left decorative portion 574e and a top right decorative portion 574f that extend vertically at both left and right ends. The top left decorative portion 574e has a front surface formed at a position substantially the same as the front surface of the portion where the opening 574a is formed. The top right decorative portion 574f is formed such that the front surface thereof is positioned forward of the front surface of the portion where the opening 574a is formed. The unit main body 271 is formed of an opaque member.

  The top middle decorative member 576 is attached to the front end of the portion projecting forward at the center in the left-right direction on the front surface of the unit main body 271. The top middle decorative member 576 has a front pentagonal shape that is bent so that the central part of the lower side of the substantially square is positioned downward, and extends outward from the upper ends of the left and right sides of the pentagon. It is formed in a shape such as a combination of a substantially right triangle connecting the tip of the side and the lower ends of the left and right sides of the side pentagon. The top middle decorative member 576 is inclined such that the front pentagonal portion moves rearward as it goes downward. The top middle decorative member 576 is formed in a three-dimensional shape as a whole and has translucency.

  The front middle decorative board 577 of the door frame is rearward of the top middle decorative member 576 in a state in which the front surface is inclined so as to move backward as it goes downward along the front surface of the deformed pentagonal portion of the top middle decorative member 576. Mounted on the side. The door frame top middle decorative board 577 has a plurality of LEDs mounted on the front surface, and the top middle decorative member 576 can be decorated with light emission by emitting these LEDs.

  The light guide member 578 is formed of a transparent member. The light guide member 578 is formed in a shape along the shape on both the left and right sides of the front end of the portion projecting forward on the front surface of the unit main body 271. When the side close to both ends in the left-right direction of the unit main body 271 is described as the end side, and the side close to the center as the center side, the light guide member 578 is a straight part that extends straight from side to side toward the center side. 578a, and an arc portion 578b extending in an arc shape having a large radius so as to move forward from the end portion on the center side of the straight portion 578a toward the center side. The light guide member 578 has a depth in the front-rear direction smaller than the height in the vertical direction at the straight portion 578a, and a depth in the front-rear direction larger than the height in the vertical direction at the arc portion 578b. The light guide member 578 is formed such that the vertical portion 578a has a constant height in the vertical direction, and the arc portion 578b is formed so that the height in the vertical direction decreases toward the center. In the state where the light guide member 578 is assembled to the door frame top unit 570, the straight portion 578a is positioned immediately before the opening 574a of the unit main body 271, and the arc portion 578b closes the slit 574b of the unit main body 271 from the front. Yes.

  The light guide member 578 includes a diffuse reflection portion 578c formed of a saw-like unevenness formed on the rear surface of the straight portion 578a, a diffusion input portion 578d formed of a plurality of unevenness formed on the rear surface side of the arc portion 578b, It has.

  In the state where the light guide member 578 is assembled to the door frame top unit 570, the outer ends of the left and right directions face the LEDs 583a and 584a of the door frame top left decorative substrate 583 or the door frame top right decorative substrate 584. At the same time, the diffusion input section 578d faces the LEDs 586a and 587a of the door frame top middle left decorative board 586 or the door frame top middle right decorative board 587. When light from the LEDs 583a and 584a of the door frame top left decorative substrate 584 or the door frame top right decorative substrate 584 is incident on the light guide member 578 from the ends on both outer sides in the left-right direction, the light enters the direct portion 578a. The inside of the straight portion 578a is sequentially reflected forward from the end portion by the diffuse reflection portion 578c formed on the rear surface of the straight portion 578a, and light is irradiated forward from the entire front surface of the straight portion 578a. A top left decorative lens member 579 or a top right decorative lens member 580 is disposed in front of the light guide member 578, and a portion that is in front of the straight part 578a is decorated with light emission.

  The light guide member 578 receives light from the LEDs 586a and 587a of the door frame top middle left decorative substrate 586 or the door frame top middle right decorative substrate 587 from the diffusion input portion 578d formed on the rear surface of the arc portion 578b. Then, the light is diffused widely into the arc portion 578b by the unevenness of the diffusion input portion 578d, and the light is irradiated forward from the entire front surface of the arc portion 578b. Thereby, the part located in front of the circular arc part 578b in the top left decorative lens member 579 or the top right decorative lens member 580 can be decorated with light emission.

  As described above, the light guide member 578 includes the LEDs 583a and 586a of the door frame top left decorative substrate 583 and the door frame top middle left decorative substrate 586, or the door frame top right decorative substrate 584 and the door frame top middle right decorative substrate 587. The light from the LEDs 584a and 587a can be guided, and the top left decorative lens member 579 or the top right decorative lens member 580 arranged in front can be illuminated and decorated in a good (uniform) state.

  The top left decorative lens member 579 is attached to the front surface of the unit body 271 so as to cover the front of the three light guide members 578 arranged on the left side of the front surface of the unit body 271 in the left-right direction. The top left decorative lens member 579 has three decorative lens portions 579a that accommodate the three light guide members 578 independently from the front. The decorative lens portion 579a of the top left decorative lens member 579 is formed in a shape that follows the light guide member 578, and covers the front surface and the upper and lower surfaces of the light guide member 578. On the front surface of each decorative lens portion 579a, projections and depressions of a square frustum projecting forward are arranged in a row on the left and right.

  The top left decorative lens member 579 extends from the left end of the top middle decorative member 576 in the door frame top unit 570 to the right end of the top left decorative portion 574e of the unit body 271. That is, the top left decorative lens member 579 decorates substantially the entire left side of the top middle decorative member 576 in the door frame top unit 570. The top left decorative lens member 579 is illuminated and decorated by the LEDs 583a and 586a of the door frame top left decorative substrate 583 and the door frame top middle left decorative substrate 586 via the three light guide members 578.

  The top right decorative lens member 580 is attached to the front surface of the unit main body 271 so as to cover the front of the three light guide members 578 disposed on the right side of the front surface of the unit main body 271 in the left-right direction. The top right decorative lens member 580 has three decorative lens portions 580a that house the three light guide members 578 independently from the front. The decorative lens portion 580a of the top right decorative lens member 580 is formed in a shape that follows the light guide member 578, and covers the front surface and upper and lower surfaces of the light guide member 578. On the front surface of each decorative lens portion 580a, projections and depressions of a square frustum projecting forward are arranged in a row on the left and right.

  The top right decorative lens member 580 extends from the right end of the top middle decorative member 576 in the door frame top unit 570 to the left end of the top right decorative portion 574f of the unit body 271. That is, the top right decorative lens member 580 decorates substantially the entire right side of the top middle decorative member 576 in the door frame top unit 570. The top right decorative lens member 580 is illuminated and decorated by the LEDs 584a and 587a of the door frame top right decorative substrate 584 and the door frame top middle right decorative substrate 587 via the three light guide members 578.

  The top middle left decorative member 581 is attached to the front surface of the unit main body 271 from the front of the top left decorative lens member 579 between the left opening 574a on the front surface of the unit main body 271 and the top middle decorative member 576. The top middle left decorative member 581 is mounted so as to fill the space between the three decorative lens portions 579a of the top left decorative lens member 579 in the assembled state in the door frame top unit 570, and the front center side is the top left side. The decorative lens member 579 projects forward from the front surface. The top middle left decorative member 581 is formed of an opaque member.

  The top middle right decorative member 582 is attached to the front surface of the unit main body 271 from the front of the top right decorative lens member 580 between the right opening 574a on the front surface of the unit main body 271 and the top middle decorative member 576. The top middle right decorative member 582 is mounted so as to fill the space between the three decorative lens portions 580a of the top right decorative lens member 580 in a state assembled to the door frame top unit 570, and the center of the front side is closer to the top right. The decorative lens member 580 protrudes forward from the front surface. The top middle right decorative member 582 is formed of an opaque member.

  The door frame top left decorative substrate 583 is attached to the inside of the left side surface (top left decorative portion 574e) in the unit main body 271 with the surface on which the LED 583a is mounted facing rightward. On the door frame top left decorative substrate 583, an LED 583a is mounted at a position facing the left end surfaces of the three light guide members 578 attached to the left front surface of the unit body 271 in the left-right direction center (see FIG. 59). ). The three LEDs 583a can each emit light independently. A portion of the top left decorative lens member 579 positioned in front of the left opening 574a of the unit main body 271 via the straight portions 578a of the three light guide members 578 by the LED 583a of the door frame top left decorative substrate 583. Can be decorated with luminescence.

  The door frame top right decorative board 584 is attached to the inside of the right side surface (top right decorative portion 574f) in the unit main body 271 with the surface on which the LED 584a is mounted facing leftward. On the door frame top right decorative board 584, an LED 584a is mounted at a position facing the right end face of the three light guide members 578 attached to the right front surface of the unit body 271 in the left-right direction center (see FIG. 59). ). The three LEDs 584a can each emit light independently. A portion of the top right decorative lens member 580 positioned in front of the right opening 574a of the top right decorative lens member 580 via the straight portions 578a of the three light guide members 578 is set by the LED 584a of the door frame top right decorative substrate 584. Can be decorated with luminescence.

  The pair of substrate bases 585 are attached to the rear side of the unit body 271 where the plurality of slits 574b are formed. The pair of substrate bases 585 are formed substantially symmetrical to each other. The substrate base 585 includes a substantially square side wall having sides extending in the vertical and front and back directions, a rear wall having a rectangular shape in front view extending rightward and leftward from the rear side of the side wall, and a front end of the upper side of the side wall. The upper wall of a substantially right triangle connecting the upper side of the side wall and the rear wall with the line connecting the upper side of the side wall as the hypotenuse, and the lower side of the side wall and the rear wall on the opposite side of the upper wall And a bottom wall of a right triangle, and is formed in a triangular prismatic box shape in which the upper and lower hypotenuses are open. The substrate base 585 is attached to the unit main body 271 so that the opened part is closed by the unit main body 271. The substrate base 585 is attached with the door frame top middle left decorative substrate 586 or the door frame top middle right decorative substrate 587 so that the opened part is closed.

  The door frame top center left decorative substrate 586 is attached to the substrate base 585 so as to close a box-shaped open portion from the front in the substrate base 585 attached to the rear side on the left side of the left and right center of the unit main body 271. It is done. The door frame top middle left decorative substrate 586 is attached to the front surface of the substrate base 585 so that the front surface moves forward as it moves toward the center side in the left-right direction of the unit body 271. Inclined state. As a result, the door frame top middle left decorative substrate 586 is a surface of a portion where the front side of the door frame top unit 570 is formed with three slits 574b on the left side of the unit body 271 in the left-right direction center. It becomes a state substantially parallel to.

  The door frame top middle left decorative substrate 586 has a plurality of LEDs 586 a mounted at positions corresponding to the three slits 574 b of the unit main body 271. As a result, the door frame top middle left decorative substrate 586 is in a state where the plurality of LEDs 586a face forward from the three slits 574b on the left side of the center of the unit main body 271 in a state assembled to the door frame top unit 570. The door frame top middle left decorative board 586 emits a plurality of LEDs 586a to emit and decorate a portion near the top middle decorative member 576 of the top left decorative lens member 579 via the arc portion 578b of the light guide member 578. be able to.

  The door frame top middle right decorative substrate 587 is attached to the substrate base 585 so as to close a box-shaped open portion from the front in the substrate base 585 attached to the rear side on the right side of the left and right center of the unit main body 271. It is done. The door frame top middle right decorative substrate 587 is attached to the front surface of the substrate base 585, so that the front surface moves forward as it moves toward the center in the left-right direction of the unit main body 271. Inclined state. As a result, the door frame top middle right decorative substrate 587 is assembled to the door frame top unit 570, and the front surface thereof is the surface of the portion where the three slits 574b on the right side from the center in the left-right direction of the unit body 271 are formed. It becomes a state substantially parallel to.

  The door frame top middle right decorative board 587 has a plurality of LEDs 587 a mounted at positions corresponding to the three slits 574 b of the unit main body 271. As a result, the door frame top middle right decorative board 587 is in a state in which the plurality of LEDs 587a face forward from the three slits 574b on the right side of the center of the unit main body 271 in a state assembled to the door frame top unit 570. The door frame top middle right decorative board 587 emits a plurality of LEDs 587a to emit light and decorate a portion near the top middle decorative member 576 of the top right decorative lens member 580 via the arc portion 578b of the light guide member 578. be able to.

  The pair of light shielding members 588 are attached to the rear side of the front surface of the unit main body 271 at a position between the door frame top middle left decorative board 586 and the door frame top middle right decorative board 587 and the unit main body 271. The pair of light shielding members 588 are formed so as to be substantially bilaterally symmetrical with each other by an opaque member. The light shielding member 588 is provided between the upper and lower sides of the plurality of LEDs 586a and 587a on the door frame top middle left decorative substrate 586 and the door frame top middle right decorative substrate 587 arranged in correspondence with the three slits 574b in the unit main body 271. Partitioning. By this light shielding member 588, light can be guided forward by the light guide member 578 only by the LEDs 586a and 587a located immediately after the respective light guide members 578, and the top left decorative lens member 579 and the top right decorative member can be guided. The decorative lens portions 579a and 580a of the lens member 580 can be illuminated and decorated satisfactorily.

  The door frame top unit relay board 589 is attached to the front surface of the central base 571. The door frame top unit relay substrate 589 includes a pair of upper speakers 573, a door frame top middle decorative substrate 577, a door frame top left decorative substrate 583, a door frame top right decorative substrate 584, a door frame top middle left decorative substrate 586, and a door. The connection between the frame top middle right decorative board 587 and the door body relay board of the door frame base unit 100 is relayed. The door frame top unit relay board 589 is connected to the door body relay board via a connection cable (not shown) provided in the door frame right side unit 550. The front side of the door frame top unit relay board 589 is covered with a relay board cover 590.

  The door frame top unit 570 includes a top middle decorative member 576 that protrudes forward at the center in the left-right direction, and is curved so that the front surfaces on both the left and right sides of the top middle decorative member 576 are curled backward. Therefore, it is possible to make the player have an illusion that only the top middle decorative member 576 protrudes greatly forward, and the player's interest can be strongly attracted to the pachinko machine 1.

  Further, the door frame top unit 570 includes a top left decorative lens member 579 and a top right decorative lens member 580 that decorate the left and right sides of the top middle decorative member 576 disposed at the center, and the left and right sides of the top middle decorative member 576. It is formed so as to extend from both sides to a top left decorative portion 574e and a top right decorative portion 574f formed at the left and right ends of the unit main body 271. Thereby, the front upper part of the door frame 3 can be entirely decorated by the door frame top unit 570.

  At this time, in the door frame top unit 570, the front surface is protected by a speaker cover 575 made of punching metal behind each of the left and right ends near the top left decorative lens member 579 and the top right decorative lens member 580. The speaker cover 575 faces the front from between the three decorative lens portions 579a and 580a that are separated from each other above and below the top left decorative lens member 579 and the top right decorative lens member 580. The player can listen to the sound output from the left and right upper speakers 573 in a good state, and can enjoy high-quality stereo sound.

  Further, the door frame top unit 570 includes a door frame top left decorative substrate 583 and a door frame top right decorative by a plurality of light guide members 578 provided on the rear side of the top left decorative lens member 579 and the top right decorative lens member 580. Light from the substrate 584, the door frame top middle left decorative substrate 586, and the door frame top middle right decorative substrate 587 can be guided to the top left decorative lens member 579 and the top right decorative lens member 580, and the top left decorative lens member The entire front surface of 579 and the top right decorative lens member 580 can be decorated with light emission. Therefore, the door frame top unit 570 can decorate the entire front surface of the upper part of the door frame 3 including the front of the left and right upper speakers 573 with light emission.

[3-8. Effect of door frame]
The effects of the door frame 3 will be described. The door frame 3 in the pachinko machine 1 according to the present embodiment has the through-holes 111 penetrating through the door frame base 110 in the door frame base unit 100 in the front and rear directions and in the vertical and horizontal directions as compared with the conventional pachinko machine. The vertical height of the plate unit 320 and the door frame top unit 570 is reduced in accordance with the enlargement of the through-hole 111, and the horizontal width of the door frame left side unit 530 and the door frame right side unit 550 Is made smaller. Thereby, the front surface of the game board 5 (game area 5a) attached to the main body frame 4 can be seen as widely as possible from the player (front) through the through-hole 111 (glass unit 190). This corresponds to the game board 5 having a wide game area 5a.

  The door frame 3 has a production operation unit 400 (second production operation unit 400A) having a large hemispherical operation button 410 at the center in the left-right direction of the dish unit 320 bulging forward on the lower side of the through-hole 111. The front surface of the lower half (the lower side of the upper plate 321) on both the left and right sides of the production operation unit 400 (the front surface of the front plate lower decorative portion 326c) is recessed so as to bend backward (the plate unit). 320, a shape curved in a concave shape so that the front surfaces on both the left and right sides of the rendering operation unit 400 are positioned rearward than a straight line connecting the front ends of the left and right ends of 320 and the front ends of the left and right ends of the rendering operation unit 400. ing. As a result, the production operation unit 400 attached to the front surface at the center in the left-right direction of the plate unit 320 appears to protrude greatly forward, so that the production operation unit 400 is highlighted and shown to the player. It is possible to pay attention to the production operation unit 400.

  The door frame 3 tilts the presentation operation unit 400 disposed on the front surface of the dish unit 320 below the through-hole 111 so that the large hemispherical transparent operation button 410 faces obliquely upward and forward. Therefore, when the player sits in front of the pachinko machine 1, the operation button 410 faces the player's head (face), and the player drops his line of sight and moves the rendering operation unit 400. When viewed, the operation button 410 can be seen in a state substantially close to the front, the large and round operation button 410 can be visually recognized strongly, and an expectation can be enhanced for the effect using the operation button 410. At the same time, the effect image displayed on the door frame side effect display device 460 arranged in the transparent operation button 410 can be visually recognized in a good state, and the effect image can be sufficiently enjoyed. Maseru can be.

  Further, the door frame 3 is provided with an operation button 410 having a diameter substantially the same as the overall height of the dish unit 320 and bulging out in a forward direction. Any part of the operation button 410 can be touched, and “fast pressing” of the operation button 410 can be performed relatively easily. In addition, since the operation button 410, which has a large diameter and bulges forward, is mounted in an inclined state, it can be pressed from above like the operation buttons of a conventional pachinko machine, and can be operated to the left or right. The operation button 410 can be operated satisfactorily or from the front, and the operation buttons 410 having good operability can be more enjoyed.

  In addition, the door frame 3 is mounted with the stage operation unit 400 in a suspended state by the dish unit 320 and includes a vibration motor 424 that generates vibration at the lower part of the stage operation unit 400. When vibration is generated by rotating the vibration motor 424 in accordance with the state, strong vibration can be transmitted to the player's hand touching the upper part of the operation button 410, and the player can be surprised by the operation button. The production using 410 can be further enjoyed.

  Furthermore, since the door frame 3 is provided with a large operation button 410 (production operation unit 400) over the entire height of the plate unit 320 in the center of the front surface of the plate unit 320, the upper plate 321 is compared with a conventional pachinko machine. Because the lower plate 322 underneath is inconspicuous, it can make it easier for players who are familiar with conventional pachinko machines to recognize that they are clearly different, and appeal to the players strongly. A powerful pachinko machine 1 can be obtained.

  Further, the door frame 3 is formed so that the lower plate 322 wraps around the rear side of the production operation unit 400 with respect to the lower plate opening 326d that is opened on the left side of the production operation unit 400 on the front surface of the plate unit 320. Therefore, the volume of the lower plate 322 can be increased with respect to the size of the lower plate opening 326d, and a sufficient number of game balls can be secured in the lower plate 322. In addition, since the rear part of the lower plate 322 wraps around to the rear side of the production operation unit 400, when the player puts his left hand into the lower plate 322 or puts his / her finger on the lower plate opening 326d. Since it becomes difficult for the fingertips to touch the wall behind the lower plate 322, it is possible to make it difficult to give the player a sense of incongruity, and it is possible to suppress a decrease in interest in the game and to increase the size of the lower plate opening 326d. Compared to this, it can be recognized by tactile sense that the volume of the lower plate 322 is large.

  Further, the door frame 3 has a lower tray ball supply port 323c through which game balls from the upper plate 321 are discharged to the lower plate 322, and a bottom for pulling out the game balls of the lower plate 322 into a dollar box or the like below the plate unit 320. The countersunk hole 322a is arranged linearly in the front-rear direction, and is arranged on the right outside of the lower dish opening 326d in the front view (on the right side of the left end of the frame unit 415 of the rendering operation unit 400). That is, the lower tray ball supply port 323c and the lower tray ball removal hole 322a are connected to the rendering operation unit 400, the rendering operation unit mounting portion 326a (the right outer side of the lower tray opening 326d) in the tray unit cover 326, and the front end of the lower tray cover 340. Since the lower dish ball supply port 323c and the lower dish ball removal hole 322a are not visible from the player side, the appearance of the dish unit 320 (pachinko machine 1) can be refreshed. The appearance of the pachinko machine 1 can be improved.

  Further, the door frame 3 has a lower plate ball hole 322a opened in the lower plate 322 because the lower plate ball hole 322a is disposed in front of the lower plate ball supply port 323c (directly in front). Then, as soon as the game ball released from the upper plate 321 or the like to the lower plate 322 enters the lower plate 322, it is discharged from the lower plate ball removal hole 322a to a lower dollar box or the like. At this time, since the player cannot see the lower tray ball supply port 323c and the lower tray ball removal hole 322a, the flow of the game balls discharged from the upper tray 321 and the like through the lower tray 322 to the dollar box is also included. I can't see it. Accordingly, the player can have an illusion that the game ball on the upper plate 321 or the game ball discharged from the payout device 830 in a state where the upper plate 321 is full is directly discharged to the dollar box. Therefore, it is possible to make it difficult for the game ball to feel the annoyance passing through the lower plate 322, and to reduce the interest by dedicating the player to the game (gaming operation of the game ball, production image, etc.). it can.

  In addition, the door frame 3 has a lower plate ball removal hole 322a disposed at the front left side of the lower plate ball supply port 323c in the lower plate 322, and the lower plate 322 standing on the right side of the lower plate ball removal hole 322a. Since the raised wall portion is obliquely curved so as to face the direction of the lower dish ball removal hole 322a, the game balls supplied from the lower dish ball supply port 323c to the lower dish 322 are directly It can be guided to the punching hole 322a, or can be indirectly guided to the lower dish ball punching hole 322a by being reflected on the right wall. Thereby, in a state where the lower dish ball hole 322a remains open, the game ball supplied from the lower dish ball supply port 323c to the lower dish 322 is an area on the left side of the lower dish ball hole 322a in the lower dish 322. Since it can be discharged downward from the lower tray ball removal hole 322a without entering the lower tray first region A1, the lower side of the lower plate 322 is displayed without showing the player the game balls circulating in the lower tray 322. The game ball can be discharged downward (dollar box), and the same effects as described above can be achieved.

  Further, the door frame 3 includes a lower plate opening 326d of the plate unit cover 326 facing the front of the lower plate 322 between the effect operation unit mounting portion 326a (the effect operation unit 400) and the lower speaker opening 326e. Therefore, even if the player puts his hand on the lower plate opening 326d or puts his hand on the lower plate 322, the front of the lower speaker port 326e is not blocked by the player's hand. The sound from the speaker 921 in the substrate unit 900 can be output well forward, and the sound produced by the pachinko machine 1 can be enjoyed. In addition, when the player puts his hand in the lower plate 322 or approaches the lower plate 322, the player can feel the vibration caused by the heavy bass from the speaker 921 output forward from the lower speaker port 326e, and the game Entertainers and suppress the decline of interest.

  Moreover, since the door frame 3 is provided with the door frame right side unit 550 which is plate-like and protrudes forward from the right side of the through-hole 111, when the pachinko machine 1 is installed in the island facility of the game hall, the door Since the frame right side unit 550 can exert an effect such as a partition between the pachinko machine adjacent to the right side, the player who plays with the pachinko machine 1 can play in a private room. The game can be played in a relaxed atmosphere without bothering other players around you.

  Furthermore, the door frame 3 can be light-decorated on the front end and both left and right sides of the door frame right side unit 550 that is plate-like and protrudes greatly forward, so that the game hall installed with the pachinko machines 1 arranged side by side Even if the pachinko machine 1 is not located in front of the pachinko machine 1, the presence of the pachinko machine 1 can be informed from a distance such as from the side along the island facility, and the pachinko machine has a high appeal to the player. Machine 1 can be used.

  Further, the door frame 3 includes a top middle decorative member 576 that protrudes forward at the center in the left-right direction in the door frame top unit 570 on the upper side of the through-hole 111, and the front surfaces on both the left and right sides of the top middle decorative member 576, A shape that is recessed so as to squeeze backward (the top middle decorative member in the door frame top unit 570 rather than the straight line connecting the front ends of the left and right ends of the door frame top unit 570 and the front ends of the left and right ends of the top middle decorative member 576 576 is formed in a concavely curved shape so that the front surfaces of the left and right sides of 576 are located rearward. As a result, only the top middle decorative member 576 of the door frame top unit 570 appears to protrude greatly forward, so that the player can make the top middle decorative member 576 stand out and emphasized. The medium decorative member 576 can be strongly noted.

  By the way, a pair of upper speakers spaced apart from each other are provided on the upper part of the door frame in the conventional pachinko machine, and the two upper speakers are conspicuous. On the other hand, the door frame 3 according to the present embodiment has a pair of upper portions whose front surfaces are protected by speaker covers 575 made of punching metal at both left and right ends in the door frame top unit 570 attached to the upper side of the through-hole 111. In addition to the speaker 573, a top left decorative lens member 579 and a top right decorative lens member 580 extending from the left and right sides of the center top middle decorative member 576 to the left and right ends through the front of the speaker cover 575 are provided. The entire front surface of the left decorative lens member 579 and the top right decorative lens member 580 can be decorated with light emission. Thereby, since the front upper part of the door frame 3 can be decorated as a whole, the pair of upper speakers 573 become inconspicuous in the upper part of the door frame 3, and the decoration clearly different from the conventional pachinko machine is given. The pachinko machine 1 can be recognized by the player at a glance, and the player can enjoy a high-quality stereo sound by the pair of upper speakers 573. it can.

  As described above, the door frame 3 of the present embodiment includes the effect operation unit 400 attached to the dish unit 320 and the top middle decorative member 576 of the door frame top unit 570 on the lower side and the upper side of the through-hole 111. , Because it protrudes forward in the center in the left-right direction, it can show the player a unified decoration up and down so that the virtual line passing through the center in the left-right direction is conspicuous, and by the sophisticated decoration The pachinko machine 1 can be made more conspicuous than other pachinko machines and has a high appealing power.

  Further, the door frame 3 projects the top middle decorative member 576 and the effect operation unit 400 of the door frame top unit 570 disposed vertically at the center in the left-right direction, and thus the top middle decorative member 576. When the lighting operation unit 400 is decorated with light emission, the player can show a light emission line that extends vertically at the center in the left-right direction on the front surface of the door frame 3, and the player's line of sight is arranged in the center in the left-right direction. It can be guided to the operation button 410 or the like of the effect operation unit 400.

[5. Overall configuration of game board]
Next, the overall configuration of the game board 5 of the pachinko machine 1 will be described in detail with reference to FIGS. FIG. 60 is a front view of the game board. FIG. 61 is an exploded perspective view of the game board as viewed from the front after being disassembled for each main configuration, and FIG. 62 is an exploded perspective view of the game board as viewed from the rear after being disassembled for each main structure. 63 is a front view of the game board excluding the front unit and the back unit, FIG. 64 is an exploded perspective view of the game board of FIG. 63 as seen from the front, and FIG. 65 is a perspective view of the game board of FIG. It is the disassembled perspective view which decomposed | disassembled and was seen from the back. FIG. 66 is an explanatory view showing, in an enlarged manner, a part of the function display unit from the front in a state where the game board is attached to the pachinko machine.

  The game board 5 has a game area 5a in which a game ball is driven when the player operates the handle 302 of the handle unit 300. In addition, the game board 5 has a front component member 1000 that defines the outer periphery of the game area 5a and has an outer shape that is substantially rectangular when viewed from the front, and is attached to the rear side of the front component member 1000. A board-like gaming panel 1100 to be partitioned, a substrate holder 1200 attached to the lower rear portion of the gaming panel 1100, and a game ball attached to the rear surface of the substrate holder 1200 by driving a game ball into the gaming area 5a. A main control unit 1300 having a main control board 1310 for controlling the game content. A plurality of obstacle nails that come into contact with the game ball are planted in a predetermined gauge arrangement (not shown) in a portion that is in the game area 5a on the front surface of the game panel 1100.

  In addition, the game board 5 displays a game status based on a control signal from the main control board 1310, and a function display unit 1400 that is attached to the lower left corner of the front component member 1000 so as to be visible to the player side, and a game panel A peripheral control unit 1500 attached to the rear side of 1100, a game board side effect display device 1600 arranged in the center of the game area 5a in front view and capable of displaying a predetermined effect image, and the front surface of the game panel 1100 A front unit 2000 attached to the game panel 1100 and a back unit 3000 attached to the rear surface of the game panel 1100 are further provided. A game board side effect display device 1600 is attached to the rear surface of the back unit 3000, and a peripheral control unit 1500 is attached to the rear surface of the game board side effect display device 1600.

  The gaming panel 1100 is formed so that the outer periphery is slightly larger than the inner periphery of the frame-shaped front component member 1000 and holds the outer periphery of the transparent flat panel panel 1110 and the panel plate 1110. And a frame-like panel holder 1120 to which the rear unit 3000 is attached on the rear surface.

  The front unit 2000 has a plurality of general winning ports 2001 that are always open so as to be able to receive game balls that have been thrown into the game area 5a, and the plurality of general winning ports 2001 are games at different positions in the game area 5a. A first start opening 2002 that is always open to accept a ball, a gate portion 2003 that is attached to a predetermined position in the game area 5a to detect the passage of the game ball, and the game ball passes through the gate portion 2003. A second start opening 2004 that allows game balls to be accepted according to the result of the normal lottery drawn, and a first special lottery drawn by receiving game balls into the first start opening 2002 or the second start opening 2004 And a special winning opening 2005 that allows game balls to be received either in accordance with the lottery result or the second special lottery result.

  In addition, the front unit 2000 is attached immediately above the out port 1126 at the center in the left-right direction in the game area 5a, and includes a start port unit 2100 having a first start port 2002 and a prize winning port 2005, and a start port unit. A side unit 2200 that is attached along the inner rail 1002 on the left side of the front view 2100 and has a plurality of general winning ports 2001, and a side unit that is attached to the upper left end of the side unit bottom 2200 in front view. A top 2300 and a frame-shaped center accessory 2500 having a gate portion 2003 and a second starting port 2004, which are attached to the approximate center in the game area 5a.

  The back unit 3000 is attached to the rear surface of the back box 3010 and the back box 3010 which is attached to the rear surface of the panel holder 1120 and has a square opening 3010a on the rear wall. And a lock mechanism 3020 for detachably attaching the board-side effect display device 1600.

  Further, the back unit 3000 includes a back left middle decoration unit 3050 attached at the front end in the back box 3010 upward from the center in the vertical direction on the left side when viewed from the front, and a back side below the opening 3010a in the back box 3010. A back-under-back movable production unit 3100 attached near the rear wall of the box 3010, a back-upper left-movement production unit 3200 attached to the left side in front view above the opening 3010a in the back box 3010, and a back box The rear left movable effect unit 3300 attached to the left side of the opening 3010a in the front view in 3010, and the back top attached from the center in the left-right direction to the right end in the front view above the opening 3010a in the back box 3010. Movable effect unit 3400 and lower rear movable effect unit 3100 below opening 3010a in back box 3010 A subplantar before moving direction unit 3500 attached to the front, and a.

[5-1. Previous component]
Next, the front component member 1000 will be described mainly with reference to FIGS. The front component member 1000 has a substantially square outer shape when viewed from the front, and has an inner shape penetrating in a front-rear direction in a substantially circular shape. The outer periphery of the game area 5a is defined by the inner periphery of the inner shape. The front component member 1000 includes an outer rail 1001 that extends in an arc shape from the lower left side to the left side from the center in the left-right direction when viewed from the front, and extends to the upper right side through the center upper end in the left-right direction when viewed from the front. An inner rail 1002 that is arranged substantially along the outer rail 1001 inside the front component member 1000 and extends in an arc shape from the center lower part in the left-right direction in front view to the upper left part in the front view, and a game on the right side in front view of the lower end of the inner rail 1002 An out guiding portion 1003 that is formed at the lowest position of the region 5a and is inclined so as to become lower toward the rear.

  Further, the front component member 1000 includes a lower right rail 1004 and a lower right rail 1004 that are linearly inclined so that the right end side is slightly higher from the right end of the out guide portion 1003 in front view to the right side of the front component member 1000. The right rail 1005 extending from the right end of the front component member 1000 to the lower side of the upper end of the outer rail 1001 along the right side of the front component member 1000, and the upper portion being curved inward of the front component member 1000, and the upper end of the right rail 1005 and the outer rail 1001 is connected to the upper end of 1001, and a stop portion 1006 with which a game ball rolling along the outer rail 1001 contacts is provided.

  Further, the front component member 1000 is pivotally supported on the upper end of the inner rail 1002, and has a closed position and a front-view clock extending upward from the upper end of the inner rail 1002 so as to close the space between the front rail and the outer rail 1001. A backflow prevention member that is rotated by a spring (not shown) so as to be able to rotate only between the open position where the outer rail 1001 is opened by rotating in the rotating direction and to return to the closed position side. 1007.

  Further, the front component member 1000 includes an outer side of the vicinity of the outer rail 1001 and the inner rail 1002 that extend substantially vertically from the lower end, a lower side of the out guiding part 1003 and the lower right rail 1004, and an outer side of the right rail 1005. Each part includes a security recess 1008 that is recessed rearward from the front end. When the gaming board 5 is attached to the main body frame 4 and the door frame 3 is closed with respect to the main body frame 4, the security recess 1008 has a rear protruding piece 202 that protrudes rearward of the security cover 200 in the door frame 3. It will be inserted. Accordingly, the space between the security cover 200 and the game board 5 (the front component member 1000) is complicatedly bent by the rear protrusion piece 202 of the security cover 200 and the security recess portion 1008 of the front component member 1000. Even if an unauthorized tool such as a piano wire enters the game area 5a through the space between the security cover 200 and the front structural member 1000 from below the front of the board 5, it will be blocked by the rear protrusion 202 and the security recess 1008. The unauthorized tool can be prevented from entering the game area 5a.

  The front component member 1000 includes a plurality of positioning protrusions 1009 that protrude rearward from the rear end of the inner rail 1002. These positioning protrusions 1009 are inserted into inner rail fixing holes 1116 formed in the panel plate 1110 of the gaming panel 1100, whereby the inner rail 1002 can be positioned and fixed on the front surface of the panel plate 1110.

  Further, the front component member 1000 includes a plurality of mounting bosses 1010 protruding rearward from the rear surface. The plurality of mounting bosses 1010 can be positioned between the panel holder 1120 (game panel 1100) by being inserted into the mounting holes 1128 of the panel holder 1120 in the game panel 1100.

  Further, the front component member 1000 includes a notch 1011 that is notched upward from the lower end in the lower left corner when viewed from the front. The notch 1011 coincides with the notch 1127 of the panel holder 1120 in the game panel 1100, and when the game board 5 is attached to the main body frame 4, the notch 1011 and 1127 pass through the lower full ball path. The front end openings of the normal guide path 861 and the full tank guide path 862 of the unit 860 face forward.

[5-2. Game panel]
Next, the gaming panel 1100 will be described mainly with reference to FIGS. 61 and 62, FIGS. 64 and 65, and the like. The gaming panel 1100 has a flat panel panel 1110 formed with a transparent synthetic resin and having an outer periphery slightly larger than the inner periphery of the frame-shaped front component member 1000, and holds the outer periphery of the panel plate 1110. And a frame-like panel holder 1120 attached to the rear side of the front component member 1000 and attached to the rear unit 3000 on the rear surface.

  The panel plate 1110 of the game panel 1100 is formed of a synthetic resin plate such as acrylic resin, polycarbonate resin, polyarylate resin, or methacrylic resin, or an inorganic plate such as glass or metal. The panel plate 1110 is thinner than the panel holder 1120 (game panel 1150), and is the minimum necessary thickness that can be sufficiently retained even if the obstruction nail is installed on the front surface or the front unit 2000 is attached. (8 to 10 mm). In this example, panel plate 1110 is formed of a transparent synthetic resin plate.

  The panel board 1110 is formed with an out recess 1111 that is recessed upward from the lower end at the lowest position in the game area 5a. Further, the panel plate 1110 is formed with a plurality of openings 1112 penetrating in the front-rear direction for attaching the front unit 2000.

  The panel plate 1110 includes a plurality of fitting holes 1113 that are arranged in the vicinity of the outer periphery and penetrate in the front-rear direction, and a long hole 1114 that is disposed in the vicinity of the outer periphery of the lower left portion and extends in the front-rear direction and extends in the up-down direction. It is equipped with. The fitting hole 1113 and the long hole 1114 are disposed outside the game area 5a and are positioned with the panel holder 1120. Moreover, the panel board 1110 is provided with the step-shaped engagement step part 1115 which the front side became depressed in the both ends of an upper side, and the both ends of a lower side, respectively. These engagement step portions 1115 are cut out to substantially half the thickness of the panel plate 1110, and are arranged outside the game area 5a, like the fitting holes 1113 and the long holes 1114. This is for engaging and fixing the panel plate 1110 to the panel holder 1120.

  The panel plate 1110 has a plurality of inner rail fixing holes 1116 at predetermined positions. The inner rail 1002 can be fixed at a predetermined position by fitting and fixing the positioning protrusion 1009 protruding from the rear side of the inner rail 1002 into the inner rail fixing hole 1116.

  The panel holder 1120 of the gaming panel 1100 has a size that includes the panel plate 1110 and has a substantially rectangular outer shape, and is thicker than the panel plate 1110 (about 20 mm in this example). Panel holder 1120 is formed of a synthetic resin (for example, a thermoplastic synthetic resin). The panel holder 1120 includes a holding step 1121 that holds the panel plate 1110 in a detachable manner and is recessed from the front side toward the rear side, and is substantially the same size as the game area 5a inside the holding step 1121 in the front-rear direction. And a through-hole 1122 that penetrates through.

  The holding step portion 1121 of the panel holder 1120 has a depth from the front surface that is substantially the same as the thickness of the panel plate 1110, and the front surface of the panel plate 1110 held in the holding step portion 1121 corresponds to the panel holder 1120. It is almost flush with the front surface. The holding step 1121 is formed such that the front inner peripheral surface thereof has a predetermined clearance with respect to the outer peripheral surface of the panel plate 1110. With this clearance, even if the panel plate 1110 expands and contracts relatively due to temperature changes and changes over time, the expansion and contraction can be absorbed.

  Further, the panel holder 1120 is disposed at a position corresponding to the fitting hole 1113 and the long hole 1114 formed in the panel plate 1110 held by the holding step portion 1121, and moves forward from the front surface of the holding step portion 1121. A plurality of protruding pins 1123 that extend and can be fitted and inserted into the fitting holes 1113 and the long holes 1114 of the panel plate 1110 are provided. By fitting and inserting these protruding pins 1123 into the fitting holes 1113 and the long holes 1114 of the panel plate 1110, the panel holder 1120 and the panel plate 1110 can be positioned relative to each other.

  Further, the panel holder 1120 includes an engaging claw 1124 and an engaging piece 1125 that engage with the engaging step portion 1115 at a position corresponding to the engaging step portion 1115 of the panel plate 1110. More specifically, the engaging claw 1124 is disposed on the upper portion of the holding step portion 1121 of the panel holder 1120, corresponds to the upper engaging step portion 1115 of the panel plate 1110, and moves forward from the front surface of the holding step portion 1121. It protrudes toward the front and is elastically engaged with the engaging step 1115. The engaging claw 1124 has a size that does not protrude from the front surface of the panel holder 1120.

  The engaging piece 1125 of the panel holder 1120 is disposed below the holding step 1121 of the panel holder 1120 and corresponds to the lower engaging step 1115 of the panel plate 1110. The engagement piece 1125 is formed on the upper side along the front surface of the panel holder 1120 in a state where a gap of a size that allows the engagement step portion 1115 of the panel plate 1110 to be inserted is formed between the engagement piece 1125 and the front surface of the holding step portion 1121. A predetermined amount extends toward the center side. By engaging the engagement step portion 1115 of the panel plate 1110 with the engagement claws 1124 and the engagement pieces 1125, the panel plate 1110 is detachably held with respect to the panel holder 1120.

  Further, the panel holder 1120 includes an out port 1126 penetrating in the front-rear direction at the lowest position in the game area 5a. In the panel holder 1120, the lower rear side of the out port 1126 has the same width as the out port 1126 and is recessed forward to the lower end.

  Further, the panel holder 1120 includes a notch 1127 which is notched upward from the lower end in the lower left corner when viewed from the front. This notch 1127 coincides with the notch 1011 of the front component 1000, and when the game board 5 is attached to the main body frame 4, the notch 1011 and 1127 pass through the lower full ball path unit 860. The front end openings of the normal guiding path 861 and the full tank guiding path 862 face forward.

  Further, the panel holder 1120 includes a plurality of mounting holes 1128 penetrating in the front-rear direction at positions corresponding to the plurality of mounting bosses 1010 in the front component member 1000. By inserting the mounting boss 1010 of the front component member 1000 into the plurality of mounting holes 1128, the panel holder 1120 can be mounted on the rear side of the front component member 1000, and between the front component member 1000, the panel holder 1120 (game panel 1100) can be positioned.

  Further, the panel holder 1120 includes a square insertion hole 1129 penetrating in the front-rear direction above the notch 1127. The insertion hole 1129 is inserted through the rear end of the function display unit 1400.

  When the gaming panel 1100 is attached to the rear side of the front component member 1000, the out port 1126 of the panel holder 1120 is opened to the rear side of the out guide part 1003 of the front component member 1000. Thereby, the game ball that has flowed down to the lower end of the game area 5a is guided to the rear out port 1126 by the out guiding unit 1003, and is discharged to the rear side of the game panel 1100 through the out port 1126.

[5-2a. Second embodiment of game panel]
Next, a gaming panel 1150 according to an embodiment different from the gaming panel 1100 will be described in detail mainly with reference to FIGS. FIG. 67 is an exploded perspective view of a gaming panel having a form different from that in FIG. 63 as seen from the front together with the front component member, the substrate holder, and the main control unit. FIG. 68 is an exploded perspective view of FIG. 67 viewed from behind. This game panel 1150 is formed of a wood board material such as a veneer plywood having a predetermined thickness (for example, 18 mm to 21 mm). The gaming panel 1150 is formed to have the same thickness as the panel holder 1120 of the gaming panel 1100 described above.

  The gaming panel 1150 has an outer shape that is substantially the same as the outer shape of the front component member 1000. The game panel 1150 includes an out-port 1151 that penetrates in the front-rear direction at a position corresponding to the out-guiding portion 1003 of the front component member 1000 at a lower portion substantially in the center in the left-right direction when viewed from the front. In the gaming panel 1150, the lower side of the rear surface of the out port 1151 has the same width as the out port 1151 and is recessed forward to the lower end.

  Further, the game panel 1150 penetrates horizontally in the front-rear direction on the left side when viewed from the lower end and is opened downward, and the notch 1152 having the same shape as the notch 1011 of the front component member 1000 and the up-down direction above the notch 1152 And a square insertion hole 1153 into which the rear end of the function display unit 1400 is inserted.

  In addition, the game panel 1150 includes a plurality of inner rails penetrating in the front and rear directions in which the positioning projections 1009 can be fitted at positions corresponding to the plurality of positioning projections 1009 projecting rearward from the inner rails 1002 of the front component member 1000. A fixing hole 1154 is provided. In addition, the game panel 1150 includes a plurality of mounting holes 1155 penetrating front and rear at positions corresponding to the plurality of mounting bosses 1010 in the front component member 1000. By inserting the mounting boss 1010 of the front component member 1000 into the plurality of mounting holes 1155, the game panel 1150 can be mounted on the rear side of the front component member 1000, and the game panel can be connected to the front component member 1000. 1150 can be positioned.

  Further, although not shown, the gaming panel 1150 is provided with a plurality of openings penetrating forward and backward for attaching the front unit 2000, similarly to the opening 1112 of the panel plate 1110 in the gaming panel 1100 described above. ing.

  The gaming panel 1150 is attached to the rear side of the front component member 1000, and the out port 1151 is opened to the rear side of the out guide part 1003 of the front component member 1000. Thereby, the game ball flowing down to the lower end of the game area 5a is guided to the rear out port 1151 by the out guiding part 1003, and is discharged to the rear side of the game panel 1150 through the out port 1151.

[5-3. Substrate holder]
Next, the substrate holder 1200 will be described with reference mainly to FIGS. The substrate holder 1200 is formed in a horizontally long box shape that is open at the top and front, and is inclined so that the bottom surface becomes lower toward the center in the left-right direction. The board holder 1200 can cover the lower part of the back unit 3000 attached to the rear side of the game panel 1100 from the lower side in the assembled state on the game board 5. Thereby, it is possible to receive all the game balls discharged to the rear side of the game panel 1100 through the out port 1126 and the game balls discharged downward from the front unit 2000 and the back unit 3000, and formed on the bottom surface. The discharged discharge part 1201 can be discharged downward.

[5-4. Main control board unit]
Next, the main control unit 1300 will be described mainly with reference to FIGS. The main control unit 1300 is detachably attached to the rear surface of the substrate holder 1200. The main control unit 1300 includes a main control board 1310 for controlling game contents, game ball payout, and the like, and a main control board box 1320 that houses the main control board 1310 and is attached to the board holder 1200. .

  The main control board box 1320 includes a plurality of sealing mechanisms. When the main control board box 1320 is closed using one sealing mechanism, the sealing mechanism is then destroyed to open the main control board box 1320. The main control board box 1320 can be opened and closed. Therefore, by observing the trace of opening and closing, it is possible to discover unauthorized opening and closing of the main control board box 1320, and the deterrent against unauthorized actions on the main control board 1310 is enhanced.

  Note that the various board boxes 930, 950, 1320, 1520, and 3042 including the main control board box 1320 are all provided as transparent members so that visual confirmation from the outside is possible. Yes. That is, as will be described later, in the pachinko machine 1 according to this embodiment, the surface of the payout control board 951 in the payout control board box 950 and the main control board 1310 in the main control board box 1320 are inferior in fraud suppression performance. Since a mounting area is provided, it is important to secure such transparency in order to obtain various functions and effects related to fraud countermeasures described later.

[5-5. Function display unit]
Next, the function display unit 1400 will be described mainly with reference to FIGS. As shown in the drawing, the function display unit 1400 is attached to the lower left corner of the front component member 1000 outside the game area 5a. The function display unit 1400 can be viewed from the front (player side) through the through-hole 111 of the door frame 3 in a state where the game board 5 is assembled to the pachinko machine 1 (see FIG. 66). The function display unit 1400 displays a gaming state (game situation), a normal lottery result, a special lottery result, and the like using a plurality of LEDs based on a control signal from the main control board 1310.

  As shown in FIG. 66, the function display unit 1400 has a status indicator 1401 composed of one LED for displaying a gaming state, and four LEDs for displaying a normal lottery result drawn by passing a game ball with respect to the gate unit 2003. The normal symbol display 1402 made up of, the normal hold display 1408 made up of two LEDs for displaying the number of holds relating to the passage of the game ball with respect to the gate 2003, and the game ball received at the first starting port 2002 are selected by lottery. The first special symbol display 1403 composed of eight LEDs for displaying the first special lottery result, and the first special reservation composed of two LEDs for displaying the number of suspensions relating to the acceptance of the game balls to the first starting port 2002 Number indicator 1404 and eight LEDs for displaying the result of the second special lottery drawn by receiving the game ball to the second starting port 2004 A second special symbol display 1405, a second special hold number display 1406 composed of two LEDs for displaying the number of holds for receiving a game ball in the second start port 2004, and a first special lottery result or second It is mainly provided with a round indicator 1407 composed of three LEDs for displaying the number of repetitions (rounds) of the open / close pattern of the big prize opening 2005 when the special lottery result is “big hit” or the like.

  In this function display unit 1400, the number of symbols, symbols, etc. can be displayed by appropriately turning on, turning off, and blinking the LEDs provided.

[5-6. Peripheral control unit]
Next, the peripheral control unit 1500 will be described with reference to FIG. Peripheral control unit 1500 is attached to the rear side of game board side effect display device 1600 attached to the rear surface of back box 3010 of back unit 3000. Peripheral control unit 1500 includes a peripheral control board 1510 that controls the presentation presented to the player based on a control signal from main control board 1310, and a peripheral control board box 1520 that houses peripheral control board 1510. ing. Although not shown, the peripheral control board 1510 includes a peripheral control unit for controlling a light emission effect, a sound effect, a movable effect, and the like, and an effect display control unit for controlling the effect image. .

[5-7. Game board side effect display device]
Next, the game board side effect display device 1600 will be described with reference to FIGS. 61 to 62. The game board side effect display device 1600 is disposed in the center of the game area 5a in a front view, and is attached to the rear side of the game panel 1100 via a back box 3010 of the back unit 3000. Specifically, the game board side effect display device 1600 is detachably attached to the rear surface of the substantially center of the rear wall of the back box 3010. The game board side effect display device 1600 can be viewed from the front side (player side) through the frame of the frame-shaped center accessory 2500 in a state where the game board 5 is assembled. This game board side effect display device 1600 is a full-color liquid crystal display device using a white LED as a backlight, and can display still images and moving images.

  The game board side effect display device 1600 includes two left fixed pieces 1601 projecting outward from the left side surface in front view and a right fixed piece 1602 projecting outward from the right side surface in front view. This game board side effect display device 1600 has two fixed grooves opened on the left inner peripheral surface in front view in a frame-like liquid crystal mounting portion 3010b of a back box 3010 described later with the liquid crystal screen facing forward. 3010c, after inserting the two left fixing pieces 1601 obliquely from the back of the back box 3010, the right fixing piece 1602 side is moved forward, and the right fixing piece 1602 is inserted into the opening of the lock mechanism 3020 to lock The mechanism 3020 is attached to the back box 3010 by sliding it downward.

[5-8. Table unit]
Next, the table unit 2000 will be described with reference to FIGS. The front unit 2000 of the gaming board 5 is attached to the panel plate 1110 of the gaming panel 1100 from the front, the front end projects forward from the front surface of the panel plate 1110, and the rear end penetrates the opening 1112. Projecting rearward from the rear surface of the panel plate 1110.

  The front unit 2000 of the present embodiment is capable of receiving game balls that have been struck into the game area 5a, and the plurality of general prize openings 2001 that are always open, and the plurality of general prize openings 2001 are within the game area 5a. A first start port 2002 that is always open to accept game balls at different positions, a gate portion 2003 that is attached to a predetermined position in the game area 5a and detects the passage of the game balls, and the game balls are gated The second start opening 2004 that allows game balls to be received according to the result of the normal lottery drawn by passing the section 2003, and the lottery by receiving the game balls to the first start opening 2002 or the second start opening 2004 And a special winning opening 2005 that enables the reception of game balls in accordance with the first special lottery result or the second special lottery result.

  The plurality of general winning ports 2001 are arranged at the lower part in the game area 5a. The first start port 2002 is arranged right above the out port 1126 at the center in the left-right direction in the game area 5a. The gate portion 2003 is disposed substantially directly below the stop portion 1006 at the upper right in front view in the game area 5a. The second start port 2004 is disposed right below the gate portion 2003 from the front view. The big winning opening 2005 is arranged between the first start opening 2002 and the out opening 1126.

  In addition, the front unit 2000 is attached immediately above the out port 1126 at the center in the left-right direction in the game area 5a, and includes a start port unit 2100 having a first start port 2002 and a prize winning port 2005, and a start port unit. A side unit 2200 that is attached along the inner rail 1002 on the left side of the front view 2100 and has a plurality of general winning ports 2001, and a side unit that is attached to the upper left end of the side unit bottom 2200 in front view. The upper 2300 and a frame-shaped center accessory 2500 having a gate portion 2003 and a second starting port 2004, which are attached to the approximate center in the game area 5a.

  In the game area 5a, the start port unit 2100 is disposed immediately above the out port 1126 near the lower end at the center in the left-right direction, and is attached to the panel board 1110 from the front. In the starting port unit 2100, the first starting port 2002 opens upward with a size that can receive only one game ball at a time, and the big winning port 2005 has a plurality of game balls at a time ( For example, 4 to 6 pieces) are extended to the left and right in a size that can be received, and can be opened and closed according to the gaming state.

  The lower side unit 2200 extends in an arc shape along the inner rail 1002 on the left side of the start port unit 2100 in the game area 5a, and is attached to the panel plate 1110 from the front. The lower side unit 2200 has a plurality of general winning ports 2001 capable of receiving game balls at all times.

  In the gaming area 5a, the upper side unit 2300 is attached to the panel board 1110 from the front, slightly upward from the center in the vertical direction at the upper left of the lower side unit 2200 when viewed from the front. The upper side unit 2300 is attached to the front surface of the panel board 1110, and the left end of the shelf is close to the inner rail 1002. To the center in the left-right direction).

  In the game area 5a, the center accessory 2500 is arranged above the start port unit 2100 and the lower side unit 2200, and slightly above the center of the front view, on the front surface of the panel plate 1110 of the game panel 1100. Installed. The center accessory 2500 is formed in a frame shape, and visually recognizes the effect units provided in the game board side effect display device 1600 and the rear unit 3000 disposed behind the game panel 1100 through the frame from the front. be able to. The center accessory 2500 includes a gate portion 2003 and a second start port 2004.

  The frame-shaped center accessory 2500 has the entire circumference excluding the lower side protruding forward from the front surface of the panel plate 1110 of the game panel 1100, and the game ball that has been driven into the game area 5a is within the frame. It cannot be invaded.

  The center accessory 2500 has a warp inlet 2520 in which a game ball in the game area 5a is open so that the game ball in the game area 5a can enter, and a game ball that has entered the warp inlet 2520 can be discharged on the outer peripheral surface on the left side when viewed from the front. A warp outlet 2522 that is open, and a stage 2530 that releases the game ball released from the warp outlet 2522 in the left-right direction and then releases the game ball into the game area 5a. The start opening unit 2100 is disposed immediately below the stage 2530. When a game ball is released downward from the center of the stage 2530, the game ball is received at the first start opening 2002 with a very high probability.

[5-9. Back unit]
Next, the back unit 3000 in the game board 5 will be described with reference to FIGS. The back unit 3000 is attached to the rear surface of the panel holder 1120 in the game panel 1100. In addition, a game board side effect display device 1600 and a peripheral control unit 1500 are attached to the rear side of the back unit 3000.

  The back unit 3000 includes a back box 3010 that is attached to the rear surface of the panel holder 1120 and is open at the front and has a square opening 3010a on the rear wall, and a lower side of the opening 3010a on the rear surface of the back box 3010. And a box-shaped effect drive board box 3042 that is rotatably mounted around an axis extending in the left-right direction and accommodates the effect drive board.

  The back unit 3000 includes a back left middle decoration unit 3050 attached at the front end in the back box 3010 from the center in the vertical direction on the left side when viewed from the front, and a back side below the opening 3010a in the back box 3010. A back-under-back movable production unit 3100 attached near the rear wall of the box 3010, a back-upper left-movement production unit 3200 attached to the left side in front view above the opening 3010a in the back box 3010, and a back box The rear left movable effect unit 3300 attached to the left side of the opening 3010a in the front view in 3010, and the back top attached from the center in the left-right direction to the right end in the front view above the opening 3010a in the back box 3010. Movable effect unit 3400 and lower rear movable effect unit 3100 below opening 3010a in back box 3010 A subplantar before moving direction unit 3500 attached to the front, and a.

  The back box 3010 of the back unit 3000 has a box-like shape in which the front is open and has an opening 3010a that penetrates the rear wall squarely, and a flat frame shape that protrudes backward from the periphery of the opening 3010a. A liquid crystal attachment portion 3010b, and two fixed grooves 3010c into which the left fixed piece 1601 of the game board side effect display device 1600 is inserted outwardly from the inside of the frame on the left side in the back view of the liquid crystal attachment portion 3010b. And a notch 3010d to which the lock mechanism 3020 is attached by being notched from the rear end to the rear wall of the back box 3010 at the center in the vertical direction of the right side of the liquid crystal attaching part 3010b.

  The opening 3010a is formed to have approximately the same size as the display screen of the game board side effect display device 1600. Further, the liquid crystal attachment portion 3010b is formed in a size that allows the game board side effect display device 1600 to be fitted in the frame. The back box 3010 has a lock mechanism 3020 attached to the rear left side of the notch 3010d on the rear surface so as to be slidable up and down.

  The back box 3010 includes a flat plate-shaped fixed piece 3010e extending outward from the front end. The fixed piece 3010e is attached to the panel holder 1120 with the front surface in contact with the rear surface of the panel holder 1120 of the gaming panel 1100. The back box 3010 is formed with bosses, mounting holes, and the like at appropriate positions for mounting the movable effect units and the like.

  The back unit 3000 is appropriately used using a rear-behind movable effect unit 3100, a rear-upper left movable effect unit 3200, a rear-left movable effect unit 3300, a rear-upper movable effect unit 3400, a lower-bottom front movable effect unit 3500, and the like. It is possible to perform a light emitting effect, a movable effect, a display effect, and the like, and it is possible to entertain the player by various effects, and it is possible to suppress a decrease in the interest of the player in the game.

[6. Game contents]
Next, game contents by the pachinko machine 1 of the present embodiment will be described with reference to FIG. In the pachinko machine 1 according to the present embodiment, the game balls stored in the upper plate 321 of the plate unit 320 are moved by the player rotating the handle 302 of the handle unit 300 disposed in the lower right corner of the front surface of the door frame 3. The game board 5 is driven into the upper portion of the game area 5a through the space between the outer rail 1001 and the inner rail 1002, and the game with the game ball is started. The game ball that has been driven into the upper part of the game area 5a flows down either the left side or the right side of the center accessory 2500 depending on the strength of the game. The strength of the game ball can be adjusted according to the amount of rotation of the handle 302. The game ball can be driven more strongly as it is rotated in the clockwise direction, and a maximum of 100 game balls per minute, that is, A game ball can be shot at intervals of 0.6 seconds.

  In the game area 5a, a plurality of obstacle nails (not shown) with a predetermined gauge arrangement at appropriate positions are implanted on the front surface of the game panel 1100 (panel plate 1110). By abutting, the flow-down speed of the game ball is suppressed, and various movements are given to the game ball so that the movement can be enjoyed. Further, in the game area 5a, in addition to the obstacle nail, a windmill (not shown) that rotates when the game ball abuts is provided at an appropriate position.

  When the game ball that is thrown into the upper portion of the center accessory 2500 enters the left side of the front view of the outermost surface of the center accessory 2500 from the highest position, it abuts against a plurality of obstacle nails (not shown) The area on the left side of the center actor 2500 will flow down. Then, when a game ball flowing down the left region of the center accessory 2500 enters the warp inlet 2520 that opens to the outer peripheral surface of the center accessory 2500, the game ball is supplied from the warp outlet 2522 to the stage 2530.

  The game ball supplied to the stage 2530 rolls on the stage 2530, moves back and forth, and is released forward. When a game ball is released from the center of the stage 2530 into the game area 5a, the game ball is positioned directly above the first start port 2002, and therefore is received at the first start port 2002 with a high probability. When a game ball is received in the first start port 2002, a predetermined number (for example, three) of game balls are paid out to the upper plate 321 from the payout device 830 via the main control board 1310 and the payout control board 951. .

  When the game ball rolling on the stage 2530 is released into the game area 5a from other than the center, it flows down toward the start port unit 2100. The game ball released from the stage 2530 of the center accessory 2500 into the game area 5a may be received by the first start opening 2002 of the start opening unit 2100, the open big winning opening 2005, or the like.

  By the way, when the game ball that has flowed down to the left side of the center accessory 2500 does not enter the warp entrance 2520, it is drawn to the center side in the left-right direction by the upper side unit 2300, and the general winning opening 2001 and the first There is a possibility that it will be received in the starting port 2002 or the like. When a game ball is received in the general winning opening 2001, a predetermined number (for example, 10) of game balls are paid out to the upper plate 321 from the payout device 830 via the main control board 1310 and the payout control board 951. .

  On the other hand, when the game ball that is driven into the upper portion of the center accessory 2500 in the game area 5a enters the right side of the highest part of the outer peripheral surface of the center accessory 2500 (so-called right hit), On the downstream side, the region where the gate portion 2003 and the second start port 2004 are provided flows down.

  When the right-handed game ball passes through the gate portion 2003, a normal lottery is performed on the main control board 1310. If the lottery normal lottery result is “normal hit”, the second start port 2004 is set for a predetermined time ( For example, it is in the open state for 0.3 to 10 seconds), and the game ball can be received at the second start port 2004. When a game ball is received at the second starting port 2004, a predetermined number (for example, four) of game balls are paid out to the upper plate 321 from the payout device 830 via the main control board 1310 and the payout control board 951. The

  In the present embodiment, in the normal lottery performed by the game ball passing through the gate unit 2003, a certain amount of time is set from the start of the normal lottery until the normal lottery result is suggested (for example, 0. 0). 01-60 seconds, also called normal variation time). The suggestion of the normal lottery result is displayed on the function display unit 1400 of the game board 5. The second start port 2004 is opened after the normal fluctuation time has elapsed.

  In addition, if a game ball passes through the gate portion 2003 after the game ball passes through the gate portion 2003 and before the normal lottery result is suggested, the normal lottery result cannot be started. The start of the suggestion of the result is put on hold until the suggestion of the result of the previous normal lottery ends. In addition, the number of holdings of the normal lottery result is up to 4 and the upper limit is discarded without holding even if the game ball passes through the gate unit 2003. This suppresses an increase in the burden on the game hall side by accumulating the hold.

  When the special lottery result (the first special lottery result and the second special lottery result) drawn by accepting game balls to the first start port 2002 and the second start port 2004 is a special lottery result that generates an advantageous gaming state After the elapse of the special variation time, the special winning opening 2005 is in a state where the game ball can be received in a predetermined opening / closing pattern. When a game ball is received in the special prize opening 2005 when the special prize opening 2005 is in the open state, a predetermined number (for example, ten or thirteen) of gaming balls from the payout device 830 by the main control board 1310 and the payout board. Is dispensed to the upper plate 321. Therefore, when the winning prize opening 2005 is capable of receiving game balls, by allowing the winning prize opening 2005 to receive game balls, a lot of gaming balls can be paid out and the player can be entertained.

  In “Big Bonus”, after the big hit game ends, the probability that a special lottery result such as “Big Bonus” will be drawn is changed (“probable hit”), or the display time of the effect image that suggests the special lottery result is changed. ("Short-time hit") or "hit".

  In the present embodiment, the first starting port 2002 and the second starting port 2002 and the second starting port 2004 are received from the start of the special lottery until the special lottery result is suggested by the acceptance of the game balls. When a game ball is accepted at the second start opening 2004, the suggestion of the special lottery result cannot be started, and therefore the start of the suggestion of the special lottery result is suspended until the suggestion of the special lottery result previously drawn is completed. The The number of reserved special lottery results to be held is up to four for each of the first start port 2002 and the second start port 2004, and for more than that, the first start port 2002 and the second start port Even if a game ball is accepted in 2004, the special lottery result is not put on hold and discarded. This suppresses an increase in the burden on the game hall side by accumulating the hold.

  The special lottery result is suggested by the function display unit 1400 and the game board side effect display device 1600. The function display unit 1400 is directly controlled by the main control board 1310 to suggest a special lottery result. The suggestion of the special lottery result in the function display unit 1400 suggests the special lottery result based on the combination of the LEDs that are lit, after a plurality of LEDs are repeatedly turned on / off and blinked for a predetermined time.

  On the other hand, in the game board side effect display device 1600, based on the control signal from the main control board 1310, the peripheral control board 1510 indirectly controls and the special lottery result is suggested as an effect image. The effect image suggesting the special lottery result on the game board side effect display device 1600 is displayed in a variable manner by changing each symbol sequence in a state where three symbol sequences composed of a plurality of symbols are displayed side by side in the horizontal direction. Each symbol row is stopped and displayed so that the symbols in the three symbol rows that are stopped and displayed are in a combination corresponding to the special lottery result. When the special lottery result is other than “losing”, after the three symbol sequences are stopped and each symbol is stopped and displayed, a final image suggesting the special lottery result is displayed on the game board side effect display device 1600, An advantageous gaming state (for example, a small hit game, a big hit game, etc.) according to the lottery special lottery result occurs.

  It should be noted that the time indicating the special lottery result in the function display unit 1400 (LED blinking time (fluctuation time)) and the time suggesting the special lottery result in the game board side effect display device 1600 (the symbol string varies). The time until the fixed image is displayed is different, and the function display unit 1400 is set to a longer time.

  Further, in the peripheral control board 1510, in addition to the display of the effect image for suggesting the special lottery result by the game board side effect display device 1600, the effect operation unit 400 in the door frame 3 according to the lottery special lottery result. Operation buttons 410, door frame side effect display device 460, various ornaments of the center accessory 2500, various ornaments of the back unit 3000, the back bottom movable movable effect unit 3100, the back upper left movable effect unit 3200, and the back left movable effect The unit 3300, the back / upper middle movable effect unit 3400, the back / under front movable effect unit 3500, and the like can be used as appropriate to perform a light emission effect, a movable effect, a display effect, and the like. The player can be entertained, and it is possible to suppress the player's interest in games from being reduced.

[Relationship between the present embodiment and the present invention]
The door frame 3 in the present embodiment is the door unit of the present invention, the main body frame 4 in the present embodiment is the main body unit of the present invention, and the through-hole 111 of the door frame base unit 100 in the door frame 3 of the present embodiment is the present invention. The plate unit cover 326 of the plate unit 320 in the door frame 3 of the present embodiment is provided in the window portion of the present embodiment, and the operation buttons 410 of the effect operation unit 400 and the second effect operation unit 400A of the present embodiment are provided in the bulge portion of the present invention. The button lens 411 corresponds to the first decorative body of the present invention, and the first button decorative portion 411a of the button lens 411 in the present embodiment corresponds to the first decorative portion of the present invention.

  Further, the decorative member in the operation button of the base unit in the present embodiment, the main screen 471 and the sub screen 472 of the screen unit 470 in the door frame side second effect display device 460A are the second decorative body of the present invention. The second button inner decorative portion 432g of the operation button inner decorative member 432, the peripheral decorative portion 472a of the screen unit 470, the sub-screen decorative member 476, and the peripheral decorative member 478 correspond to the second decorative portion of the present invention. .

  Further, each LED and sub-screen decoration board mounted on the operation button left inner decoration board 433, the operation button right inner decoration board 434, the operation button upper inner decoration board 435, and the operation button lower inner decoration board 436 in this embodiment. LED 477a of 477 is a light emitter of the present invention, door frame side effect display device 460 in the present embodiment is a back side decoration means of the present invention, frame unit 415 in the present embodiment, unit base 431 of base unit 430, and The unit base 451 of the second base unit 450 corresponds to the base portion of the present invention.

[8. Characteristic effects of this embodiment]
Thus, according to the pachinko machine 1 of the present embodiment, the operation of the effect operation unit 400 (or the second effect operation unit 400A) attached to the front surface of the plate unit 320 that bulges forward in the door frame 3. When the button lens 411 of the button 410 is viewed from the outside, the first button decorative portion 411a and the second button internal decorative portion 432g of the operation button internal decorative member 432 (or the screen unit 470 in the door frame side second effect display device 460A). Of the peripheral decoration portion 472a, the sub-screen decoration member 476, the peripheral decoration member 478, etc.), the decoration of the first button decoration portion 411a and the door frame side effect display device 460, etc. It is possible to show the player a decoration with a sense of perspective that is not perspective and can attract the player's attention strongly. It can be a pachinko machine 1 highly appealing capable to differentiate from other pachinko machine.

  Further, the operation button internal decoration member 432 (or the door frame side second effect display device 460A (screen unit 470)), the door frame side effect display device 460, and the like are arranged in the moving direction of the button lens 411 (the operation button 410). In addition, since the button lens 411 is supported by the unit base 431 (unit base 451) so that it can be moved by the player's operation, the player operates (presses) the button lens 411 to move it. As a result, the first button decorative portion 411a and the second button internal decorative portion 432g (or the peripheral decorative portion 472a, the sub-screen decorative member 476, the peripheral decorative member 478, etc.) approach or separate from each other. The first button decoration 411a and the second button decoration 432g (or the peripheral decoration 472a, sub The first button decorative portion 411a and the second button internal decorative portion 432g (or the peripheral decorative portion 472a, the sub-screen decorative member 476, the peripheral decorative member 478) due to the change in the distance from the clean decorative member 476, the peripheral decorative member 478, etc. , Etc.), it is possible to change the perspective of the decoration that appears to overlap, and the first button decoration part 411a and the second button decoration part 432g (or the peripheral decoration part 472a, the sub-screen decoration member 476, the peripheral decoration) The decoration (cross mode) by the member 478, etc. can be changed by the player himself, and the player can be entertained and the decrease in interest can be suppressed.

  Further, since the center of the button lens 411 is bulged outwardly on the side opposite to the operation button interior decoration member 432 (or the door frame side second effect display device 460A), Since a space is formed between the second decorative body and the player, the distance from the button lens 411 to the first button decorative portion 411a and the second button of the operation button internal decorative member 432 when viewed from the player. The distance to the inner decorative part 432g (or the peripheral decorative part 472a of the screen unit 470, the sub-screen decorative member 476, the peripheral decorative member 478, etc.) will vary greatly, and the button lens 411 is operated and moved. Even if the player's eyes move, the first button decoration 411a and the second button decoration 432g (or the peripheral decoration 472a, sub Clean decorative member 476, the peripheral edge decorative member 478, etc.) crossing embodiment (degree of overlap with) for changes, it is possible to show a movement decorated player can strongly attract the attention of the player.

  Further, since the first button decoration part 411a having a radial decoration toward the center is provided on the outer peripheral edge of the transparent button lens 411, the center side of the button lens 411 where the first button decoration part 411a is not provided. The operation button inner decoration member 432 (or the door frame side second effect display device 460A) and the door frame side effect display device 460 can be satisfactorily viewed through and the radial shape of the first button decoration part 411a can be seen through. The player's line of sight can be directed to the center of the button lens 411 by the decoration of the operation button, and the operation button internal decoration member 432 (or the door frame side second effect display device 460A) and the door frame are passed through the center of the transparent button lens 411. The player's interest can be strongly directed toward the side effect display device 460.

  In addition, since the operation button inner decoration member 432 includes the second button inner decoration portion 432g having a plurality of concentric polygonal decorations centered on the center, the button lens 411 is viewed from the outside. The decoration of the first button decoration 411a and the decoration of the second button decoration 432g of the operation button decoration member 432 intersect each other, and the first button decoration 411a and the second button decoration 432g The pachinko machine 1 having a high appealing power to the player by making the first button decoration portion 411a and the second button inner decoration portion 432g stand out can be surely exhibited. it can.

  Further, since the decoration of the second button interior decoration portion 432g of the operation button interior decoration member 432 has a plurality of concentric polygonal decorations centered on the center, the second button interior decoration portion 432g By decorating, the player's line of sight and interest can be directed to the door frame side effect display device 460 seen in the center of the operation button interior decoration member 432, and the decoration (effect image) of the door frame side effect display device can be enjoyed. it can.

  Furthermore, each LED (or sub-screen decoration board 477) mounted on the operation button left inner decoration board 433, the operation button right inner decoration board 434, the operation button upper inner decoration board 435, and the operation button lower inner decoration board 436 is provided. When the LED 477a) is caused to emit light, the light can decorate the operation button interior decoration member 432 (or the sub-screen decoration member 476) by the light, and the button lens 411 can also be illuminated and decorated. In addition to the decoration of the button decoration part 411a and the second button internal decoration part 432g (or the sub-screen decoration member 476), the player can be entertained by the light emission decoration. At this time, the operation button left inner decoration board 433, the operation button right inner decoration board 434, the operation button upper inner decoration board 435, and the operation button lower inner area by the second button inner decoration portion 432 g (or the sub-screen decoration member 476). Since light from each LED (or LED 477a) of the decoration board 436 can be diffused, the second button inner decoration section 432g has an operation button left inner decoration board 433, an operation button right inner decoration board 434, and an operation button upper part. While the inner decoration board 435 and the operation button lower inner decoration board 436 are illuminated and decorated by direct light from each LED (or LED 477a), the first button decoration section 411a has the second button inner decoration. The light is decorated with indirect light diffused by the portion 432g (or the sub-screen decoration member 476). The second button inner decoration portion 432g (sub-screen decoration member 476) is strongly luminescent decorated, whereas the first button decoration portion 411a is weakly luminescent decorated. In the state where each LED (or LED 477a) of the operation button right inner decoration board 434, the operation button upper inner decoration board 435, and the operation button lower inner decoration board 436 emits light, the first button decoration portion 411a and the first button decoration section 411a When the two-button inner decoration part 432g (or the sub-screen decoration member 476) is viewed, it is possible to show the player a decoration with a more emphasized perspective, and appealing power that strongly attracts the player's interest. A high pachinko machine 1 can be obtained.

  Further, since the operation button interior decoration member 432 (or the door frame side second effect display device 460A) is arranged in the moving direction of the button lens 411, the button lens 411 and the operation button interior decoration member 432 (or the door). It is not necessary to secure a space for the button lens 411 to move outside the outer periphery of the frame side second effect display device 460A), and the button lens 411 or the operation button interior decoration member 432 (or the door frame). The side second effect display device 460A) can be widened to the outside and made as large as possible, and the button lens 411 and the operation button internal decoration member 432 (or the door frame side second effect display device can be enlarged). 460A) can stand out. Further, as described above, since it is not necessary to secure a space for movement outside the button lens 411, the frame unit 415 is disposed outside the button lens 411, so that the entire pachinko machine 1 is arranged. The pachinko machine 1 with high appeal that can enhance the decorativeness, enhance the appearance, and attract the player's attention strongly can be obtained.

  In addition, since the center of the button lens 411 bulges outward, when the player hits the button lens 411 and applies an impact to a part of the surface, the button lens 411 is made flat. Compared with the case, since the applied impact force is easily dispersed throughout the button lens 411, the button lens 411 can be made difficult to break (hard to break). Therefore, the button lens 411 is broken during the game, so that the game is interrupted, and it can be avoided that the player feels frustrated and lowers the interest, and the button lens 411 is damaged. By becoming difficult, it is possible to suppress an increase in the burden on the game hall where the pachinko machine 1 is installed.

  Furthermore, according to the pachinko machine 1 of the present embodiment, in the door frame 3 that allows the game area 5a of the game board 5 arranged in the main body frame 4 to be visually recognized through the through-hole 111 from the front, On the unit base 431 (second base unit 450) of the production operation unit 400 (second production operation unit 400A) attached to the plate unit cover 326 of the plate unit 320 bulging forward on the side, the outer diameter is 10 cm. An operation button 410 that is movable (advancing and retreating) by a player's operation in a circular shape of about 15 cm within a range of ˜30 cm, and an operation button interior that can be visually recognized from the front through the transparent button lens 411 of the operation button 410 The member 432 and the door frame side effect display device 460 (the door frame side second effect display device 460A) and the operation button 410 are arranged in the frame. The frame-shaped frame unit 415 is attached to the effect operation unit 400 having the operation button 410 as large as possible in the position where the game ball storage tray is conspicuous in the conventional pachinko machine (second operation). Since the production operation unit 400A) is visible, the player can recognize that the player is different from the conventional pachinko machine at a glance, and the pachinko machine 1 with high appeal can be obtained. The frame unit 415 includes a frame side lens 417 having translucency, and a second button decoration having translucency on the outer edge of the operation button 410 (button lens 411) so as to be adjacent to the frame side lens 417. The operation button left outer decorative substrate 422 and the operation button right outer decorative substrate 423 are provided on the unit base 431 (second base unit 450) on the rear side of the frame side lens 417 and the second button decorative portion 411b. The first button 422a, 423a for decorating the second button decoration portion 411b and the second LED 422b, 423b for decorating the frame side lens 417 are provided, and the frame side lens 417 and the second button are provided. Inside the frame body 416 that partitions the decoration portion 411b Since the tube portion 416d, the main body portion 413a and the inner extension portion 413f of the button base 413 that partitions the second button decoration portion 411b and the center side of the button lens 411 are provided, the inner tube portion 416d and the main body portion are provided. The light from the first LEDs 422a and 423a illuminates the center side of the frame side lens 417 and the button lens 411, and the light from the second LEDs 422b and 423b illuminates the second button decoration portion 411b. Illumination can be prevented, and the adjacent frame side lens 417 and the second button decoration portion 411b can be independently decorated to emit light. Therefore, the frame side lens 417 and the second button decoration portion 411b can be clearly decorated with light emission, and a light emission effect with good appearance can be performed. Moreover, various patterns of light-emitting effects can be performed by appropriately combining the turn-off, lighting, blinking, brightness, color, and the like for the adjacent frame side lens 417 and the second button decoration unit 411b. It is possible to make it difficult for the player to get bored, to entertain the player, and to suppress a decrease in the interest of the player in the game.

  Further, the first LED 422a, 423a for decorating the second button decoration portion 411b of the operation button 410 and the second LED 422b, 423b for decorating the frame side lens 417 of the frame unit 415 by lighting are arranged as one operation button left outer decoration. Since the operation button left outer decoration substrate 422 and the operation button right outer decoration substrate 423 are attached to the unit base 431 (second base unit 450), the second button decoration portion is provided. Compared to the case where the substrate is provided on the 411b (operation button 410), the first LED 422a, 423a can be moved away from the second button decoration portion 411b as much as possible, and the light from the first LED 422a, 423a is sufficiently The second button decoration part 411b can be irradiated in a diffused state. . Accordingly, since the second button decoration portion 411b can be uniformly decorated with light emission, the appearance of the light emission decoration of the second button decoration portion 411b and the frame side lens 417 can be improved, and the player's attention is strongly attracted. In addition, the player can be entertained, and a decrease in the interest of the player can be suppressed.

  Furthermore, since the operation button left outer decorative board 422 and the operation button right outer decorative board 423 are attached to the unit base 431 (second base unit 450), the operation button left outer decorative board 422 is moved forward and backward. And the wiring connected to the operation button right outer decorative board 423 is not bent or extended, and disconnection of the wiring due to fatigue can be eliminated. Therefore, even if the operation button 410 (second button decoration portion 411b) is moved, the wiring is not disconnected. Therefore, the operation button 410 can be moved (operation), the frame side lens 417 and the second button decoration portion 411b can be operated. The player can entertain the light-emitting decoration without any problem, and the decrease in the player's interest can be suppressed.

  Further, since the second button decoration portion 411b is provided on the outer edge of the transparent button lens 411 of the operation button 410, the operation button inner decoration member 432 and the door frame side effect display device 460 on the rear side through the transparent button lens 411 are provided. When the (door frame side second effect display device 460A) is viewed, the outer edge of the operation button internal decoration member 432 and the door frame side effect display device 460 (door frame side second effect display device 460A) is attached to the second button decoration part 411b. Is in a decorated state, and the appearance of the pachinko machine 1 can be improved. Then, the first LED 422a, 423a and the second LED 422b, 423b emit light appropriately so that the operation button inner decoration member 432 and the door frame side effect display device 460 (door frame side second effect display device 460A) can be seen behind. Since the second button decoration portion 411b and the frame side lens 417 decorating the outer edge of the button lens 411 can be illuminated with various patterns as described above, the player's interest is controlled by the operation buttons 410 and The door frame side effect display device 460 (door frame side second effect display device 460A) can be strongly attracted, and the light emission effect, operation of the operation button 410, and door frame side effect display device 460 (door frame side second display device 460A). It is possible to entertain an effect image or the like by the effect display device 460A) and suppress a decrease in interest.

  In addition, since the player can operate the button lens 411 (operation button 410) provided with the second button decoration portion 411b on the outer edge, the operation button 410 can be displayed to the player during execution of the player participation type effect. By making it operate, it is possible to entertain the player to operate the operation button 410 (player participation type effect), and to suppress a decrease in the interest of the player in the game. When the player participation type effect is executed, the player's interest can be attracted to the operation button 410 by lighting the second button decoration portion 411b of the operation button 410 or the frame side lens 417 of the frame unit 415. Therefore, it is possible to prompt the player to operate the operation button 410 and to entertain the player by participating in the player participation type effect.

  Further, since the second button decoration portion 411b of the operation button 410 is provided with a light-transmitting main body portion 413a and an inner extension portion 413f that can be decorated with light emission by the first LEDs 422a and 423a, the second operation button 410 has the second A portion closer to the center than the button decoration portion 411b is not illuminated (illuminated) by the first LEDs 422a and 423a, and the operation button 410 (button lens 411) is arranged at the rear side by becoming brighter. It is possible to prevent the operation button inner decoration member 432 and the door frame side effect display device 460 (door frame side second effect display device 460A) from being difficult to see from the front. Accordingly, the second button decoration portion 411b can be decorated with light emission in a good state, and the operation button inner decoration member 432 and the door frame side effect display device 460 (the door frame side second effect are provided) through the transparent button lens 411. The display device 460A) can be visually recognized in a good state, and the player can fully enjoy the decoration, the light emission effect, and the like, and can suppress a decrease in the interest in the game.

  Further, since the inner cylinder portion 416d extends from the rear side of the frame unit 415 including the frame side lens 417, the second button decoration of the frame side lens 417 and the operation button 410 is provided on the rear side of the frame unit 415. The portion 411b can be completely partitioned by the inner cylindrical portion 416d. On the other hand, light from the first LED 422a, 423a and the second LED 422b, 423b is received at the end (rear end) on the side close to the operation button left outer decorative board 422 and the operation button right outer decorative board 423 in the inner cylinder portion 416d. Since the rear end of the inner cylindrical portion 416d from the diffusion range is located closer to the operation button left outer decorative board 422 and the operation button right outer decorative board 423, the operation button left outer decorative board 422 and the operation button right outer Even if a gap is formed between the front surface of the decorative substrate 423, the light from the first LEDs 422a and 423a illuminates the frame side lens 417, or the light from the second LED 422b 423b illuminates the second button decorative portion 411b. Never do. Therefore, light can be reliably blocked by the inner cylindrical portion 416d, and the pachinko machine 1 that reliably achieves the above-described effects can be realized.

  In addition, since the main body 413a and the inner extension 413f of the button base 413 extend from the rear side of the operation button 410 (button lens 411), the second button decoration portion 411b is provided on the rear side of the operation button 410. And the center side of the button lens 411 can be completely partitioned by the main body 413a and the inner extension 413f. On the other hand, the operation button left outer decorative board 422 and the operation button right outer decorative board 423 at the end (rear end) on the side close to the operation button left outer decorative board 422 and the operation button right outer decorative board 423 in the main body 413a. The light from the first LEDs 422a and 423a does not go through the rear end of the main body 413a, and completely prevents the light from entering the center side of the button lens 411 of the operation button 410. Can do. Therefore, the first LED 422a, 423a can be used to decorate the second button decoration portion 411b in a favorable state, and the rear operation button interior decoration member 432 and the door frame side effect display device 460 (through the transparent button lens 411). The door frame side second effect display device 460A) can be visually recognized in a good state, and the player can sufficiently enjoy the decoration, the light emission effect, and the like, and can suppress a decrease in the interest in the game.

  Further, when viewed from the front, the second button decoration is located in front of the outer portion of the operation button inner decoration member 432 (door frame side second effect display device 460A) disposed behind the operation button 410 (button lens 411). Since the portion 411b is positioned, the operation button internal decoration member 432 (door frame side second) is formed from the gap between the button lens 411 and the operation button internal decoration member 432 (door frame side second effect display device 460A). The members on the outside of the effect display device 460A) and the rear side (back side) can be made difficult to see by the second button decoration portion 411b, and the appearance of the operation buttons 410 can be prevented from deteriorating. At this time, if the second button decoration portion 411b is illuminated with the first LEDs 422a and 423a, the operation button internal decoration member 432 (the door frame side second effect is produced with respect to the brightness of the second button decoration portion 411b. Since the outer side and the rear side of the display device 460A) are relatively dark, it is possible to make the members on the outer side and the rear side of the operation button inner decoration member 432 (door frame side second effect display device 460A) difficult to see. Accordingly, the appearance of the operation button 410, the frame unit 415, the operation button internal decoration member 432, the door frame side effect display device 460 (the door frame side second effect display device 460A), and the like can be further improved. A decrease in interest can be suppressed.

  Further, since the outer peripheral shape of the operation button 410 is circular, the second button decoration portion 411b provided on the outer edge of the operation button 410 (button lens 411) and the frame adjacent to the second button decoration portion 411b. The side lens 417 has a form extending in an arc shape. Therefore, the first LED 422a, 423a and the second LED 422b, 423b emit light as appropriate, so that the light rotates around the outer edge of the operation button 410, or the light spreads from the inside to the outside of the operation button 410. Since the player can show the player a light-emitting effect that the light converges from the outside to the inside of the operation button 410, etc., the player can get tired of the player by various light-emitting effects. It is possible to suppress a decrease in interest.

  Further, according to the pachinko machine 1 of the present embodiment, the upper plate 321 used for the game is obtained by placing the game balls stored in the plate unit cover 326 of the plate unit 320 in the door frame 3 into the game area 5a. At the same time, the production operation unit 400 (second production operation unit 400A) is detachably attached to the front side and the lower side of the upper plate 321, and a predetermined installation space is provided behind the production operation unit 400 (second production operation unit 400A). The remaining space of 326j is formed, and a portion corresponding to the lower plate first area A1 in the lower plate body 325 is disposed on the left side of the remaining space of the mounting space 326j, and the remaining space of the mounting space 326j from the portion. A portion corresponding to the lower plate second area A2 in the lower plate main body 325 is extended inside, and a lower plate 322 capable of storing game balls is attached. Therefore, when viewed from the front, the lower plate 322 looks small, the lower plate 322 can be made inconspicuous, and the production operation unit 400 (second production operation unit 400A) can be made relatively easy to stand out. . Therefore, when the pachinko machine 1 is viewed from the front, the production operation unit 400 (second production operation unit 400A) can be seen at a position where the upper plate and the lower plate were seen side by side in the conventional pachinko machine. The pachinko machine 1 having a high appeal that can make the player recognize that it is different from the conventional pachinko machine at first glance and can attract the player's interest strongly. it can.

  In addition, at the part of the lower dish second region A2 in the lower dish main body 325 of the lower dish 322, it extends upward from the upper end of the main body standing wall portion 325b extending upward from the outer periphery, and extends to the remaining space side of the mounting space 326j. Since the lower plate covers 340 and 340A for restricting the movement of the game ball are provided, the game ball in the lower plate 322 is prevented from coming into contact with the rear side of the production operation unit 400 (second production operation unit 400A). The game balls supplied in the lower plate 322 and the game balls stored in the lower plate 322 abut or press against the rear side of the production operation unit 400 (second production operation unit 400A). Can be prevented. Therefore, the game ball does not contact the rear side of the production operation unit 400 (second production operation unit 400A), and the rear side of the production operation unit 400 (second production operation unit 400A) is not damaged by the game ball. Therefore, it is possible to prevent the game from being interrupted due to breakage of the production operation unit 400 (second production operation unit 400A), and to reduce the interest of the player, and the pachinko machine 1 is installed. An increase in the burden on the game hall side can be suppressed.

  Also, lower plate covers 340 and 340A that restrict the movement of the game ball to the remaining space side of the main body standing wall 325b and the mounting space 326j in the lower plate second region A2 of the lower plate main body 325 of the lower plate 322. Therefore, it is possible to prevent the game ball from entering (spilling) from the lower plate body 325 into the remaining space of the mounting space 326j. Therefore, it is possible to prevent the player from feeling injured or uncomfortable by intruding the game ball into the remaining space of the attachment space 326j. Can be suppressed.

  In addition, since the lower plate cover 340, 340A covers the lower plate second region A2 of the lower plate main body 325 in the lower plate 322, the game ball supplied into the lower plate 322 jumps in the lower plate 322. Even if it jumps up, it can be reliably prevented from entering the remaining space side of the mounting space 326j, and the above-described operational effects can be reliably achieved. Further, since the lower plate cover 340, 340A covers the lower plate second region A2 of the lower plate main body 325, the player can use the lower plate first region A1 side (lower plate opening portion of the lower plate main body 325). 326d), when the hand is put into the portion of the lower plate second area A2, the lower plate covers 340, 340A can prevent the fingertips or the like from entering the remaining space side of the mounting space 326j. Can prevent the player from being injured by touching the lower surface of the upper plate 321 or the rear side of the production operation unit 400 (second production operation unit 400A), etc., and allowing the player to play in a safe state. Can do.

  Further, since there is a gap between the lower plate cover 340, 340A and the production operation unit 400 (second production operation unit 400A), the impact, pressure, etc. due to the contact of the game ball with the lower plate cover 340, 340A Is not transmitted from the lower plate covers 340 and 340A to the effect operation unit 400 (second effect operation unit 400A), and the effect operation unit 400 (second effect operation unit 400A) is surely damaged. Can be prevented.

  In addition, since the lower dish ball hole 322a is provided in front of the lower dish ball supply port 323c in the lower dish second region A2 of the lower dish body 325 of the lower dish 322, the lower dish ball hole 322a is opened. In this state, the game ball released from the lower tray ball supply port 323c can be directly entered into the lower tray ball removal hole 322a and discharged downward (dollar box). It is possible to make it difficult to reach the front end side of the standing wall portion 325b. Even if the game ball jumps over the lower tray ball removal hole 322a, since the lower plate cover 340, 340A is provided as described above, the game ball of the rendering operation unit 400 (second rendering operation unit 400A) is provided. Since it can be prevented from coming into contact with the rear side, the production operation unit 400 (second production operation unit 400A) can be prevented from being damaged, and the interruption of the game can be reduced to reduce the interest of the player in the game. Can be suppressed.

  In addition, since the bottom wall portion 325a of the lower plate main body 325 near the front end of the lower plate 322 becomes higher toward the front, the game ball toward the front end side of the main body standing wall portion 325b of the lower plate main body 325 is inclined. It will climb the bottom, and the moving speed of the game ball can be attenuated. Therefore, since the speed of the game ball contacting the lower tray cover 340, 340A can be reduced, the lower tray cover 340, 340A reliably restricts the movement of the game ball to the remaining space side of the mounting space 326j. In addition, it is possible to reduce the impact when the game ball comes into contact with the lower plate covers 340, 340A and the main body standing wall 325b, and to prevent them from being damaged.

  Further, since at least the lower plate cover 340, 340A is a separate member, when the lower plate cover 340, 340A is damaged, it can be easily repaired by simply replacing the lower plate cover 340, 340A. The increase in the burden on the side of the game hall in which 1 is installed can be reduced.

  Furthermore, according to the pachinko machine 1 of the present embodiment, the center in the left-right direction on the front is swelled forward most below the game area 5a of the game board 5 where a game ball is received in the general prize opening 2001 or the like. The tray unit cover 326 of the tray unit 320 that has been taken out is provided with the stage operation unit 400 and the second stage operation unit 400 </ b> A detachably attached to the most bulging portion of the tray unit 320, and the upper plate 321 is attached to the dish unit cover 326. And a lower tray 322 that can store a game ball and can be stored in the storage tray (upper plate 321 and lower plate 322) outside the rendering operation unit 400 (second rendering operation unit 400A) in a front view. Lower space of the lower plate first area A1 and the space behind the installation space 326j that is behind the effect operation unit 400 (second effect operation unit 400A) in front view. The second stage operation area 400 (second stage operation unit 400A) can be made conspicuous when viewed from the front, and the storage dish (upper dish 321). And the lower plate 322) can be made small to make it less noticeable. Therefore, since the production operation unit 400 (second production operation unit 400A) that is conspicuous can be seen in the portion where the upper plate and the lower plate were seen in the conventional pachinko machine, the game machine different from the conventional pachinko machine to the player Therefore, the pachinko machine 1 having high appealing power capable of attracting the player's interest can be obtained.

  In addition, since the production operation unit 400 (second production operation unit 400A) is attached to the center of the front surface of the plate unit cover 326 in the left-right direction, a portion of the surface of the plate unit cover 326 where the lower plate 322 is open is provided. The first lower pan body 325 having a lower pan second region A2 located in the rear space of the attachment space 326j that is behind the rendering operation unit 400 (second rendering operation unit 400A) in front view is smaller. Since the expansion unit 325B, the second expansion unit 325C, and the lower plate covers 340 and 340A are provided, it is possible to store the game balls in a range (the lower plate second region A2) that cannot be seen from the front in the lower plate 322. it can. Therefore, a sufficient amount of game balls can be secured against the appearance from the front, so that the player can concentrate on the game without worrying about the remaining amount of game balls in the lower plate 322. It is possible to entertain the game and suppress the decrease in interest.

  Further, the lower plate body 325 and the main body 325A having the lower plate first area A1, the lower plate covers 340 and 340A having the lower plate second area A2, the first extension part 325B and the second extension. Since the lower plate 322 is configured by attaching (combining) the portion 325C, a plurality of lower plate covers 340 and 340A having different sizes, the first extension portion 325B, the second extension portion 325C, and the like are prepared in advance. By attaching the lower plate covers 340 and 340A, the first extension unit 325B, and the second extension unit 325C having a size corresponding to the concept of the pachinko machine 1, the size of the installation space 326j in the plate unit cover 326, etc. The volume of the dish 322 can be optimized. In addition, as described above, the lower plate covers 340, 340A, the first extension part 325B, and the second extension part 325C can be rearranged (replaced), so that the rear space of the attachment space 326j can be accommodated. Since the width of the rear space depends on the rearward projecting amount of the rendering operation unit 400 (second rendering operation unit 400A), various rendering operation units 400 (second It can be set as the lower plate 322 which can respond to production operation unit 400A), and the versatility of the pachinko machine 1 can be improved.

  In addition, since the lower plate 322 is provided with a bottom wall portion 325a and a main body standing wall portion 325b that rises from the outer peripheral end of the bottom wall portion 325a, the lower plate 322 has a container shape that is depressed downward, and a game ball Can be reliably stored. In addition, since the lower plate covers 340 and 340A have the cover standing wall portion 340a rising from the upper end of the main body standing wall portion 325b of the lower plate main body 325, the lower plate covers 340 and 340A having various shapes are prepared in advance. In addition, by combining (attaching) the lower plate covers 340 and 340A having shapes corresponding to the concept of the pachinko machine 1 and the size (shape) of the rear space of the attachment space 326j, it is possible to cope with various forms. It is possible to achieve the same effects as described above.

  In the lower plate 322 constituted by the lower plate main body 325 and the lower plate cover 340, 340A, the lower plate cover 340, 340A is combined (attached) to the upper end of the main body standing wall portion 325b of the lower plate main body 325. Therefore, the part on which the game ball is placed in the lower plate 322 is the lower plate body 325, and therefore, the portion where the load of more game balls is applied due to the storage, the lower plate body 325 and the lower plate covers 340, 340A The boundary (joint, dividing line PL) is never located. Therefore, since the load of the stored game balls is received only by the lower plate body 325, a force that separates the lower plate covers 340 and 340A from the lower plate body 325 even if many game balls are stored. It does not act, and it is possible to prevent the lower plate covers 340 and 340A from being detached from the lower plate body 325.

  Furthermore, according to the pachinko machine 1 of the present embodiment, the upper plate that can store the game balls below and in front of the game area 5a of the game board 5 in which the game is received such that the game balls are received in the general winning opening 2001 or the like. 321 and a lower plate 322, and a lower plate ball supply port 323c and a lower plate ball hole 322a in the lower plate 322 by a production operation unit 400 (second production operation unit 400A) arranged at the center in the left-right direction. Since more than half of the lower plate 322 including the front plate is difficult to see from the front (player), the appearance of the pachinko machine 1 can be made clean and improved in appearance. Can be made a pachinko machine 1 having a high appealing power. In addition, since it is difficult to visually recognize the game ball heading from the lower tray ball supply port 323c to the lower tray ball removal hole 322a by the production operation unit 400 (second production operation unit 400A), a game in the lower plate 322 is made to the player. This makes it difficult to notice the flow of the sphere and can prevent distraction, thereby suppressing a decrease in interest in the game.

  In addition, the lower tray ball supply port 323c and the lower plate on the bottom surface of the lower plate 322 for guiding the game ball from the lower plate ball supply port 323c to the lower plate ball release hole 322a by the production operation unit 400 (second production operation unit 400A). Since it is difficult to see the game ball guided by the guiding means such as the ball guiding hole 322a, the ball guiding part 322c and the buffering part 322d, the lower dish ball hole 322a remains open. The game balls supplied from the lower tray ball supply port 323c to the lower tray 322 are guided by the guiding means and discharged smoothly (immediately) downward from the lower tray ball removal hole 322a. It is possible to make an illusion that the game ball is discharged below the lower plate 322 (dollar box) without passing through the lower plate 322. This makes it difficult for the player to feel the annoyance of the game ball passing through the lower plate 322, and makes it possible for the player to concentrate on the game and to suppress a decrease in interest.

  Furthermore, since the production operation unit 400 (second production operation unit 400A) makes it difficult to see more than half of the lower plate 322 including the lower plate ball supply port 323c and the lower plate ball removal hole 322a from the front, it is probable. In addition, the lower dish ball supply port 323c, the lower dish ball removal hole 322a, and the like are located behind the effect operation unit 400 (second effect operation unit 400A). In other words, since more than half of the lower plate 322 is circulated to the rear of the production operation unit 400 (second production operation unit 400A), the actual lower plate with respect to the size of the lower plate 322 seen from the front. Since the size (capacity) of 322 is large, it is possible to secure a sufficient amount of game balls to be stored in the lower plate 322 compared to the appearance.

  Further, in the state where the lower dish ball removal hole 322a is opened, the game balls released from the lower dish ball supply port 323c into the lower dish 322 are transferred to the lower dish ball supply port 323c and the lower dish ball on the bottom surface of the lower dish 322. Since it can be smoothly guided to the lower dish ball extraction hole 322a by the guiding means such as the part between the extraction hole 322a, the ball guiding part 322c and the buffering part 322d, and discharged to the lower part (dollar box) of the lower dish 322. Thus, it is possible to prevent the game ball from flowing so as to go around in the lower plate 322, and the game ball flowing through the lower plate 322 can be surely made difficult to visually recognize from the front (player). Therefore, it is possible to make it difficult for the player to notice the flow of the game ball in the lower plate 322, and to prevent the player from being distracted and to suppress a decrease in interest in the game.

  Further, if the lower dish ball removal hole 322a is left open, the game balls supplied from the lower dish ball supply port 323c to the lower dish 322 are immediately noticed by the ball guiding unit 322c and the like without being noticed by the player. Since it can be discharged downward from the lower tray ball removal hole 322a, the player is given an illusion that the game ball is discharged below the lower tray 322 (dollar box) without passing through the lower tray 322. Can do. This makes it difficult for the player to feel the annoyance of the game ball passing through the lower plate 322, and makes it possible for the player to concentrate on the game and to suppress a decrease in interest.

  In addition, since the rendering operation unit 400 (second rendering operation unit 400A) makes it difficult to view more than half of the storage area (storage area) of the game ball in the plan view of the lower dish 322 from the front, the lower dish visible from the front Since the actual lower plate 322 is more than double the size of the size that can be seen with respect to the size of 322, a sufficient amount of game balls can be secured in the same manner as the lower plate of a conventional pachinko machine.

  Furthermore, according to the pachinko machine 1 of the present embodiment, the door frame 3 bulges forward under the front view of the game area 5a of the game board 5 in which a game is received such that the game ball is received in the general winning opening 2001 or the like. A production operation unit for attaching a large production operation unit 400 (second production operation unit 400A) having the same height as the overall height of the plate unit cover 326 at the center in the left-right direction of the front surface of the plate unit cover 326 of the plate unit 320 And a dish front lower decoration portion 326c below the center in the vertical direction on both the left and right sides of the production operation unit mounting portion 326a on the front surface of the dish unit cover 326. Due to the shape, the rendering operation unit 400 (second rendering operation unit 400A) attached to the rendering operation unit mounting portion 326a. But it can be able to show as to protrude greatly forward to stand out staging operation unit 400 (second staging operation unit 400A). Therefore, since the large-sized production operation unit 400 (second production operation unit 400A) is seen in an emphasized state at the position where the upper plate and the lower plate were seen side by side in the conventional pachinko machine, On the other hand, it can be recognized that it is different from the conventional pachinko machine at a glance, and the pachinko machine 1 having high appealing power can be obtained. Then, the lower dish 322 is recessed backward from the dish front lower decoration part 326c that is recessed rearward on the left and right outer sides of the effect operation unit 400 (second effect operation unit 400A) on the front surface of the dish unit cover 326. A portion of the production operation unit 400 (second production operation unit 400A) is circulated to the rear, and the amount of game balls stored in the lower plate 322 (the volume of the lower plate 322) can be sufficiently secured. It is not necessary to play while worrying that the lower plate 322 is filled with game balls, the player can be dedicated to the game, the game can be enjoyed, and the decrease in interest can be suppressed.

  In addition, since a part of the lower plate 322 wraps around the production operation unit 400 (second production operation unit 400A), when the player puts his hand into the lower plate 322 from the front, the fingertip is placed on the lower plate. It is possible to make it difficult to touch the rear wall of 322 (the front surface of the dish unit base 323), the lower dish cover 340, and the like. This allows the player to recognize that a sufficient amount of game balls has been secured even by tactile sense, and in the state where the game balls are stored in the lower plate 322, Since it is possible to recognize that a large number of game balls are stored, it is possible to give a sense of satisfaction to the player, to entertain the game, and to suppress a decrease in interest. In addition, since the fingertip of the hand placed in the lower plate 322 is difficult to touch the rear wall of the lower plate 322, the lower plate cover 340, etc., the player is given the same feeling as the lower plate in the conventional pachinko machine. Therefore, it is possible to reduce a sense of incongruity for a player who has become accustomed to a conventional pachinko machine, and to make the player feel at ease and to suppress a decrease in interest in the game.

  Furthermore, since the lower plate 322 is formed so as to become wider toward the back side (backward), a sufficient amount of game balls can be secured even when the front side is small. In other words, since the part of the front end side of the lower plate 322 is made smaller, the lower plate 322 is made inconspicuous on the front surface (the front plate lower decorative portion 326c) of the plate unit cover 326 where the lower plate 322 is open. In comparison, the rendering operation unit 400 (second rendering operation unit 400A) can be made more conspicuous. Therefore, the production operation unit 400 (second production operation unit 400A) can be provided while sufficiently securing the amount of game balls stored in the lower plate 322, and the appealing power to the player can be enhanced. You can entertain and suppress the decline of interest.

  Moreover, since the side and upper part of the portion of the lower plate 322 that wraps around the rear of the production operation unit 400 (second production operation unit 400A) are covered with the lower plate cover 340, the player is placed in the lower plate 322. It is possible to prevent the fingertips from touching the inner surface of the plate unit cover 326 or the rear surface of the production operation unit 400 (second production operation unit 400A) when the hand is put in, and to injure the player. You can play in a safe state. Further, the lower tray cover 340 can prevent the game ball from entering (spilling) from the lower tray 322 into the tray unit cover 326.

  Furthermore, since the production operation unit 400 (second production operation unit 400A) is arranged at the center in the left-right direction on the front surface of the dish unit cover 326, the production operation unit 400 (second production operation unit 400A) is placed from the player side. The pachinko machine 1 can be made more conspicuous and can attract the player's interests, and the appealing power of the pachinko machine 1 can be enhanced, and the decoration by the stage operation unit 400 (second stage operation unit 400A) can be easily seen. Then, the decoration and production of the production operation unit 400 (second production operation unit 400A) can be enjoyed to suppress a decrease in the interest of the player.

  Further, since the lower plate 322 is provided with a lower plate ball supply port 323c that can communicate with the upper plate 321, and a lower plate ball hole 322a that is vertically opened and closed, the conventional pachinko machine is provided. Because the player has the same function as the lower plate in the game, the player who is used to the conventional pachinko machine will not be confused with the function of the lower plate 322 when playing with the pachinko machine 1, and it will be the same as in the past. It is possible to play the game with a simple feeling, and to entertain the player by dedicating the player to the game. Further, since the lower dish ball supply port 323c and the lower dish ball removal hole 322a are respectively arranged behind the production operation unit 400 (second production operation unit 400A), when viewed from the front, the lower plate ball supply port 323c and The lower dish ball hole 322a is not visible from the player side, can improve the appearance of the pachinko machine 1 by making the appearance of the pachinko machine 1 clear, and can attract the player's attention strongly. Machine 1 can be used.

  Furthermore, according to the pachinko machine 1 of the present embodiment, the dish unit 320 bulging forward under the through-hole 111 of the door frame base 110 of the door frame base unit 100 facing the game area 5a in the door frame 3. The door frame side effect display device 460 capable of presenting effects to the player on the base unit 430 (second base unit 450) of the effect operation unit 400 (second effect operation unit 400A) attached to the plate unit cover 326 of the player. The operation button inner decoration member 432 (screen unit 470 of the door frame side second effect display device 460A) is attached and the outer operation button inner decoration member 432 (screen unit 470) is surrounded so as to surround the outer periphery. The diameter is about 15cm and the center is away from the base unit 430 (second base unit 450) (outward) An operation button 410 having a transparent button lens 411 is attached, and the button lens 411 is provided with a first button decoration portion 411a, a second button decoration portion 411b, and a button frame 412 on the outer periphery of the button lens 411. Since the cylindrical button base 413 protruding from the 411 side to the base unit 430 (second base unit 450) side is provided, the button lens 411 and the operation button interior decoration are provided by the first button decoration portion 411a, the button base 413, and the like. It is possible to reduce the appearance of the outer edge, the rear side (rear side), and the like of the operation button inner decoration member 432 (the screen unit 470 of the door frame side second effect display device 460A) from the gap between the member 432 (the screen unit 470). And the appearance of the operation button 410 can be improved. Therefore, the appearance of the operation button 410, the operation button internal decoration member 432 provided inside, the door frame side effect display device 460 (door frame side second effect display device 460A), and the like can be further improved, and the player's appearance can be improved. A decrease in interest can be suppressed.

  Further, the first button decoration portion 411a, the second button decoration portion 411b, the button frame 412, and the button base 413 in the operation button 410 are separated from the gap between the button lens 411 and the operation button internal decoration member 432 (screen unit 470). Since it is possible to make it difficult to see the outer edge and the back side of the operation button inner decoration member 432 (screen unit 470), the outer diameter of the operation button 410 is increased to increase the button lens 411 and the operation button inner decoration member 432 (screen unit). 470), even if the gap between them is relatively large, the first button decoration portion 411a and the like can be favorably concealed, so that a large operation button having an outer diameter of about 15 cm can be prevented while preventing the appearance from deteriorating. 410 (button lens 411) can be embodied without problems. Therefore, since the operation button 410 and the door frame side effect display device 460 (the door frame side second effect display device 460A) can be enlarged, the pachinko machine 1 can be made conspicuous, and the player is strongly interested. The pachinko machine 1 with high appeal can be attracted.

  Furthermore, since the button base 413 (main body part 413a) protruding in a cylindrical shape from the button lens 411 side to the base unit 430 (second base unit 450) side is provided, the button lens 411 and the operation button interior decoration member 432 ( When the gap between the screen units 470) is viewed from an oblique direction, the inner wall of the button base 413 can block the objects outside the operation button interior decoration member 432 (screen unit 470) from being visible. The appearance of the button 410 can be further improved.

  Further, since the transparent button lens 411 has a three-dimensional shape (hemispherical shape) bulging in a direction (outward) away from the base unit 430 (second base unit 450), the button lens 411 is located near the outer periphery of the button lens 411. The surface is a plane formed by the opening on the front end side of the button base 413 (a plane orthogonal to the direction in which the base unit 430 (second base unit 450) and the button lens 411 are arranged, that is, the forward / backward direction of the operation button 410 Therefore, the light is easily refracted when viewed from the player side. Accordingly, the first button decoration part 411a, the second button decoration part 411b, and the button frame 412 and the button base 413 provided on the outer peripheral edge are combined to form the button lens 411 and the operation button decoration member 432 (screen unit 470). ), The outer edge and the back side of the operation button inner decoration member 432 (screen unit 470) can be made difficult to see, and the above-described operational effects can be reliably achieved.

  In addition, since the button lens 411 is formed in a three-dimensional shape that bulges outward, the volume inside the operation button 410 increases, so that the operation button internal decoration member 432 and the door frame arranged in the operation button 410 The side effect display device 460 (the door frame side second effect display device 460A) can be made larger or movable, and the door frame side effect display device that can entertain the player through the operation buttons 410. 460 (door frame side second effect display device 460A) can be easily provided, and the pachinko machine 1 that can make the player more entertaining can be realized.

  Further, since the button lens 411 is formed in a three-dimensional shape, design (decoration) is imparted to the operation button 410. Therefore, in the pachinko machine 1, the operation button 410 is made conspicuous and the player is interested. The pachinko machine 1 can be easily selected as a pachinko machine to be played.

  In the first button decoration part 411a, the second button decoration part 411b, and the button frame 412 provided on the outer periphery of the button lens 411, the button frame 412 is opaque. It is possible to reliably hide the back side of the operation button 410, the operation button interior decoration member 432 (screen unit 470), etc. from the gap between the lens 411 and the operation button interior decoration member 432 (screen unit 470). It is possible to improve the appearance by reducing the deterioration of the appearance of the button 410 and the like.

  Further, the button lens 411 is provided with an opaque button frame 412 with a predetermined width inward from the outer peripheral end of the button lens 411, and in cooperation with the first button decoration part 411a and the second button decoration part 411b, Since the gap between the main body part 413a of the button base 413 and the operation button internal decoration member 432 (screen unit 470) in the operation button 410 can be made difficult to see from the side, the main body part 413a and the operation button internal decoration member 432 ( The space between the screen unit 470) and the screen unit 470) can be increased, and accordingly, a space for moving the operation button 410 and the screen unit 470 of the door frame side second effect display device 460A can be easily secured. Can be moved well.

  Furthermore, since the outer periphery of the button lens 411 is cylindrical, the operation button 410 can be easily moved smoothly because the outer periphery has no directionality compared to a polygonal shape. Therefore, even if the size of the operation button 410 is increased, it is possible to perform a pressing operation without any problem, and it is possible to surely entertain the player participation type effect using the operation button 410 and to suppress a decrease in interest.

  Further, since the operation button 410 is enlarged, it is easy to operate without confirming the position of the operation button 410 when performing a player participation type effect that causes the player to operate the operation button 410. Since the player can touch the operation button 410 to facilitate the pressing operation, the player can easily participate in the player participation type effect using the operation button 410, and the player can be entertained and the entertainment is reduced. Can be suppressed.

  Further, since the door frame side effect display device 460 (door frame side second effect display device 460A) is provided in the operation button 410, the player's interest is manipulated by presenting the effect image according to the gaming state. The door frame side effect display device 460 (door frame side second effect display device 460A) in the button 410 can be strongly attracted, and the door frame side effect display device 460 (door frame side second effect display device 460A) is used. It is possible to entertain an effect, and it is possible to prompt the player to operate the operation button 410 by an effect image, a light emission effect, or the like by the door frame side effect display device 460 (door frame side second effect display device 460A). It is possible to suppress a decrease in interest by actively engaging the player in the player participation type production. In addition, by performing the production within the operation button 410, it can be thought that there is something good depending on the player, and the expectation for the game is raised and the decrease in the interest is suppressed. Can do.

  Further, the door frame side effect display device 460 (door frame side second effect display device 460A) can be visually recognized through the transparent button lens 411 of the large operation button 410 (portion inside the first button decoration portion 411a). Therefore, the player can immediately recognize that the operation button 410 of the pachinko machine 1 is clearly different from the operation button of the conventional pachinko machine, and has high appeal to the player. The pachinko machine 1 can be used, and the player's operation button 410 and the door frame side effect display device 460 (the door frame side second effect display device 460A) in the operation button 410 are enhanced. And a decrease in the interest of the player can be suppressed.

  The present invention has been described with reference to preferred embodiments. However, the present invention is not limited to these embodiments, and various modifications can be made without departing from the spirit of the present invention as described below. And design changes are possible.

  That is, in the above-described embodiment, the gaming machine applied to the pachinko machine 1 is shown, but the present invention is not limited to this. Even in this case, the same effect as described above can be obtained.

  In the above embodiment, the button lens 411 of the operation button 410 has the first button decoration portion 411a formed on the inner peripheral side of the button frame 412. However, the present invention is not limited to this. The button lens 411 in which the first button decoration portion 411a is not formed may be used.

  In the above embodiment, the operation button 410 has the opaque button frame 412 attached to the outer periphery of the button lens 411. However, the present invention is not limited to this, and the button frame 412 is not attached and the button button 412 is not attached. You may make it form the decoration part for concealing a rear side over the perimeter in the site | part corresponding to the button frame 412 in the lens 411. FIG.

  Furthermore, in the above-described embodiment, the base unit 430 (the first unit) is arranged so that the operation button 410 surrounds the entire outer periphery of the operation button inner decoration member 432 and the door frame side second effect display device 460A from the outer periphery of the button lens 411. Although the one provided with the button base 413 (main body portion 413a) protruding in a cylindrical shape toward the second base unit 450) side is shown, the present invention is not limited to this, and the operation button internal decoration member 432 and the door frame side second effect are provided. At least one base unit 430 (second base unit 450) may be protruded so as to surround only part of the entire outer periphery of the display device 460A. The shape of the button base 413 may be a shape along the outer periphery of the button lens 411 or a shape not along the outer periphery of the button lens 411. The button base 413 may have a decoration (a flat decoration by sticking or printing a sticker or a three-dimensional decoration by unevenness such as a relief) on at least the inner wall side. Further, the button base 413 may be translucent or non-translucent. The button base 413 may be colored or colorless and transparent. In addition, when the button base 413 is transparent, it is desirable to perform light diffusion processing such as a texture, a slit, and a prism on at least one of the inner wall side and the outer wall side.

  In the above-described embodiment, the lower plate 322 is shown as an example in which the lower plate 322 is recessed backward only from the left outer portion of the production operation unit 400 (second production operation unit 400A) on the front surface of the plate unit cover 326. It is not limited to this, but a lower dish that is recessed backward from the left and right sides of the production operation unit 400 (second production operation unit 400A) and is connected to each other behind the production operation unit 400 (second production operation unit 400A). 322, or only recessed from the right outer portion of the production operation unit 400 (second production operation unit 400A), and a part of the production operation unit 400 (second production operation unit 400A) wraps behind. You may make it.

  Furthermore, in the above-described embodiment, the shape (the shape of the front end of the lower plate 322) where the lower plate 322 is recessed backward on the front surface of the plate unit cover 326 (the shape of the front end of the lower plate 322) is curved backward. Although the example which was dented in the shape was shown, it is not limited to this, It is good also as a front surface dented in polygonal column surface shape or polyhedron shape.

  In the above-described embodiment, an example in which the effect operation unit 400 (second effect operation unit 400A) is attached to the front surface of the dish unit cover 326 is shown, but the present invention is not limited to this. Equipped with an operation device "," equipped with a rotating body with decoration on the surface "," equipped with a decoration with decoration and a movable device for moving the decoration "," game " Characters, items, logos, and decorative bodies that three-dimensionally represent scenes (diorama), etc. according to the machine concept "," Characters, items, logos, and predetermined patterns according to the gaming machine concept , Etc., which are decorated by stickers, printing, or the like ", or a member such as a panel or a panel provided with the above may be attached. Further, the number of members attached to the attachment space 326j (the production operation unit attachment portion 326a) is not necessarily one, and a plurality (two or more) members may be attached. For example, separate members such as a member attached to the upper half of the attachment space 326j and a member attached to the lower half of the attachment space 326j may be attached.

  In the above embodiment, the pan unit cover 326 is formed with the rendering operation unit mounting portion 326a that opens forward to mount the rendering operation unit 400 (second rendering operation unit 400A). The plate unit cover (for example, a panel-like cover portion) does not have an opening (effect operation unit mounting portion 326a) for mounting the effect operation unit 400 (second effect operation unit 400A). A space corresponding to the attachment space 326j (or the remaining space of the attachment space 326j) may be formed behind the dish unit cover. In addition, it is desirable to apply decoration such as characters, items, logos, predetermined patterns, etc. in accordance with the concept of the gaming machine to the front surface of such a dish unit cover by sticking, printing, attaching decorative members, etc. .

  Furthermore, in the above-described embodiment, an area slightly larger than half of the storage area (reserved area) of the game ball in the plan view of the lower plate 322 is provided by the effect operation unit 400 (second effect operation unit 400A) as a covering portion. Although an example in which it is difficult to visually recognize from the front is shown, the present invention is not limited to this, and an area less than half of the storage area of the game balls in the lower plate 322 may be difficult to visually recognize from the front. You may make it difficult to visually recognize the whole plate 322 from the front.

  In the above-described embodiment, the second button decoration portion 411b of the operation button 410 and the frame side lens 417 of the frame unit 415 are shown in an arc shape partially provided in the circumferential direction. The second button decoration portion 411b and the frame side lens 417 may be in an annular shape extending over the entire circumference.

  Further, in the above embodiment, the decoration having a plurality of concentric polygons centered on the center is shown as the second button decoration element 432g of the operation button decoration member 432 in the effect operation unit 400. However, the present invention is not limited to this, and the second button interior decoration portion 432g may be a decoration having a plurality of concentric circles (including an ellipse) centered on the center.

  Further, in the above embodiment, the operation button internal decoration member 432, the door frame side effect display device 460, and the door frame side second effect that are arranged on the rear side through the transparent button lens 411 (front member) of the operation button 410. Although the display device 460A and the like such that the rear member is always visible is shown, the present invention is not limited to this, and at least one of the front member and the rear member arranged in the front and rear (or up and down) is a predetermined condition. It is good also as a structure which has the variable light transmission means which a rear side becomes visible by satisfying. Here, as the variable light transmitting means, “the rear side can be visually recognized due to the difference in brightness between the front side and the rear side, such as a magic mirror”, “transparent by turning the power ON / OFF, such as a liquid crystal film Or the like so that the rear side can be visually recognized. " The front member and the rear member may be relatively movable or may not be relatively movable.

  By having the variable light transmitting means on at least one of the front member and the rear member, in a normal state, only the front member or the front member and the rear member are in a visible state. It is possible to show the player the decoration of the visible member. And in a special state, by satisfying a predetermined condition, a rear member (a rear member or a member arranged on the rear side of the rear member) that could not be seen in a normal state can be seen. The member and the rear member, or the front member, the rear member, and the member on the rear side of the rear member can be overlapped. Therefore, various decorations (decoration effects) can be shown to the player using the front member and the rear member, so that the player can be made hard to get tired, and the player can be entertained. It is possible to suppress a decrease in the interests.

  Specifically, for example, when the front member has variable light transmitting means such as a magic mirror, in the normal state, only the decoration of the front member is made by darkening the rear side of the front member. It can be made visible to the player. When the space between the front member and the rear member or the rear side of the rear member is brightened by the light from the light emitting part such as an LED, the satisfaction condition of the variable light transmitting means in the front member is satisfied, and the rear is passed through the front member. The member can be visually recognized, and a decoration in which the decoration of the front member and the decoration of the rear member overlap can be shown to the player.

  Alternatively, if the front member is transparent and the rear member has variable light transmission means such as a magic mirror, the surface of the rear member can be seen through the front member in a normal state. It is possible to show the player the decoration with the surface of the player. When the rear side of the rear member is brightened by the light from the light emitting part such as an LED, the satisfaction condition of the variable light transmitting means in the rear member is satisfied, and the rear side can be visually recognized through the rear member. Through the member, the rear member of the rear member (for example, a display device, a decorative body such as a character) can be shown to the player.

  Furthermore, when both the front member and the rear member have variable light transmission means such as a magic mirror, in a normal state, only the decoration of the front member can be shown to the player. When the space between the rear member and the rear member is brightened by the light of the light emitting unit such as an LED, the satisfaction condition of the variable light transmitting means in the front member is satisfied, and the surface of the rear member can be visually recognized through the front member. The player can show the decoration with the rear member. On the other hand, the rear side of the rear member is brightened by the light of the light emitting part such as the LED (or the light between the front member and the rear member and the rear side of the rear member are simultaneously brightened by the light of the light emitting part such as the LED. ) And the satisfying conditions of the respective variable light transmission means in the front member and the rear member are satisfied, and the rear member of the rear member (for example, a decorative body such as a display device or a character) is passed through the front member and the rear member. Can be shown to the player. Accordingly, by appropriately selecting a portion that is brightened by the light of the light emitting unit, the visible range can be changed in multiple stages, and a variety of decorations can be enjoyed by the player.

  In the above specific example, since the variable light transmitting means is like a magic mirror, it looks like a mirror when the rear side is darkened, so on the surface of the front member or the rear member. You can show the glittering decorations to the players.

  Further, in the above specific example, the variable light transmitting means has been described as a magic mirror. However, even when the variable light transmitting means is a liquid crystal film, similar effects can be obtained. In addition, when a variable light transmitting means such as a liquid crystal film is used, light can be transmitted even in an opaque state (having translucency), so that it can be provided between the front member and the rear member or between the rear member and the rear member. If the rear side of the member can be brightened (or light-decorated) by the light from the light-emitting unit such as an LED, it is possible to show the player various effects such as light-emitting effects and decoration effects. .

[7. Main control board, payout control board and peripheral control board]
Next, a control board for performing various controls of the pachinko machine 1 will be described with reference to FIGS. 69 to 74. 69 is a block diagram of the main control board, the payout control board, and the peripheral control board, FIG. 70 is a block diagram showing a continuation of FIG. 69, and FIG. 71 is a payout control board, CR unit and frequency constituting the main board. FIG. 72 is a schematic diagram of various detection signals input / output to / from a lending device connection terminal board such as a game ball that relays the electrical connection with the display board, FIG. 72 is a block diagram showing a continuation of FIG. FIG. 74 is a block diagram showing an outline of the peripheral control MPU, and FIG. 74 is a block diagram around the sound source built-in VDP in the liquid crystal display control unit.

  As shown in FIG. 69, the pachinko machine 1 includes a first control unit MCG that performs control related to a game including payout of prize balls, in addition to generation processing of a control power source (for example, +5 V). And a second control unit SCG that performs an effect relating to a game that is progressed by the first control unit MCG.

  More specifically, the pachinko machine 1 according to this embodiment employs a structure in which various controls are shared by preparing a plurality of substrates, and the main control substrate 1310 is used as the first control unit MCG. The payout control board 951 and the power supply board 931 are provided, and the peripheral control board 1510 is provided as the second control unit SCG. Hereinafter, in describing the control configuration of the pachinko machine 1 according to this embodiment, first, the first control unit MCG will be described in the order of the main control board 1310, the payout control board 951, and the power supply board 931. 2 The controller SCG (peripheral control board 1510) will be described.

[7-1. Main control board]
Of the first control unit MCG, the main control board 1310 for controlling the progress of the game controls the power-on process executed when the power is turned on and a predetermined time has elapsed since the power was turned on, as shown in FIG. A main control MPU 1310a, which is a microprocessor that has a built-in ROM for storing various control programs such as a main control program for controlling a game operation and a command, a ROM for storing various commands, a RAM for temporarily storing data, and the like. A main control input circuit 1310b to which a detection signal from the detection switch is input, a main control output circuit 1310c for outputting various signals to an external substrate, etc., and a main control solenoid drive circuit 1310d for driving various solenoids A power failure monitoring circuit 1310e for monitoring a sign of a power failure or a momentary power failure of a predetermined voltage, Te are provided.

  The main control MPU 1310a includes a built-in RAM (hereinafter referred to as “main control built-in RAM”) and a built-in ROM (hereinafter referred to as “main control built-in ROM”). Further, a watchdog timer 1310af (hereinafter referred to as “main control built-in WDT 1310af”) for monitoring the operation (system), a function for preventing fraud, and the like are also incorporated.

  Further, the main control MPU 1310a has a built-in nonvolatile RAM. In this non-volatile RAM, a unique ID code with a unique code (a code that exists only in the world) for identifying an individual by the manufacturer that manufactured the main control MPU 1310a is stored in advance. Since the ID code once attached is stored in the nonvolatile RAM, it cannot be rewritten using an external device. The main control MPU 1310a can take out and refer to the ID code from the nonvolatile RAM.

  The main control MPU 1310a also uses a hardware random number circuit 1310an (hereinafter referred to as "main control built-in") to update a big hit determination random number for use in determining whether or not to generate a big hit gaming state among various random numbers related to the game. A hard random number circuit 1310an ”). The main random number circuit 1310an with built-in main control generates a random number within a predetermined numerical range (in this embodiment, a numerical range of a value 0 to a maximum value 32767 is preset as a minimum value), A predetermined value is not fixed as the initial value (that is, the initial value is not fixed), and the circuit configuration is such that a different value is set each time the main control MPU 1310a is reset. Specifically, when the main control MPU 1310a is reset, the main random number built-in hard random number circuit 1310an first sets a clock signal (input to the main control MPU 1310a as an initial value within a predetermined numerical range). Based on the clock signal output from the main control crystal oscillator (to be described later), other values within the predetermined numerical range are extracted one after another without duplication, and all values within the predetermined numerical range are extracted. When the process is completed, one value in the predetermined numerical range is extracted again, and other values in the predetermined numerical range are not duplicated at high speed based on the clock signal input to the main control MPU 1310a. Extract one after another. The main control built-in hard random number circuit 1310an repeatedly performs such a high-speed lottery, and the main control MPU 1310a wins the value extracted by the main control built-in hard random number circuit 1310an at the time of acquiring a value from the main control built-in hard random number circuit 1310an. It is set as a random number for judgment.

  The main control input circuit 1310b is not provided with a reset terminal for forcibly resetting information whose detection signals from various detection switches are input to the various input terminals, and does not have a reset function. Therefore, the main control input circuit 1310b is configured as a circuit to which a system reset signal from a main control system reset described later is not input. That is, the main control input circuit 1310b does not reset the information based on the detection signals from the various detection switches input to the various input terminals by a main control system reset to be described later. The circuit is configured to be output from the output terminal.

  The main control output circuit 1310c is configured as an open collector output type in which an emitter terminal is grounded with a ground (GND), and various signals for outputting various signals to an external substrate or the like are input to the various input terminals. Main control output circuit 1310ca with a reset function having a reset function in which a reset terminal for forcibly resetting the received information is provided, and a main control output circuit 1310cb without reset function without a reset function in which no reset terminal is provided. And is composed of. The main control output circuit 1310ca with a reset function is configured as a circuit to which a system reset signal from a main control system reset described later is input. That is, the main control output circuit 1310ca with a reset function is reset when information for outputting various signals input to the various input terminals to an external substrate or the like is reset by a main control system reset described later. Is configured as a circuit that does not output any signal from the various output terminals. On the other hand, the main control output circuit 1310cb without a reset function is configured as a circuit to which a system reset signal from a main control system reset described later is not input. That is, the main control output circuit 1310cb having no reset function does not reset the information for outputting various signals input to the various input terminals to an external substrate or the like by the main control system reset described later, and thus the information is output to the information. The signal based on this is comprised as a circuit from which the various output terminals are output.

  60, a first start port sensor 4002 that detects a game ball that has entered the first start port 2002, a second start port sensor 4004 that detects a game ball that has entered the second start port 2004, and general A detection signal from the general winning opening sensor 4020 that detects a game ball that has entered the winning opening 2001 or a signal from the power failure monitoring circuit 1310e is input to a predetermined input port of the main control MPU 1310a via the main control input circuit 1310b. Has been entered. Further, a gate sensor 4003 for detecting a game ball that has passed through the gate unit 2003, a count sensor 4005 for detecting a game ball that has entered the big prize opening 2005, and the back unit 3000 shown in FIG. A detection signal from a magnetic detection sensor 4024 that detects an illegal act using a magnet attached thereto is a predetermined input of the main control MPU 1310a via the panel relay board 4161 attached to the game board 5 and the main control input circuit 1310b. Input to the port input terminal. That is, when a game ball passes through a specific starting area, the passing game ball is detected by the second start port sensor 4004.

  The main control MPU 1310a outputs a drive signal from the output terminal of the predetermined output port to the main control output circuit 1310ca with reset function based on the detection signals from these switches, so that the main control output circuit with reset function is output. A control signal is output from 1310ca to the main control solenoid drive circuit 1310d, and a drive signal is output from the main control solenoid drive circuit 1310d to the start port solenoid 2107 and the attacker solenoid 2108 via the panel relay board 4161. By outputting a driving signal from the output terminal to the main control output circuit 1310ca with reset function from the main control output circuit 1310ca with reset function through the panel relay board 4161 and the function display unit 1400, the first special symbol display 1403 A drive signal is output to the second special symbol display 1405, the first special reservation number display 1404, the second special reservation number display 1406, the normal symbol display 1402, the status display 1401, and the round display 1407. .

  In addition, the main control MPU 1310a outputs various information (game information) relating to the game from the output terminal of the predetermined output port to the main control output circuit 1310ca with reset function, thereby performing payout control from the main control output circuit 1310ca with reset function. By outputting various information about the game (game information) to the board 951, or by outputting a signal (power failure clear signal) from the output terminal of the predetermined output port to the main control output circuit 1310ca with reset function, A signal (power failure clear signal) is output from the control output circuit 1310ca to the power failure monitoring circuit 1310e.

  In the present embodiment, the first start port sensor 4002, the second start port sensor 4004, the gate sensor 4003, and the count sensor 4005 use non-contact type electromagnetic proximity switches. For the general prize opening sensors 4020 and 4020, contact type ON / OFF operation type mechanical switches are used. This is because game balls frequently enter the first start port 2002 and the second start port 2004 and frequently pass through the gate portion 2003, so the first start port sensor 4002, the second start port sensor 4004, and Detection of game balls by the gate sensor 4003 also frequently occurs. Therefore, long-life proximity switches are used for the first start port sensor 4002, the second start port sensor 4004, and the gate sensor 4003. Further, when a big hit gaming state that is advantageous to the player occurs, the big winning opening 2005 is opened and game balls are frequently entered, so that the detection of the game balls by the count sensor 4005 also occurs frequently. Therefore, a proximity switch having a long life is also used for the count sensor 4005. On the other hand, detection by the general winning opening sensors 4020 and 4020 does not frequently occur in the general winning openings 2001 and 2011, in which game balls do not frequently enter. For this reason, mechanical switches having a shorter lifespan than the proximity switch are used for the general prize opening sensors 4020 and 4020.

  Further, the main control MPU 1310a transmits various commands related to payout as serial data from the output terminal of the predetermined serial output port to the main control output circuit 1310cb without reset function, thereby performing payout control from the main control output circuit 1310cb without reset function. Various commands are transmitted to the board 951 as serial data. When the payout control board 951 completes normal reception of various commands from the main control board 1310 as serial data, the payout control board 951 outputs a signal (payment ACK signal) to that effect to the main control board 1310. This signal (payer ACK signal) is input to an input terminal of a predetermined input port of the main control MPU 1310a via the main control input circuit 1310b.

  Further, the main control MPU 1310a receives various commands relating to the state of the pachinko machine 1 from the payout control board 951 as serial data by the main control input circuit 1310b, so that the input from the main control input circuit 1310b to the predetermined serial input port Various commands are received as serial data at the terminal. When the main control MPU 1310a completes normal reception of various commands from the payout control board 951 as serial data, a main control output with a reset function is sent from the output terminal of the predetermined output port to the effect (main payout ACK signal). The signal is output to the circuit 1310ca, and a signal (main payment ACK signal) is output from the main control output circuit with reset function 1310ca to the payout control board 951.

  Further, the main control MPU 1310a transmits, as serial data, various commands relating to control of game effects and various commands relating to the state of the pachinko machine 1 from the output terminal of the predetermined serial output port to the main control output circuit 1310cb having no reset function. Various commands are transmitted as serial data from the main control output circuit 1310cb without reset function to the peripheral control board 1510.

  Here, a main peripheral serial transmission port that transmits various commands as serial data to the peripheral control board 1510 will be briefly described. The main control MPU 1310a is configured around a main control CPU core 1310aa. In addition to the main control built-in RAM, a main peripheral serial transmission port 1310ae, which is one of the main control various serial I / O ports, and the like connects the bus 1310ah. Circuit connection (see FIG. 79). The main peripheral serial transmission port 1310ae transmits various commands as main peripheral serial data to the peripheral control board 1510, and mainly includes a transmission shift register 1310aea, a transmission buffer register 1310aeb, a serial management unit 1310aec, and the like (see FIG. 79). When the main control CPU core 1310aa sets a command in the transmission buffer register 1310aeb and outputs a transmission start signal to the serial management unit 1310aec, the serial management unit 1310aec sends the command set in the transmission buffer register 1310aeb from the transmission buffer register 1310aeb. The data is transferred to the transmission shift register 1310aea and transmission to the peripheral control board 1510 is started as main peripheral serial data. In the present embodiment, the transmission buffer register 1310aeb has a storage capacity of 32 bytes. The main control CPU core 1310aa continuously transmits a plurality of commands to the peripheral control board 1510 by setting a plurality of commands in the transmission buffer register 1310aeb and then outputting a transmission start signal to the serial management unit 1310aec.

  The power supply board 931 for supplying various voltages to the main control board 1310 is an electric double layer capacitor (hereinafter simply referred to as “capacitor”) as a backup power supply for supplying power to the main control board 1310 for a predetermined time even when the power is shut off. BC0 (see FIG. 75). With this capacitor BC0, the main control MPU 1310a can store various types of information in the main control built-in RAM even when the power is shut off. Various kinds of information stored in the main control built-in RAM are stored in the operation signal (RAM clear signal) from the operation switch 954 when an operation switch 954 of the payout control board 951 described later is operated within a predetermined period from the time of turning on the power. Is output from the payout control board 951 and input to an input terminal of a predetermined input port of the main control MPU 1310a via the main control input circuit 1310b, and when this is triggered, the main control MPU 1310a completely erases from the main control built-in RAM. (Clear).

[7-2. Dispensing control board]
Of the first control unit MCG, a payout control board 951 that controls the payout of game balls, etc., as shown in FIG. And an error LED display 860b for displaying the state of the pachinko machine 1. Further, the operation switch 954 having a function as a RAM clear switch is described as a RAM (hereinafter referred to as “main control built-in RAM”) built in the main control MPU 1310a based on a detection signal output by being operated. A RAM clear signal for completely erasing the information stored in.

[7-2-1. Dispensing control unit]
As shown in FIG. 70, the payout control unit 952, which performs various controls relating to payout, controls the power-on process executed when the power is turned on, and pays out game media executed after a predetermined time has elapsed since the power was turned on. Various control programs including a payout control program for controlling the operation, ROM for storing various commands, RAM for temporarily storing data, etc., a payout control MPU952a, and detection from various detection switches for payout A payout control input circuit 952b to which signals are input, a payout control output circuit 952c for outputting various signals to an external substrate, etc., and a payout motor drive circuit for outputting a drive signal to the payout motor 834 of the payout device 830 CR unit input for exchanging various signals between 952d and CR unit 6 It includes a power circuit 952E, a. The payout control MPU 952a includes a built-in RAM (hereinafter referred to as “payout control built-in RAM”) and a built-in ROM (hereinafter referred to as “payout control built-in ROM”). In addition, a watchdog timer for monitoring the operation (system), a function for preventing fraud, and the like are also incorporated.

  The payout control program is controlled by the payout control MPU 952a so that various information (game information) related to games and various commands related to payouts from the main control board 1310 are serially received as main payout serial data reception signals via the payout control input circuit 952b. Receive serial data with. Also, the payout control program generates a frame state 1 command (corresponding to the first error occurrence command) triggered by the occurrence of an error in the game ball payout operation, or operates the operation switch 954 as an error release unit. Based on the signal (detection signal), a 16-bit (2 bytes) error cancellation navigation command (corresponding to the first error cancellation command) is created, and the error occurrence command and the error cancellation navigation command are respectively transmitted to the payer serial data. As a serial signal, a signal is output to the reception port of the main control board 1310 via the payout control I / O port 952b (command transmission means). In addition, the payout control program is provided after a predetermined time has elapsed since the power was turned on, that is, after the payout control unit main process is executed or the payout control unit timer interrupt process is executed to start payout control. When an error occurs with respect to the operation, the error is canceled based on a detection signal generated in response to the operation of the operation switch 954, and output of warning information corresponding to the error is stopped (error cancellation control means).

  The payout control program outputs a door frame opening command (first door opening command) when a detection signal (door frame opening detection signal) associated with the opening operation is input from the door frame opening switch 618. When a detection signal (body frame opening detection signal) accompanying the opening operation is input from the body frame opening switch 619, a body frame opening command (first body frame opening command) is output. On the other hand, when the detection signal (door frame closing detection signal) accompanying the closing operation is input from the door frame opening switch 618, the payout control program receives a door frame closing command (first door frame closing command). When a detection signal (main body frame closing detection signal) accompanying the closing operation is input from the main body frame opening switch 619, a main body frame closing command (first main body frame closing command) is output.

  The payout control input circuit 952b is not provided with a reset terminal for forcibly resetting information whose detection signals from various detection switches are input to the various input terminals, and does not have a reset function. Therefore, the payout control input circuit 952b is configured as a circuit to which a system reset signal from a payout control system reset described later is not input. That is, the payout control input circuit 952b does not reset the information based on the detection signals from the various detection switches input to the various input terminals by a payout control system reset described later, and thus the various signals based on the information The circuit is configured to be output from the output terminal.

  The payout control output circuit 952c is configured as an open collector output type in which the emitter terminal is grounded to the ground (GND), and various signals for outputting various signals to an external substrate or the like are input to the various input terminals. A payout control output circuit 952ca with a reset function having a reset function in which a reset terminal for forcibly resetting the received information is provided, and a payout control output circuit 952cb without a reset function having no reset function without a reset terminal And is composed of. The payout control output circuit 952ca with a reset function is configured as a circuit to which a system reset signal from a payout control system reset described later is input. That is, the payout control output circuit 952ca with a reset function resets the information for outputting various signals input to the various input terminals to an external substrate or the like by a payout control system reset described later. Is configured as a circuit that does not output any signal from the various output terminals. On the other hand, the payout control output circuit 952cb without a reset function is configured as a circuit to which a system reset signal from a payout control system reset described later is not input. In other words, the payout control output circuit 952cb without a reset function includes the information for outputting various signals input to the various input terminals to an external substrate or the like, and is not reset by a payout control system reset described later. The signal based on this is comprised as a circuit from which the various output terminals are output.

  Out-of-ball detection sensor 827 for detecting the out-of-game ball in the supply passage of the in-ball supply unit 820 of the out-of-payment unit 800 and out-of-game detection sensor 842 for detecting the game ball released from the out-out exits 831b and 832b of the out-feed device 830. The detection signal from the blade rotation detection sensor 840 that detects the rotation of the payout blade 839 is input to the input terminal of a predetermined input port of the payout control MPU 952a via the payout control input circuit 952b. In the following description, the blade rotation detection sensor 840 is simply referred to as the rotation detection sensor 840 for the sake of explanation.

  The detection signals from the door frame opening switch 618 for detecting the opening of the door frame 3 with respect to the main body frame 4 and the main body frame opening switch 619 for detecting the opening of the main body frame 4 with respect to the outer frame 2 are sent to the payout control input circuit 952b. To the input terminal of a predetermined input port of the payout control MPU 952a.

  Further, a detection signal from a full tank detection sensor 279 that detects whether the storage space of the foul cover unit 270 shown in FIG. It is input to the input terminal of a predetermined input port of the payout control MPU 952a via the substrate 931 and the payout control input circuit 952b.

  The payout control MPU 952a receives various commands relating to payout from the main control board 1310 via the payout control input circuit 952b in the serial data system at the input terminal of the serial input port, or the operation signal (detection of the operation switch 954). Signal) is output to the main control board 1310 via the payout control input circuit 952b. When the payout control MPU 952a normally receives various commands from the main control board 1310 as serial data, a payout control output with a reset function is sent from the output terminal of the predetermined output port. By outputting to the circuit 952ca, a signal (payer ACK signal) is output from the payout control output circuit with reset function 952ca to the main control board 1310.

Also, the payout control MPU 952a sends various commands for indicating the state of the pachinko machine 1 from the output terminal of the serial output port to the payout control output circuit 952cb without reset function as serial data, thereby providing the payout control without reset function. Various commands are transmitted as serial data from the output circuit 952cb to the main control board 1310.
When the main control board 1310 completes normal reception of various commands from the payout control board 951 as serial data, the main control board 1310 outputs a signal to that effect (main payout ACK signal) to the payout control board 951. This signal (main payment ACK signal) is input to an input terminal of a predetermined input port of the payout control MPU 952a via the payout control input circuit 952b.

  In addition, the payout control MPU 952a outputs a drive signal for driving the payout motor 834 from the output terminal of the predetermined output port to the payout control output circuit 952ca with reset function, so that the payout control output circuit 952ca with reset function is output. Is output to the payout motor drive circuit 952d, the drive signal is output from the payout motor drive circuit 952d to the payout motor 834, and the state of the pachinko machine 1 is indicated by an error LED indicator from the output terminal of the predetermined output port. By outputting a drive signal for display on 860b to the payout control output circuit 952ca with reset function, the drive signal is output from the payout control output circuit 952ca with reset function to the error LED display 860b.

  The error LED indicator 860b is a segment indicator, and displays the state of the pachinko machine 1 by displaying alphanumeric characters and figures. The contents displayed and notified by the error LED display 860b include the following. For example, when the figure “-” is displayed, it is informed that it is “normal”, and when the numeral “0” is displayed, it is indicated that “connection is abnormal” (specifically, with the main control board 1310). The fact that there is an abnormality in the electrical connection between the board and the payout control board 951 is notified, and when the number “1” is displayed, it is “out of the ball” (specifically, out of the ball) Based on the detection signal from the detection sensor 827, a notification is made that there is no game ball in the supply passage of the payout device 830, and when the number “2” is displayed, it means that “ball is seen” (specifically, Is based on a detection signal from the rotation detection sensor 840, and the payout rotator and the game ball are meshed in the vicinity of the entrance at the entrance of the distribution space communicating with the supply passage of the payout device 830, making it difficult for the payout rotator to rotate. Number) When “3” is displayed, the fact that it is a “payout detection sensor error” (specifically, a problem has occurred in the payout detection sensor 842 based on a detection signal from the payout detection sensor 842) is notified. When the number “5” is displayed, the fact that it is a “retry error” (specifically, the fact that the number of retries of the payout operation has reached a preset upper limit value) is notified, and the number “6” When it is displayed, it is “full” (specifically, the game ball in which the accommodation space of the foul cover unit 270 is stored is full based on the detection signal from the full detection sensor 279) When the number “7” is displayed, it means that “CR is not connected” (the electrical connection is cut off from either the payout control board 951 to the CR unit 6). When the number “9” is displayed, it is “in stock (awarded ball stock (not paid out))” (specifically, the number of game balls that have not been paid out is determined in advance). That the number of balls has been reached).

  Also, the payout control MPU 952a outputs the number of game balls actually paid out from the output terminal of the predetermined output port to the payout control output circuit 952ca with reset function, so that the payout control output circuit 952ca with reset function is output. The number of game balls actually paid out is output to the external terminal board 784 through a resistor (not shown).

Also, the payout control board 951 outputs various information (game information) relating to the game from the main control board 1310 to the external terminal board 784 via a resistor (not shown). The external terminal board 784 is provided with a plurality of photocouplers (not shown) (infrared LEDs and photo ICs are built in), and a game hall (hole) is provided via the plurality of photocouplers. ), The number of game balls, and various information (game information, content of error relating to game ball payout operation, or the fact that there was an error) are transmitted to the hall computer installed in (1).
The external terminal board 784 and the hall computer are electrically insulated by a plurality of photocouplers, and an abnormal voltage is applied to the hall computer via the external terminal board 784 of the pachinko machine 1 to cause the hall computer to The computer is prevented from malfunctioning or failing, and from the hall computer to the main control board 1310 for proceeding the game via the external terminal board 784 of the pachinko machine 1 and the payout control board 951 for controlling the payout etc. An abnormal voltage is applied to cause malfunction or failure. The hall computer monitors the game of the player by grasping the number of game balls paid out by the pachinko machine 1 and the game information of the pachinko machine 1.

  The ball lending request signal for the game ball from the ball lending button 328 and the return request signal for the prepaid card from the return button 329 are the frequency display board 365, the main door relay terminal board 880, and the game ball lending apparatus connection terminal board. It is input to the CR unit 6 via the 869. The CR unit 6 transmits a signal designating the number of game balls to be lent according to the ball lending request signal to the payout control board 951 through the gaming ball lending device connection terminal plate 869, and this signal is transmitted to the CR unit. It is input to an input terminal of a predetermined input port of the payout control MPU 952a via the input / output circuit 952e. In addition, the CR unit 6 updates the remaining level of the prepaid card inserted according to the number of rented game balls, and displays a signal for displaying the remaining level on the sphere rental return display unit 330. The equal lending device connection terminal board 869, the main door relay terminal board 880, and the frequency display board 365 are output, and this signal is input to the ball rental return display section 330. Further, the CR unit lamp 365d adjacent to the ball rental return display unit 330 is supplied with the supply voltage from the CR unit 6 via the game ball rental device connection terminal plate 869 and the main door relay terminal plate 880. ing.

  The power supply board 931 for supplying various voltages to the payout control board 951 includes a capacitor BC1 (see FIG. 75) as a backup power supply for supplying power to the payout control board 951 for a predetermined time even when the power is shut off. Yes. With this capacitor BC1, the payout control MPU 952a can store various types of information in the payout control built-in RAM (payout storage unit) in the power-off process even when the power is shut off. Various kinds of information stored in the payout control built-in RAM are stored in the payout control MPU 952a via the payout control input circuit 952b when the operation switch 954 is operated within a predetermined period from when the power is turned on. The payout control MPU 952a input to the input terminal of the input port determines as a RAM clear signal for completely erasing the information stored in the payout control built-in RAM, and triggered by this from the payout control built-in RAM by the payout control MPU 952a. It is completely erased (cleared). This operation signal (RAM clear signal) is output to the payout control output circuit 952cb without reset function, and is output to the main control board 1310 from the payout control output circuit 952cb without reset function.

[7-2-2. Exchange of various signals with game ball rental device connection terminal board]
Here, the exchange of various signals between the payout control unit 952 and the CR unit 6 and the exchange of various signals between the CR unit 6 and the frequency display board 365 will be described with reference to FIG. As shown in FIG. 71, the gaming ball lending device connection terminal plate 869 relays the electrical connection between the CR unit 6 and the payout control board 951, and in addition to the CR unit 6 and the frequency display board 365. (To be precise, the game ball rental device connection terminal plate 869 is electrically connected to the frequency display plate 365 via the main door relay terminal plate 880. The CR unit 6 and the gaming ball lending device connection terminal plate 869 are electrically connected, the gaming ball lending device connection terminal plate 869 and the main door relay terminal plate 880 are electrically connected, and the main door relay Terminal board 880 and frequency display board 365 are electrically connected). Between the board of the CR unit 6 and the gaming ball rental device connection terminal plate 869, between the gaming ball rental device connection terminal plate 869 and the payout control board 951, gaming ball rental device connection terminal plate 869 and the main door relay. The board between the terminal board 880 and the board between the game ball lending device connection terminal board 869 and the frequency display board 365 are electrically connected by wiring (harness), respectively. In addition, AC24V, which will be described later, from the power supply board 931 is supplied to the CR unit 6 via a gaming ball rental device connection terminal plate 869. The CR unit 6 generates a predetermined voltage VL (in this embodiment, DC +12 V (DC +12 V, hereinafter referred to as “+12 V”)) from the supplied AC 24 V by a built-in voltage generation circuit (not shown) together with the ground LG. The ball is supplied to the payout control board 951 through the game ball rental device connection terminal plate 869, and is supplied to the frequency display plate 365 through the game ball rental device connection terminal plate 869 and the main door relay terminal plate 880. .

  The frequency display board 365 has a ball lending button 328 that is a push button switch mounted on the component surface at a position corresponding to the ball lending button 328, and a push button switch at a position corresponding to the return button 329 of the lending unit 360. A return button 329 is mounted, and a ball lending return display unit 330 that is a segment display is mounted at a position corresponding to the remaining lending display unit 363 of the lending unit 360.

  The ball rental button 328 and the return button 329 are electrically connected to the ground LG from the CR unit 6 via a game ball rental device connection terminal plate 869 and a main door relay terminal plate 880. When the ball lending button 328 is pressed, the ball lending button 328 is switched on (ON), and the ball lending operation signal TDS from the ball lending button 328 is transmitted to the main door relay terminal plate 880 and the game It is inputted to the CR unit 6 through a ball lending device connection terminal board 869. When the return button 329 is pressed, the return button 329 is switched on (ON), and the return operation signal RES from the return button 329 is connected to the main door relay terminal board 880 and a rental device such as a game ball. The signal is input to the CR unit 6 through the terminal board 869.

  The ball rental return display unit 330 includes three segment indicators arranged in a line, and the three-digit segment indicator is driven by a so-called dynamic lighting system that sequentially drives each one-digit segment indicator. The digit segment display is controlled to turn on. By such lighting control, the ball rental return display unit 330 displays the remaining amount of the prepaid card inserted into the CR unit 6 or displays an error of the CR unit 6. The ball rental return display unit 330 includes digit signals DG0 to DG2 (a total of three signals) for designating a one-digit segment indicator among the three-digit segment indicators, and the designated one-digit segment indicator. The segment drive signals SEG-A to SEG-G (7 signals in total) for designating the contents to be displayed by turning on the LED, and the lending device connection terminal plate 869 such as a game ball from the CR unit 6 and the main door relay terminal When input via the board 880, according to the input digit signals DG0 to DG2 and segment drive signals SEG-A to SEG-G, a one-digit segment indicator is sequentially emitted, and these three-digit segment displays. The contents of the light emitted from the container can be visually recognized through the lending remaining display portion 363.

  A CR unit lamp 365 d is mounted on the frequency display board 365 adjacent to the ball rental return display unit 330. The CR unit lamp 365d is supplied with a predetermined voltage VL from the CR unit 6 via a game ball lending device connection terminal plate 869 and a main door relay terminal plate 880. The predetermined voltage VL is input to the CR unit 6 as a ball lending available signal TDL through a current limiting resistor mounted on the gaming ball lending device connection terminal plate 869 via the CR unit lamp 365d. The CR unit 6 creates a predetermined voltage VL from the AC 24 V supplied from the power supply board 931 by the built-in voltage creation circuit, and the ball lending button 328 and the return button 329 are in a valid ball lending state. Controls the logic of the ball lending available signal TDL to cause the CR unit lamp 365d to emit light, and this light emission can be visually recognized through the lending remaining display portion 363. The segment drive signals SEG-A to SEG-G are input to the ball lending return display unit 330 through the current limiting resistor mounted on the gaming ball lending device connection terminal board 869.

  In the CR unit 6, the ball lending button 328 is pressed and the ball lending operation signal TDS from the ball lending button 328 is transmitted from the frequency display plate 365 via the main door relay terminal plate 880 and the game ball lending device connection terminal plate 869. When inputted, the ball rental request signal BRDY is output to the payout control board 951 (payout control MPU 952a) via the game ball lending device connection terminal plate 869. The CR unit 6 performs a single payout operation start request signal for paying out a predetermined number of rented balls (in this embodiment, 25 balls, corresponding to 100 yen as an amount) in one payout operation. Is output to the payout control board 951 (the payout control MPU 952a) via the gaming ball lending device connection terminal plate 869. The payout control board 951 (the payout control MPU 952a) to which BRDY and BRQ are input, sends EXS, which is a signal for notifying that the one payout operation has started or ended, to the gaming ball lending device connection terminal board 869. Through the terminal, the PRDY, which is a signal for outputting to the CR unit 6 or notifying that the payout operation for paying out the ball is possible or impossible, is connected to a lending device connection terminal board such as a game ball. Or output to the CR unit 6 via 869. In addition, for example, when a store clerk or the like of the hall is preset in the CR unit 6 so that a game ball of 200 yen is paid out when the ball lending button 328 is pressed, a single payout operation is performed. Is performed twice in succession, and when 25 balls for 100 yen are paid out, 25 balls for 100 yen are paid out, and 50 balls for a total of 200 yen are paid out. Become.

  In the CR unit 6, the return button 329 is pressed and a return operation signal RES from the return button 329 is input from the frequency display board 365 through the main door relay terminal board 880 and the game ball lending device connection terminal board 869. The prepaid card is discharged from an insertion slot (not shown) and returned. The returned prepaid card stores the remaining amount obtained by subtracting the amount corresponding to the number of game balls paid out as a result of the ball lending button 328 being pressed.

[7-3. Power supply board 931]
Next, the power supply board 931 in the first control unit MCG will be briefly described. The power supply board 931 is supplied from the Pachinko Island facility, and can be electrically connected to or disconnected from AC 24 volts (AC24V), and a power supply control unit 935 that generates various power supplies. The launch control unit 953 performs launch control by the launch solenoid 682 of the hit ball launcher 650 shown in FIG. 5 and ball feed control by the ball feed solenoid 255 of the ball feed unit 250 shown in FIG.

[7-3-1. Power control unit]
The power controller 935 operates the power switch 934 to improve the power factor of the power rectified by the synchronous rectifier circuit 935a that rectifies the AC 24 volts (AC 24V) supplied from the pachinko island facility and the synchronous rectifier circuit 935a. Power factor improving circuit 935b, smoothing circuit 935c for smoothing the power whose power factor has been improved by power factor improving circuit 935b, and various direct currents for supplying the power smoothed by smoothing circuit 935c to various substrates A power generation circuit 935d for generating a power supply.

[7-3-2. Launch control unit]
A launch control unit 953 that performs launch control by the launch solenoid 682 and ball feed control by the ball feed solenoid 255 mainly includes a launch control circuit 953a. The firing control circuit 953a includes an operation signal from the handle rotation detection sensor 307 that electrically adjusts the strength (launch strength) at which the game ball is launched toward the game area 5a according to the rotational position of the handle 302, and a palm on the handle 302. And a single button operation sensor 312 for detecting whether or not the game ball launching (launching) is forcibly stopped by the player's will and a detection signal from the handle touch sensor 310 for detecting whether or not the finger is touching. The detection signal from is input via the handle relay terminal plate 315. In addition, when the CR unit 6 and the game ball lending device connection terminal plate 869 are electrically connected to each other, the launch control circuit 953a receives a CR connection signal to that effect via the payout control board 951. .

  The firing control circuit 953a performs control to adjust the drive current for launching (launching) the game ball toward the game area 5a based on the operation signal from the handle rotation detection sensor 307 and to output it to the firing solenoid 682. On the other hand, by outputting a constant current to the ball feeding solenoid 255 via the handle relay terminal plate 315, the ball feeding member of the ball feeding unit 250 receives one game ball stored in the upper plate 321 of the plate unit 320, Control is performed to send the game ball received by the ball feeding member to the ball hitting device 650 side.

[7-4. Peripheral control board]
For the first control unit MCG, the peripheral control board 1510 in the second control unit SCG performs effect control based on various commands from the main control board 1310 as shown in FIG. 19, the display control drive board 4450 for drawing the display area of the door frame side effect display device 460, the peripheral control unit 1511 for exchanging control commands and various information (various data), the game board side effect display device 1600 and the door. A liquid crystal display control unit 1512 that controls the drawing of the frame-side effect display device 460 and controls the sound and sound effects that flow from the speaker 921 and the upper speaker 573, calendar information that specifies the date, hour, minute, and second A real-time clock (hereinafter referred to as “RTC”) control unit 4165 holding the time information for specifying the And a, and volume adjustment volume 1510a be adjusted by turning operation of the volume knob portion such as music or sound effects flowing from the speaker 573.

[7-4-1. Peripheral control unit]
As shown in FIG. 72, the peripheral control unit 1511 that performs effect control controls the peripheral control MPU 1511a as a microprocessor and the power-on process executed when the power is turned on, and after a predetermined time has elapsed since the power was turned on. Various control programs such as a sub-control program that is executed and controls the production operation, a peripheral control ROM 1511b that stores various data, various control data, and various schedule data, and a VDP 1512a built in a sound source of the liquid crystal display control unit 1512 described later. Various information continued across the peripheral control unit steady process executed each time a blank signal is input (for example, schedule data for defining a screen to be drawn on the game board side effect display device 1600, and light emission modes such as various LEDs) Manage schedule data etc. Peripheral control RAM 1511c for storing information, etc., and various types of information continued across days (for example, information for managing a history of occurrence of a big hit gaming state, information for managing special performance flags, etc.) ) And a peripheral control external watchdog timer 1511e (hereinafter referred to as “peripheral control external WDT 1511e”) for monitoring whether or not the peripheral control MPU 1511a is operating normally. I have.

  Peripheral control RAM 1511c can retain the stored content only for the time when power is restored immediately after a momentary power failure occurs, and power is cut off for a long time (when a long-time power interruption occurs) The peripheral control SRAM 1511d is supplied with backup power by a large-capacity electrolytic capacitor (not shown) provided on the power supply board 931 (hereinafter referred to as “electrolytic capacitor for SRAM”). Thus, the stored contents can be held for about 50 hours. Since the SRAM electrolytic capacitor is provided on the power supply board 931, when the game board 5 is removed from the pachinko machine 1, the backup power is not supplied to the peripheral control SRAM 1511d. Therefore, the peripheral control SRAM 1511d You lose the contents because you can't hold it.

  The peripheral control external WDT 1511e is a timer for monitoring whether or not the system of the peripheral control MPU 1511a is running out of control. When this timer expires, it is reset by hardware. That is, the peripheral control MPU 1511a is reset when a clear signal for clearing the timer of the peripheral control external WDT 1511e is not output to the peripheral control external WDT 1511e within a certain period (until the timer expires). When the peripheral control MPU 1511a outputs a clear signal to the peripheral control external WDT 1511e within a certain period, the peripheral control external WDT 1511e can restart the timer count of the peripheral control external WDT 1511e, so that no reset is applied.

  The peripheral control MPU 1511a incorporates a plurality of parallel I / O ports, serial I / O ports, and the like, and upon receiving various commands from the main control board 1310, based on these various commands, each decorative board of the game board 5 The game board side light emission data for outputting lighting signals, blinking signals or gradation lighting signals to a plurality of LEDs etc. provided in the lamp is outputted from the serial I / O port for lamp driving board via a peripheral control output circuit (not shown). The game board side motor drive data to be sent to the drive board 4170 or to output a drive signal to an electric drive source such as a motor or solenoid for operating various movable bodies provided on the game board 5 is serialized for the motor drive board. The signal is transmitted from the I / O port to the motor drive board 4180 via the peripheral control output circuit, or the dial drive motor 414 provided on the door frame 3 is electrically connected. Door side motor drive data for outputting a drive signal to the general drive source from the frame decoration drive amplifier board motor serial I / O port to the peripheral control output circuit, frame peripheral relay terminal plate 868, and peripheral door relay terminal plate 882 The door-side light emission data for transmitting a lighting signal, a blinking signal, or a gradation lighting signal to a plurality of LEDs provided on each decoration board of the door frame 3 is transmitted to the frame decoration drive amplifier board 194 via The frame decoration drive amplifier board LED serial I / O port transmits the frame decoration drive amplifier board 194 via the peripheral control output circuit, the frame peripheral relay terminal board 868, and the peripheral door relay terminal board 882.

  Various commands from the main control board 1310 are input to the serial I / O port for main control board of the peripheral control MPU 1511a via a peripheral control input circuit (not shown). Further, from the detection signal from the rotation detection switch for detecting the rotation (rotation direction) of the dial operation unit 401 and the pressure detection switch for detecting the operation of the press operation unit 405 provided in the effect operation unit 400. Is serialized by a door-side serial transmission circuit (not shown) provided on the frame decoration drive amplifier board 194, and the serialized presentation operation unit detection data is transmitted from the door-side serial transmission circuit to the peripheral door relay terminal plate 882. , The frame peripheral relay terminal plate 868, and the peripheral control input circuit, are input to the rendering operation unit detection serial I / O port of the peripheral control MPU 1511a.

  Detection signals from various detection switches (for example, photo sensors, etc.) for detecting the original positions and movable positions of various movable bodies provided on the game board 5 are on the game board side (not shown) provided on the motor drive board 4180. Serialized by the serial transmission circuit, and this serialized movable body detection data is input from the serial transmission circuit on the game board side to the serial I / O port for the motor drive board of the peripheral control MPU 1511a via the peripheral control input circuit. Yes. The peripheral control MPU 1511a exchanges various data between the peripheral control board 1510 and the motor drive board 4180 by switching the input / output of the serial I / O port for the motor drive board.

  Peripheral control MPU 1511a has a built-in watchdog timer (hereinafter referred to as “peripheral control built-in WDT”), and its own system runs away using both peripheral control built-in WDT and peripheral control external WDT 1511e. It is diagnosed whether or not.

[7-4-1a. Peripheral control MPU]
Next, the peripheral control MPU 1511a that is a microcomputer will be described. As shown in FIG. 73, the peripheral control MPU 1511a has a peripheral control built-in RAM 1511ab, a peripheral control DMA (abbreviation of Direct Memory Access) controller 1511ac, a peripheral control bus controller 1511ad, a peripheral control various serial I, and the peripheral control CPU core 1511aa. / O port 1511ae, peripheral control built-in WDT 1511af, peripheral control various parallel I / O ports 1511ag, peripheral control analog / digital converter (hereinafter referred to as peripheral control A / D converter) 1511ak, and the like.

  Peripheral control CPU core 1511aa reads / writes various data to / from peripheral control built-in RAM 1511ab and peripheral control DMA controller 1511ac via internal bus 1511ah, while peripheral control various serial I / O ports 1511ae, peripheral control built-in WDT 1511af, Various data are read from and written to the various peripheral control parallel I / O ports 1511ag and the peripheral control A / D converter 1511ak via the internal bus 1511ah, the peripheral control bus controller 1511ad, and the peripheral bus 1511ai.

  The peripheral control CPU core 1511aa reads various data from the peripheral control ROM 1511b via the internal bus 1511ah, the peripheral control bus controller 1511ad, and the external bus 1511h, while reading from the peripheral control RAM 1511c and the peripheral control SRAM 1511d. Various data are read and written via the internal bus 1511ah, the peripheral control bus controller 1511ad, and the external bus 1511h.

  The peripheral control DMA controller 1511ac includes storage devices such as a peripheral control built-in RAM 1511ab, a peripheral control ROM 1511b, a peripheral control RAM 1511c, and a peripheral control SRAM 1511d, a peripheral control various serial I / O port 1511ae, a peripheral control built-in WDT 1511af, and a peripheral control various parallel I. / O port 1511ag and a dedicated controller for independently transferring data between devices such as the peripheral control A / D converter 1511ak and the like without using the peripheral control CPU core 1511aa. ~ It has four channels called DMA3.

  Specifically, the peripheral control DMA controller 1511ac includes a storage device of a peripheral control built-in RAM 1511ab built in the peripheral control MPU 1511a, various peripheral control serial I / O ports 1511ae and a built-in peripheral control WDT 1511af built in the peripheral control MPU 1511a. In order to transfer data independently between the peripheral control various parallel I / O ports 1511ag and the input / output devices such as the peripheral control A / D converter 1511ak without the peripheral control CPU core 1511aa. In addition, the peripheral control built-in RAM 1511ab reads / writes from / to the storage device via the internal bus 1511ah, while the peripheral control various serial I / O ports 1511ae, the peripheral control built-in WDT 1511af, the peripheral control various parallel I / O ports 1511. g, and the peripheral control A / D converter input and output devices such as 1511Ak, via the peripheral control bus controller 1511ad and peripheral bus 1511Ai, reading and writing.

  The peripheral control DMA controller 1511ac is a storage device such as a peripheral control ROM 1511b, a peripheral control RAM 1511c, and a peripheral control SRAM 1511d, which is externally attached to the peripheral control MPU 1511a, and various peripheral control serial I / Os built in the peripheral control MPU 1511a. Without the peripheral control CPU core 1511aa between the devices such as the O port 1511ae, the peripheral control built-in WDT 1511af, the peripheral control various parallel I / O ports 1511ag, and the peripheral control A / D converter 1511ak and the like. In order to transfer data independently, peripheral control bus controller 1511ad and external bus 1511h are connected to storage devices such as peripheral control ROM 1511b, peripheral control RAM 1511c, and peripheral control SRAM 1511d. The peripheral control serial I / O port 1511ae, the peripheral control built-in WDT 1511af, the peripheral control various parallel I / O port 1511ag, the peripheral control A / D converter 1511ak, etc. Reading and writing are performed via the control bus controller 1511ad and the peripheral bus 1511ai.

  The peripheral control bus controller 1511ad controls the internal bus 1511ah, peripheral bus 1511ai, and external bus 1511h to control the central processing unit of the peripheral control MPU core 1511aa, peripheral control built-in RAM 1511ab, peripheral control ROM 1511b, peripheral control RAM 1511c, and peripheral control Various devices such as a storage device such as SRAM 1511d and peripheral control various serial I / O ports 1511ae, peripheral control built-in WDT 1511af, peripheral control various parallel I / O ports 1511ag, and peripheral control A / D converter 1511ak It is a dedicated controller that exchanges various data between them.

  Peripheral control various serial I / O port 1511ae includes a lamp drive board serial I / O port, a motor drive board serial I / O port, a frame decoration drive amplifier board motor serial I / O port, and a frame decoration drive amplifier board LED. Serial I / O port, frame decoration drive amplifier board motor serial I / O port, main control board serial I / O port, and rendering operation unit information acquisition serial I / O port.

  Peripheral control built-in watchdog timer (peripheral control built-in WDT) 1511af is a timer for monitoring whether the system of the peripheral control MPU 1511a is running out of control, and when this timer is up, a hardware reset is performed. It has become. That is, if the peripheral control CPU core 1511aa starts the watchdog timer, the peripheral control CPU core 1511aa resets if it does not output a clear signal for clearing the timer to the peripheral control built-in WDT 1511af within a certain period (until the timer expires). Will take. When the peripheral CPU core 1511aa starts the watchdog timer and outputs a clear signal to the peripheral control built-in WDT 1511af within a certain period, the peripheral control CPU core 1511aa can restart the timer count and therefore does not reset.

  The peripheral control various parallel I / O ports 1511ag output various latch signals such as a game board side motor drive latch signal and a door side motor drive light emission latch signal, and also output a clear signal to the peripheral control external WDT 1511e, The detection signals from various detection switches for detecting the original position and movable position of various movable bodies provided on the board 5 are serialized by a game board side serial transmission circuit (not shown) provided on the motor drive board 4180, and this serial The movable body information acquisition latch signal for receiving the converted movable body detection data from the serial transmission circuit on the game board side by the serial I / O port for the motor drive board of the peripheral control MPU 1511a is output. This LED is a high-intensity white LED and serves as a confirmation notification lamp for informing that the occurrence of the big hit gaming state has been confirmed. In the present embodiment, by adopting a configuration in which the LED and the peripheral control various parallel I / O ports 1511ag are electrically connected directly, the path between the LED and the peripheral control various parallel I / O ports 1511ag is shortened. Therefore, it is possible to take noise countermeasures for lighting control of the LED having a significant meaning in games. The LED lighting control is executed in a peripheral control unit 1 ms timer interrupt process described later, and other LEDs and the like other than this LED are executed in a peripheral control unit steady process described later. It has become.

  The peripheral control A / D converter 1511ak is electrically connected to the volume adjustment volume 1510a, and the resistance value is changed by rotating the knob portion of the volume adjustment volume 1510a, and the resistance at the rotation position of the knob portion is changed. The voltage divided by the value is converted from an analog value to a digital value, and converted to a value in 1024 steps from a value 0 to a value 1023. In the present embodiment, the values of 1024 levels are divided into seven and managed as substrate volumes 0-6. The substrate volume 0 is set to mute, the substrate volume 6 is set to the maximum volume, and the volume is set to increase from the substrate volume 0 toward the substrate volume 6. The liquid crystal display control unit 1512 (a sound source built-in VDP 1512a, which will be described later) is controlled so that the volume is set to the substrate volume 0 to 6, and music and sound effects flow from the speaker 921 and the upper speaker 573. In this way, music and sound effects flow from the speaker 921 and the upper speaker 573 by adjusting the volume based on the turning operation of the knob portion.

In this embodiment, in addition to music and sound effects, a notification sound for notifying a hall clerk or the like of the occurrence of a malfunction of the pachinko machine 1 or an illegal act on the pachinko machine 1 or a content related to a game effect is notified. (For example, to make the screen unfolded on the game board side effect display device 1600 more powerful, or to announce that there is a high possibility of shifting to a game state advantageous to the player). The notification sound also flows from the speaker 921 and the upper speaker 573, but the notification sound and the notification sound flow without depending on the volume adjustment based on the turning operation of the knob part. The volume can be adjusted by controlling a liquid crystal display control unit 1512 (a sound source built-in VDP 1512a described later) by a program. The volume adjusted by this program can be smoothly changed from the mute to the maximum volume, unlike the substrate volume divided into the above seven stages.
Thus, for example, even when a hall clerk or the like rotates the knob portion of the volume adjustment volume 1510a to set the volume to a low level, production sounds such as music and sound effects that flow from the speaker 921 and the upper speaker 573 However, when a malfunction occurs in the pachinko machine 1 or when the player is cheating, a notification sound set to a high volume (in this embodiment, the maximum volume) can be played. Therefore, even if the volume of the effect sound is reduced, it is possible to prevent the hall clerk or the like from becoming difficult to notice the occurrence of a malfunction or the player's cheating due to the notification sound. Also, based on the current board volume set by volume adjustment based on the turning operation of the knob part, the volume of the advertisement sound is reduced so as not to interfere with the music and sound effects. In addition to music and sound effects, there is a possibility that the screen unfolded on the game board side effect display device 1600 will be rendered more powerful, or a game state that is advantageous to the player may be entered. You can also announce that it is expensive.

[7-4-1b. Peripheral control ROM]
The peripheral control ROM 1511b stores in advance various control programs, various data, various control data, and various schedule data for controlling the peripheral control unit 1511, the liquid crystal display control unit 1512, the RTC control unit 4165, and the like. The various schedule data includes screen generation schedule data for generating screens to be drawn on the game board side effect display device 1600 and the door frame side effect display device 460, light emission mode generation schedule data for generating light emission modes of various LEDs, music And sound generation schedule data for generating sound effects and the like, and electric drive source schedule data for generating drive modes of electric drive sources such as motors and solenoids. The screen generation schedule data is configured by arranging screen data for defining the screen configuration in time series, and the order of the screens to be drawn on the game board side effect display device 1600 and the door frame side effect display device 460 is specified. Has been. The light emission mode generation schedule data is configured by arranging light emission data defining the light emission modes of various LEDs in time series. The sound generation schedule data is configured by arranging sound command data in time series, and defines the order in which music and sound effects flow. The sound command data includes an output channel number for instructing which output channel to use among a plurality of output channels in the built-in sound source of the sound source built-in VDP 1512a of the liquid crystal display control unit 1512 described later, and the sound source built-in VDP 1512a. A track number for instructing which of the plurality of tracks in the built-in sound source is to incorporate sound data such as music and sound effects is defined. The electrical drive source schedule data is configured by arranging drive data of electrical drive sources such as motors and solenoids in time series, and defines the operation of electrical drive sources such as motors and solenoids.

  Various control programs stored in the peripheral control ROM 1511b may be read out and executed directly from the peripheral control ROM 1511b, or copied to various control program copy areas in the peripheral control RAM 1511c described later when the power is turned on. Some are read and executed. In addition, various data, various control data, and various schedule data stored in the peripheral control ROM 1511b may be directly read from the peripheral control ROM 1511b, or when various power control data copy areas of the peripheral control RAM 1511c described later are turned on. Some of which are copied in the above are read out.

  In addition, the peripheral control ROM 1511b, as one of various control programs for controlling the RTC control unit 4165, corrects the luminance of the game board side effect display device 1600 according to the usage time of the game board side effect display device 1600. A brightness correction program is included. This brightness correction program corrects a decrease in brightness due to aging of the game board side effect display device 1600 when the backlight of the game board side effect display device 1600 is an LED type. The date and time when the game board side effect display device 1600 is first turned on, the current date and time, the luminance setting information, and the like are acquired from the internal RAM of the RTC control unit 4165, which will be described later, and the acquired luminance setting information is based on the correction information. To correct. This correction information is stored in advance in the peripheral control ROM 1511b. As will be described later, the luminance setting information includes luminance adjustment information for adjusting the range of the luminance of the LED, which is the backlight of the game board side effect display device 1600, from 100% to 70% in increments of 5%, The brightness of the LED that is the backlight of the game board side effect display device 1600 that is set is included. For example, the date and time when the game board side effect display device 1600 was first turned on and the current date and time From the date when the game board side effect display device 1600 is first turned on, when six months have already passed, the corresponding correction information (for example, 5%) is acquired from the peripheral control ROM 1511b, and the brightness When the brightness of the LED included in the setting information is 75% and the backlight of the game board side effect display device 1600 is turned on, the correction information acquired for this 75% is used. On the game board side, the brightness of the backlight of the game board side effect display device 1600 is adjusted based on the brightness adjustment information included in the brightness setting information so that the brightness is further increased by 5%. When December has already passed since the date when the effect display device 1600 was first turned on, the corresponding correction information (for example, 10%) is acquired from the peripheral control ROM 1511b, and the LED included in the brightness setting information When the backlight of the game board side effect display device 1600 is turned on at a luminance of 75%, the luminance setting is set so that the luminance is 85% which is further increased by 10% which is the correction information acquired with respect to this 75%. Based on the brightness adjustment information included in the information, the brightness of the backlight of the game board side effect display device 1600 is adjusted to light up.

[7-4-1c. Peripheral control RAM]
As shown in FIG. 73, the peripheral control RAM 1511c externally attached to the peripheral control MPU 1511a is a backup that exclusively stores information to be backed up among various information updated by executing various control programs. The management target work area 1511ca, the backup first area 1511cb and the backup second area 1511cc for storing a copy of various information stored in the backup management target work area 1511ca, and the peripheral control ROM 1511b Various control program copy area 1511cd for storing a copy of the various control programs exclusively, and various data, various control data, various schedule data, etc. stored in the peripheral control ROM 1511b, etc. Various control data copy area 1511ce for storing copied data exclusively, and backup non-management target for storing non-backup target data among various information updated by executing various control programs And a work area 1511cf.

  When the pachinko machine 1 is turned on (including when power is restored due to a momentary power failure or power failure), the value 0 is forcibly written to the backup unmanaged work area 1511cf and cleared to zero. For the work area 1511ca, the backup first area 1511cb, and the backup second area 1511cc, the power-on state command (see FIG. 89) from the main control board 1310 when the pachinko machine 1 is powered on starts the RAM clear effect. And a gaming state (for example, instructing the start of an effect when the operation switch 954 shown in FIG. 69 is operated within a predetermined period from when the power is turned on). Sometimes it is cleared to zero.

  The backup management target work area 1511ca is effect information (1fr) that is various information updated in the peripheral control unit steady process that is executed each time a V blank signal is input from the sound source built-in VDP 1512a of the liquid crystal display control unit 1512 described later. ) Is stored exclusively as a backup target, and production information (1 ms) which is various information updated in the peripheral control unit 1 ms timer interrupt process executed every time a 1 ms timer interrupt described later occurs is backed up. Bank 0 (1 ms) that is stored exclusively as a target. Here, the names of Bank0 (1fr) and Bank0 (1 ms) will be briefly described. “Bank” is a minimum management unit representing the size of a storage area for storing various information. The subsequent “0” means that the storage area is normally used for storing various information updated by executing various control programs. That is, “Bank 0” means that the size of the storage area that is normally used is the minimum management unit. In addition, “Bank1,” “Bank2,” “Bank3,” and “Bank4” provided in an area from the backup first area 1511cb to the backup second area 1511cc, which will be described later, are in the same storage area as “Bank0”. It means having a size. As described later, “(1fr)” indicates that when the sound source built-in VDP 1512a outputs drawing data for one screen (one frame) to the game board side effect display device 1600 and the door frame side effect display device 460, the peripheral control MPU 1511a. Since the V blank signal indicating that the screen data can be received from the peripheral control MPU 1511a is output to the peripheral control MPU 1511a, every time the V blank signal is input, in other words, one frame (1 frame) Since the peripheral control unit steady process is executed every time, “Bank 0”, “Bank 1”, “Bank 2”, “Bank 3”, and “Bank 4” are respectively added (effect information (1fr) and an effect described later) The backup information (1fr) is also used in the same meaning). As described later, “(1 ms)” indicates that “Bank0”, “Bank1”, “Bank2”, “Bank3”, “Bank0”, “Bank1”, “Bank3”, and the like are executed every time a 1 ms timer interrupt occurs. And “Bank 4”, respectively (the effect information (1 ms) and the effect backup information (1 ms) described later are also used in the same meaning).

  Bank 0 (1fr) includes a lamp drive board side transmission data storage area 1511caa, a frame decoration drive amplifier board side LED transmission data storage area 1511cab, a reception command storage area 1511cac, an RTC information acquisition storage area 1511cad, and a schedule data storage area 1511cae. Etc. are provided. In the lamp drive board side transmission data storage area 1511caa, the game board side light emission data SL-DAT for outputting a lighting signal, a blinking signal or a gradation lighting signal to a plurality of LEDs provided on each decoration board of the game board 5 is provided. Is stored in the frame decoration drive amplifier board side LED transmission data storage area 1511cab, and a lighting signal, blinking signal, or gradation lighting to a plurality of LEDs provided on each decoration board of the door frame 3 This is a storage area in which door side light emission data STL-DAT for outputting a signal is set. In the reception command storage area 1511cac, various commands transmitted from the main control board 1310 are received and the received various commands are stored. The RTC information acquisition storage area 1511cad is an RTC control unit 4165 (an RTC 4165a described later). Various information acquired from the TC built-in RAM 4165aa) is set in a storage area, and the schedule data storage area 1511cae corresponds to the received command based on the command received from the main control board 1310 (main control MPU 1310a). This is a storage area in which various schedule data are set. In the schedule data storage area 1511cae, some schedule data copied from the peripheral control ROM 1511b to the various control data copy area 1511ce are read and set, and various schedule data are directly read from the peripheral control ROM 1511b. Some are set.

  Bank 0 (1 ms) includes a frame decoration drive amplifier board side motor transmission data storage area 1511 caf, a motor drive board side transmission data storage area 1511 cag, a movable body information acquisition storage area 1511 cah, and a presentation operation unit information acquisition storage area 1511 cai, and A drawing state information acquisition storage area 1511cak and the like are provided. In the frame decoration drive amplifier board side motor transmission data storage area 1511caf, door side motor drive data STM-DAT for outputting a drive signal to an electric drive source such as a dial drive motor 414 provided in the door frame 3 is stored. This is a storage area to be set, and a motor drive board side transmission data storage area 1511cag is used to output a drive signal to an electric drive source such as a motor or solenoid for operating various movable bodies provided in the game board 5. This is a storage area where the game board side motor drive data SM-DAT is set. The movable body information acquisition storage area 1511cah is provided in the game board 5 based on detection signals from various detection switches provided in the game board 5. This is a storage area in which various information obtained by acquiring the original position and the movable position of various movable bodies is set, and an effect operation unit information acquisition storage area 1511 is set. ai includes various pieces of information (for example, a presentation operation) obtained from the rotation (rotation direction) of the dial operation unit 401 and the operation of the pressing operation unit 405 based on detection signals from various detection switches provided in the presentation operation unit 400. A storage area in which rotation (rotation direction) history information of the dial operation unit 401 created based on detection signals from various detection switches provided in the unit 400, operation history information of the pressing operation unit 405, and the like is set. In the drawing state information acquisition storage area 1511cak, when the presentation display drive board 4450 receives drawing data from the sound source built-in VDP 1512a of the peripheral control board 1510 and determines that the received drawing data is abnormal data, Peripheral control board 1510 and effects based on a LOCKN signal, which will be described later, output to convey the effect A storage area in which various information acquired defect frequency and bug occurrence between connection of the shown drive substrate 4450 is set.

  In addition, Bank0 (1fr) lamp drive board side transmission data storage area 1511caa and frame decoration drive amplifier board side LED transmission data storage area 1511cab, and Bank0 (1ms) frame decoration drive amplifier board side motor transmission data storage area 1511caf. The motor drive board side transmission data storage area 1511cag is divided into two areas, a first area and a second area, respectively.

  In the lamp drive board side transmission data storage area 1511caa, when a peripheral control unit steady process described later is executed, the game board side light emission data SL-DAT is set in the first area of the lamp drive board side transmission data storage area 1511caa. When the next peripheral control unit steady process is executed, the game board side light emission data SL-DAT is set in the second area of the lamp drive board side transmission data storage area 1511caa. Each time the process is executed, the game board side light emission data SL-DAT is alternately set in the first area and the second area of the lamp driving board side transmission data storage area 1511caa. For example, when the game board side light emission data SL-DAT is set in the second area of the lamp drive board side transmission data storage area 1511caa in the current peripheral control part steady process, When the control unit steady process is executed, the process proceeds based on the game board side light emission data SL-DAT set in the first area of the lamp drive board side transmission data storage area 1511caa.

  When the peripheral control unit steady process is executed, the frame decoration drive amplifier board-side LED transmission data storage area 1511cab has the door-side emission data STL in the first area of the frame decoration drive amplifier board-side LED transmission data storage area 1511cab. When -DAT is set and the next peripheral control unit steady process is executed, the door-side emission data STL-DAT is set in the second area of the frame decoration drive amplifier board-side LED transmission data storage area 1511cab. Each time the peripheral control unit steady process is executed, the door side light emission data STL-DAT is alternately set in the first area and the second area of the frame decoration drive amplifier board side LED transmission data storage area 1511cab. The For example, when the door side light emission data STL-DAT is set in the second area of the frame decoration drive amplifier board side LED transmission data storage area 1511cab in the current peripheral control part steady process, When the previous peripheral control unit steady process is executed, the process proceeds based on the door side light emission data STL-DAT set in the first area of the frame decoration drive amplifier board LED transmission data storage area 1511cab. It has become.

  The frame decoration drive amplifier board side motor transmission data storage area 1511caf is connected to the first area of the frame decoration drive amplifier board side motor transmission data storage area 1511caf when a peripheral control unit 1 ms timer interrupt process described later is executed. When the side motor drive data STM-DAT is set and the next peripheral control unit 1 ms timer interrupt process is executed, the door side motor drive data STM is stored in the second area of the frame decoration drive amplifier board side motor transmission data storage area 1511caf. -DAT is set, and each time the peripheral control unit 1 ms timer interrupt process is executed, the door side is connected to the first area and the second area of the frame decoration drive amplifier board side motor transmission data storage area 1511caf. Motor drive data STM-DAT is set alternately. The peripheral control unit 1 ms timer interrupt process is executed. For example, in this peripheral control unit 1 ms timer interrupt process, the door side motor drive data STM-DAT is stored in the second area of the frame decoration drive amplifier board side motor transmission data storage area 1511 caf. When set, the door side motor drive data STM-DAT set in the first area of the frame decoration drive amplifier board side motor transmission data storage area 1511caf when the previous peripheral control unit 1 ms timer interrupt process was executed. The process is based on this.

  When the peripheral control unit 1 ms timer interrupt process is executed, the motor drive board side transmission data storage area 1511cag is set with the game board side motor drive data SM-DAT in the first area of the motor drive board side transmission data storage area 1511cag. When the next peripheral control unit 1 ms timer interrupt process is executed, the game board side motor drive data SM-DAT is set in the second area of the motor drive board side transmission data storage area 1511cag, Each time the peripheral control unit 1 ms timer interrupt process is executed, the game board side motor drive data SM-DAT are alternately set in the first area and the second area of the motor drive board side transmission data storage area 1511cag. Peripheral control unit 1 ms timer interrupt processing is executed. For example, in the current peripheral control unit 1 ms timer interrupt processing, game board side motor drive data SM-DAT is set in the second area of the motor drive board side transmission data storage area 1511 cag. Sometimes, when the previous peripheral control unit 1 ms timer interrupt process is executed, the process proceeds based on the game board side motor drive data SM-DAT set in the first area of the motor drive board side transmission data storage area 1511cag. It is like that.

  Next, the backup first area 1511cb and the backup second area 1511cc that store specially copied production information which is various information stored in the backup management target work area 1511ca will be described. In the backup first area 1511cb and the backup second area 1511cc, two pairs of two banks are managed as one page. Production information (1fr), which is the content stored in Bank0 (1fr), which is a storage area that is normally used, is produced as production backup information (1fr) every time the peripheral control unit steady process is executed for each frame (1frame). In addition, production information (1 ms) which is the content stored in Bank 0 (1 ms), which is a storage area normally used, is copied to the backup first area 1511 cb and the backup second area 1511 cc at high speed by the peripheral control DMA controller 1511ac. As the production backup information (1 ms), the peripheral control DMA controller 15 is added to the backup first area 1511 cb and the backup second area 1511 cc every time the peripheral control unit 1 ms timer interrupt process is executed every time a 1 ms timer interrupt occurs. It is copied to the high speed by 1ac. The consistency of one page is determined by whether or not the contents of two banks constituting the page match.

  Specifically, in the backup first area 1511cb, Bank1 (1fr) and Bank2 (1fr) are one pair, Bank1 (1ms) and Bank2 (1ms) are one pair, and a total of two pairs are managed as one page. ing. The contents stored in Bank0 (1fr), which is a storage area that is normally used, are the peripheral control DMA in Bank1 (1fr) and Bank2 (1fr) each time the peripheral control unit steady process is executed for each frame (1frame). The memory that is copied at high speed by the controller 1511ac and stored in Bank0 (1 ms), which is a storage area that is normally used, is stored every time a peripheral control unit 1 ms timer interrupt process is executed every time a 1 ms timer interrupt occurs. The peripheral control DMA controller 1511ac copies the data to Bank1 (1ms) and Bank2 (1ms) at high speed. The consistency of this page is determined by whether or not the contents of Bank1 (1fr) and Bank2 (1fr) match. Bank1 (1ms) and Bank2 ( It carried out by whether or not the contents of the ms) are the same.

  The backup second area 1511cc is managed as one page with a total of two pairs, with Bank3 (1fr) and Bank4 (1fr) as one pair and Bank3 (1ms) and Bank4 (1ms) as one pair. The contents stored in Bank0 (1fr), which is a storage area that is normally used, are the peripheral control DMA in Bank3 (1fr) and Bank4 (1fr) each time the peripheral control unit steady process is executed for each frame (1frame). The memory that is copied at high speed by the controller 1511ac and stored in Bank0 (1 ms), which is a storage area that is normally used, is stored every time a peripheral control unit 1 ms timer interrupt process is executed every time a 1 ms timer interrupt occurs. The peripheral control DMA controller 1511ac copies the data to Bank3 (1 ms) and Bank4 (1 ms) at high speed. The consistency of this page is determined by whether or not the contents of Bank3 (1fr) and Bank4 (1fr) match. Bank3 (1 ms) and Bank4 ( It carried out by whether or not the contents of the ms) are the same.

  As described above, in this embodiment, the backup first area 1511cb has one pair of Bank1 (1fr) and Bank2 (1fr), and one pair of Bank1 (1ms) and Bank2 (1ms). It is an area to manage as a page, and the backup second area 1511cc has a total of two pairs, with Bank3 (1fr) and Bank4 (1fr) as one pair and Bank3 (1ms) and Bank4 (1ms) as one pair. This is an area for management as one page. Different ID codes are stored at the beginning and end of each page, that is, at the beginning and end of the backup first area 1511cb and backup second area 1511cc.

  In the present embodiment, the production information (1fr) that is the content stored in Bank0 (1fr) that is a storage area that is normally used is the production control information (1fr), and the peripheral control unit for each frame (1frame). Every time the steady process is executed, the contents are copied to the backup first area 1511cb and the backup second area 1511cc at high speed by the peripheral control DMA controller 1511ac and stored in Bank0 (1 ms) which is a storage area normally used. The production information (1 ms) is the backup first area 1511 cb and the backup second area 1511 cc each time the peripheral control unit 1 ms timer interruption process is executed every time a 1 ms timer interruption occurs as production backup information (1 ms). Peripheral control Although designed to be copied at a high speed by the MA controller 1511Ac, a program for executing a fast copy from these peripheral control DMA controller 1511Ac are common. That is, in this embodiment, the production information (1fr) and the production information (1 ms) are managed by a common management method (execution of a common program).

[7-4-1d. Peripheral control SRAM]
A peripheral control SRAM 1511d externally attached to the peripheral control MPU 1511a includes a backup management target work area 1511da that exclusively stores information to be backed up among various information updated by executing various control programs. A backup first area 1511db and a backup second area 1511dc are provided for storing a copy of various information stored in the backup management target work area 1511da. The contents stored in the peripheral control SRAM 1511d are the power-on state commands from the main control board 1310 when the pachinko machine 1 is powered on (including power recovery due to an instantaneous power failure or power failure) (see FIG. 89). Is for instructing the start of the RAM clear effect and the gaming state (for example, for instructing the start of the effect when the operation switch 954 shown in FIG. 69 is operated within a predetermined period from when the power is turned on. Is not cleared to zero. This is completely different from the point that the backup management target work area 1511ca, the backup first area 1511cb, and the backup second area 1511cc of the peripheral control RAM 1511c are cleared to zero. Further, if the dial operation unit 401 or the press operation unit 405 of the effect operation unit 400 is operated within a predetermined time after the power of the pachinko machine 1 is turned on, a screen for performing the setting mode is displayed on the game board side effect display device 1600. It has come to be. By operating the dial operation unit 401 and the press operation unit 405 of the effect operation unit 400 according to the setting mode screen, each content (item) stored in the peripheral control SRAM 1511d (for example, the history of occurrence of the big hit gaming state) The contents (items) stored in the peripheral control RAM 1511c are not displayed at all, and cannot be cleared in the setting mode. This point is also completely different between the peripheral control RAM 1511c and the peripheral control SRAM 1511d.

  The backup management target work area 1511da is production information (SRAM) that is various information continued across days (for example, information for managing the history of occurrence of the big hit gaming state and special production flag management) Information) and the like are stored in a dedicated manner as a backup target. Here, the name of Bank0 (SRAM) will be briefly described. As described above, “Bank” is a minimum management unit that represents the size of a storage area for storing various types of information. The subsequent “0” means that the storage area is normally used for storing various information updated by executing various control programs. That is, “Bank 0” means that the size of the storage area that is normally used is the minimum management unit. “Bank1,” “Bank2,” “Bank3,” and “Bank4” provided in an area from the backup first area 1511db to the backup second area 1511dc, which will be described later, are in the same storage area as “Bank0”. It means having a size. Since “(SRAM)” is a backup target of various information stored in the peripheral control SRAM 1511d externally attached to the peripheral control MPU 1511a, “Bank0”, “Bank1”, “Bank2”, “Bank3” , And “Bank 4”, respectively (effect information (SRAM) and effect backup information (SRAM) to be described later are also used in the same meaning).

  Next, the backup first area 1511db and backup second area 1511dc that store specially copied production information (SRAM), which is various information stored in the backup management target work area 1511da, will be described. The backup first area 1511db and the backup second area 1511dc are managed with two banks as one pair, and this one pair as one page. Production information (SRAM), which is the content stored in Bank0 (SRAM), which is a storage area used normally, is production backup information (SRAM) each time the peripheral control unit steady process is executed for each frame (1 frame). The peripheral control DMA controller 1511ac copies the backup first area 1511db and the backup second area 1511dc at high speed. The consistency of one page is determined by whether or not the contents of two banks constituting the page match.

  Specifically, in the backup first area 1511db, Bank1 (SRAM) and Bank2 (SRAM) are managed as one pair, and this one pair is managed as one page. The contents stored in Bank0 (SRAM), which is a storage area that is normally used, are stored in the peripheral control DMA in Bank1 (SRAM) and Bank2 (SRAM) each time the peripheral control unit steady process is executed for each frame (1 frame). This page is copied at high speed by the controller 1511ac, and the consistency of this page is determined by whether or not the contents of Bank1 (SRAM) and Bank2 (SRAM) match.

  In the backup second area 1511dc, Bank3 (SRAM) and Bank4 (SRAM) are managed as one pair, and this one pair is managed as one page. The contents stored in Bank 0 (SRAM), which is a storage area that is normally used, are stored in the peripheral control DMA in Bank 3 (SRAM) and Bank 4 (SRAM) each time the peripheral control unit steady process is executed for each frame (1 frame). This page is copied at high speed by the controller 1511ac, and the consistency of this page is determined by whether or not the contents of Bank3 (SRAM) and Bank4 (SRAM) match.

  As described above, in the present embodiment, the backup first area 1511db is an area for managing Bank 1 (SRAM) and Bank 2 (SRAM) as one pair, and managing this one pair as one page. 1511 dc is an area for managing Bank 3 (SRAM) and Bank 4 (SRAM) as one pair, and managing this one pair as one page. Different ID codes are stored at the beginning and the end of each page, that is, at the beginning and the end of the backup first area 1511db and the backup second area 1511dc.

[7-4-2. Liquid crystal display control unit]
FIG. 72 shows a liquid crystal display control unit 1512 that performs drawing control of the game board side effect display device 1600 and door frame side effect display device 460 and sound control such as music and sound effects flowing from the speaker 921 and the upper speaker 573. In addition, a sound source for controlling sound such as music and sound effects is built in (hereinafter referred to as “built-in sound source”) and drawing control of the game board side effect display device 1600 and the door frame side effect display device 460 is performed. Sound source built-in VDP (Video Display)
Liquid crystal and sound control for storing various sound data such as music and sound effects in addition to various character data on the screen displayed on the game board side effect display device 1600 and the door frame side effect display device 460 ROM 1512b, audio data transmission IC 1512c that transmits serialized music, sound effects, and the like as audio data toward frame decoration drive amplifier board 194, and drawing data serialized to door frame side effect display device 460 Door frame side effect transmitter for transmission toward the effect display drive board 4450 disposed near the lower side of the door frame side effect display device 460 attached to the right side of the third plate unit 320. Output from the IC 1512d and the peripheral control MPU 1511a of the peripheral control unit 1511 In addition to the differential circuit 1512e that differentiates the LOCKN signal output request data that is serial data into a plus signal and a minus signal, and the signal that is output from the door frame side effect transmitter IC 1512d, the differentiation circuit 1512e When the signal from the differential circuit 1512e is input and the signal from the differential circuit 1512e is input, the circuit is connected so as to transmit this signal, while the signal from the differential circuit 1512e is not input. And a forced switching circuit 1512f for circuit connection so as to transmit a signal output from the door frame side effect transmitter IC 1512d. The liquid crystal and sound control ROM 1512b displays, for example, annular image data used for displaying a ring-shaped display object (annular display object), and an operation menu background image described later as sprite data used for displaying a screen or an image described later. Operation menu background image data to be used, selection display object image data used for displaying at least one selection display object described later, tone adjustment background image data used for displaying a volume adjustment screen including a volume scale described later, and a volume adjustment icon described later In addition to volume setting icon image data used for display, display of main body frame rear surface image data and service mode screen used for display of main body frame rear image in which the position of each part on the rear surface of main body frame 4 can be viewed when viewed from the player Service mode screen image data used for breaks, breaks used to display break timer setting screens Timer setting screen image data, and, during breaks screen image data used for displaying the break in the screen is stored. Note that the liquid crystal and sound control ROM 1512b also stores suggestion display object image data used to display an suggestion display object for prompting the user to operate the pressing operation unit 405 (operation unit) of the effect operation unit 400.

  The peripheral control MPU 1511a of the peripheral control unit 1511 extracts screen generation schedule data corresponding to the command from the main control board 1310 from the peripheral control ROM 1511b of the peripheral control unit 1511 or various control data copy areas 1511ce of the peripheral control RAM 1511c. Set in the schedule data storage area 1511cae of the peripheral control RAM 1511c, and the top screen data of the screen generation schedule data set in the schedule data storage area 1511cae is stored in the peripheral control ROM 1511b or the peripheral control RAM 1511c of the peripheral control unit 1511. After being extracted from the control data copy area 1511ce and output to the sound source built-in VDP 1512a, the schedule data is triggered by the input of the V blank signal described later. The next screen data following the first screen data is extracted from the peripheral control ROM 1511b of the peripheral control unit 1511 or various control data copy areas 1511ce of the peripheral control RAM 1511c in accordance with the screen generation schedule data set in the storage area 1511cae and has a built-in sound source. Output to VDP 1512a. As described above, the peripheral control MPU 1511a converts the screen data arranged in time series into the screen generation schedule data according to the screen generation schedule data set in the schedule data storage area 1511cae every time the V blank signal is input. In addition, the first screen data is output to the VDP 1512a with built-in sound source one by one.

  Also, the peripheral control MPU 1511a receives the sound command data at the head of the sound generation schedule data corresponding to the command from the main control board 1310 from the peripheral control ROM 1511b of the peripheral control unit 1511 or various control data copy areas 1511ce of the peripheral control RAM 1511c. Extracted and set in the schedule data storage area 1511cae of the peripheral control RAM 1511c, the head sound command data of the sound generation schedule data set in the schedule data storage area 1511cae is the peripheral control ROM 1511b of the peripheral control unit 1511 or the peripheral After extracting from the various control data copy area 1511ce of the control RAM 1511c and outputting it to the sound source built-in VDP 1512a, the schedule data recording is triggered by the input of the V blank signal. In accordance with the sound generation schedule data set in the area 1511cae, the next sound command data following the head sound command data is extracted from the peripheral control ROM 1511b of the peripheral control unit 1511 or the various control data copy areas 1511ce of the peripheral control RAM 1511c, and the sound source Output to the built-in VDP 1512a. As described above, the peripheral control MPU 1511a receives the sound command data arranged in time series in the sound generation schedule data according to the sound generation schedule data set in the schedule data storage area 1511cae, and the V blank signal is input. Each time, the head sound command data is output to the built-in sound source VDP 1512a one by one.

[7-4-2a. Sound source built-in VDP]
When the screen data is input from the peripheral control MPU 1511a in addition to the above-described built-in sound source, the sound source built-in VDP 1512a receives a game board from the liquid crystal and sound control ROM 1512b based on the input screen data as shown in FIG. The drawing data for one screen (one frame) displayed on the game board side effect display device 1600 and the door frame side effect display device 460 is generated by extracting the side character data and the upper plate character data and generating sprite data. VRAM for this purpose is also built-in (hereinafter referred to as “built-in VRAM”). The sound source built-in VDP 1512a outputs the drawing data for the game board side effect display device 1600 out of the drawing data generated on the built-in VRAM to the game board side effect display device 1600 from the channel CH1 and the door frame side effect display device 460. Drawing data is transmitted from the channel CH2 via a peripheral control output circuit (not shown), a frame peripheral relay terminal plate 868, a peripheral door relay terminal plate 882, and an effect display drive board 4450 stored in the plate unit 320 of the door frame 3. By outputting (transmitting) to the door frame side effect display device 460, the game board side effect display device 1600 and the door frame side effect display device 460 are synchronized.

  The drawing data output from the channel CH1 is output from the peripheral control board 1510 to the game board side effect display device 1600, whereas the drawing data output from the channel CH2 is transmitted from the peripheral control board 1510 to the frame peripheral relay. The terminal board 868, the peripheral door relay terminal board 882, and the effect display which is disposed in the vicinity of the lower side of the door frame side effect display device 460 attached to the right side of the plate unit 320 of the door frame 3 and is stored in the plate unit 320. It is output (transmitted) to the door frame side effect display device 460 via the drive substrate 4450. As described above, the drawing data output from the channel CH1 is output from the peripheral control board 1510 to the game board side effect display apparatus 1600 as described above, so that the peripheral control board 1510 and the game board side effect display apparatus 1600 Although the wiring length required for the route from the channel CH1 to the game board side effect display device 1600 is short by being attached to the game board 5, the drawing data output from the channel CH2 is the peripheral data as described above. The peripheral control board 1510 is attached to the game board 5 because it is output from the control board 1510 to the door frame side effect display device 460 via the effect display drive board 4450 housed in the dish unit 320 of the door frame 3. On the other hand, the effect display drive board 4450 is housed in the dish unit 320 of the door frame 3. The length of the wiring required for the route from the channel CH2 to the frame peripheral relay terminal plate 868, the peripheral door relay terminal plate 882, and the effect display drive board 4450 is extremely longer than that of the channel CH1, so that it is extremely susceptible to noise. Become. For this reason, for the channel CH2 in which the length of the wiring for sending drawing data is extremely longer than that of the channel CH1, the door frame side effect transmitter IC 1512d uses “V-by-One ( By adopting a differential communication called “registered trademark”, the system is less susceptible to noise.

Channel CH1 is LVDS (Low Voltage Differential)
In contrast to the serial interface differential interface (Signaling), the channel CH2 uses a parallel interface. The drawing data output from the channel CH2 is composed of three video signals, a red video signal, a green video signal, and a blue video signal, and three synchronization signals, a horizontal synchronization signal, a vertical synchronization signal, and a clock signal. Serialized by the door frame side effect transmitter IC 4610d and housed in a peripheral control output circuit (not shown), a frame peripheral relay terminal plate 868, a peripheral door relay terminal plate 882, and the tray unit 320 of the door frame 3. It is transmitted to the effect display drive board 4450. The various serialized signals are restored to parallel signals in the effect display drive board 4450 and output to the door frame effect display device 460.

  As described above, when the peripheral control MPU 1511a outputs the screen data for one screen (one frame) displayed on the game board side effect display device 1600 and the door frame side effect display device 460 to the sound source built-in VDP 1512a, Based on the input screen data, character data is extracted from the liquid crystal and sound control ROM 1512b to create sprite data and displayed on the game board side effect display device 1600 and the door frame side effect display device 460 (1 Frame data) is generated on the built-in VRAM, and among the generated drawing data, image data for the game board side effect display device 1600 is output from the channel CH1 to the game board side effect display device 1600, and the door frame side The image data for the effect display device 460 is illustrated from the channel CH2. Output to the door frame side effect display device 460 via the frame peripheral relay terminal plate 868, the peripheral door relay terminal plate 882, and the effect display drive board 4450 housed in the dish unit 320 of the door frame 3. (Send. That is, “screen data for one screen (for one frame)” means drawing data for one screen (for one frame) displayed on the game board side effect display device 1600 and the door frame side effect display device 460. This is the data to generate above.

  The sound source built-in VDP 1512a outputs drawing data for one screen (for one frame) from the channel CH1 to the game board side effect display device 1600, and also displays image data for the door frame side effect display device 460 from the channel CH2. Output to the door frame side effect display device 460 via the frame peripheral relay terminal plate 868, the peripheral door relay terminal plate 882, and the effect display drive board 4450 housed in the dish unit 320 of the door frame 3. When (transmission) is performed, a V blank signal indicating that the screen data from the peripheral control MPU 1511a can be received is output to the peripheral control MPU 1511a. In this embodiment, since the frame frequency (number of screen updates per second) of the game board side effect display device 1600 and the door frame side effect display device 460 is set to approximately 30 fps per second, a V blank signal is output. The interval is about 33.3 ms (= 1000 ms ÷ 30 fps). The peripheral control MPU 1511a is configured to execute a peripheral control unit V blank signal interrupt process to be described later when this V blank signal is input. Here, the interval at which the V blank signal is output varies somewhat depending on the liquid crystal sizes of the game board side effect display device 1600 and the door frame side effect display device 460. In addition, even in the manufacturing lot of the peripheral control board 1510 on which the peripheral control MPU 1511a and the sound source built-in VDP 1512a are mounted, the interval at which the V blank signal is output may slightly change.

  The sound source built-in VDP 1512a employs a frame buffer method. In this “frame buffer method”, drawing data for one screen (one frame) to be drawn on the screens of the game board side effect display device 1600 and the door frame side effect display device 460 is held in a frame buffer (built-in VRAM). The drawing data for one screen (one frame) held in the frame buffer (built-in VRAM) is output to the game board side effect display device 1600 and the door frame side effect display device 460.

  When the sound command data described above is input from the peripheral control MPU 1511a based on a command from the main control board 1310, the sound source built-in VDP 1512a receives music stored in the liquid crystal and sound control ROM 1512b as shown in FIG. By extracting sound data such as sound and sound effects and controlling the built-in sound source, sound data such as music and sound effects are incorporated into the track according to the track number specified in the sound command data and used according to the output channel number An output channel is set, and music, sound effects and the like flowing from the speaker 921 and the upper speaker 573 are serialized and output as audio data to the audio data transmission IC 1512c.

Note that the sound command data also includes a sub-volume value for adjusting the volume of the track in which the sound data is incorporated, and a plurality of tracks in the built-in sound source of the sound source built-in VDP 1512a include effect sounds such as music and sound effects. In addition to the sub-volume value for adjusting the sound data and the volume of the sound, the sound data of the notification sound and the sound volume for notifying the clerk of the hall of the occurrence of the malfunction of the pachinko machine 1 and the fraud to the pachinko machine 1 are adjusted. Subvolume value to be included. Specifically, for the production sound, the substrate volume adjusted by rotating the knob portion of the volume adjustment volume 1510a described above is set as the sub volume value, and for the notification sound, the volume adjustment is performed. The maximum volume is set as the sub-volume value without depending on the volume adjustment based on the turning operation of the knob portion of the volume 1510a.
The sub-volume value of the effect sound can be adjusted by shifting to a setting mode (to be described later) by operating the dial operation unit 401 or the pressing operation unit 405 of the effect operation unit 400.

  The sound designation data also includes a master volume value for adjusting the volume of the output channel, and a plurality of output channels in the built-in sound source of the built-in sound source VDP 1512a include a plurality of sound channels in the built-in sound source of the sound source built-in VDP 1512a. Of the tracks, the sound data of the production sound built into the track to be used is combined with the sub-volume value that adjusts the volume of the production sound built into the track to be used. Actually, it is amplified to a master volume value which is a volume flowing from the speaker 921 and the upper speaker 573, and the amplified effect sound is serialized and output to the audio data transmission IC 1512c as audio data.

  In the present embodiment, the master volume value is set to a constant value, and the volume flowing from the speaker 921 and the upper speaker 573 is amplified to the master volume value when the volume of the combined effect sound is the maximum volume. Is set to the maximum allowable volume. Specifically, for the production sound, among the multiple tracks, the sound data of the production sound incorporated in the track to be used and the sub-volume value that adjusts the volume of the production sound incorporated in the track to be used The set volume adjustment volume 1510a is rotated to adjust the substrate volume, and the synthesized volume of the effect sound is actually set to the volume flowing from the speaker 921 and the upper speaker 573. The amplified production sound is serialized and output to the audio data transmission IC 1512c as audio data. For the notification sound, the sound data of the notification sound incorporated in the track to be used and the use Volume adjustment buttons set as sub-volume values to adjust the volume of the notification sound built into the track to be played The volume of the combined notification sound is actually the volume flowing from the speaker 921 and the upper speaker 573 by combining the maximum volume without depending on the volume adjustment based on the turning operation of the knob portion of the knob 1510a. It amplifies to the master volume value, serializes the amplified notification sound, and outputs it to the audio data transmission IC 1512c as audio data.

  Here, when the production sound is flowing from the speaker 921 and the upper speaker 573, the control for playing the notification sound in order to notify the clerk or the like of the hall of the occurrence of the malfunction of the pachinko machine 1 or the illegal act on the pachinko machine 1 is briefly described. To explain, first, the sub volume value of the track in which the production sound is incorporated is forcibly set to mute, the sound data of the track in which this production sound is incorporated, the sub volume value set for the mute, and the notification sound Is synthesized with the sub-volume value in which the volume of the notification sound is set to the maximum volume, and the volume of the combined effect sound and the volume of the notification sound is actually combined with the speaker 921. And the master volume value that is the volume flowing from the upper speaker 573, and the amplified production sound and notification sound are serialized to obtain audio data. And it outputs the audio data transmitted IC1512c as data.

  That is, as for the sound that actually flows from the speaker 921 and the upper speaker 573, only the notification sound of the maximum volume flows. At this time, since the effect sound is muted, the effect sound proceeds in accordance with the sound generation schedule data described above, although it does not flow from the speaker 921 and the upper speaker 573. In the present embodiment, the notification sound flows from the speaker 921 and the upper speaker 573 for a predetermined period (for example, 90 seconds), and when the predetermined period elapses, the notification sound is forcibly set to mute until now. The volume of the effect sound that is proceeding according to the schedule data is set again as the sub-volume value by adjusting the knob portion of the volume adjustment volume 1510a to be rotated (at this time, the dial operation of the effect operation unit 400 is performed). If the adjustment is made by moving to the setting mode by operating the unit 401 or the pressing operation unit 405, the adjusted volume is set to the sub-volume value of the adjusted production sound) and flows from the speaker 921 and the upper speaker 573. It has become.

  In this way, when the production sound is flowing from the speaker 921 and the upper speaker 573, when the notification sound flows in order to inform the hall clerk or the like of the occurrence of a malfunction of the pachinko machine 1 or an illegal act against the pachinko machine 1, Although the sound volume is muted and the notification sound flows from the speaker 921 and the upper speaker 573, the effect sound that has been muted proceeds in accordance with the sound generation schedule data. When it stops flowing from the speaker 921 and the upper speaker 573, the production sound does not start to flow again from the point where the notification sound starts to flow, but progresses according to the sound generation schedule data until a predetermined period has passed since the notification sound started to flow. It starts to flow again from.

[7-4-2b. Liquid crystal and sound control ROM]
As shown in FIG. 74, the liquid crystal and sound control ROM 1512b draws the game board side character data for drawing in the display area of the game board side effect display device 1600 and the display area of the door frame side effect display device 460. The upper plate side character data is stored in advance, and various sound data such as music, sound effects, notification sounds, and notification sounds are also stored in advance.

[7-4-2c. Audio data transmission IC]
When the audio data transmission IC 1512c receives the serialized audio data from the sound source built-in VDP 1512a, the audio data transmission IC 1512c converts the right audio data as a positive signal and a negative signal as differential serial data and outputs a peripheral control output circuit and frame peripheral relay (not shown). A peripheral control output circuit (not shown) is transmitted to the frame decoration drive amplifier board 194 via the terminal board 868 and the peripheral door relay terminal board 882 and as differential serial data with the left audio data as a positive signal and a negative signal. Then, the frame is transmitted to the frame decoration drive amplifier board 194 via the frame peripheral relay terminal plate 868 and the peripheral door relay terminal plate 882. Thereby, music, sound effects, etc. adapted to various effects are reproduced in stereo from the speaker 921 and the upper speaker 573.

  The audio data transmission IC 1512c outputs audio data as serial data of the left and right differential methods between the boards extending from the peripheral control board 1510 to the frame decoration drive amplifier board 194, for example, a positive signal of the left audio data, Even when the negative signal is affected by noise, the frame decoration drive amplifier board 194 combines the noise component riding on the plus signal and the noise component riding on the minus signal into one left audio data. Since noise components are canceled by canceling each other, noise countermeasures can be taken.

[7-4-2d. Transmitter IC for door frame side production]
As shown in FIG. 74, the door frame side effect transmitter IC 1512d receives drawing data output from the channel CH2 of the sound source built-in VDP 1512a. As described above, the channel CH2 uses a parallel interface. The drawing data is composed of three video signals, a red video signal, a green video signal, and a blue video signal, and three synchronization signals, a horizontal synchronization signal, a vertical synchronization signal, and a clock signal. Each of the green video signal and the blue video signal is composed of 8 bits and a total of 24 bits. In the present embodiment, the red video signal, the green video signal, and the blue video signal that can be input to the door frame side effect transmitter IC 1512d are 6 bits each, for a total of 18 bits, and therefore the upper 6 bits in each video signal are the door frame. This is input to the side effect transmitter IC 1512d. Since the lower 2 bits are extremely weak color information that is difficult for human eyes to discriminate, the lower 2 bits including the weak color information are invalidated although they are output from the sound source built-in VDP 1512a.

  Three video signals such as a red video signal, a green video signal, and a blue video signal, and three synchronization signals such as a horizontal synchronization signal, a vertical synchronization signal, and a clock signal, which are drawing data output from the channel CH2 of the sound source built-in VDP 1512a. Are input to the door frame side effect transmitter IC 1512d, the door frame side effect transmitter IC 1512d receives three video signals, a red video signal, a green video signal, and a blue video signal, a horizontal synchronization signal, and a vertical synchronization signal. The signal and the three synchronization signals, the clock signal, are serialized into a differential serial signal (serial data) called “V-by-One (registered trademark)” of THINE ELECTRONICS CO., LTD. These various signals are transmitted from the peripheral control board 1510 around the frame. Terminal plate 868, near the door relay terminal plate 882, and transmitted to effect display driving board 4450 housed in the dish unit 320 of the door frame 3.

  As described above, the drawing data output from the channel CH1 of the sound source built-in VDP 1512a is output from the peripheral control board 1510 to the game board side effect display device 1600, and therefore the path from the channel CH1 to the game board side effect display device 1600. Although the length of the wiring required for the (first path) is short, the drawing data output from the channel CH2 of the sound source built-in VDP 1512a includes the frame peripheral relay terminal plate 868, the peripheral door relay terminal plate 882, and the door from the peripheral control board 1510. Since it is output (transmitted) to the door frame side effect display device 460 via the effect display drive substrate 4450 housed in the dish unit 320 of the frame 3, the route from the channel CH 2 to the door frame side effect display device 460 (first) The length of the wiring required for the second path) is extremely longer than the length of the wiring required for the first path. The effect of the noise is extremely susceptible.

Specifically, since the door frame 3 is pivotally supported so as to be openable and closable with respect to the main body frame 4 shown in FIG. 1, it is opposite to the locking unit 700 shown in FIG. 5 along the open side of the main body frame 4. On the closed side which is the side, for example, on the side of the main body frame 4 such as the effect display drive board 4450 accommodated in the dish unit 320 provided in the door frame 3 from the peripheral control board 1510 provided in the game board 5 attached to the main body frame 4 It is necessary to pass various wirings for electrically connecting the various substrates provided and the various substrates provided on the door frame 3 side. However, on the closed side of the main body frame 4, in addition to the payout device 830, the game balls paid out by the payout device 830 can be guided to the upper plate 321 of the plate unit 320, and the upper plate 321 is a game ball. A full tank branching unit 770 that can branch and guide the paid-out game ball to the lower plate 322 side when the tank is full is arranged.
Also, below the main body frame 4, a payout unit 800 shown in FIG. 5 is arranged in which the power supply board 931 and the like shown in FIG. As described above, various wirings for electrically connecting the various substrates provided on the main body frame 4 side and the various substrates provided on the door frame 3 side are drawn near the dispensing device 830, the full tank branching unit 770, the power supply substrate 931, and the like. In addition to the noise caused by driving the payout motor 834 provided in the payout device 830, the power supply line supplied from the pachinko island equipment where the pachinko machine 1 is installed and noise caused by electrostatic discharge due to the game ball It is in an environment where it receives noise etc.

  For this reason, for the channel CH2 in which the length of the wiring for sending drawing data is extremely longer than that of the channel CH1, the door frame side effect transmitter IC 1512d provided on the peripheral control board 1510 provides “ By adopting a differential communication called “V-by-One (registered trademark)”, the mechanism is less susceptible to noise. In this embodiment, a door frame side effect transmitter IC 1512d provided in the peripheral control board 1510, a door frame side effect receiver IC SDIC0 described later provided in the effect display drive board 4450 housed in the dish unit 320 of the door frame 3, As described above, the differential 1-pair cable is used as the wiring for electrically connecting the transmitter and the receiver, and this differential 1-pair cable is composed of two wires. Is not a parallel line provided in parallel, but a twisted pair cable. This twisted pair cable is a cable in which two wires are twisted together, and is also called a twisted pair wire.

  Here, the case where a parallel line is adopted as a differential one-pair cable for electrically connecting a transmitter and a receiver will be briefly described. For the channel CH2 of the sound source built-in VDP 1512a in which the length of the wiring for sending the drawing data is extremely longer than the channel CH1 of the sound source built-in VDP 1512a, the door frame side effect transmitter IC 1512d provided on the peripheral control board 1510 Even if it is a mechanism that is difficult to be affected by noise by adopting a differential communication called “V-by-One (registered trademark)” of Co., Ltd., it is only due to electrostatic discharge of a game ball with such a hardware configuration. When serial data on parallel lines is affected by noise, noise entering the power supply line supplied from the pachinko island facility where the pachinko machine 1 is installed, etc., an effect display stored in the dish unit 320 of the door frame 3 For door frame side effects on drive board 4450 Since the noise is not canceled (removed) when it is received by the shiver ICSDIC0, the serial data is received by the door frame side effect receiver ICSDIC0 in an affected state, and is output from the channel CH2 of the sound source built-in VDP1512a. The drawing data to be received is received by the door frame side effect receiver ICSDIC0 as being disturbed different from the normal one. In the display area of the door frame side effect display device 460, a so-called sand storm-like image is displayed. There is a problem that it cannot be recognized at all.

  Therefore, in the present embodiment, the door frame side provided on the peripheral control board 1510 with respect to the channel CH2 of the sound source built-in VDP 1512a in which the length of the wiring for sending drawing data is extremely longer than the channel CH1 of the sound source built-in VDP 1512a. In the transmitter IC1512d for production, the differential communication called “V-by-One (registered trademark)” of Zain Electronics Co., Ltd. is adopted to make it difficult to be affected by noise, and in addition to such hardware configuration Even if differential serial data is affected by noise that enters the wiring, a twisted pair cable that can cancel (remove) the noise on the receiving side is electrically connected between the transmitter and the receiver. It was adopted as a differential 1 pair cable. As a result, even if serial data is affected in the twisted pair cable due to noise caused by electrostatic discharge of the game ball, noise entering the power supply line supplied from the pachinko island facility where the pachinko machine 1 is installed, etc., the door frame Since the noise is canceled (removed) when receiving by the door frame side effect receiver ICSDIC0 provided in the effect display drive board 4450 housed in the third dish unit 320, the channel of the sound source built-in VDP 1512a The drawing data output from CH2 is reliably received by the door frame side effect receiver ICSDIC0 provided in the effect display drive substrate 4450 housed in the dish unit 320 of the door frame 3 and output to the door frame side effect display device 460. By doing so, in the door frame side effect display device 460, the liquid crystal display control unit 151 Image source built VDP1512a has generated a can be reliably displayed. By canceling (removing) the noise, it is possible to prevent the door frame side effect display device 460 from displaying an image that makes it impossible to recognize what the image is like a sandstorm. Therefore, it is possible to suppress a decrease in the player's willingness to play. Therefore, it is possible to suppress a decrease in the player's willingness to play due to the influence of noise.

  In the present embodiment, the door frame side effect transmitter IC 1512d provided in the peripheral control board 1510 and the door frame side effect receiver IC SDIC0 described later provided in the effect display drive board 4450 housed in the dish unit 320 of the door frame 3 are provided. The frame peripheral relay terminal plate 868 and the peripheral door relay terminal plate 882 are interposed between the connections between the transmitter and the receiver, that is, between the transmitter and the receiver. This is because the main body frame 4 and the door frame 3 are not configured integrally, but a structure in which the door frame 3 is attached to the main body frame 4 after being assembled separately is adopted. After the operation of attaching the door frame 3 to the door 4, electrically connect various wirings such as harnesses and twist cables from various boards provided on the door frame 3 side to the peripheral door relay terminal plate 882 provided on the main body frame 4 side. Thus, various substrates provided on the main body frame 4 side and various substrates provided on the door frame 3 side can be electrically connected. With such a configuration, after the door frame 3 is opened from the main body frame 4 and various wirings are removed, the main body frame 4 and the door frame 3 can be maintained by removing the door frame 3 from the main body frame 4. If the problem that occurred in the door frame 3 cannot be resolved, another door frame 3 ′ is attached to the main body frame 4 instead of the defective door frame 3, and the door frame 3 By electrically connecting various wirings from various substrates provided on the 'side to the peripheral door relay terminal plate 882 provided on the main body frame 4 side, various substrates provided on the main body frame 4 side and various types provided on the door frame 3' side The substrate can be electrically connected.

  In the present embodiment, as described above, the door frame side effect transmitter IC 1512d provided on the peripheral control board 1510 employs differential communication called “V-by-One (registered trademark)” of Zain Electronics Co., Ltd. In addition to this hardware configuration, even if differential serial data is affected by noise that enters the wiring, the receiver cancels (removes) the noise. The twisted-pair cable that can be used as a differential one-pair cable that electrically connects the transmitter and the receiver. Specifically, between the peripheral control board 1510 and the frame peripheral relay terminal board 868, between the frame peripheral relay terminal board 868 and the peripheral door relay terminal board 882, and the peripheral door relay terminal board 882 and the effect display drive. The board 4450 and the board 4450 are each electrically connected by a twisted pair cable, while the power supply wiring and other lines for transmitting various signals are electrically connected by a harness. Thereby, in addition to the video transmission wiring pattern for transmitting the serial data by the differential method transmitted by the door frame side effect transmitter IC 1512d, the frame peripheral relay terminal plate 868 and the peripheral door relay terminal plate 882, A power supply wiring pattern and various signal wiring patterns for transmitting various other signals are mixed. For this reason, the above-described video transmission wiring patterns are formed on the frame peripheral relay terminal plate 868 and the peripheral door relay terminal plate 882 by being separated from the power supply wiring pattern and various signal wiring patterns by a predetermined dimension. Since the route from the transmitter to the receiver spans a plurality of relay terminal plates such as the frame peripheral relay terminal plate 868 and the peripheral door relay terminal plate 882, the video transmission formed on the plurality of relay terminal plates is used. Between the input and output of the wiring pattern, there is a problem that a part of the signal for transmitting the serial data by the differential method transmitted by the door frame side effect transmitter IC 1512d is reflected and becomes noise, or the output level of the signal is lowered. Will occur. Therefore, in this embodiment, impedance matching is performed on the video transmission wiring patterns formed on the plurality of relay terminal boards.

  Further, in the present embodiment, as described above, between the peripheral control board 1510 and the frame peripheral relay terminal board 868, between the frame peripheral relay terminal board 868 and the peripheral door relay terminal board 882, and the peripheral door relay. Between the board of the terminal board 882 and the production display drive board 4450, each is electrically connected by a twisted pair cable, whereas in the wiring for transmitting power supply wiring and other various signals, each is electrically connected by a harness. Although one of the twisted pair cables is red and the other is gray, the wiring that supplies power is red and the other multiple wirings are gray. . Note that the power supply wiring may be yellow instead of red.

[7-4-2e. Forced switching circuit, differential circuit]
Signals output from the door frame side effect transmitter IC 1512d are sent to the forced switching circuit 1512f, the peripheral control output circuit (not shown), the frame peripheral relay terminal plate 868, the peripheral door relay terminal plate 882, and the tray unit 320 of the door frame 3. It is transmitted to the stored effect display drive board 4450. The forced switching circuit 1512f includes LOCKN signal output request data which is serial data output from the peripheral control MPU 1511a of the peripheral control unit 1511 of the peripheral control board 1510 in addition to the signal output from the door frame side effect transmitter IC 1512d. Is differentiated into a plus signal and a minus signal in the differencing circuit 1512e. The differential circuit 1512e serializes the LOCKN signal output request data into a differential serial signal (serial data). This LOCKN signal output request data is displayed during the period when the start-up screen at the time of power-on of the pachinko machine 1 is displayed on the game board side effect display device 1600, or in the state of waiting for the customer, and the game board side effect display device 1600 demonstrates. During the period of time, the door frame side effect transmitter IC 1512d provided in the peripheral control board 1510, and the door frame side effect receiver IC SDIC0 described later provided in the effect display drive board 4450 housed in the dish unit 320 of the door frame 3; Is transmitted as an operation confirmation request of the door frame side effect display device 460 in order to confirm whether or not there is a problem in the connection between the transmitters, that is, between the transmitter and the receiver. The forcible switching circuit 1512f is connected to the circuit so as to transmit the two signals that are differentiated into a plus signal and a minus signal in the differentiation circuit 1512e, while transmitting the two signals. When the two signals differentiated into a plus signal and a minus signal are not input in the activating circuit 1512e, the circuit configuration is such that the circuit is connected so as to transmit the signal output from the door frame side effect transmitter IC 1512d. Has been. As a result, when two signals differentiated into a plus signal and a minus signal are input in the differential circuit 1512e, the two signals are connected to each other so as to transmit the two signals. The peripheral control board 1510 transmits the frame peripheral relay terminal board 868, the peripheral door relay terminal board 882, and the effect display drive board 4450 housed in the plate unit 320 of the door frame 3, while the differential circuit 1512e When two signals differentiated into a plus signal and a minus signal are not input, a circuit is connected so as to transmit a signal output from the door frame side effect transmitter IC 1512d. Signals output from the IC 1512d are transmitted from the peripheral control board 1510 to the frame peripheral relay terminal board 868 and the peripheral door relay terminal board 8. 2, and transmitted to the effect display driving board 4450 housed in the dish unit 320 of the door frame 3. The peripheral control MPU 1511a is performing a demonstration by the game board side effect display device 1600 during a period when the start-up screen when the pachinko machine 1 is turned on is displayed on the game board side effect display device 1600, or in a waiting state. In the period, the LOCKN signal output request data is transmitted toward the effect display drive board 4450 (actually, the differential circuit 1512e provided in the peripheral control board 1510) housed in the dish unit 320 of the door frame 3.

  The effect display drive board 4450 accommodated in the dish unit 320 of the door frame 3 receives various serialized signals when the serial signal (serial data) from the peripheral control board 1510 is received by the door frame side effect receiver ICSDIC0 described later. The liquid crystal module circuit 4450V that restores the signal to a parallel signal and outputs the parallel signal to the door frame side effect display device 460 is mainly configured.

  When receiving the drawing data from the sound source built-in VDP 1512a and determining that the received drawing data is abnormal data, the door frame side effect receiver ICSDIC0 transmits a LOCKN signal to be described later to the peripheral door relay terminal board 882. Then, the data is output to the peripheral control board 1510 via the frame peripheral relay terminal board 868. The LOCKN signal is input to the peripheral control MPU 1511a of the peripheral control unit 1511 of the peripheral control board 1510 via a peripheral control input circuit (not shown) of the peripheral control board 1510. Peripheral control MPU 1511a, based on the input LOCKN signal, when a predetermined condition is satisfied, generates an image for informing that effect by controlling sound source built-in VDP 1512a and outputs it to game board side effect display device 1600. Is displayed on the display area of the game board side effect display device 1600 and notified.

  Further, when the door frame side effect receiver ICSDIC0 determines that the two received signals are LOCKN signal output request data, the LOCKN signal described later is transmitted to the peripheral door relay terminal plate 882 and the frame peripheral relay terminal plate 868. Via the peripheral control board 1510. The LOCKN signal is input to the peripheral control MPU 1511a of the peripheral control unit 1511 of the peripheral control board 1510 via a peripheral control input circuit (not shown) of the peripheral control board 1510. Accordingly, the peripheral control MPU 1511a determines that there is no problem in the connection between the transmitter and the receiver when the LOCKN signal is input as a response signal to the transmission of the LOCKN signal output request data. 320, it can be determined that there is no problem with the effect display drive board 4450 housed in 320, but there is a problem with the connection between the transmitter and the receiver when the LOCKN signal is not input. It is determined that a defect has occurred in the effect display drive board 4450 stored in the dish unit 320 of the door frame 3, and a notification image (for example, “a defect has occurred in the upper dish side liquid crystal display device” is reported. Please call the store clerk. ”) Is controlled by the VDP1512a with built-in sound source. In addition to being output to the display device 1600, a notification sound indicating that effect (for example, “a defect has occurred in the upper plate side liquid crystal display device”) is output to the audio data transmission IC 1512c by controlling the VDP 1512a with built-in sound source. As a result, a notification sound flows from the speaker provided in the door frame 3. Thereby, notification can be performed by the notification image displayed in the display area of the game board side effect display device 1600 and the notification sound that repeatedly flows from the speaker or the like provided on the door frame 3. At this time, all of the LEDs for light emitting decoration provided in the door frame 3 and the various LEDs mounted on various decoration boards provided in the game board 5 may be lit.

[7-4-3. RTC control unit]
As shown in FIG. 72, the RTC control unit 4165 that holds calendar information for specifying the year, month, day, and time information for specifying the hour, minute, and second is configured around the RTC 4165a. The RTC 4165a has a built-in RAM 4165aa that holds calendar information and time information (hereinafter referred to as “RTC built-in RAM 4165aa”). The RTC 4165a is supplied with power from a battery 4165b (in this embodiment, a button battery is used) as a driving power source and a backup power source for the RTC built-in RAM 4165aa. That is, the RTC 4165a is not supplied with any power from the peripheral control board 1510 (pachinko machine 1), but is supplied with power from the battery 4165b independently of the peripheral control board 1510 (pachinko machine 1). Thereby, even if the power of the pachinko machine 1 is cut off, the RTC 4165a can update and hold calendar information and time information by supplying power from the battery 4165b.

  The peripheral control MPU 1511a of the peripheral control unit 1511 acquires calendar information and time information from the RTC built-in RAM 4165aa of the RTC 4165a, sets the information in the RTC information acquisition storage area 1511cad of the peripheral control RAM 1511c, and stores the acquired calendar information and time information. An effect based on the game board side effect display device 1600 and the door frame side effect display device 460 can be unfolded. Examples of such effects include a Christmas tree or reindeer screen on December 25 on the game board side effect display device 1600 and door frame side effect display device 460, or a New Year countdown on New Year's Eve. The screen to be executed may be unfolded on the game board side effect display device 1600 and the door frame side effect display device 460. Calendar information and time information are set at the time of factory shipment.

  In addition to calendar information and time information, the RTC built-in RAM 4165aa stores and holds LED brightness setting information when the backlight of the game board side effect display device 1600 is an LED type. Yes. The peripheral control MPU 1511a obtains luminance setting information from the RTC built-in RAM 4165aa and adjusts the luminance of the backlight by PWM control when the backlight of the game board side effect display device 1600 is LED type. . The luminance setting information includes luminance adjustment information for adjusting the range of the luminance of the LED, which is the backlight of the game board side effect display device 1600, from 100% to 70% in increments of 5%, and the currently set game. The brightness of the LED which is the backlight of the board side effect display device 1600 and the door frame side effect display device 460 is included.

  In addition to the calendar information, time information, and brightness setting information, the RTC built-in RAM 4165aa stores the calendar information, time information, and brightness setting information as date, time, hour, minute, and second information that is first stored in the RTC built-in RAM 4165aa. Input date information is also stored.

  When the backlights of the game board side effect display device 1600 and the door frame side effect display device 460 are mounted with a cold cathode tube type, the peripheral control MPU 1511a performs the ON / OFF control of the backlight or only ON. It is supposed to be.

  Various information stored in the RTC built-in RAM 4165aa, such as calendar information, time information, luminance setting information, and input date / time information, is set in the production line of the gaming machine manufacturer. In the production line, for example, in order to perform various tests such as a display test of the game board side effect display device 1600, the year when the input date information is input on the production line as the date and time when the game board side effect display device 1600 was first turned on. Set to the date and time of manufacture, which is the date and time.

  Thus, in addition to calendar information and time information, the RTC built-in RAM 4165aa has brightness setting information and input date / time information when the backlight of the game board side effect display device 1600 is an LED type. In addition, it is possible to store and hold information that needs to be maintained independently of the model information of the pachinko machine 1 (for example, the probability of occurrence of a big hit gaming state with low probability or high probability).

  Also, the brightness setting information stored in the RTC built-in RAM 4165aa may be too bright for the backlight brightness of the game board side effect display device 1600 set at the date of manufacture depending on the environment of the hall where the pachinko machine 1 is installed. It may be too dark. Therefore, by operating the dial operation unit 401 or the pressing operation unit 405 of the effect operation unit 400, the mode can be shifted to the setting mode, and the luminance of the backlight can be adjusted to a predetermined luminance. When the dial operation unit 401 or the press operation unit 405 of the effect operation unit 400 is operated within a predetermined time after the pachinko machine 1 is turned on, a screen for performing the setting mode is displayed on the game board side effect display device 1600. In addition, when the dial operation unit 401 or the press operation unit 405 of the production operation unit 400 is operated during the period when the game board side production display device 1600 is in the waiting state and the demonstration operation is performed, the setting mode is performed. Is displayed on the game board side effect display device 1600. By operating the dial operation unit 401 and the pressing operation unit 405 of the effect operation unit 400 according to the setting mode screen, the calendar information and time information can be reset, or the backlight brightness of the game board side effect display device 1600 can be set as desired. Or adjust the brightness. The adjusted desired luminance of the backlight of the game board side effect display device 1600 is overwritten (updated) as the luminance of the LED stored in the luminance setting information.

  In the setting mode, the peripheral control MPU 1511a executes the above-described brightness correction program, so that when the backlight of the game board side effect display device 1600 is an LED type, the game board side effect is provided. The luminance decrease due to the secular change of the display device 1600 is corrected. The peripheral control MPU 1511a obtains input date / time information from the RTC built-in RAM 4165aa of the RTC control unit 4165, specifies the date / time when the game board side effect display device 1600 is first turned on, and specifies calendar information and time for specifying the year / month / day. Time information that specifies minutes and seconds is acquired, the current date and time are specified, and the brightness range of the LED, which is the backlight of the game board side effect display device 1600, is adjusted in increments of 5%. Brightness setting information including brightness adjustment information for performing and the brightness of the LED that is the backlight of the game board side effect display device 1600 that is currently set. The acquired luminance setting information is corrected based on correction information stored in advance in the peripheral control ROM 1511b.

  For example, if the game board side effect display device 1600 is first turned on and the current date and time, and June has already passed since the game board side effect display device 1600 is first turned on, When the corresponding correction information (for example, 5%) is acquired from the peripheral control ROM 1511b and the backlight of the game board side effect display device 1600 is turned on when the brightness of the LED included in the brightness setting information is 75%, the 75% The luminance of the backlight of the game board side effect display device 1600 is adjusted based on the luminance adjustment information included in the luminance setting information so that the luminance is further increased by 5%, which is the correction information acquired with respect to. And when the game board side effect display device 1600 is first turned on, December has already passed, and the peripheral control ROM 15 When the corresponding correction information (for example, 10%) is acquired from 1b and the backlight of the game board side effect display device 1600 is turned on when the luminance of the LED included in the luminance setting information is 75%, The luminance of the backlight of the game board side effect display device 1600 is adjusted based on the luminance adjustment information included in the luminance setting information so that the luminance is further increased by 10% which is the correction information acquired in this way. Light.

  The current date and time may be specified by acquiring calendar information for specifying the date and time and time information for specifying the hour, minute, and second directly from the RTC built-in RAM 4165aa of the RTC control unit 4165, or a peripheral described later. Current calendar information set in the calendar information storage unit and updated by the system of the peripheral control board 1510 in the RTC information acquisition storage area 1511cad of the peripheral control RAM 1511c in the current time information acquisition process of step S1002 in the control unit power-on process And the current time information set in the time information storage unit and updated by the system of the peripheral control board 1510 may be acquired to identify the current date and time.

[834. Volume adjustment volume]
As described above, the volume adjustment volume 1510a can adjust the volume of music, sound effects, and the like flowing from the speaker 921 and the upper speaker 573 by rotating the knob portion. As described above, the volume adjustment volume 1510a is configured such that the resistance value can be changed by rotating the knob portion, and the electrically connected peripheral control A / D converter 1511ak can The voltage divided by the resistance value at the rotational position is converted from an analog value to a digital value, and converted into a value in 1024 steps from 0 to 1023. In the present embodiment, as described above, the values of the 1024 steps are divided into seven and managed as the substrate volumes 0 to 6. The substrate volume 0 is set to mute, the substrate volume 6 is set to the maximum volume, and the volume is set to increase from the substrate volume 0 toward the substrate volume 6. The liquid crystal display control unit 1512 (sound source built-in VDP 1512a) is controlled so that the volume is set to the substrate volume 0 to 6, and music and sound effects flow from the speaker 921 and the upper speaker 573.

  In this way, music and sound effects flow from the speaker 921 and the upper speaker 573 by adjusting the volume based on the turning operation of the knob portion. In the present embodiment, as described above, in addition to music and sound effects, a notification sound for notifying a hall clerk or the like of the occurrence of a malfunction of the pachinko machine 1 or an illegal act against the pachinko machine 1 or a game effect. (E.g., to produce a more powerful screen on the game board side effect display device 1600, or to announce that there is a high possibility of shifting to a game state advantageous to the player) Etc.) also flows from the speaker 921 and the upper speaker 573, but the notification sound and notification sound flow without depending on the volume adjustment based on the turning operation of the knob part. The volume up to the maximum volume can be adjusted by controlling the liquid crystal display control unit 1512 (sound source built-in VDP 1512a) by a program.

  The volume adjusted by this program can be smoothly changed from the mute to the maximum volume, unlike the substrate volume divided into the above seven stages. Thus, for example, even when a hall clerk or the like rotates the knob portion of the volume adjustment volume 1510a to set the volume to a low level, production sounds such as music and sound effects that flow from the speaker 921 and the upper speaker 573 However, when a malfunction occurs in the pachinko machine 1 or when the player is cheating, a notification sound set to a high volume (in this embodiment, the maximum volume) can be played. Therefore, even if the volume of the effect sound is reduced, it is possible to prevent the hall clerk or the like from becoming difficult to notice the occurrence of a malfunction or the player's cheating due to the notification sound.

  Also, based on the current board volume set by volume adjustment based on the turning operation of the knob part, the volume of the advertisement sound is reduced so as not to interfere with the music and sound effects. In addition to music and sound effects, the screen displayed on the game board side effect display device 1600 and the door frame side effect display device 460 is rendered more powerful, which is advantageous for the player. It is also possible to notify that there is a high possibility that the game state will be entered.

  In the present embodiment, in addition to adjusting the volume of music and sound effects by turning the knob of the volume adjustment volume 1510a, the dial operation unit 401 of the effect operation unit 400 and the like. By operating the pressing operation unit 405, it is possible to shift to the setting mode and adjust the volume of music and sound effects. When the dial operation unit 401 or the press operation unit 405 of the effect operation unit 400 is operated within a predetermined time after the pachinko machine 1 is turned on, a screen for performing the setting mode is displayed on the game board side effect display device 1600. In addition, when the dial operation unit 401 or the press operation unit 405 of the production operation unit 400 is operated during the period when the game board side production display device 1600 is in the waiting state and the demonstration operation is performed, the setting mode is performed. Is displayed on the game board side effect display device 1600. By operating the dial operation unit 401 and the pressing operation unit 405 of the effect operation unit 400 according to the setting mode screen, the volume of music and sound effects can be adjusted to a desired volume. Specifically, the peripheral control A / D converter 1511ak converts the voltage divided by the resistance value at the rotational position of the knob portion of the volume adjustment volume 1510a from an analog value to a digital value. Thus, by adding or subtracting a predetermined value according to the operation of the dial operation unit 401 or the pressing operation unit 405 of the production operation unit 400, the value of the substrate volume can be increased or decreased. Yes. This adjusted volume is set and updated as a sub-volume value for a track in which sound data of effect sound such as music or sound effect is incorporated among a plurality of tracks in the sound source of the built-in sound source VDP 1512a. However, it is not reflected in the adjustment of the volume of the notification sound or notification sound described above.

  As described above, in the present embodiment, the volume of music or sound effects is adjusted by directly rotating the knob of the volume adjustment volume 1510a, and the dial operation unit 401 or the press operation unit 405 of the effect operation unit 400. There are two methods of adjusting the volume of music and sound effects by increasing or decreasing the value of the substrate volume by adding or subtracting a predetermined value in accordance with the above operation. Since the volume adjustment volume 1510a is mounted on the peripheral control board 1510, it is necessary to make the main body frame 4 always open from the outer frame 2. Then, it is a hall clerk who can turn the knob of the volume control volume 1510a. However, at the volume adjusted by the hall clerk, it may be difficult for the player to hear the music or sound effect, or may be loud for the player to feel the music or sound effect. Therefore, within a predetermined time after the power of the pachinko machine 1 is turned on, the dial operation unit 401 and the press operation unit 405 of the production operation unit 400 are operated, or a demonstration is performed by the game board side production display device 1600 in a waiting state. When the dial operation unit 401 or the pressing operation unit 405 of the production operation unit 400 is operated during the period being performed, a screen for performing the setting mode is displayed on the game board side production display device 1600, By operating the dial operation unit 401 and the pressing operation unit 405 of the effect operation unit 400 according to the setting mode screen, the volume of music and sound effects can be adjusted to a desired volume. Thus, the player can adjust the volume of the music and sound effects to a desired volume. Therefore, when the volume of the hall clerk feels low and it is difficult to hear the music and sound effects, the production operation unit 400 The dial operation unit 401 and the pressing operation unit 405 can be operated to increase the volume to a desired level. When the volume adjusted by the hall clerk feels loud and music or sound effects are felt, the production operation unit The dial operation unit 401 and the pressing operation unit 405 of 400 can be operated to reduce the volume to a desired level.

  Further, in the present embodiment, when the pachinko machine 1 is not playing a game, the state is continued for a predetermined time, and when the game board side effect display device 1600 is repeatedly demonstrationd (for example, 10 times). The volume adjusted by the player who was sitting on the front surface of the pachinko machine 1 and playing the game last time is canceled, and the volume is initialized. In the initialization of the volume, the volume adjusted by the hall clerk, that is, the volume adjusted by the hall clerk by directly rotating the knob portion of the volume adjustment volume 1510a. As a result, if it is difficult to hear the music or sound effect by adjusting the volume adjusted by the player who was sitting on the front of the pachinko machine 1 last time and adjusting the volume, this time, the player is seated on the front of the pachinko machine 1. A player who plays a game can operate the dial operation unit 401 and the press operation unit 405 of the production operation unit 400 to increase the volume to a desired level, and sits on the front surface of the pachinko machine 1 and plays a game last time. If the player feels loud and the music and sound effects are noisy, the player who sits on the front surface of the pachinko machine 1 and plays a game this time will have the dial operation unit 401 of the production operation unit 400 or the like. The pressing operation unit 405 can be operated to reduce the volume to a desired level.

[8. Power system]
Next, the power supply system of the pachinko machine 1 will be described with reference to FIGS. 75 and 76. FIG. 75 is a block diagram showing a power supply system of a pachinko machine, and FIG. 76 is a block diagram showing a continuation of FIG. First, the power supply board 931 will be described, and then the power supplied to each control board will be described. Note that the grounds (GND) of the various substrates and the grounds (GND) of the various terminal boards are electrically connected to the ground (GND) of the power supply substrate 931 and are the same ground (GND).

[8-1. Power supply board 931]
The power board 931 is electrically connected to a power cord, and the plug of the power cord is inserted into a power outlet of the pachinko island facility. When the power switch 934 is operated, the power supplied from the pachinko island facility is supplied to the power supply board 931, and the pachinko machine 1 can be turned on.

  As shown in FIG. 75, the power supply board 931 includes a power supply control unit 935 and a launch control unit 953. The power supply control unit 935 is a circuit that creates various DC voltages from AC 24 volts (AC24V) supplied from the Pachinko Island facility, and supplies backup power to the main control board 1310 and the payout control board 951. The unit 953 is a circuit that drives and controls the firing solenoid 682 of the ball striking device 650 shown in FIG. 5 and the ball feeding solenoid 255 of the ball feeding unit 250 shown in FIG.

  The power supply control unit 935 includes a synchronous rectification circuit 935a, a power factor correction circuit 935b, a smoothing circuit 935c, a power generation circuit 935d, and capacitors BC0 and BC1. The AC 24V supplied from the pachinko island facility is supplied to the gaming ball lending device connection terminal plate 869 via the power supply board 931 and also to the synchronous rectifier circuit 935a. The synchronous rectification circuit 935a rectifies 24 volt (AC24V) supplied from the Pachinko Island facility and supplies the rectified current to the power factor correction circuit 935b. The power factor improvement circuit 935b improves the power factor of the rectified power to create a direct current + 37V (DC + 37V, hereinafter referred to as “+ 37V”) and supplies it to the smoothing circuit 935c. The smoothing circuit 935c removes the supplied + 37V ripple, smoothes + 37V, and supplies the smoothed voltage to the launch control circuit 953a and the power generation circuit 935d of the launch control unit 953.

  The capacitor BC0 supplies backup power to a RAM (main control built-in RAM) built in the main control MPU 1310a of the main control board 1310, and the capacitor BC1 is built in the payout control MPU 952a of the payout control unit 952 in the payout control board 951. A backup power source is supplied to the RAM (payout control built-in RAM).

  The launch control circuit 953a of the launch control unit 953 uses the + 37V supplied from the smoothing circuit 935c as a driving power supply, and the game area 5a shown in FIG. 1 with a launch strength (launch strength) corresponding to the rotational position of the handle 302. While controlling the drive current for launching (firing) toward the direction and outputting it to the firing solenoid 682, the constant current is output to the ball feed solenoid 255 of the ball feed unit 250 to thereby control the ball of the ball feed unit 250. The feeding member receives one game ball stored in the upper plate 321 of the dish unit 320, and controls to send the game ball received by the ball feeding member to the hitting ball hitting device 650.

  The power supply generation circuit 935d is supplied from the smoothing circuit 935c with + 37V to DC + 5V (DC + 5V, hereinafter referred to as “+ 5V”), DC + 12V (DC + 12V, hereinafter referred to as “+ 12V”), and DC. + 24V (DC + 24V, hereinafter referred to as “+ 24V”) is created and supplied to the payout control board 951 and the frame peripheral relay terminal board 868, respectively. The power supply system supplied with + 5V is the + 5V power supply line, the power supply system supplied with + 12V is supplied with the + 12V power supply line, and the power supply system supplied with + 24V is supplied with the + 24V power supply line.

  + 5V generated by the power supply generation circuit 935d is supplied to the payout control board 951 as described later. + 5V supplied to the payout control board 951 is applied to the power supply terminal of the payout control MPU 952a via the payout control filter circuit 951a, and is applied to the power supply terminal of the payout control built-in RAM via the diode PD0. ing. + 12V generated by the power supply generation circuit 935d is supplied to the + 5V generation circuit 1310g of the main control board 1310 via the payout control board 951. The + 5V creation circuit 1310g creates + 5V that is the control reference voltage of the main control MPU 1310a from + 12V from the payout control board 951. + 5V created by the + 5V creation circuit 1310g is supplied to the power supply terminal of the main control MPU 1310a via the main control filter circuit 1310h, and is also supplied to the power supply terminal of the main control built-in RAM via the diode MD0. ing.

  The negative terminal of the capacitor BC1 of the power supply board 931 is grounded to the ground (GND), while the positive terminal of the capacitor BC1 is electrically connected to the power supply terminal of the payout control built-in RAM of the payout control board 951, and is paid out. The cathode terminal of the diode PD0 on the control board 951 is also electrically connected. That is, + 5V created by the power supply creation circuit 935d of the power supply board 931 flows toward the power supply terminal of the payout control MPU 952a, and the power supply terminal of the payout control built-in RAM, which is forward by the diode PD0, and the capacitor BC1 Current flows to the positive terminal. As described above, the capacitor BC1 has an electrical connection method in which + 5V generated by the power generation circuit 935d of the power supply board 931 returns to the payout control board 951, and then returns again from the payout control board 951 to the power supply board 931. Is supplied and can be charged. As a result, when + 5V created by the power supply creation circuit 935d is not supplied to the payout control board 951, the charge charged in the capacitor BC1 is supplied to the payout control board 951 as payout VBB. Therefore, although the current is blocked by the diode PD0 and does not flow to the power supply terminal of the payout control MPU 952a and the payout control MPU 952a does not operate, the stored contents are retained by supplying the payout VBB to the power supply terminal of the payout control built-in RAM. It has become so.

  The negative terminal of the capacitor BC0 of the power supply board 931 is grounded to the ground (GND), while the positive terminal of the capacitor BC0 is electrically connected to the power supply terminal of the main control built-in RAM of the main control board 1310 via the payout control board 951. And is also electrically connected to the cathode terminal of the diode MD0 of the main control board 1310. In other words, + 5V created by the + 5V creation circuit 1310g is such that current flows toward the power supply terminal of the main control MPU 1310a, and the power supply terminal of the main control built-in RAM, which is forward by the diode MD0, and the positive terminal of the capacitor BC0, An electric current flows toward. In this way, the capacitor BC0 is charged with + 5V supplied by the electrical connection method in which + 5V generated by the + 5V generating circuit 1310g is supplied from the main control board 1310 and the payout control board 951 to the power supply board 931. Can be done. As a result, + 12V created by the power supply creation circuit 935d of the power supply board 931 is not supplied to the + 5V creation circuit 1310g of the main control board 1310 via the payout control board 951, and the + 5V creation circuit 1310g can create + 5V. When the charge is lost, the electric charge charged in the capacitor BC0 is supplied as the main VBB to the main control board 1310 via the payout control board 951. Therefore, a diode is connected to the power supply terminal of the main control MPU 1310a. Although the main control MPU 1310a does not operate because the current is blocked by MD0 and the main control MPU 1310a does not operate, the main VBB is supplied to the power supply terminal of the main control built-in RAM so that the stored contents are held. Thus, in the pachinko machine 1 according to this embodiment, the backup power supply circuit that supplies the backup power to the main control built-in RAM is constituted by the diode MD0 and the capacitor BC0.

[8-2. Voltage supplied to each control board]
Next, an outline of the voltage supplied to each control board and the like will be described, and subsequently, the voltage supplied mainly to the payout control board and the voltage supplied to the main control board will be described.

  As shown in FIG. 75, three types of voltages of + 5V, + 12V, and + 24V generated by the power generation circuit 935d of the power supply board 931 are supplied to the payout control board 951, and among these three types of voltages, + 12V and Two types of voltages of +24 V are supplied to the main control board 1310 via the payout control board 951. Also, three types of voltages, + 5V, + 12V, and + 24V, created by the power generation circuit 935d of the power supply board 931, are supplied to the frame peripheral relay terminal plate 868, and through the frame peripheral relay terminal plate 868, the peripheral It is supplied to the control board 1510 and the peripheral door relay terminal board 882, respectively.

  Three types of voltages, + 5V, + 12V, and + 24V, supplied to the peripheral control board 1510 are shown in FIG. 76A. The lamp drive circuit 4170a of the lamp drive board 4170 and the drive source drive circuit of the motor drive board 4180 are provided. 4180a, respectively. The lamp driving circuit 4170a of the lamp driving board 4170 outputs various signals such as a lighting signal, a blinking signal, and a gradation lighting signal to various decorative boards of the game board 5, and the driving source driving circuit 4180a of the motor driving board 4180 is a game. A drive signal is output to an electrical drive source such as a motor or solenoid of the panel 5.

  The peripheral control board 1510 includes a + 3.3V creation circuit 1510b that creates 3.3V DC (DC + 3.3V, hereinafter referred to as “+ 3.3V”) from + 5V supplied from the frame peripheral relay terminal plate 868. ing. + 3.3V created by the + 3.3V creation circuit 1510b is supplied to the liquid crystal module 1600a of the game board side effect display device 1600. Further, + 12V supplied to the peripheral control board 1510 is supplied to the backlight power source 1600b of the game board side effect display device 1600.

  On the other hand, three types of voltages, + 5V, + 12V, and + 24V, supplied to the peripheral door relay terminal plate 882 are supplied to the frame decoration drive amplifier board 194 as shown in FIG. 76 (b). The frame decoration drive amplifier board 194 includes a + 9V creating circuit 194a that creates DC + 9V (DC + 9V, hereinafter referred to as “+ 9V”) from + 12V supplied from the peripheral door relay terminal board 882. Along with + 9V created by the + 9V creation circuit 194a, a total of four voltages, + 5V, + 12V, and + 24V, supplied from the peripheral door relay terminal plate 882, are supplied to various decorative boards and the like of the door frame 3.

  Further, + 12V supplied to the peripheral door relay terminal plate 882 is supplied to the upper plate side liquid crystal module power supply circuit 4450x. The plate side liquid crystal module power supply circuit 4450x creates + 12V to + 3.3V. + 3.3V created by the upper plate side liquid crystal module power supply circuit 4450x is supplied to various electronic components constituting the liquid crystal module circuit 4450V shown in FIG. And the door frame side effect display device 460, respectively. The voltage created by the upper plate side liquid crystal module backlight power supply circuit 4450y is supplied to the door frame side effect display device 460.

[8-2-1. Voltage supplied to dispensing control board]
As shown in FIG. 75, the payout control board 951 includes a payout control filter circuit 951a in addition to the payout control MPU 952a. The payout control filter circuit 951a is supplied with + 5V from the power supply board 931 and removes noise from the + 5V. In addition to being supplied to the capacitor BC1 of the power supply substrate 931 via the diode PD0, this + 5V is supplied to, for example, the payout control MPU 952a of the payout control unit 952. + 12V from the power supply board 931 is supplied to, for example, the payout control input circuit 952b of the payout control unit 952, and is also supplied to the external communication circuit 784a of the external terminal board 784 via the payout control board 951. The external communication circuit 784a of the external terminal board 784 outputs a signal that conveys the number of game balls paid out by the pachinko machine 1 and game information of the pachinko machine 1 to a hall computer installed in the game hall (hall). It is. The hall computer monitors the game of the player by grasping the number of game balls paid out by the pachinko machine 1 and the game information of the pachinko machine 1 from the signal output from the external communication circuit 784a. Note that +24 from the power supply board 931 is supplied to the main control board 1310 via the payout control board 951 without being used in the payout control board 951 at all.

[8-2-2. Voltage supplied to main control board]
As shown in FIG. 75, the main control board 1310 includes a + 5V creation circuit 1310g, a main control filter circuit 1310h, a power failure monitoring circuit 1310e, and the like in addition to the main control MPU 1310a. The + 5V creation circuit 1310g is supplied with + 12V from the power supply board 931 via the payout control board 951, and creates + 5V that is the control reference voltage of the main control MPU 1310a from this + 12V. In the main control board 1310, the power supply system supplied with + 5V generated by the + 5V generating circuit 1310g is the + 5V power supply line. In the present embodiment, the + 5V power supply line created by the power supply creation circuit 935d of the power supply board 931 and the + 5V power supply line created by the + 5V creation circuit 1310g of the main control board 1310 are not electrically connected. Thus, the + 5V power supply line created by the power supply creation circuit 935d of the power supply board 931 is not electrically connected to various electronic components of the main control board 1310, and the + 5V of the main control board 1310 is not connected. The + 5V power supply line created by the creation circuit 1310g is not electrically connected to various electronic components such as other boards other than the main control board 1310.

  The main control filter circuit 1310h is supplied with + 5V created by the + 5V creation circuit 1310g, and removes noise from this + 5V. In addition to being supplied to the capacitor BC0 of the power supply substrate 931 via the diode MD0, this + 5V is supplied to, for example, the main control MPU 1310a. For example, + 12V from the payout control board 951 is supplied to the main control input circuit 1310b and the like, and + 24V from the payout control board 951 is supplied to the main control solenoid drive circuit 1310d and the like, for example.

  The power failure monitoring circuit 1310e is supplied with + 12V and + 24V from the power supply board 931 via the payout control board 951, and monitors these + 12V and + 24V power failure or signs of instantaneous power failure. The power failure monitoring circuit 1310e outputs a power failure warning signal to the main control MPU 1310a as a power failure warning when detecting a sign of + 12V and + 24V power failure or instantaneous power failure. The power failure notice signal is input to the payout control MPU 952a via the main control board 1310 and the payout control input circuit 952b of the payout control board 951. The power failure notice signal is input to the peripheral control board 1510 via the main control board 1310. The power failure warning signal is input to the frame decoration drive amplifier board 194 through the peripheral control board 1510, the frame peripheral relay terminal board 868, and the peripheral door relay terminal board 882 as shown in FIG. At the same time, the frame decoration drive amplifier board 194 is inputted to the decoration board of the door frame.

  In this embodiment, the power failure monitoring circuit 1310e is applied to one of the + 12V power line and the + 24V power line by monitoring the voltages applied to the two power lines, the + 12V power line and the + 24V power line, respectively. Compared with the case where the voltage to be monitored is monitored, it is possible to more accurately grasp the sign of power interruption such as a power failure or instantaneous power failure.

[9. Main control board circuit]
Next, the circuit of the main control board 1310 shown in FIG. 69 will be described with reference to FIGS. 77 is a circuit diagram showing a circuit of the main control board, FIG. 78 is a circuit diagram showing a power failure monitoring circuit, and FIG. 79 is a circuit showing an interface circuit for communication between the main control board and the peripheral control board. FIG. First, the main control filter circuit 1310h shown in FIG. 75 will be described, followed by the power source, main control system reset, main control crystal oscillator, main control input circuit, power failure monitoring circuit, main control MPU created by the main control board 1310. Various input / output signals to and from the main control board 1310 and the peripheral control board 1510 will be described.

  69 and 75, the main control board 1310 includes a main control MPU 1310a, a main control input circuit 1310b, a main control output circuit 1310c, a main control solenoid drive circuit 1310d, a power failure monitoring circuit 1310e, a + 5V creation circuit 1310g, In addition to the control filter circuit 1310h, as a peripheral circuit, as shown in FIG. 77, a main control system reset MIC1 that outputs a reset signal, a main control crystal oscillator MX0 that outputs a clock signal (in this embodiment, 24 MHz (MHz )) Mainly.

[9-1. Main control filter circuit]
As shown in FIG. 77, the main control filter circuit 1310h mainly includes a main control three-terminal filter MIC0. This main control three-terminal filter MIC0 is a T-type filter circuit, and has excellent attenuation characteristics magnetically shielded with ferrite. In the main control three-terminal filter MIC0, + 5V generated by the + 5V generating circuit 1310g is applied to the first terminal, the second terminal is grounded to the ground (GND), and noise components are removed from the third terminal. + 5V is output. + 5V applied to the first terminal is electrically connected to the other end of the capacitor MC0 whose one end is connected to the ground (GND), so that the ripple (AC component superimposed on the voltage) is first removed. Smoothed.

  + 5V output from the third terminal is electrically connected to the other end of the capacitor MC1 and the electrolytic capacitor MC2 (capacitance: 470 microfarad (μF) in this embodiment), one end of which is grounded with the ground (GND). By connecting to, ripples are further removed and smoothed. The smoothed + 5V is applied to the power supply terminal of the main control system reset MIC1, the VDD terminal that is the power supply terminal of the main control crystal oscillator MX0, the VDD terminal that is the power supply terminal of the main control MPU 1310a, and the like. Note that the power supply terminal of the main control MPU 1310a has a power failure or a momentary power failure, and when the power supply from the pachinko island facility is cut off, the electric charge charged in the electrolytic capacitor MC2 is a power failure or a momentary power failure. It is applied as +5 V over a period of about 7 milliseconds (ms) after the occurrence.

  One end of the VDD terminal of the main control MPU 1310a is electrically connected to the other end of the capacitor MC3 which is grounded to the ground (GND), and + 5V applied to the VDD terminal is further smoothed by removing ripples. The VSS terminal, which is the ground terminal of the main control MPU 1310a, is grounded to the ground (GND).

  Further, the VDD terminal of the main control MPU 1310a is electrically connected to the anode terminal of the diode MD0 in addition to being electrically connected to the capacitor MC3. The cathode terminal of the diode MD0 is electrically connected to the VBB terminal which is a power supply terminal of a RAM (main control built-in RAM) built in the main control MPU 1310a, and one end of the capacitor MC4 is grounded to the ground (GND). Is electrically connected to the other end. In addition to being electrically connected to the cathode terminal of the diode MD0 and the other end of the capacitor MC4, the VBB terminal of the main control built-in RAM is connected to the plus of the capacitor BC0 of the power supply board 931 shown in FIG. It is electrically connected to the terminal. That is, + 5V smoothed by removing the noise component by the main control filter circuit 1310h is applied to the VDD terminal of the main control MPU 1310a, and via the diode MD0, the VBB terminal of the main control built-in RAM and the capacitor BC0. Are applied to the positive terminal. Thereby, as described above, + 12V generated by the power generation circuit 935d of the power supply board 931 shown in FIG. 75 is not supplied to the + 5V generation circuit 1310g of the main control board 1310 via the payout control board 951, and + 5V is generated. When the circuit 1310g cannot create + 5V, the electric charge charged in the capacitor BC0 is supplied to the main control board 1310 as the main VBB, so that the VDD terminal of the main control MPU 1310a has Although the current is blocked by the diode MD0 and does not flow and the main control MPU 1310a does not operate, the stored contents are held by applying the main VBB to the VBB terminal of the main control built-in RAM.

[9-2. Main control system reset]
As shown in FIG. 77, +5 V smoothed by removing the noise component by the main control filter circuit 1310h is applied to the power supply terminal of the main control system reset MIC1. The main control system reset MIC1 resets the main control MPU 1310a and the main control output circuit 1310ca with reset function, and has a built-in delay circuit. One end of the delay capacitor terminal of the main control system reset MIC1 is electrically connected to the other end of the capacitor MC5 grounded to the ground (GND), and the delay time by the delay circuit is set by the capacitance of the capacitor MC5. Be able to. Specifically, when + 5V input to the power supply terminal reaches a threshold value (for example, 4.25V), main control system reset MIC1 outputs a system reset signal from the output terminal after the delay time has elapsed.

  The output terminal of the main control system reset MIC1 is electrically connected to the SRST terminal that is a reset terminal of the main control MPU 1310a and the reset terminal of the main control output circuit 1310ca with reset function. The output terminal is an open collector output type, one end of which is electrically connected to the other end of the pull-up resistor MR1 that is electrically connected to the + 5V power line, and the other end is a capacitor that is grounded to the ground (GND). It is electrically connected to the other end of MC6. Ripple is removed and smoothed by the capacitor MC6. When the voltage input to the power supply terminal is larger than the threshold value, the output terminal is pulled up to + 5V by the pull-up resistor MR1 and the logic becomes HI. This logic is the SRST terminal of the main control MPU 1310a and the main control output with reset function. When the voltage inputted to the reset terminal of the circuit 1310ca is lower than the threshold value, the logic becomes LOW, and this logic becomes the SRST terminal of the main control MPU 1310a and the main control output circuit 1310ca with reset function. Each is input to the reset terminal. Since the SRST terminal of the main control MPU 1310a and the reset terminal of the main control output circuit 1310ca with reset function are negative logic inputs, respectively, the main control MPU 1310a and the reset function when the voltage input to the power supply terminal is smaller than the threshold value. The attached main control output circuit 1310ca is reset. The power supply terminal is electrically connected to the other end of the capacitor MC7 whose one end is grounded (GND), and + 5V input to the power supply terminal is smoothed by removing ripples. The ground terminal is grounded with the grant (GND), and the NC terminal is not electrically connected to the outside.

[9-3. Main control crystal oscillator]
As shown in FIG. 77, + 5V smoothed by removing the noise component by the main control filter circuit 1310h is applied to the VDD terminal which is the power supply terminal of the main control crystal oscillator MX0. The VDD terminal is electrically connected to the other end of the capacitor MC8 whose one end is grounded (GND), and + 5V input to the VDD terminal is smoothed by further removing ripples. In addition to the VDD terminal, the smoothed + 5V is also applied to the A terminal, B terminal, C terminal, and ST terminal, which are output frequency selection terminals. The main control crystal oscillator MX0 outputs a clock signal of 24 MHz from the F terminal which is an output terminal by applying + 5V to these A terminal, B terminal, C terminal and ST terminal.

  The F terminal of the main control crystal oscillator MX0 is electrically connected to the CLK terminal, which is the clock terminal of the main control MPU 1310a, and a 24 MHz clock signal is input. Note that the GND terminal, which is the ground terminal of the main control crystal oscillator MX0, is grounded to the ground (GND), and the D terminal that outputs the divided frequency of the F terminal of the main control crystal oscillator MX0 is not electrically connected to the outside. It is in a state.

[9-4. Main control input circuit]
The main control input circuit 1310b detects from the general winning opening sensors 4020 and 4020, the first starting opening sensor 4002, the second starting opening sensor 4004, the magnetic detection sensor 4024, the count sensor 4005, and the gate sensor 4003 shown in FIG. In addition to the signal, this is a circuit to which an operation signal (RAM clear signal) or the like from an operation switch 954 provided in the payout control board 951 shown in FIG. 70 is input. Since the circuit configuration to which the detection signal from each switch is input is the same, here, a circuit to which the operation signal (RAM clear signal) from the operation switch 954 is input will be described.

[9-4-1. A circuit to which an operation signal (RAM clear signal) is input from the operation switch]
First, as described above, the operation switch 954 includes a RAM (payout control built-in RAM) built in the payout control MPU 952a of the payout control board 951 and a main control of the main control board 1310 within a predetermined period from when the power is turned on. It is operated when clearing the RAM (main control built-in RAM) built in the MPU 1310a, or when an error is notified after the power is turned on, it is operated to cancel the error. Function to clear RAM within a predetermined period from power-on, and error cancellation after power-on (after a period during which the function is performed as RAM clear, that is, after a predetermined period elapses from power-on) And a function of performing Since the main control board 1310 does not have the function of canceling the error that the payout control board 951 has, if the operation signal from the operation switch 954 is input within a predetermined period from when the power is turned on, the main control board 1310 A process of clearing the main control built-in RAM is performed as a RAM clear signal for clearing the built-in RAM.

  When the operation switch 954 is not operated, the main control board 1310 receives an operation signal whose logic is LOW from the payout control board 951, while when the operation switch 954 is operated, the main control board 1310 receives a logic from the payout control board 951. The operation signal in which HI becomes HI is input from the payout control board 951 (detailed description of this point will be described later).

  As shown in FIG. 77, the transmission line for transmitting the operation signal from the operation switch 954 provided in the payout control board 951 within a predetermined period from the time of turning on the power is a pull-up in which one end is electrically connected to the + 12V power line. It is electrically connected to the other end of the resistor MR2 and electrically connected to the base terminal of the transistor MTR0 via the resistor MR3. In addition to being electrically connected to the resistor MR3, the base terminal of the transistor MTR0 is also electrically connected to the other end of the resistor MR4 that is grounded to the ground (GND). The emitter terminal of the transistor MTR0 is grounded to the ground (GND), and the collector terminal of the transistor MTR0 is electrically connected to the other end of the resistor MR5, one end of which is electrically connected to the + 5V power supply line, and a non-inverting buffer. Main control via ICMIC 10 (non-inverted buffer ICMIC 10 includes eight non-inverted buffer circuits, and the signal waveform input to one of them (MIC 10A) is shaped and output without being inverted). The MPU 1310a is electrically connected to the input terminal PA0 of the input port PA.

  The circuit that outputs the operation signal from the operation switch 954 on the payout control board 951 is configured as an open collector output type in which the emitter terminal is grounded to the ground (GND), and transmits the operation signal from the operation switch 954. The line is pulled up to the + 12V side by the pull-up resistor MR2. In the main control board 1310, when the operation switch 954 is not operated, the operation signal from the payout control board 951 is pulled down to the ground (GND) side and the logic is input as LOW, while the operation switch 954 is operated. The operation signal from the payout control board 951 is pulled up to the + 12V side by the pull-up resistor MR2 and the logic is input as HI.

  A circuit composed of the resistors MR3 and MR4 and the transistor MTR0 is a switch circuit that is turned ON / OFF by an operation signal from the operation switch 954.

  When the operation switch 954 is not operated, an operation signal whose logic is LOW is input to the base terminal of the transistor MTR0, whereby the transistor MTR0 is turned off and the switch circuit is also turned off. As a result, the voltage applied to the collector terminal of the transistor MTR0 is pulled up to the + 5V side by the resistor MR5 and the operation signal from the operation switch 954 whose logic becomes HI is input to the input terminal PA0 of the input port PA of the main control MPU 1310a. Is done. The main control MPU 1310a does not instruct to perform RAM clear that erases information stored in the main control built-in RAM when the logical value of the operation signal from the operation switch 954 input to the input terminal PA0 is HI. to decide.

  On the other hand, when the operation switch 954 is being operated, an operation signal that has been pulled up to +12 V by the pull-up resistor MR2 and has a logic level HI is input to the base terminal of the transistor MTR0, so that the transistor MTR0 is turned on. The circuit is also turned on. As a result, the operation signal from the operation switch 954 whose logic is LOW when the voltage applied to the collector terminal of the transistor MTR0 is pulled down to the ground (GND) side is input to the input terminal PA0 of the input port PA of the main control MPU 1310a. Is done. The main control MPU 1310a instructs the RAM clear to erase the information stored in the main control built-in RAM when the logical value of the operation signal from the operation switch 954 input to the input terminal PA0 is LOW. Judge.

  The operation signal from the operation switch 954 is pulled up to the + 12V side by the pull-up resistor MR2. This is because an operation signal from the operation switch 954 is input via the payout control board 951. That is, between the boards of the main control board 1310 and the payout control board 951, it is higher than the control reference voltage +5 V in order to suppress the influence of noise entering the wiring (harness) that electrically connects the boards. The reliability of the signal is enhanced by using + 12V which is a voltage. Therefore, in the present embodiment, the detection signals from the general winning opening sensor 4020, the first starting opening sensor 4002, and the second starting opening sensor 4004 that are directly input to the main control board 1310 are set to + 5V side by the pull-up resistor. While being pulled up, detection signals from the magnetic detection sensor 4024, the count sensor 4005, the general prize opening sensor 4020, and the gate sensor 4003 that are input via the panel relay board 4161 shown in FIG. 69 are sent to the main control board 1310. Since it is not directly input, it is pulled up to the + 12V side by a pull-up resistor, similarly to the operation signal from the operation switch 954.

[9-5. Power failure monitoring circuit]
As shown in FIG. 75, the main control board 1310 is supplied with two types of voltages of + 12V and + 24V from the power supply board 931 via the payout control board 951, and + 12V and + 24V are input to the power failure monitoring circuit 1310e. ing. The power failure monitoring circuit 1310e monitors the signs of + 12V and + 24V power failure or instantaneous power failure, and detects a power failure warning signal as a power failure warning signal in addition to the main control MPU 1310a when detecting a power failure or instantaneous power failure sign. This is output to the payout control MPU 952a of 951 and the peripheral control board 1510. Here, the configuration of the power failure monitoring circuit will be described first, followed by the monitoring of the + 24V power failure or instantaneous power failure, the + 12V power failure or instantaneous power failure, and the output of the power failure warning signal.

[9-5-1. Configuration of power failure monitoring circuit]
As shown in FIG. 78, the power failure monitoring circuit 1310e mainly includes a shunt-type stabilized power supply circuit MIC20, an open collector output type comparator MIC21, a D-type flip-flop MIC22, and transistors MTR20 to MTR23.

  The reference voltage input terminal REF terminal and the cathode terminal K terminal of the shunt-type stabilized power supply circuit MIC20 are electrically connected to the other end of the resistor MR20, one end of which is electrically connected to the + 5V power supply line. + 5V is applied, and the current input to the REF terminal is limited by the resistor MR20. The K terminal outputs a reference voltage Vref that is a comparison reference voltage of the comparator MIC21 (in this embodiment, 2.495 V is set). The K terminal is electrically connected to the other end of the capacitor MC20 whose one end is grounded to the ground (GND), and the reference voltage Vref output from the K terminal is rippled (convolved with the voltage) by the capacitor MC20. AC component) is removed and smoothed. The A terminal, which is the anode terminal of the shunt-type stabilized power supply circuit MIC20, is grounded to the ground (GND).

  The comparator MIC21 includes two voltage comparison circuits, one of which (MIC21A) is used for comparing the monitor voltage V1 of + 24V and the reference voltage Vref, and the other one (MIC21B). , + 12V monitor voltage V2 and reference voltage Vref are used for comparison. The monitoring voltage V1 of + 24V is applied to the third terminal, which is the positive terminal of the MIC 21A, and the reference voltage Vref is applied to the second terminal, which is the negative terminal of the MIC 21A. The monitoring voltage V2 of + 12V is applied to the 5th terminal which is the plus terminal of the MIC 21B, and the reference voltage Vref is applied to the 6th terminal which is the minus terminal of the MIC 21B. These comparison results are input to the D-type flip-flop MIC22. The D-type flip-flop MIC22 includes two D-type flip-flop circuits, one of which (MIC22A) is used in the present embodiment. The Vcc terminal which is a power supply terminal of the comparator MIC21 is electrically connected to the other end of the capacitor MC21 whose one end is grounded (GND), and + 5V applied to the Vcc terminal which is the power supply terminal of the comparator MIC21 is The ripple is removed and smoothed by the capacitor MC21, and the GND terminal which is the ground terminal of the comparator MIC21 is grounded to the ground (GND).

[9-5-2. Monitoring of + 24V power outage or instantaneous power failure]
As described above, the monitoring of the + 24V power failure or instantaneous power failure is performed by the MIC 21A of the comparator MIC21 comparing the + 24V monitoring voltage V1 with the reference voltage Vref. As shown in FIG. 78, the third terminal, which is the positive terminal of the MIC 21A of the comparator MIC 21 to which the + 24V monitoring voltage V1 is applied, has one end connected to the + 24V power supply line and the other end of the resistor MR21. Is connected to the ground (GND), the other end of the resistor MR22 is electrically connected and the other ends of the resistors MR21 and MR22, and the other end of the capacitor MC23 is grounded to the ground (GND). Are electrically connected. The + 24V monitoring voltage V1 applied to the third terminal, which is the positive terminal of the MIC21A of the comparator MIC21, is divided by + 24V by the resistance ratio of the resistors MR21 and MR22, and the ripple is removed by the capacitor MC23 and is smoothed. . The values of the resistors MR21 and MR22 are preset to the power failure detection voltage V1pf (which is set to 21.40V in this embodiment) when + 24V has a power failure or a momentary power failure and the voltage starts to drop from + 24V. The monitoring voltage V1 of + 24V is set to be the same value as the reference voltage Vref.

  The first terminal that is the output terminal of the MIC 21A of the comparator MIC 21 is an open collector output, and one end is electrically connected to the other end of the pull-up resistor MR23 that is electrically connected to the + 5V power supply line. One end is electrically connected to the other end of the capacitor MC24, which is grounded with the ground (GND), and is electrically connected to a PR terminal which is a preset terminal of the D-type flip-flop MIC22. The capacitor MC24 plays a role as a low-pass filter.

  When the + 24V voltage is higher than the power failure detection voltage V1pf, the + 24V monitoring voltage V1 becomes higher than the reference voltage Vref, and the voltage applied to the first terminal which is the output terminal of the MIC 21A of the comparator MIC21 is + 5V by the pull-up resistor MR23. A signal whose logic is HI is input to the PR terminal which is a preset terminal of the D-type flip-flop MIC22.

  On the other hand, when the + 24V voltage is smaller than the power failure detection voltage V1pf, the + 24V monitoring voltage V1 becomes smaller than the reference voltage Vref, and the voltage applied to the first terminal which is the output terminal of the MIC 21A of the comparator MIC21 is the ground (GND). The signal with the logic level LOW is input to the PR terminal which is the preset terminal of the D-type flip-flop MIC22.

[9-5-3. Monitoring of + 12V power failure or instantaneous power failure]
As described above, the + 12V power failure or instantaneous power failure is monitored by the MIC 21B of the comparator MIC21 comparing the + 12V monitor voltage V2 with the reference voltage Vref. 78, the positive terminal of the MIC 21B of the comparator MIC 21 to which the + 12V monitoring voltage V2 is applied, as shown in FIG. 78, the other end of the resistor MR24 whose one end is electrically connected to the + 12V power line, and one end Are connected to the other end of the resistor MR25, and the other ends of the resistors MR24 and MR25, and the other end of the capacitor MC25 is connected to the ground (GND). Are electrically connected. The + 12V monitor voltage V2 applied to the fifth terminal, which is the plus terminal of the MIC21B of the comparator MIC21, is divided by + 12V by the resistance ratio of the resistors MR24 and MR25, and the ripple is removed by the capacitor MC25 and is smoothed. . The values of the resistors MR24 and MR25 are preset to the power failure detection voltage V2pf (in this embodiment, set to 10.47V) when + 12V has a power failure or a momentary power failure and the voltage starts to drop from + 12V. The monitoring voltage V2 of + 12V is set to be the same value as the reference voltage Vref.

  The 7th terminal, which is the output terminal of the MIC21B of the comparator MIC21, is an open collector output and is electrically connected to the 1st terminal, which is the output terminal of the MIC21A, so that one end is electrically connected to the + 5V power line. The D-type flip-flop MIC22 is preset by being electrically connected to the other end of the pull-up resistor MR23 that is electrically connected, and one end being electrically connected to the other end of the capacitor MC24 that is grounded to the ground (GND). The terminal is electrically connected to the PR terminal. As described above, the capacitor MC24 plays a role as a low-pass filter.

  When the voltage of + 12V is larger than the power failure detection voltage V2pf, the monitoring voltage V2 of + 12V becomes larger than the reference voltage Vref, and the voltage applied to the seventh terminal which is the output terminal of the MIC21B of the comparator MIC21 is + 5V by the pull-up resistor MR23. A signal whose logic is HI is input to the PR terminal which is a preset terminal of the D-type flip-flop MIC22.

  On the other hand, when the voltage of + 12V is smaller than the power failure detection voltage V2pf, the monitoring voltage V2 of + 12V becomes smaller than the reference voltage Vref, and the voltage applied to the seventh terminal which is the output terminal of the MIC21B of the comparator MIC21 is the ground (GND). The signal with the logic level LOW is input to the PR terminal which is the preset terminal of the D-type flip-flop MIC22.

[9-5-4. Output of power failure warning signal]
The D type flip-flop MIC22 stores the value (logic) of the signal input to the 1D terminal, which is the D input terminal, according to the change in the edge of the clock signal input to the 1CK terminal, which is the clock input terminal. (Logic) is output from the 1Q terminal that is the output terminal, and a value obtained by inverting the stored value (logic) is output from the negative logic 1Q terminal that is the output terminal. In addition, when a signal whose logic is LOW is input to the CLR terminal which is the clear terminal, the D-type flip-flop MIC22 releases the latch state and changes the logic of the signal input to the PR terminal which is the preset terminal. The inverted signal is output from the 1Q terminal that is the output terminal (at this time, the same logic as that of the signal that is inverted from the logic of the signal output from 1Q, that is, the signal that is input to the PR terminal that is the preset terminal) On the other hand, when a signal whose logic is HI is input to the CLR terminal which is the clear terminal, the latch state is set. The D-type flip-flop MIC22 has a logic LOW at the preset terminal PR when a signal whose logic is HI is input to the CLR terminal which is a clear terminal and the latch state is set. When the signal is input, the state that the signal whose logic is HI is output from the 1Q terminal which is the output terminal is maintained (the signal obtained by inverting the logic of the signal output from 1Q is negative logic) The state of outputting from the 1Q terminal is maintained).

  In the D-type flip-flop MIC22, in this embodiment, the 1D terminal that is the D input terminal and the 1CK terminal that is the clock input terminal are grounded to the ground (GND). The circuit configuration is such that there is no change in the edge of the input clock signal, and the value (logic) of the signal input to the 1D terminal which is the D input terminal is stored and is not output from the 1Q terminal which is the output terminal. ing. As described above, the D-type flip-flop MIC22 has a signal from the first terminal that is the output terminal of the MIC21A of the comparator MIC21 that monitors the + 24V power failure or the instantaneous power failure, and the + 12V power failure. Alternatively, a signal from the 7th terminal that is the output terminal of the MIC 21B of the comparator MIC 21 that monitors the instantaneous power failure is input, and a signal is output from the 1Q terminal that is the output terminal based on these signals. The Vcc terminal, which is a power supply terminal, is electrically connected to the other end of the capacitor MC22 whose one end is grounded (GND), and is applied to the Vcc terminal, which is the power supply terminal of the D-type flip-flop MIC22. + 5V is smoothed by removing the ripple by the capacitor MC22, the GND terminal as the ground terminal is grounded to the ground (GND), and the negative logic 1Q terminal that inverts the logic of the 1Q terminal as the output terminal is electrically connected to the outside. In an unconnected state.

  In this embodiment, in the D-type flip-flop MIC22, a power failure clear signal from the main control MPU 1310a is input to a CLR terminal which is a clear terminal via a main control output circuit 1310ca with a reset function. The power failure clear signal is output after a predetermined time has elapsed after the main control side power-on process described later performed by the main control MPU 1310a. Since the CLR terminal is a negative logic input, the power failure clear signal from the main control MPU 1310a is input to the CLR terminal with the logic being LOW via the main control output circuit 1310ca with reset function. When the power failure clear signal is input to the CLR terminal, the D-type flip-flop MIC22 cancels the latch state. At this time, the logic input to the PR terminal which is a preset terminal is inverted and the output terminal Is output from the 1Q terminal.

  On the other hand, when the output of the power failure clear signal from the main control MPU 1310a is stopped, the logic becomes HI via the main control output circuit 1310ca with reset function and is input to the CLR terminal. When the power failure clear signal is not input to the CLR terminal, the D-type flip-flop MIC22 sets the latch state, and latches the state where the logic is LOW at the PR terminal.

  The 1Q terminal that is the output terminal of the D-type flip-flop MIC22 is electrically connected to the input terminal PA1 of the input port PA of the main control MPU 1310a via the main control input circuit 1310b, and is the output terminal of the D-type flip-flop MIC22. A signal output from the 1Q terminal is input to the input terminal PA1 of the input port PA of the main control MPU 1310a as a power failure warning signal. The 1Q terminal that is the output terminal of the D-type flip-flop MIC22 is electrically connected to the main control output circuit 1310cb having no reset function, and resets the signal output from the 1Q terminal that is the output terminal of the D-type flip-flop MIC22. The functionless main control output circuit 1310cb outputs a payout power failure notice signal to the payout control board 951 and also outputs it to the peripheral control board 1510 as a peripheral power failure notice signal.

  As shown in FIG. 78, the main control input circuit 1310b that electrically connects the 1Q terminal, which is the output terminal of the D-type flip-flop MIC22, and the input terminal PA1 of the input port PA of the main control MPU 1310a The 1Q terminal, which is the output terminal of the MIC 22, is electrically connected to the other end of the resistor MR26, one end of which is electrically connected to the + 5V power supply line, and electrically connected to the base terminal of the transistor MTR20 via the resistor MR27. It is connected. In addition to being electrically connected to the resistor MR27, one end of the transistor MTR20 is electrically connected to the other end of the resistor MR28 that is grounded to the ground (GND). The emitter terminal of the transistor MTR20 is grounded to the ground (GND), and the collector terminal of the transistor MTR20 is electrically connected to the other end of the resistor MR29, one end of which is electrically connected to the + 5V power supply line, and a non-inverting buffer. Main control via ICMIC 23 (non-inverted buffer ICMIC 23 includes eight non-inverted buffer circuits, and the signal waveform input to one (MIC 23A) is shaped and output without being inverted). The MPU 1310a is electrically connected to the input terminal PA1 of the input port PA.

  The circuit composed of the resistors MR27 and MR28 and the transistor MTR20 is a switch circuit that is turned ON / OFF by a signal output from the 1Q terminal that is the output terminal of the D-type flip-flop MIC22.

  When the logic of the signal output from the 1Q terminal which is the output terminal of the D-type flip-flop MIC22 is LOW, the voltage applied to the base terminal of the transistor MTR20 is pulled down to the ground (GND) side, and the transistor MTR20 is turned OFF. The switch circuit is also turned off. On the other hand, when the logic of the signal output from the 1Q terminal, which is the output terminal of the D-type flip-flop MIC22, is HI, the voltage applied to the base terminal of the transistor MTR20 is raised to the + 5V side, and the transistor MTR20 is turned on. The switch circuit is also turned on.

  When both the condition that the voltage of + 24V is larger than the power failure detection voltage V1pf and the condition that the voltage of + 12V is larger than the power failure detection voltage V2pf are satisfied, the signal whose logic is HI is preset in the D-type flip-flop MIC22. Since the signal is output from the 1Q terminal, which is the output terminal of the D-type flip-flop MIC22, the logic becomes LOW and is input to the base terminal of the transistor MTR20. Turn off. As a result, the voltage applied to the collector terminal of the transistor MTR20 is pulled up to + 5V by the resistor MR29, and the power failure warning signal whose logic becomes HI via the non-inverting buffer ICMIC23 is input to the input terminal PA of the input port PA of the main control MPU 1310a. Input to PA1.

  On the other hand, when either one of the condition that the voltage of + 24V is smaller than the power failure detection voltage V1pf and the condition that the voltage of + 12V is smaller than the power failure detection voltage V2pf is satisfied, the signal whose logic is LOW is D Since the signal is input to the PR terminal which is the preset terminal of the type flip-flop MIC22, the signal output from the 1Q terminal which is the output terminal of the D-type flip-flop MIC22 becomes the logic HI and is input to the base terminal of the transistor MTR20. As a result, the transistor MTR20 is turned ON. As a result, the power failure warning signal in which the voltage applied to the collector terminal of the transistor MTR20 is pulled down to the ground (GND) side and the logic becomes LOW via the non-inverting buffer ICMIC23 is input to the input port PA of the main control MPU 1310a. Input to PA1.

  Also, as shown in FIG. 78, the main control output circuit 1310cb without reset function that outputs a signal output from the 1Q terminal, which is the output terminal of the D-type flip-flop MIC22, to the payout control board 951 as a payout blackout signal is opened. The circuit is configured as a collector output type, and the 1Q terminal which is the output terminal of the D-type flip-flop MIC22 is electrically connected to the resistor MR26 of the main control input circuit 1310b described above, and the transistor MTR21 of the previous stage is connected via the resistor MR30. It is electrically connected to the base terminal. In addition to being electrically connected to the resistor MR30, one end of the base terminal of the transistor MTR21 at the previous stage is electrically connected to the other end of the resistor MR31 that is grounded to the ground (GND). The emitter terminal of the front-stage transistor MTR21 is grounded to the ground (GND), and the collector terminal of the front-stage transistor MTR21 is electrically connected to the other end of the resistor MR32 whose one end is electrically connected to the + 5V power supply line. At the same time, it is electrically connected to the base terminal of the subsequent transistor MTR22 via a resistor MR33. In addition to being electrically connected to the resistor MR33, one end of the base terminal of the transistor MTR22 at the subsequent stage is electrically connected to the other end of the resistor MR34 that is grounded to the ground (GND). The emitter terminal of the rear-stage transistor MTR22 is grounded to the ground (GND), and the collector terminal of the rear-stage transistor MTR22 is electrically connected to the other end of the capacitor MC26 whose one end is grounded to the ground (GND). It is electrically connected to the payout control board 951 via (harness). When the collector terminal of the subsequent transistor MTR22 is electrically connected to the payout control board 951 via a wiring (harness), the payout control input of the payout control unit 952 shown in FIG. In the circuit 952b, one end is electrically connected to the other end of a pull-up resistor (not shown) that is electrically connected to the + 12V power supply line, and the input terminal of the predetermined input port of the payout control MPU 952a shown in FIG. Connected.

  A circuit composed of the resistors MR30 and MR31 and the preceding transistor MTR21 is a preceding switch circuit, and a circuit composed of the resistors MR33 and MR34 and the succeeding transistor MTR22 is a succeeding switch circuit, and is a D-type flip-flop. It is turned ON / OFF by a signal output from the 1Q terminal which is an output terminal of the MIC 22.

  When the logic of the signal output from the 1Q terminal, which is the output terminal of the D-type flip-flop MIC22, is LOW, the voltage applied to the base terminal of the previous transistor MTR21 is pulled down to the ground (GND) side, and the previous transistor The MTR 21 is turned OFF and the preceding switch circuit is also turned OFF, and the voltage applied to the collector terminal of the preceding transistor MTR 21, which is the voltage applied to the base terminal of the succeeding transistor MTR 22, is raised to the + 5V side by the resistor MR 32. As a result, the rear-stage transistor MTR22 is turned on, and the rear-stage switch circuit is also turned on. On the other hand, when the logic of the signal output from the 1Q terminal, which is the output terminal of the D-type flip-flop MIC22, is HI, the voltage applied to the base terminal of the transistor MTR21 is raised to the + 5V side and the transistor MTR21 is turned ON. The front-stage switch circuit is also turned on, and the voltage applied to the collector terminal of the front-stage transistor MTR21, which is the voltage applied to the base terminal of the rear-stage transistor MTR22, is lowered to the ground (GND) side, thereby The transistor MTR22 is turned off, and the subsequent switch circuit is also turned off.

  When both the condition that the voltage of + 24V is larger than the power failure detection voltage V1pf and the condition that the voltage of + 12V is larger than the power failure detection voltage V2pf are satisfied, the signal whose logic is HI is preset in the D-type flip-flop MIC22. Because the signal is input to the PR terminal, which is the terminal, the signal output from the 1Q terminal, which is the output terminal of the D-type flip-flop MIC22, becomes logic LOW and is input to the base terminal of the transistor MTR21 in the previous stage. The transistor MTR21 is turned off. As a result, the voltage applied to the collector terminal of the former-stage transistor MTR21 is pulled up to the + 5V side by the resistor MR32 and applied to the base terminal of the latter-stage transistor MTR22, thereby turning on the latter-stage transistor MTR22. Thereby, the voltage applied to the collector terminal of the subsequent transistor MTR22 is pulled down to the ground (GND) side in the payout control board 951 via the wiring (harness), so that the payout power failure warning signal whose logic becomes LOW is issued. Input to the control board 951.

  On the other hand, when either one of the condition that the voltage of + 24V is smaller than the power failure detection voltage V1pf and the condition that the voltage of + 12V is smaller than the power failure detection voltage V2pf is satisfied, the signal whose logic is LOW is D Since the signal is input to the PR terminal, which is the preset terminal of the type flip-flop MIC22, the signal output from the 1Q terminal, which is the output terminal of the D-type flip-flop MIC22, becomes logic HI and becomes the base terminal of the transistor MTR21 in the previous stage. As a result of the input, the previous-stage transistor MTR21 is turned ON. As a result, the voltage applied to the collector terminal of the preceding transistor MTR21 is pulled down to the ground (GND) and applied to the base terminal of the succeeding transistor MTR22, thereby turning off the succeeding transistor MTR22. As a result, the voltage applied to the collector terminal of the transistor MTR22 at the subsequent stage is pulled up to + 12V side by the pull-up resistor in the payout control input circuit 952b of the payout control unit 952 in the payout control board 951 via the wiring (harness). A payout power failure notice signal whose logic is HI is input to the payout control board 951.

Further, as shown in FIG. 78, the main control output circuit 1310cb without reset function that outputs a signal output from the 1Q terminal, which is the output terminal of the D-type flip-flop MIC22, to the peripheral control board 1510 as a peripheral power failure warning signal is opened. The circuit is configured as a collector output type, and the 1Q terminal, which is the output terminal of the D-type flip-flop MIC22, is electrically connected to the resistor MR26 of the main control input circuit 1310b described above, and the base terminal of the transistor MTR23 through the resistor MR35. And are electrically connected. In addition to being electrically connected to the resistor MR35, one end of the transistor MTR23 is electrically connected to the other end of the resistor MR36 that is grounded to the ground (GND). The emitter terminal of the transistor MTR23 is grounded to the ground (GND), and the collector terminal of the transistor MTR23 is electrically connected to the peripheral control board 1510 via a wiring (harness).
When the collector terminal of the transistor MTR23 is electrically connected to the peripheral control board 1510 via a wiring (harness), a peripheral control input circuit (not shown) of the peripheral control unit 1511 in the peripheral control board 1510 shown in FIG. In FIG. 7, one end is electrically connected to the other end of a pull-up resistor (not shown) that is electrically connected to the + 12V power supply line, and is electrically connected to an input terminal of a predetermined input port of the peripheral control MPU 1511a shown in FIG. Connected.

  The circuit composed of the resistors MR35 and MR36 and the transistor MTR23 is a switch circuit that is turned ON / OFF by a signal output from the 1Q terminal that is the output terminal of the D-type flip-flop MIC22.

  When the logic of the signal output from the 1Q terminal which is the output terminal of the D-type flip-flop MIC22 is LOW, the voltage applied to the base terminal of the transistor MTR23 is pulled down to the ground (GND) side, and the transistor MTR23 is turned OFF. The switch circuit is also turned off. On the other hand, when the logic of the signal output from the 1Q terminal, which is the output terminal of the D-type flip-flop MIC22, is HI, the voltage applied to the base terminal of the transistor MTR23 is raised to the + 5V side, turning on the transistor MTR23, The switch circuit is also turned on.

  When both the condition that the voltage of + 24V is larger than the power failure detection voltage V1pf and the condition that the voltage of + 12V is larger than the power failure detection voltage V2pf are satisfied, the signal whose logic is HI is preset in the D-type flip-flop MIC22. Since the signal is output from the 1Q terminal, which is the output terminal of the D-type flip-flop MIC22, the logic becomes LOW and is input to the base terminal of the transistor MTR23. Turn off. As a result, the voltage applied to the collector terminal of the transistor MTR23 is pulled up to + 12V side by the pull-up resistor in the payout control input circuit of the peripheral control unit 1511 in the peripheral control board 1510 via the wiring (harness), so that the logic becomes HI. The peripheral power failure warning signal is input to the peripheral control board 1510.

  On the other hand, when either one of the condition that the voltage of + 24V is smaller than the power failure detection voltage V1pf and the condition that the voltage of + 12V is smaller than the power failure detection voltage V2pf is satisfied, the signal whose logic is LOW is D Since the signal is input to the PR terminal that is the preset terminal of the type flip-flop MIC22, the signal output from the 1Q terminal that is the output terminal of the D-type flip-flop MIC22 becomes the logic HI and is input to the base terminal of the transistor MTR23. As a result, the transistor MTR23 is turned ON. As a result, the peripheral power failure notice signal whose logic is LOW is generated when the voltage applied to the collector terminal of the transistor MTR23 is pulled down to the ground (GND) side in the peripheral control board 1510 via the wiring (harness). 1510 is input.

  As described above, the main control input circuit 1310b that transmits a signal output from the 1Q terminal that is the output terminal of the D-type flip-flop MIC22 to the main control MPU 1310a as a power failure warning signal, and the 1Q terminal that is the output terminal of the D-type flip-flop MIC22. The main control output circuit 1310cb without reset function for outputting the signal output from the peripheral control board 1510 to the peripheral control board 1510 has one transistor, and the power failure warning signal input to the main control MPU 1310a and the peripheral While the logic of the peripheral power failure warning signal input to the control board 1510 is the same logic, the signal output from the 1Q terminal which is the output terminal of the D-type flip-flop MIC22 is paid out to the payout control board 951. Main system without reset function that outputs as a power failure warning signal The output circuit 1310cb has two transistors, a front stage and a rear stage, and the logic of the payout power failure warning signal is the logic of the power failure warning signal input to the main control MPU 1310a and the peripheral power failure warning signal input to the peripheral control board 1510. Is different from the logic of the power failure warning signal and the logic of the peripheral power failure warning signal.

  The collector terminal of the transistor MTR20 of the main control input circuit 1310b is electrically connected to the other end of the resistor MR29, one end of which is electrically connected to the + 5V power supply line, and the main control MPU 1310a via the non-inverting buffer ICMIC23. The collector terminal of the transistor MTR22 at the subsequent stage of the main control output circuit 1310cb without reset function is electrically connected to the input terminal PA1 of the input port PA of the payout control board via wiring (harness). In the payout control input circuit 952b of the payout control unit 952 in 951, one end is electrically connected to the other end of the pull-up resistor electrically connected to the + 12V power supply line, and the main control output circuit 1310cb without reset function is connected. The collector terminal of the transistor MTR23 is a wiring Through the harness), the payout control input circuit of the peripheral control unit 1511 in the peripheral control board 1510, which is a pull-up resistor electrically connected to one end of which is connected + 12V power supply line and electrically. This is because the transistor MTR20 and the main control MPU 1310a of the main control input circuit 1310b are connected to the main control board between the collector terminal of the transistor MTR20 of the main control input circuit 1310b and the input terminal PA1 of the input port PA of the main control MPU 1310a. Since it is implemented in 1310, the main control board 1310 and the payout control board are used to perform the power outage notice by the logic (ON / OFF signal) of the power outage notice signal using + 5V which is the control reference voltage of the main control MPU 1310a. The main control MPU 1310a, between the boards 951 and between the main control board 1310 and the peripheral control board 1510, in order to suppress the influence of noise entering the wiring (harness) electrically connecting the boards. Control of the payout control MPU 952a and the peripheral control MPU 1511a It is the reference voltage + doing power failure notice by the logic of the power failure warning signal with certain + 12V at a higher voltage (ON / OFF signals) than 5V.

[9-6. Various input / output signals to main control MPU]
Next, various input / output signals to the main control MPU 1310a will be described with reference to FIG. The RXA terminal which is a serial data input terminal of the serial input port of the main control MPU 1310a receives serial data from the payout control board 951 shown in FIG. 69 as a payer serial data reception signal via the main control input circuit 1310b. . On the other hand, the TXA terminal and the TXB terminal, which are serial data output terminals of the serial output port of the main control MPU 1310a, receive the serial data transmitted from the TXA terminal to the payout control board 951 as the main payout serial data transmission signal and have no reset function. A main payment serial data transmission signal is transmitted to the payout control board 951 from the main control output circuit 1310cb without reset function to the circuit 1310cb, and the serial data to be sent to the peripheral control board 1510 shown in FIG. The peripheral serial data transmission signal is transmitted to the main control output circuit 1310cb without the reset function, and the main peripheral serial data transmission signal is transmitted from the main control output circuit 1310cb without the reset function to the peripheral control board 1510.

  In addition to the above-described operation signal (RAM clear signal) being input to each input terminal of a predetermined input port of the main control MPU 1310a, for example, a payout that informs the completion of normal reception of the above-described main payment serial data reception signal A payer ACK signal from the control board 951 is input via the main control input circuit 1310b, or detection signals from various switches such as the first start port sensor 4002 shown in FIG. 69 are input via the main control input circuit 1310b. Each is entered.

  On the other hand, from each output terminal of a predetermined output port of the main control MPU 1310a, for example, a main payment ACK signal that indicates the completion of normal reception of the above-described payment serial data reception signal is output to the main control output circuit 1310ca with reset function. Then, a main payout ACK signal is outputted from the main control output circuit 1310ca with reset function to the payout control board 951, or a drive signal is sent to the main control output circuit 1310ca with reset function for the start port solenoid 2107 shown in FIG. And a drive signal is output from the main control output circuit 1310ca with reset function to the start port solenoid 2107 via the main control solenoid drive circuit 1310d, and various displays such as the first special symbol display 1403 shown in FIG. Drive signal to the main control output circuit 1310ca with reset function. Is output from the main control output circuit 1310ca with reset function to various displays, and various information about the game (game information) is output to the main control output circuit 1310ca with reset function. Various information (game information) related to the game is output to the payout control board 951 from the control output circuit 1310ca.

[9-7. Interface circuit for communication between main control board and peripheral control board]
Next, a communication interface circuit between the main control board 1310 and the peripheral control board 1510 will be described with reference to FIG. The main control board 1310 is supplied with + 12V from the power supply board 931 shown in FIG. 75 via the payout control board 951, and the + 5V creation circuit 1310g creates + 5V that is the control reference voltage of the main control MPU 1310a from this + 12V. ing. The main peripheral serial data transmission signal transmitted from the main control board 1310 to the peripheral control board 1510 is influenced by noise entering the wiring (harness) that electrically connects the main control board 1310 and the peripheral control board 1510. Therefore, the reliability is enhanced by using + 12V, which is a voltage higher than + 5V, which is the control reference voltage of the main control MPU 1310a.

  Specifically, the main control board 1310 causes the main control output circuit 1310cb without a reset function to function as a communication interface circuit, and the communication interface circuit mainly includes a resistor MR50, resistors MR51 and MR52, and a transistor MTR50. Has been. On the other hand, the peripheral control board 1510 includes a diode AD10, an electrolytic capacitor AC10 (capacitance: 47 μF in this embodiment), and a photocoupler AIC10 (infrared LED and photo IC) as a communication interface circuit. It is mainly configured).

+ 12V supplied from the power supply board 931 is applied to the anode terminal of the diode MD50 of the main control board 1310 via the payout control board 951, and the minus terminal is grounded to the ground (GND) to the cathode terminal of the diode MD50. The electrolytic capacitor MC50 (capacitance: 220 microfarad (μF) in this embodiment) is electrically connected to the positive terminal. The cathode terminal of the diode MD50 is electrically connected to the positive terminal of the electrolytic capacitor MC50, and is electrically connected to the anode terminal (first terminal) of the photocoupler AIC10 of the peripheral control board 1510 via wiring (harness) It is connected to the.
Thereby, for example, when a power failure or a momentary power failure occurs, power from the power supply board 931 is not supplied to the main control board 1310 via the payout control board 951, and thus the electric charge charged in the electrolytic capacitor MC50 is reduced. + 12V can be continuously applied from the main control board 1310 to the anode terminal of the photocoupler AIC10 of the peripheral control board 1510.

  In this way, the VDD terminal, which is the power supply terminal of the main control MPU 1310a, is charged to the electrolytic capacitor MC2 (capacitance: 470 μF in this embodiment) shown in FIG. 77 when a power failure or a momentary power failure occurs. Therefore, the main peripheral serial transmission port 1310ae built in the main control MPU 1310a serially manages at least the command set by the main control CPU core 1310aa in the transmission buffer register 1310aeb. The unit 1310aec can transfer the data to the transmission shift register 41aea and complete the transmission from the transmission shift register 1310aea as main peripheral serial data.

  The main peripheral serial data transmission signal transmitted from the main control board 1310 to the peripheral control board 1510 is connected to the wiring (harness) that electrically connects the main control board 1310 and the peripheral control board 1510 as described above. In order to suppress the influence of intruding noise, the reliability is enhanced by transmitting + 12V that is higher than + 5V that is the control reference voltage of the main control MPU 1310a.

  Therefore, in the present embodiment, when a power failure or a momentary power failure occurs, the electric charge charged in the electrolytic capacitor MC50 is applied as + 12V from the main control board 1310 to the anode terminal of the photocoupler AIC10 of the peripheral control board 1510. Therefore, the main peripheral serial transmission port 1310ae built in the main control MPU 1310a transfers the command set by the main control CPU core 1310aa in the transmission buffer register 1310aeb to the transmission shift register 41aa by the serial management unit 1310aec. When transmission is performed from the shift register 1310aea as main circumference serial data, a main circumference serial data transmission signal having a logic level of HI can be transmitted from the collector terminal of the transistor MTR50 by + 12V.

  In this embodiment, the storage capacity of the transmission buffer register 1310aeb of the main peripheral serial transmission port 1310ae built in the main control MPU 1310a has 32 bytes, and one packet is composed of 3 bytes of data. Therefore, data for 10 packets at the maximum is stored in the transmission buffer register 1310aeb. In this embodiment, the transfer bit rate of the main peripheral serial data transmitted from the main control MPU 1310a is set to 19200 bps.

  The cathode terminal (third terminal) of the photocoupler AIC10 is electrically connected to the collector terminal of the transistor MTR50 of the main control board 1310 via the resistor AR10 and its wiring (harness). The resistor AR10 of the peripheral control board 1510 is a limiting resistor for limiting the current flowing through the built-in infrared LED of the photocoupler AIC10.

  The TXB terminal that outputs the main serial data transmission signal from the main control MPU 1310a shown in FIG. 77 is electrically connected to the other end of the resistor MR50 that is electrically connected to the + 5V power supply line, and the resistor MR51. And is electrically connected to the base terminal of the transistor MTR50. In addition to being electrically connected to the resistor MR51, one end of the transistor MTR50 is electrically connected to the other end of the resistor MR52 that is grounded to the ground (GND). The emitter terminal of the transistor MTR50 is grounded with the ground (GND).

  The circuit composed of the resistors MR51 and MR52 and the transistor MTR50 is a switch circuit. When the logic of the main serial data transmission signal is HI, the voltage applied to the base terminal of the transistor MTR50 is on the ground (GND) side. As a result, the transistor MTR50 is turned off, and the switch circuit is also turned off. As a result, forward current does not flow through the built-in infrared LED of the photocoupler AIC10 on the peripheral control board 1510, so that the photocoupler AIC10 is turned off. On the other hand, when the logic of the main serial data transmission signal is LOW, the voltage applied to the base terminal of the transistor MTR50 is pulled up to + 5V by the resistor MR50, turning on the transistor MTR50 and turning on the switch circuit. . As a result, a forward current flows through the built-in infrared LED of the photocoupler AIC10 of the peripheral control board 1510, so that the photocoupler AIC10 is turned on.

  + 5V supplied from the power supply board 931 is applied to the anode terminal of the diode AD10 of the peripheral control board 1510 via the frame peripheral relay terminal board 868, and the cathode terminal of the diode AD10 is connected to the ground (GND). It is electrically connected to the plus terminal of the electrolytic capacitor AC10 to be grounded. In addition to being electrically connected to the positive terminal of the electrolytic capacitor AC10, the cathode terminal of the diode AD10 is also electrically connected to the Vcc terminal (No. 6 terminal) that is the power supply terminal of the photocoupler AIC10. The emitter terminal (No. 4 terminal) of the photocoupler AIC10 is grounded to the ground (GND), and the collector terminal (No.5 terminal) of the photocoupler AIC10 is a pull-up resistor electrically connected to the plus terminal of the electrolytic capacitor AC10. It is pulled up to + 5V by AR11 and is electrically connected to the input terminal of the serial I / O port for main control board of peripheral control MPU 1511a. When the photocoupler AIC10 is turned ON / OFF, the logic of the signal output from the collector terminal of the photocoupler AIC10 changes, and this signal is used as a main peripheral serial data transmission signal as a serial I / O port for the main control board of the peripheral control MPU 1511a. Is input to the input terminal.

  Thereby, as described above, for example, when a power failure or a momentary power failure occurs, +5 V supplied from the power supply board 931 is not supplied to the peripheral control board 1510 via the frame peripheral relay terminal board 868. The electric charge charged in the electrolytic capacitor AC10 can be continuously applied to the Vcc terminal of the photocoupler AIC10 as + 5V. When electric power or a momentary power failure occurs, + 5V from the electrolytic capacitor AC10 is applied, so that the main peripheral serial data transmission signal transmitted from the TXB terminal of the main control MPU 1310a to the peripheral control board 1510 is sent to the main control MPU 1310a. The data set in the transmission buffer register 1310aeb of the built-in main circumference serial transmission port 1310ae can be completed, and the main circumference serial data transmission signal in the middle of transmission, that is, the main circumference serial data is cut off. The peripheral control board 1510 reliably receives the signal without being lost or missing.

  When the logic of the main peripheral serial data transmission signal transmitted from the TXB terminal of the main control MPU 1310a to the peripheral control board 1510 is HI, the voltage applied to the base terminal of the transistor MTR50 is pulled down to the ground (GND) side and the transistor Since the photocoupler AIC10 is turned off when the MTR50 is turned off, the voltage applied to the collector terminal of the photocoupler AIC10 is pulled up to the + 5V side by the pull-up resistor AR11, and the logic becomes HI. The serial data transmission signal is input to the input terminal of the serial I / O port for the main control board of the peripheral control MPU 1511a, while the logic of the main peripheral serial data transmission signal transmitted from the TXB terminal of the main control MPU 1310a to the peripheral control board 1510. When is LOW Is applied to the collector terminal of the photocoupler AIC10 because the voltage applied to the base terminal of the transistor MTR50 is pulled up to + 5V by the resistor MR50 and the transistor MTR50 is turned on so that the photocoupler AIC10 is turned on. The main peripheral serial data transmission signal whose logic is LOW by the pulled voltage being pulled down to the ground (GND) side is input to the input terminal of the serial I / O port for the main control board of the peripheral control MPU 1511a. Thus, the logic of the main circumference serial data transmission signal output from the collector terminal of the photocoupler AIC10 is the same as the logic of the main circumference serial data transmission signal transmitted from the TXB terminal of the main control MPU 1310a to the peripheral control board 1510. It is the logic of

  As described above, in this embodiment, the + 5V power supply line to which + 5V that is the control reference voltage of the main control MPU 1310a is applied, and the + 12V power supply line to which + 12V that is the communication voltage applied through the diode MD50 is applied. Measures are taken when a power failure or a momentary power failure occurs and the control reference voltage and the communication voltage drop. That is, for the main peripheral serial transmission port 1310ae built in the main control MPU 1310a, a + 5V power supply line, a positive terminal of the electrolytic capacitor MC2 using the electrolytic capacitor MC2 of the main control filter circuit 1310h as a first auxiliary power supply, Are electrically connected in parallel, so that even if a power failure or a momentary power failure occurs and the control reference voltage applied from the + 5V power supply line decreases, the electrolytic capacitor of the main control filter circuit 1310h as the first auxiliary power supply By applying the control reference voltage from the plus terminal of MC2, the state in which the control reference voltage is applied can be maintained, and the resistor MR50, the resistors MR51 and MR52, and the transistor MTR50 are configured. Main function without reset function to function as a communication interface circuit For the output circuit 1310cb, + 12V applied to the + 12V power supply line is applied as a communication voltage to the anode terminal of the diode MD50, and the positive terminal of the cathode terminal of the diode MD50 and the electrolytic capacitor MC50 as the second auxiliary power supply. Even if a power failure or a momentary power failure occurs and the communication voltage applied from the + 12V power supply line via the diode MD50 is reduced by the terminals being electrically connected in parallel, the second auxiliary power supply is provided. By applying the communication voltage from the positive terminal of the electrolytic capacitor MC50, the state where the communication voltage is applied can be maintained. As a result, it is possible to prevent the command being transmitted from the main control board 1310 to the peripheral control board 1510 from being cut off, and to prevent omission of the command. Therefore, the peripheral control board 1510 can reliably receive the command being transmitted. can do. Therefore, it is possible to eliminate the missed command immediately after the occurrence of a power failure or during a momentary power failure.

  Further, a plurality of commands set in the transmission buffer register 1310aeb of the main peripheral serial transmission port 1310ae built in the main control MPU 1310a are all composed of a resistor MR50, resistors MR51 and MR52, and a transistor MTR50 as main periphery serial data. 470 μF is set as the capacitance of the electrolytic capacitor MC2 of the main control filter circuit 1310h so that the transmission to the peripheral control board 1510 can be completed via the main control output circuit 1310cb without the reset function that functions as a communication interface circuit. 220 μF is set as the capacitance of the electrolytic capacitor MC50. As a result, even if a power failure or a momentary power failure occurs during transmission from the main control board 1310 to the peripheral control board 1510, a reset that causes all the commands set in the transmission buffer register 1310aeb to function as an interface circuit as main peripheral serial data Since the transmission to the peripheral control board 1510 can be completed via the main control output circuit 1310cb having no function, the peripheral control board 1510 can omit a plurality of commands set in the transmission buffer register 1310aeb without missing them. And can be received reliably.

[10. Dispensing control board circuit]
Next, the circuit and the like of the payout control board 951 shown in FIG. 70 will be described with reference to FIGS. FIG. 80 is a circuit diagram showing a circuit and the like of the payout control unit, FIG. 81 is a circuit diagram showing the payout control input circuit, FIG. 82 is a circuit diagram showing a continuation of FIG. 81, and FIG. 84 is a circuit diagram showing a circuit, FIG. 84 is a circuit diagram showing a CR unit input / output circuit, and FIG. 85 is an input / output diagram showing various input / output signals with the main control board and various output signals to the external terminal board. It is. First, the payout control filter circuit will be described, followed by the payout control circuit, various input / output signals to / from the main control board, and various output signals to the external terminal board.

[10-1. Dispensing control filter circuit]
As shown in FIG. 80, the payout control filter circuit 951a mainly includes a payout control three-terminal filter PIC0. This payout control three-terminal filter PIC0 is a T-type filter circuit, and has excellent attenuation characteristics magnetically shielded with ferrite. The first terminal of the payout control three-terminal filter PIC0 is electrically connected to the other end of the capacitor PC0 to which + 5V from the power supply board 931 shown in FIG. Then, + 5V from the power supply substrate 931 is smoothed by removing the ripple (the AC component convolved with the voltage) by the capacitor PC0. The second terminal of the payout control 3-terminal filter PIC0 is grounded to the ground (GND), and the third terminal of the payout control 3-terminal filter PIC0 outputs +5 V from which noise components have been removed.

  The third terminal of the payout control three-terminal filter PIC0 has one end connected to the ground (GND) and the other end of the capacitor PC1 and the electrolytic capacitor PC2 (capacitance: 180 microfarad (μF) in this embodiment). By being electrically connected to each other, the ripple is further removed from the +5 V output from the third terminal of the payout control three-terminal filter PIC0 and smoothed. The smoothed + 5V is applied to a power supply terminal of the payout control system reset PIC1, a VCC terminal that is a power supply terminal of the payout control crystal oscillator PX0, a VDD terminal that is a power supply terminal of the payout control MPU 952a, and the like. . In addition, when a power failure or a momentary power failure occurs and the power supply from the Pachinko Island facility is shut off, the charge charged in the electrolytic capacitor PC2 is a power failure or a momentary power failure. It is applied as +5 V over a period of about 7 milliseconds (ms) after the occurrence.

  The VDD terminal of the payout control MPU 952a is electrically connected to the other end of the capacitor PC3 whose one end is grounded (GND), and + 5V applied to the VDD terminal is smoothed by further removing ripples by the capacitor PC3. ing. The VSS terminal, which is the ground terminal of the payout control MPU 952a, is grounded to the ground (GND).

  Further, the VDD terminal of the payout control MPU 952a is electrically connected to the anode terminal of the diode PD0 in addition to being electrically connected to the capacitor PC3. The cathode terminal of the diode PD0 is electrically connected to the VBB terminal which is a power supply terminal of a RAM (payout control built-in RAM) built in the payout control MPU 952a, and one end of the capacitor PC4 is grounded to the ground (GND). Is electrically connected to the other end. In addition to being electrically connected to the cathode terminal of the diode PD0 and the other end of the capacitor PC4, the VBB terminal of the payout control built-in RAM is connected to the plus of the capacitor BC1 of the power supply board 931 shown in FIG. It is electrically connected to the terminal. In other words, + 5V smoothed by removing noise components by the payout control filter circuit 951a is applied to the VDD terminal of the payout control MPU 952a, and via the diode PD0, the VBB terminal of the payout control built-in RAM and the capacitor BC1. Are applied to the positive terminal. Thereby, as described above, when + 5V generated by the power generation circuit 935d of the power supply board 931 shown in FIG. 75 is not supplied to the payout control board 951, the charge charged in the capacitor BC1 is discharged. Since the current is blocked by the diode PD0 and does not flow to the VDD terminal of the payout control MPU 952a, the payout control MPU 952a does not operate. The stored contents are held by applying the payment VBB. As described above, in the pachinko machine 1 according to this embodiment, the backup power supply circuit that supplies the backup power to the payout control built-in RAM includes the diode PD0 and the capacitor BC1.

[10-2. Circuit of payout control unit]
As shown in FIG. 80, the payout control unit 952 includes a payout control MPU 952a, a payout control input circuit 952b, a payout control output circuit 952c, a payout motor drive circuit 952d, and a CR unit input / output circuit 952e. The payout control system reset PIC1 that outputs a signal and the payout control crystal oscillator PX0 that outputs a clock signal (in this embodiment, 8 megahertz (MHz)) are mainly configured. Here, the payout control system reset will be described first, followed by the payout control crystal oscillator, the payout control input circuit, the payout motor drive circuit, the CR unit input / output circuit, and various input / output signals to the payout control MPU.

[10-2-1. Payment control system reset]
As shown in FIG. 80, +5 V smoothed by removing the noise component by the payout control filter circuit 951a is applied to the power supply terminal of the payout control system reset PIC1. The payout control system reset PIC1 resets the payout control MPU 952a and the payout control output circuit 952ca with a reset function, and has a built-in delay circuit. One end of the delay control terminal of the payout control system reset PIC1 is electrically connected to the other end of the capacitor PC5 grounded to the ground (GND), and the delay time by the delay circuit is set by the capacitance of the capacitor PC5. Be able to. Specifically, the payout control system reset PIC1 outputs a system reset signal from the output terminal after the delay time has elapsed when + 5V input to the power supply terminal reaches a threshold value (eg, 4.25V).

  The output terminal of the payout control system reset PIC1 is electrically connected to the SRT0 terminal which is the reset terminal of the payout control MPU 952a and the reset terminal of the payout control output circuit 952ca with reset function. The output terminal is an open collector output type, one end of which is electrically connected to the other end of the pull-up resistor PR1, which is electrically connected to the + 5V power supply line, and one end of which is grounded to the ground (GND). The other end of the PC 6 is electrically connected. The capacitor PC6 plays a role as a low-pass filter. When the voltage input to the power supply terminal is larger than the threshold value, the output terminal is pulled up to + 5V side by the pull-up resistor PR1, and the logic becomes HI. This logic is the SRT0 terminal of the payout control MPU952a and the payout control output with reset function. When the voltage inputted to the reset terminal of the circuit 952ca is smaller than the threshold value, the logic becomes LOW when the voltage inputted to the power supply terminal is smaller than the threshold value. This logic is the SRT0 terminal of the payout control MPU 952a and Each is input to the reset terminal. Since the SRT0 terminal of the payout control MPU 952a and the reset terminal of the payout control output circuit 952ca with reset function are negative logic inputs, respectively, the payout control MPU 952a and the reset function when the voltage input to the power supply terminal is smaller than the threshold value. The attached payout control output circuit 952ca is reset. The power supply terminal is electrically connected to the other end of the capacitor PC7 whose one end is grounded (GND), and + 5V input to the power supply terminal is smoothed by removing ripples. The ground terminal is grounded with the grant (GND), and the NC terminal is not electrically connected to the outside.

[10-2-2. Dispensing control crystal oscillator]
As shown in FIG. 80, + 5V smoothed by removing the noise component by the payout control filter circuit 951a is input to the VCC terminal which is the power supply terminal of the payout control crystal oscillator PX0. The VCC terminal is electrically connected to the other end of the capacitor PC8, one end of which is grounded (GND), and + 5V input to the VCC terminal is further smoothed by removing ripples. In addition to the VCC terminal, the smoothed + 5V is also applied to an OE terminal that is an output enable terminal of the payout control crystal oscillator PX0. The payout control crystal oscillator PX0 outputs an 8 MHz clock signal from the OUT terminal, which is an output terminal, by applying +5 V to its OE terminal.

  The OUT terminal of the payout control crystal oscillator PX0 is electrically connected to the MCLK terminal that is the clock terminal of the payout control MPU 952a, and an 8 MHz clock signal is input to the payout control MPU 952a. Note that the GND terminal, which is the ground terminal of the payout control crystal oscillator PX0, is grounded to the grant (GND).

[10-2-3. Dispensing control input circuit]
The payout control input circuit 952b receives the payout blackout notice signal from the door frame open switch 618, the main body frame open switch 619 shown in FIG. 70, and the blackout monitor circuit 1310e included in the main control board 1310 shown in FIG. 70, a circuit to which a detection signal from the full sensor 279 is input via the power supply board 931, a circuit to which an operation signal from the operation switch 954 is input, and the like. . First, the circuit to which the detection signal from the door frame opening switch is input will be described, then the circuit to which the detection signal from the main body frame opening switch will be input, the circuit to which the payout power failure warning signal from the power failure monitoring circuit will be input, The circuit to which the detection signal from the full tank detection sensor is input and the circuit to which the operation signal from the operation switch is input will be described. Note that the full detection sensor 279 and the various detection switches such as the ball break detection sensor 827, the payout detection sensor 842, and the rotation detection sensor 840 shown in FIG. Since the circuit configuration to which the detection signal from the switch is input is substantially the same, the circuit to which the detection signal from the full sensor is input will be described here.

[10-2-3 (a). Circuit where detection signal from door frame opening switch is input]
The door frame opening switch 618 uses a normally closed type (normally closed (NC)), and the switch is turned on (conducted) with the door frame 3 opened from the main body frame 4 shown in FIG. The switch is turned off (cut) while 3 is closed by the body frame 4. The second terminal of the door frame opening switch 618 is grounded to the ground (GND), while the first terminal of the door frame opening switch 618 is a pull-up resistor PR20 whose one end is electrically connected to the + 5V power line. It is electrically connected to the end and electrically connected to the base terminal of the transistor PTR20 via the resistor PR21. The base terminal of the transistor PTR20 is electrically connected to the resistor PR21, and one end thereof is electrically connected to the other end of the resistor PR22 that is grounded to the ground (GND). Further, the first terminal of the door frame opening switch 618 is electrically connected to the pull-up resistor PR20, and is also electrically connected to the other end of the capacitor PC20 that is grounded to the ground (GND). . The emitter terminal of the transistor PTR20 is grounded to the ground (GND), and the collector terminal of the transistor PTR20 is electrically connected to the other end of the resistor PR23, one end of which is electrically connected to the + 5V power supply line, and a non-inverting buffer. Dispensing control via ICPIC 20 (non-inverted buffer ICPIC 20 includes eight non-inverted buffer circuits, and the signal waveform input to one (PIC20A) is shaped and output without being inverted). The MPU 952a is electrically connected to the input terminal PA0 of the input port PA. When the transistor PTR20 is turned ON / OFF, the logic of the signal output from the collector terminal of the transistor PTR20 changes, and the signal is input as the door opening signal to the input terminal PA0 of the input port PA of the payout control MPU 952a.

  The first terminal of the door frame opening switch 618 is pulled up to the + 5V side by the pull-up resistor PR20 and is electrically connected to the base terminal of the transistor PTR20 through the resistor PR21, and the + 5V side by the pull-up resistor PR20. And is electrically connected to the base terminal of the transistor PTR21 via the resistor PR24. In addition to being electrically connected to the resistor PR24, one end of the transistor PTR21 is electrically connected to the other end of the resistor PR25 that is grounded to the ground (GND). The emitter terminal of the transistor PTR21 is grounded to the ground (GND), and the collector terminal of the transistor PTR21 is electrically connected to the external terminal plate 784 via a wiring (harness). Note that when the collector terminal of the transistor PTR21 is electrically connected to the external terminal plate 784 via a wiring (harness), one end of the external terminal plate 784 is electrically connected to the + 12V power line. It is electrically connected to the other end of the up resistor. When the transistor PTR21 is turned ON / OFF, the logic of the signal output from the collector terminal of the transistor PTR21 changes, and the signal is input to the external terminal plate 784 as the outer end frame door opening information output signal.

  Further, the first terminal of the door frame opening switch 618 is pulled up to the + 5V side by the pull-up resistor PR20 and is electrically connected to the base terminal of the transistor PTR20 through the resistor PR21, and at the + 5V side by the pull-up resistor PR20. To the base terminal of the transistor PTR21 via the resistor PR24, and to the + 5V side by the pull-up resistor PR20 and electrically connected to the base terminal of the transistor PTR22 via the resistor PR26. ing. The base terminal of the transistor PTR22 is electrically connected to the resistor PR26, and one end is electrically connected to the other end of the resistor PR27 that is grounded to the ground (GND). The emitter terminal of the transistor PTR22 is grounded to the ground (GND), and the collector terminal of the transistor PTR22 is electrically connected to the main control board 1310 shown in FIG. 69 via a wiring (harness). When the collector terminal of the transistor PTR22 is electrically connected to the main control board 1310 via a wiring (harness), one end of the main control input circuit 1310b of the main control board 1310 shown in FIG. The other end of a pull-up resistor (not shown) that is electrically connected to the line is electrically connected. When the transistor PTR22 is turned on / off, the logic of the signal output from the collector terminal of the transistor PTR22 changes, and the signal is input to the main control board 1310 as the main frame door opening signal.

  The circuit composed of the pull-up resistor PR20 and the capacitor PC20 is a switch signal generation circuit, and when the door frame 3 is opened from the main body frame 4 or when the door frame 3 is closed by the main body frame 4. It is configured as a circuit that also has a function of absorbing voltage fluctuations from the door frame opening switch 618 due to a fluttering phenomenon in which the contacts constituting the door frame opening switch 618 are repeatedly turned on and off for a short time.

  The circuit composed of the resistors PR21 and PR22 and the transistor PTR20, the circuit composed of the resistors PR24 and PR25 and the transistor PTR21, and the circuit composed of the resistors PR26 and PR27 and the transistor PTR22 are a door frame opening switch. This is a switch circuit that is turned ON / OFF by a detection signal from 618.

When the door frame 3 is opened from the main body frame 4, the door frame opening switch 618 is ON, so that the voltage applied to the base terminal of the transistor PTR 20 is lowered to the ground (GND) side, so that the transistor PTR 20 The switch circuit is turned off and the switch circuit is also turned off. As a result, the voltage applied to the collector terminal of the transistor PTR20 is pulled up to the + 5V side by the pull-up resistor PR23, and the door frame opening signal whose logic becomes HI is input to the input terminal PA0 of the input port PA of the payout control MPU952a. The Further, when the door frame 3 is opened from the main body frame 4, the door frame opening switch 618 is ON, so that the voltage applied to the base terminal of the transistor PTR21 is pulled down to the ground (GND) side, thereby causing the transistor The PTR 21 is turned off and the switch circuit is also turned off.
As a result, the voltage applied to the collector terminal of the transistor PTR21 is pulled up to + 12V side by the pull-up resistor of the external terminal board 784 via the wiring (harness), and the outer end frame door opening information output signal whose logic becomes HI. Is input to the external terminal board 784. Further, when the door frame 3 is opened from the main body frame 4, the door frame opening switch 618 is turned on, so that the voltage applied to the base terminal of the transistor PTR22 is pulled down to the ground (GND) side, whereby the transistor The PTR 22 is turned off and the switch circuit is also turned off. As a result, the voltage applied to the collector terminal of the transistor PTR22 is pulled up to + 12V side by the pull-up resistor of the main control input circuit 1310b of the main control board 1310 via the wiring (harness), and the logic becomes HI. A door opening signal is input to the main control board 1310.

  On the other hand, when the door frame 3 is closed from the main body frame 4, the door frame opening switch 618 is OFF, so that the voltage applied to the base terminal of the transistor PTR20 is pulled up to the + 5V side by the pull-up resistor PR20. Thus, the transistor PTR20 is turned on and the switch circuit is also turned on. As a result, the voltage applied to the collector terminal of the transistor PTR20 is pulled down to the ground (GND) side, and the door frame opening signal whose logic is LOW is input to the input terminal PA0 of the input port PA of the payout control MPU 952a. In addition, when the door frame 3 is closed from the main body frame 4, the door frame opening switch 618 is OFF, so that the voltage applied to the base terminal of the transistor PTR21 is pulled up to the + 5V side to turn on the transistor PTR21. The switch circuit is also turned on. As a result, the voltage applied to the collector terminal of the transistor PTR21 is pulled down to the ground (GND) side, and the outer end frame door opening information output signal whose logic is LOW is input to the external terminal plate 784. Further, when the door frame 3 is closed from the main body frame 4, the door frame opening switch 618 is OFF, so that the voltage applied to the base terminal of the transistor PTR22 is raised to the + 5V side, so that the transistor PTR22 is turned ON. The switch circuit is also turned on. As a result, the main frame door opening signal in which the voltage applied to the collector terminal of the transistor PTR22 is pulled down to the ground (GND) side and the logic becomes LOW is input to the main control board 1310.

  As described above, when the door frame 3 is opened from the main body frame 4, the door frame opening switch 618 is turned ON, so that the door frame opening signal whose logic becomes HI is input to the input terminal PA of the input port PA of the payout control MPU 952a. While the outer frame door opening information output signal that is input to PA0 and logic is HI is input to the external terminal board 784, the main frame door opening signal that is logic HI is input to the main control board 1310, When the door frame 3 is closed by the main body frame 4, the door frame opening switch 618 is turned OFF, so that the door frame opening signal whose logic is LOW is input to the input terminal PA0 of the input port PA of the dispensing control MPU 952a. The outer frame door opening information output signal whose logic is LOW is input to the external terminal board 784, and the main frame door opening signal whose logic is LOW is input to the main control board 1310.

[10-2-3 (b). A circuit to which the detection signal from the body frame opening switch is input]
The body frame opening switch 619 uses a normally closed type (normally closed (NC)), and the switch is turned on (conducted) with the body frame 4 opened from the outer frame 2 shown in FIG. The switch is turned off (cut) while 4 is closed by the outer frame 2. The second terminal of the main body frame opening switch 619 is grounded to the ground (GND), while the first terminal of the main body frame opening switch 619 is in addition to the pull-up resistor PR28 whose one end is electrically connected to the + 5V power supply line. It is electrically connected to the end and electrically connected to the base terminal of the transistor PTR23 via the resistor PR29. In addition to being electrically connected to the resistor PR29, one end of the transistor PTR23 is electrically connected to the other end of the resistor PR30 that is grounded to the ground (GND). In addition to being electrically connected to the pull-up resistor PR28, the first terminal of the body frame opening switch 619 is also electrically connected to the other end of the capacitor PC21 that is grounded to the ground (GND). . The emitter terminal of the transistor PTR23 is grounded to the ground (GND), the collector terminal of the transistor PTR23 is electrically connected to the collector terminal of the transistor PTR21 described above, and is connected to the external terminal plate 784 via a wiring (harness). Electrically connected. Note that when the collector terminal of the transistor PTR23 is electrically connected to the external terminal plate 784 via a wiring (harness), one end of the external terminal plate 784 is electrically connected to the + 12V power line. It is electrically connected to the other end of the up resistor. When the transistor PTR23 is turned on / off, the logic of the signal output from the collector terminal of the transistor PTR23 changes, and the signal is input to the external terminal plate 784 as the outer end frame door opening information output signal.

  Further, the first terminal of the body frame opening switch 619 is pulled up to + 5V side by the pull-up resistor PR28 and is electrically connected to the base terminal of the transistor PTR23 through the resistor PR29, and also at the + 5V side by the pull-up resistor PR28. And is electrically connected to the base terminal of the transistor PTR24 via the resistor PR31. In addition to being electrically connected to the resistor PR31, one end of the transistor PTR24 is electrically connected to the other end of the resistor PR32 that is grounded to the ground (GND). The emitter terminal of the transistor PTR24 is grounded to the ground (GND), and the collector terminal of the transistor PTR24 is electrically connected to the collector terminal of the transistor PTR22 described above and shown in FIG. 69 via a wiring (harness). The main control board 1310 is electrically connected. When the collector terminal of the transistor PTR24 is electrically connected to the main control board 1310 via a wiring (harness), one end of the collector terminal in the main control input circuit 1310b of the main control board 1310 shown in FIG. The other end of a pull-up resistor (not shown) that is electrically connected to the line is electrically connected. When the transistor PTR24 is turned on / off, the logic of the signal output from the collector terminal of the transistor PTR24 changes, and the signal is input to the main control board 1310 as the main frame door opening signal.

  A circuit composed of the pull-up resistor PR28 and the capacitor PC21 is a switch signal generation circuit, and when the main body frame 4 is opened from the outer frame 2 or when the main body frame 4 is closed by the outer frame 2, The contacts constituting the body frame opening switch 619 are configured as a circuit that also has a function of absorbing fluctuations in voltage from the body frame opening switch 619 due to a fluttering phenomenon in which the contacts that repeatedly turn ON / OFF repeatedly.

  A circuit composed of the resistors PR29 and PR30 and the transistor PTR23 and a circuit composed of the resistors PR31 and PR32 and the transistor PTR24 are switch circuits that are turned on / off by a detection signal from the body frame opening switch 619.

  In the state where the main body frame 4 is opened from the outer frame 2, the main body frame opening switch 619 is ON, so that the voltage applied to the base terminal of the transistor PTR23 is pulled down to the ground (GND) side, whereby the transistor PTR23 is turned on. The switch circuit is turned off and the switch circuit is also turned off. As a result, the voltage applied to the collector terminal of the transistor PTR23 is pulled up to the + 12V side by the pull-up resistor of the external terminal board 784 via the wiring (harness), and the outer end frame door opening information output signal whose logic becomes HI. Is input to the external terminal board 784. In the state where the main body frame 4 is opened from the outer frame 2, the main body frame opening switch 619 is ON, so that the voltage applied to the base terminal of the transistor PTR 24 is lowered to the ground (GND) side, thereby causing the transistor The PTR 24 is turned off and the switch circuit is also turned off. As a result, the voltage applied to the collector terminal of the transistor PTR24 is pulled up to + 12V side by the pull-up resistor of the main control input circuit 1310b of the main control board 1310 via the wiring (harness), and the logic becomes HI. A door opening signal is input to the main control board 1310.

  On the other hand, when the main body frame 4 is closed by the outer frame 2, the main body frame opening switch 619 is OFF, so that the voltage applied to the base terminal of the transistor PTR23 is pulled up to the + 5V side by the pull-up resistor PR28. Thus, the transistor PTR23 is turned on, and the switch circuit is also turned on. As a result, the voltage applied to the collector terminal of the transistor PTR23 is pulled down to the ground (GND) side in the external terminal board 784 via the wiring (harness), and the outer frame door opening information output signal whose logic becomes LOW is output. Input to the external terminal board 784. When the main body frame 4 is closed by the outer frame 2, the main body frame opening switch 619 is OFF, so that the voltage applied to the base terminal of the transistor PTR24 is pulled up to the + 5V side by the pull-up resistor PR28. As a result, the transistor PTR24 is turned on, and the switch circuit is also turned on. As a result, the voltage applied to the collector terminal of the transistor PTR24 is pulled down to the ground (GND) side in the main control board 1310 via the wiring (harness), and the main frame door open signal whose logic is LOW is generated in the main control board. 1310 is input.

  As described above, when the main body frame 4 is opened from the outer frame 2, the outer frame door opening information output signal whose logic is HI is input to the external terminal board 784 by turning on the main body frame opening switch 619. When the main frame door opening signal whose logic is HI is input to the main control board 1310, while the main body frame 4 is closed to the outer frame 2, the main body frame opening switch 619 is turned OFF, Is output to the external terminal board 784, and the main frame door open signal whose logic is LOW is input to the main control board 1310.

  In the present embodiment, as described above, one or both of the state in which the door frame 3 is closed by the main body frame 4 and the state in which the main body frame 4 is opened from the outer frame 2 are used. Even in this case, since the main frame door opening signal is input to the main control board 1310, the main control MPU 1310a of the main control board 1310 shown in FIG. Although it is not possible to determine whether the door frame 3 is opened from the main body frame 4 or the main body frame 4 is opened from the outer frame 2, the door frame 3 and / or It can be determined that a state in which the player has opened the main body frame 4 does not occur during the normal game, and the outer frame door opening information output signal is output to the external terminal board 784. This outer edge because it is designed to be entered The door opening information output signal is transmitted to the hall computer via the external terminal board 784, and the hall computer is in a state where the door frame 3 is opened from the main body frame 4 based on the outer end frame door opening information output signal. Or it is impossible to determine whether the main body frame 4 is opened from the outer frame 2, but there is a state in which the player does not occur during normal games that the door frame 3 and / or the main body frame 4 are opened. It can be determined that it has occurred.

  In the present embodiment, as described above, the door frame opening switch 618 and the main body frame opening switch 619 are normally closed, so that the door frame opening switch 618 is short-circuited for some reason and the switch is turned on ( Even if the door frame 3 is opened from the main body frame 4 even if it is in a conductive state, the main body frame opening switch 619 is short-circuited for some reason and the switch is turned on (conductive). 4 is released from the outer frame 2. Thus, by adopting a normally closed switch for the door frame opening switch 618 and the main body frame opening switch 619, a main frame door opening signal can be output to the main control board 1310 even when a short circuit occurs, and the outer end The frame door opening information output signal can be transmitted to the hall computer via the external terminal board 784.

  When the door frame opening switch 618 and the body frame opening switch 619 are changed from a normally closed switch to a normally open type (normally open (NO)) switch (door frame opening switch 618 ′ and body frame opening switch 619 ′). The door frame opening switch 618 ′ is turned on (conductive) when the door frame 3 is closed from the main body frame 4, and is turned off (cut) when the door frame 3 is opened to the main body frame 4. . The body frame opening switch 619 ′ is turned on (conductive) when the body frame 4 is closed from the outer frame 2, and is turned off (disconnected) when the body frame 4 is opened to the outer frame 2. Then, even if the door frame opening switch 618 ′ is disconnected due to some cause and the switch is turned off (cut), the door frame 3 is opened from the main body frame 4, and the main body due to some cause. Even when the frame opening switch 619 ′ is disconnected and the switch is turned off (cut), the main body frame 4 is released from the outer frame 2. In this way, the door frame opening switch 618 ′ and the main body frame opening switch 619 ′ can output a main frame door opening signal to the main control board 1310 even when a normally open switch is used, or at the time of disconnection, An outer end frame door opening information output signal can be transmitted to the hall computer via the external terminal board 784.

[10-2-3 (c). A circuit that receives a power outage warning signal from the power outage monitoring circuit]
A transmission line for transmitting a power failure notice signal from the power failure monitoring circuit 1310e provided on the main control board 1310 is electrically connected to the other end of the pull-up resistor PR40, one end of which is electrically connected to the + 12V power supply line, and the resistor. It is electrically connected to the base terminal of the transistor PTR40 via PR41. In addition to being electrically connected to the resistor PR41, one end of the transistor PTR40 is electrically connected to the other end of the resistor PR42 that is grounded to the ground (GND). The emitter terminal of the transistor PTR40 is grounded to the ground (GND), and the collector terminal of the transistor PTR40 is electrically connected to the other end of the resistor PR43, one end of which is electrically connected to the + 5V power supply line, and a non-inverting buffer. Dispensing control via ICPIC 40 (non-inverted buffer ICPIC 40 includes eight non-inverted buffer circuits, and the signal waveform input to one (PIC 40A) is shaped and output without being inverted). The MPU 952a is electrically connected to the input terminal PA1 of the input port PA. When the transistor PTR40 is turned on / off, the logic of the signal output from the collector terminal of the transistor PTR40 changes, and the signal is input to the input terminal PA1 of the input port PA of the payout control MPU 952a as a payout power failure notice signal.

  A circuit composed of the resistors PR41 and PR42 and the transistor PTR40 is a switch circuit that is turned ON / OFF by a payout power failure notice signal from a power failure monitoring circuit 1310e provided in the main control board 1310.

  As described above, the power failure monitoring circuit 1310e monitors the signs of power failure or instantaneous power failure of two types of voltages, + 12V and + 24V, from the power supply board 931. A payout blackout notice signal is output to the payout control board 951 as a blackout notice via the main control output circuit 1310cb. The power failure monitoring circuit 1310e monitors the signs of a power failure or a momentary power failure of the + 12V and + 24V voltages. As described above, the condition that the voltage of + 24V is larger than the power failure detection voltage V1pf and the voltage of + 12V is higher than the power failure detection voltage V2pf. When both conditions are satisfied, the voltage applied to the collector terminal of the subsequent transistor MTR22 is pulled down to the ground (GND) side in the payout control board 951 via the wiring (harness), and the logic becomes LOW. One of a condition that the + 24V voltage is smaller than the power failure detection voltage V1pf and a condition that the voltage of + 12V is smaller than the power failure detection voltage V2pf is input to the payout power failure notification signal that is input to the payout control board 951. When the condition is satisfied, the collector of the subsequent transistor MTR22 Payout power failure warning signal which logic becomes HI by the voltage applied to the data terminal is pulled + 12V side by the pull-up resistor PR40 described above via wiring (harness) is input to the payout control board 951.

  When both of the conditions that the voltage of + 24V is larger than the power failure detection voltage V1pf and the condition that the voltage of + 12V is larger than the power failure detection voltage V2pf are satisfied, that is, there is no sign of a power failure or instantaneous interruption of the voltages of + 12V and + 24V. Sometimes, since a payout power failure warning signal whose logic is LOW is input to the payout control board 951, the voltage applied to the base terminal of the transistor PTR40 is pulled down to the ground (GND) side to turn off the transistor PTR40. The voltage applied to the collector terminal of the transistor PTR40 is pulled up to the + 5V side by the resistor PR43. As a result, a payout power failure warning signal whose logic is HI is input from the collector terminal of the transistor PTR40 to the input terminal PA1 of the input port PA of the payout control MPU 952a.

  On the other hand, when either one of the condition that the voltage of + 24V is smaller than the power failure detection voltage V1pf and the condition that the voltage of + 12V is smaller than the power failure detection voltage V2pf is satisfied, that is, the voltage of + 12V and / or + 24V When there is an indication of a power outage or a momentary power failure, a payout power failure notice signal whose logic is HI is input to the payout control board 951 and is applied to the base terminal of the transistor PTR 40 by the payout power failure notice signal from the power failure monitoring circuit 1310e. Is pulled up to + 12V by the pull-up resistor PR40, the transistor PTR40 is turned on, and the voltage applied to the collector terminal of the transistor PTR40 is pulled down to the ground (GND) side. As a result, a payout power failure warning signal whose logic at the collector terminal of the transistor PTR40 is LOW is input to the input terminal PA1 of the input port PA of the payout control MPU 952a.

  Thus, when there is an indication of a power failure or instantaneous power failure at a voltage of +12 V and / or +24 V, a payout power failure notice signal whose logic is HI is input to the input terminal PA1 of the input port PA of the payout control MPU 952a, When there is no sign of + 12V or + 24V power failure or instantaneous power failure, a payout power failure notice signal whose logic is LOW is input to the input terminal PA1 of the input port PA of the payout control MPU 952a. As described above, when there is an indication of a power failure or instantaneous power failure at a voltage of + 12V and / or + 24V, a power failure warning signal whose logic is HI is input to the input terminal PA1 of the input port PA of the main control MPU 1310a. On the other hand, when there is no sign of + 12V and + 24V power failure or instantaneous power failure, a power failure warning signal is input to the input terminal PA1 of the input port PA of the main control MPU 1310a. The logic of the payout blackout signal input to the payout control MPU 952a and the logic of the blackout notice signal input to the main control MPU 1310a are the same logic.

[10-2-3 (d). Circuit where detection signal from full tank detection sensor is input]
The detection signal from the full tank detection sensor 279 provided in the foul cover unit 270 shown in FIG. 1 is sent through the handle relay terminal plate 315 shown in FIG. 1 and the power supply board 931 shown in FIG. Has been entered. The output terminal of the full tank detection sensor 279 is configured as an open collector output type in which the emitter terminal is grounded to the ground (GND), and one end of the payout control board 951 is electrically connected to the + 12V power supply line. The pull-up resistor PR44a is electrically connected to the other end of the pull-up resistor PR44a and is electrically connected to the first terminal of the full-terminal detection sensor three-terminal filter PIC50. The full-tank detection sensor three-terminal filter PIC50 is a T-type filter circuit, and has excellent attenuation characteristics magnetically shielded with ferrite.

  The second terminal of the full terminal detection sensor three-terminal filter PIC50 is grounded to the ground (GND), and the third terminal of the full tank detection sensor three terminal filter PIC50 is connected to the full tank detection sensor 3 via the resistor PR44b. The terminal filter PIC50 is electrically connected to the first terminal, and is also electrically connected to the base terminal of the transistor PTR41 via the resistor PR45. As a result, the detection signal of the full tank detection sensor 279 is input to the base terminal of the transistor PTR 41 after the noise component is removed in the full terminal detection sensor three-terminal filter PIC50. In addition to the resistor PR45 being electrically connected, the base terminal of the transistor PTR41 is electrically connected to the other end of the resistor PR46 that is grounded to the ground (GND), and has one end connected to the ground (GND). The other end of the electrically connected capacitor PC40 is electrically connected. The capacitor PC40 plays a role as a low-pass filter. The emitter terminal of the transistor PTR41 is grounded to the ground (GND), and the collector terminal of the transistor PTR41 is electrically connected to the other end of the resistor PR47, one end of which is electrically connected to the + 5V power supply line, and a non-inverting buffer. Payout control via ICPIC 40 (non-inverted buffer ICPIC 40 includes eight non-inverted buffer circuits, and the signal waveform input to one (PIC 40B) is shaped and output without being inverted). The MPU 952a is electrically connected to the input terminal PA2 of the input port PA. When the transistor PTR41 is turned on / off, the logic of the signal output from the collector terminal of the transistor PTR41 changes, and the signal is input as a full signal to the input terminal PA2 of the input port PA of the payout control MPU 952a.

  A circuit composed of the resistors PR45 and PR46 and the transistor PTR41 is a switch circuit that is turned ON / OFF by a detection signal from the full sensor 279.

  As described above, the full tank detection sensor 279 detects whether or not the storage space in the second ball passage of the foul cover unit 270 is full with the stored game balls. In the present embodiment, when the storage space is not full with the stored game balls, the voltage applied to the output terminal of the full tank detection sensor 279 is transmitted via the handle relay terminal plate 315 and the power supply board 931. When the payout control board 951 is pulled up to + 12V by the pull-up resistor 44a and the logic becomes HI, the signal is input to the payout control board 951, while the game ball in which the accommodation space is stored is full. The signal applied to the output terminal of the full tank detection sensor 279 is pulled down to the ground (GND) side in the payout control board 951 via the handle relay terminal board 315 and the power supply board 931, and the signal becomes logic LOW. Is input to the payout control board 951.

  When the storage space is not full with the stored game balls, the voltage applied to the output terminal of the full detection sensor 279 is applied to the payout control board 951 via the handle relay terminal board 315 and the power supply board 931. When a signal that has been pulled up to + 12V by the pull-up resistor 44a and whose logic has become HI is input to the base terminal of the transistor PTR41 described above, the transistor PTR41 is turned ON and the switch circuit is also turned ON. As a result, a full signal in which the voltage applied to the collector terminal of the transistor PTR41 is pulled down to the ground (GND) side and the logic becomes LOW is input to the input terminal PA2 of the input port PA of the payout control MPU 952a.

  On the other hand, when the storage space is full of stored game balls, the voltage applied to the output terminal of the full tank detection sensor 279 is supplied to the payout control board via the handle relay terminal board 315 and the power supply board 931. In 951, when the signal that is pulled down to the ground (GND) side and becomes logic LOW is input to the base terminal of the transistor PTR41 described above, the transistor PTR41 is turned OFF and the switch circuit is also turned OFF. As a result, a full-tank signal whose voltage applied to the collector terminal of the transistor PTR41 is pulled up to the + 5V side by the resistor PR47 and whose logic becomes HI is input to the input terminal PA2 of the input port PA of the payout control MPU 952a.

  In the present embodiment, the detection signal from the full tank detection sensor 279 is input to the switch circuit including the resistor PR45, the resistor PR46, and the transistor PTR41 via the full tank detection sensor three-terminal filter PIC50. The detection signal from various detection switches such as the ball breakage detection sensor 827 and the payout detection sensor 842 shown in FIG. 70 is transmitted from a T-type filter circuit such as a full-terminal detection sensor three-terminal filter PIC50. The circuit configuration is such that it is directly input to each switch circuit without intervention. Since the full tank detection sensor 279 is provided in the foul cover unit 270 attached to the door frame 3, it is compared with the ball breakage detection sensor 827, the payout detection sensor 842, etc. provided in the payout device 830 attached to the main body frame 4. The path for transmitting the detection signal becomes extremely long and is very susceptible to noise.

  The full tank detection sensor 279 detects whether or not the storage space in the second ball passage of the foul cover unit 270 is filled with the stored game balls, and the payout control MPU 952a is a full tank detection sensor. If it is determined based on the detection signal from 279 that the storage space is full of the game balls stored, the drive control of the payout motor 834 is forcibly stopped to stop paying out the game balls by the payout rotating body. It comes to perform control. That is, when noise enters the transmission path (transmission line) that transmits the detection signal from the full tank detection sensor 279, the payout control MPU 952a is not filled with the game ball in which the accommodation space is stored, but the payout motor 834 In some cases, the driving control is forcibly stopped to stop paying out the game ball by the payout rotating body, or the payout motor 834 is driven even though the storage space is full of the game balls stored. If the game ball is filled up to the upstream side of the above-described prize ball passage by controlling and rotating the payout rotator to continue paying out the game ball, the payout rotator itself cannot rotate and the payout motor 834 is rotated. The dispensing motor 834 is overloaded and abnormally generates heat and breaks down, or the rotating shaft of the dispensing motor 834 is transmitted to the rotational motion of the dispensing rotating body. Sometimes referred to 構等 is or failure. Therefore, in the present embodiment, in order to prevent such a problem, the circuit configuration is such that the detection signal from the full tank detection sensor 279 is first removed by the full terminal detection sensor three-terminal filter PIC50. Adopted.

[10-2-3 (e). Circuit that receives operation signals from operation switches]
The output terminals 1 and 2 of the operation switch 954 are grounded to the ground (GND), and the output terminals 3 and 4 of the operation switch 954 are connected to the + 5V side by the pull-up resistor PR48. It is pulled up and electrically connected to the base terminal of the previous-stage transistor PTR42 via the resistor PR49. In addition to being electrically connected to the resistor PR49, one end of the base terminal of the transistor PTR42 in the previous stage is electrically connected to the other end of the resistor PR50 that is grounded to the ground (GND). The fourth terminal, which is the output terminal of the operation switch 954, is electrically connected to the pull-up resistor PR48, and is also electrically connected to the other end of the capacitor PC41 whose one end is grounded to the ground (GND). ing. The emitter terminal of the front-stage transistor PTR42 is grounded to the ground (GND), and the collector terminal of the front-stage transistor PTR42 is electrically connected to the other end of the resistor PR51 whose one end is electrically connected to the + 5V power supply line. At the same time, it is electrically connected to the base terminal of the subsequent transistor PTR43 via the resistor PR52. In addition to being electrically connected to the resistor PR52, one end of the base terminal of the transistor PTR43 at the subsequent stage is electrically connected to the other end of the resistor PR53 that is grounded to the ground (GND). The emitter terminal of the downstream transistor PTR43 is grounded to the ground (GND), and the collector terminal of the downstream transistor PTR43 is electrically connected to the other end of the resistor PR54 whose one end is electrically connected to the + 5V power supply line. A non-inverted buffer ICPIC 40 (the non-inverted buffer ICPIC 40 includes eight non-inverted buffer circuits, and shapes and outputs the signal waveform input to one of them (PIC 40C) without inversion). Via the input terminal PA3 of the input port PA of the payout control MPU 952a. The logic of the signal output from the collector terminal of the downstream transistor PTR43 is changed by turning ON / OFF the upstream and downstream transistors PTR42 and PTR43. Is input.

  In addition, the third and fourth terminals, which are the output terminals of the operation switch 954, are pulled up to the + 5V side by the pull-up resistor PR48 and are electrically connected to the base terminal of the previous transistor PTR42 through the resistor PR49. The voltage is pulled up to + 5V by the pull-up resistor PR48 and is electrically connected to the base terminal of the transistor PTR44 via the resistor PR55. In addition to being electrically connected to the resistor PR55, one end of the transistor PTR44 is electrically connected to the other end of the resistor PR56 that is grounded to the ground (GND). The emitter terminal of the transistor PTR44 is grounded to the ground (GND), and the collector terminal of the transistor PTR44 is electrically connected to the main control board 1310 via a wiring (harness). When the collector terminal of the transistor PTR44 is electrically connected to the main control board 1310 via wiring (harness), one end of the collector terminal of the main control input circuit 1310b of the main control board 1310 shown in FIG. 77 is + 12V. The other end of the pull-up resistor MR2 electrically connected to the power supply line is electrically connected. When the transistor PTR44 is turned on / off, the logic of the signal output from the collector terminal of the transistor PTR44 changes, and the signal is input as the RAM clear signal to the input terminal PA0 of the input port PA of the main control MPU 1310a.

  The circuit composed of the pull-up resistor PR48 and the capacitor PC41 is a switch signal generation circuit, and when the operation switch 954 is pressed, the contact that constitutes the operation switch 954 repeats the ON / OFF for a short time. It is configured as a circuit that also has a function of absorbing voltage fluctuations from the operation switch 954.

  A circuit composed of the resistors PR49 and PR50 and the transistor PTR42 is a front-stage switch circuit, and a circuit composed of the resistors PR52 and PR53 and the transistor PTR43 is a rear-stage switch circuit, and the resistors PR55 and PR56 and the transistor PTR44. Is a switch circuit that is turned ON / OFF by an operation signal from the operation switch 954.

  As described above, the operation switch 954 is connected to the RAM (payout control built-in RAM) built in the payout control MPU 952a of the payout control board 951 and the main control MPU 1310a of the main control board 1310 within a predetermined period from when the power is turned on. It is operated when clearing the built-in RAM (main control built-in RAM), or when an error is reported after the power is turned on, it is operated to cancel the error. A function for clearing RAM within a predetermined period from the time and canceling an error after the power is turned on (after a period during which the function is performed as a RAM clear has elapsed, that is, after a predetermined period has elapsed since the power was turned on) And has a function. The operation signal from the operation switch 954 becomes a RAM clear signal in the function of performing a RAM clear within a predetermined period from the time when the power is turned on. On the other hand, after the power is turned on In the function for performing error cancellation in (), an error cancellation signal is generated.

  When the operation switch 954 is not operated, the operation signal whose logic becomes HI by pulling up the third terminal and the fourth terminal, which are output terminals of the operation switch 954, to the + 5V side by the pull-up resistor PR48 is a transistor in the previous stage When input to the base terminal of the PTR 42, the previous stage transistor PTR 42 is turned ON, and the previous stage switch circuit is also turned ON, and is applied to the collector terminal of the previous stage transistor PTR 43, which is a voltage applied to the base of the subsequent stage transistor PTR 43. As a result, the rear-stage transistor PTR43 is turned OFF, and the rear-stage switch circuit is also turned OFF. As a result, the voltage applied to the collector terminal of the transistor PTR43 at the subsequent stage is pulled up to the + 5V side by the resistor PR54, and the RWMCLR signal whose logic becomes HI is input to the input terminal PA3 of the input port PA of the payout control MPU 952a. The payout control MPU 952a performs a RAM clear that erases information stored in the payout control built-in RAM when the logic of the RWMCLR signal input to the input terminal PA3 is HI within a predetermined period from the time of power-on. If the logic of the RWMCLR signal input to the input terminal PA3 is HI after the power is turned on (after a predetermined period has elapsed since the power was turned on), the error is canceled. Judge that it is not an instruction.

  Further, when the operation switch 954 is not operated, the operation signal in which the output terminal of the operation switch 954 and the third terminal and the fourth terminal are pulled up to the + 5V side by the pull-up resistor PR48 and the logic becomes HI is output from the transistor PTR44. The transistor PTR44 is turned on and the switch circuit is also turned on. As a result, the RAM clear signal in which the voltage applied to the collector terminal of the transistor PTR44 is pulled down to the ground (GND) side in the main control board 1310 via the wiring (harness) and the logic becomes LOW is sent to the main control board 1310. Entered. When the RAM clear signal whose logic is LOW is inputted within a predetermined period from when the power is turned on, the main control MPU 1310a of the main control board 1310 has the logic shown in FIG. Is input to the base terminal of the transistor MTR0, the transistor MTR0 is turned OFF and the switch circuit is also turned OFF. As a result, the RAM clear signal in which the voltage applied to the collector terminal of the transistor MTR0 is pulled up to the + 5V side by the resistor MR5 and the logic becomes HI is input to the input terminal PA0 of the input port PA of the main control MPU 1310a. The main control MPU 1310a determines that the RAM clear signal for erasing the information stored in the main control built-in RAM is not instructed when the logic of the RAM clear signal input to the input terminal PA0 is HI.

  On the other hand, when the operation switch 954 is operated, the operation signal whose logic is LOW by pulling down the third terminal and the fourth terminal, which are output terminals of the operation switch 954, to the ground (GND) side is the transistor in the previous stage. When input to the base terminal of the PTR 42, the previous stage transistor PTR 42 is turned OFF and the previous stage switch circuit is also turned OFF, and the voltage applied to the base of the rear stage transistor PTR 43 is applied to the collector terminal of the previous stage transistor PTR 42. As a result, the subsequent transistor PTR43 is turned on and the subsequent switch circuit is also turned on. As a result, the voltage applied to the collector terminal of the subsequent transistor PTR43 is pulled down to the ground (GND) side, and the RWMCLR signal whose logic is LOW is input to the input terminal PA3 of the input port PA of the payout control MPU 952a. The payout control MPU 952a performs RAM clear for erasing information stored in the payout control built-in RAM when the logic of the RWMCLR signal input to the input terminal PA3 is LOW within a predetermined period from the time of power-on. If the logic of the RWMCLR signal input to the input terminal PA3 is LOW after the power is turned on (after a predetermined period has elapsed since the power was turned on), the error is canceled. Judge that it is an instruction.

  In addition, when the operation switch 954 is being operated, an operation in which the logic becomes LOW by pulling down the third terminal and the fourth terminal, which are output terminals of the operation switch 954, to the ground (GND) side by the pull-up resistor PR48. A signal is input to the base terminal of the transistor PTR44, the transistor PTR44 is turned OFF, and the switch circuit is also turned OFF. As a result, the voltage applied to the collector terminal of the transistor PTR44 is pulled up to the + 12V side by the pull-up resistor MR2 of the main control input circuit 1310b of the main control board 1310 via the wiring (harness), and the logic becomes HI. A clear signal is input to the main control board 1310. When the RAM clear signal whose logic is HI is input within a predetermined period from when the power is turned on, the main control MPU 1310a of the main control board 1310 has the logic shown in FIG. When the RAM clear signal is input to the base terminal of the transistor MTR0, the transistor MTR0 is turned on and the switch circuit is also turned on. As a result, the RAM clear signal in which the voltage applied to the collector terminal of the transistor MTR0 is pulled down to the ground (GND) side and the logic becomes LOW is input to the input terminal PA0 of the input port PA of the main control MPU 1310a. When the logic of the RAM clear signal input to the input terminal PA0 is LOW, the main control MPU 1310a determines that the instruction is to perform RAM clear to erase information stored in the main control built-in RAM.

[10-2-4. Dispensing motor drive circuit]
Next, a payout motor drive circuit 952d for outputting a drive signal to the payout motor 834 of the payout device 830 shown in FIG. 5 will be described. As shown in FIG. 83, the payout motor drive circuit 952d is mainly composed of a voltage switching circuit 952da and a drive ICPIC60. The power input terminals 1 and 2 of the voltage switching circuit 952da are electrically connected to the + 12V power supply line and the + 5V power supply line, respectively, and +12 and + 5V are applied, respectively. The ground terminal of the voltage switching circuit 952da is the ground (GND). Grounded. A voltage switching signal is input to the power source switching input terminal of the voltage switching circuit 952da. This voltage switching signal is output from the output terminal of a predetermined output port of the payout control MPU 952a to the payout control output circuit 952ca with reset function, and is output from the payout control output circuit 952ca with reset function to the power supply switching input terminal of the voltage switch circuit 952da. It has come to be. The power output terminal of the voltage switching circuit 952da is electrically connected to the third terminal and the tenth terminal, which are the cathode terminals of the drive ICPIC 60, via the Zener diode PZD60, and electrically connected to the power supply terminal of the payout motor 834. 3 is the cathode terminal of the drive ICPIC 60 via the Zener diode PZD 60 using + 12V or + 5V as the motor drive voltage based on the voltage switch signal input to the voltage switch input terminal of the voltage switch circuit 952da. The power is supplied to the terminal and the 10th terminal and supplied to the payout motor 834.

  The drive ICPIC 60 includes four Darlington power transistors. In the present embodiment, the sixth terminal and the seventh terminal, which are the emitter terminals of the drive ICPIC 60, are grounded to the ground (GND), respectively, and are the base terminals of the drive ICPIC 60. A payout motor drive signal is input to the first terminal, the fifth terminal, the eighth terminal, and the twelfth terminal through the resistors PR60 to PR63, respectively. The second terminal, the fourth terminal, the ninth terminal, and the eleventh terminal that are the collector terminals of the drive ICPIC 60 are the first terminal, the fifth terminal, the eighth terminal, and the twelfth terminal that are the base terminals of the drive ICPIC 60, respectively. If the payout motor drive signal is input to the first terminal, the fifth terminal, the eighth terminal, and the twelfth terminal of the drive ICPIC 60 through the resistors PR60 to PR63, respectively, A certain drive pulse is output to each phase (/ B phase, B phase, A phase, / A phase) corresponding to the dispensing motor 834. This payout motor drive signal is output from the output terminal of a predetermined output port of the payout control MPU 952a to the payout control output circuit 952ca with reset function, and from the payout control output circuit 952ca with reset function via the resistors PR60 to PR63, the drive ICPIC60. The signal is output to the first terminal, the fifth terminal, the eighth terminal, and the twelfth terminal, which are base terminals. These drive pulses are performed by switching excitation currents that flow through the phases (/ B phase, B phase, A phase, / A phase) of the payout motor 834 to rotate the payout motor 834. Note that a back electromotive force is generated when the drive pulse (excitation signal) of each phase (/ B phase, B phase, A phase, / A phase) is cut off by this switching. When this back electromotive force exceeds the withstand voltage of the drive ICPIC 60, the drive ICPIC 60 is damaged. As a protection, the above-described Zener diode PZD0 is electrically connected to the third terminal and the tenth terminal before the drive ICPIC 60. The circuit configuration is adopted.

[10-2-5. CR unit input / output circuit]
Next, a CR unit input / output circuit 952e for inputting / outputting various signals to / from the CR unit 6 shown in FIG. 71 will be described. As described above, the payout control board 951 receives the BRDY as a ball rental request signal and the BRQ as a single payout operation start request signal via the game ball lending device connection terminal plate 869, as described above. , And a predetermined voltage VL (+12 V) and a ground LG created from the AC 24 V supplied from the power supply board 931 shown in FIG. Via the terminal board 869, an EXS signal that indicates that one payout operation has been started or ended, and a PRDY signal that indicates that a payout operation for paying out a rental ball is possible or impossible. And are output. As shown in FIG. 84, the input / output circuit for inputting and outputting these various signals mainly includes photocouplers PIC70 to PIC74 (infrared LEDs and phototransistors are incorporated).

  The predetermined voltage VL from the CR unit 6 is applied to the anode terminal of the photocoupler PIC70 via the resistor PR70. The cathode terminal of the photocoupler PIC 70 is electrically connected to the ground LG from the CR unit 6. The resistor PR60 is a limiting resistor for limiting the current flowing through the built-in infrared LED of the photocoupler PIC70. When the predetermined voltage VL from the CR unit 6 is applied to the anode terminal of the photocoupler PIC70, the photocoupler PIC70 is turned on, while the predetermined voltage VL from the CR unit 6 is not applied to the anode terminal of the photocoupler PIC70. In some cases, the photocoupler PIC 70 is turned off. The emitter terminal of the photocoupler PIC70 is grounded to the ground (GND), and the collector terminal of the photocoupler PIC70 is electrically connected to the base terminal of the transistor PTR70 via the resistor PR71, and the transistor via the resistor PR72. It is electrically connected to the base terminal of the PTR 71. In addition to being electrically connected to the resistor PR71, the collector terminal of the photocoupler PIC70 is electrically connected to the other end of the pull-up resistor PR73 that is electrically connected to the + 5V power supply line.

  In addition to being electrically connected to the resistor PR71, the base terminal of the transistor PTR70 is electrically connected to the other end of the resistor PR74 that is grounded to the ground (GND). The emitter terminal of the transistor PTR70 is grounded to the ground (GND), and the collector terminal of the transistor PTR70 is electrically connected to the other end of the resistor PR75, one end of which is electrically connected to the + 5V power supply line, and a non-inverting buffer. FIG. 80 through ICPIC 80 (non-inverted buffer ICPIC 80 includes eight non-inverted buffer circuits, and the signal waveform input to one (PIC 80A) is shaped and output without being inverted). Are electrically connected to an input terminal of a predetermined input port of the payout control MPU 952a shown in FIG. When the transistor PTR70 is turned ON / OFF, the logic of the signal output from the collector terminal of the transistor PTR70 changes, and the signal is input as the CR connection signal 1 to the input terminal of the predetermined input port of the payout control MPU 952a.

  On the other hand, the base terminal of the transistor PTR71 is electrically connected to the resistor PR72 and one end is electrically connected to the other end of the resistor PR76 that is grounded to the ground (GND). The emitter terminal of the transistor PTR71 is grounded to the ground (GND), and the collector terminal of the transistor PTR71 is electrically connected to the power supply substrate 931 via a wiring (harness). Note that when the collector terminal of the transistor PTR 71 is electrically connected to the power supply substrate 931 via a wiring (harness), one end of the collector terminal of the power supply substrate 931 is electrically connected to the + 12V power supply line (not shown). Is electrically connected to the other end. When the transistor PTR71 is turned on / off, the logic of the signal output from the collector terminal of the transistor PTR71 changes, and the signal is input to the power supply substrate 931 as a CR connection signal.

  A circuit composed of the resistors PR71 and PR74 and the transistor PTR70 is a switch circuit that is turned on / off by turning on / off the photocoupler PIC70.

  When the predetermined voltage VL from the CR unit 6 is not applied to the anode terminal of the photocoupler PIC70, the photocoupler PIC70 is turned off, and the transistor PTR70 is turned on by being pulled up to the + 5V side by the pull-up resistor PR73. It will be turned on. As a result, the voltage applied to the collector terminal of the transistor PTR 70 is pulled down to the ground (GND) side, and the CR connection signal 1 whose logic becomes LOW is input to the input terminal of the predetermined input port of the payout control MPU 952a.

  On the other hand, when the predetermined voltage VL from the CR unit 6 is applied to the anode terminal of the photocoupler PIC70, the photocoupler PIC70 is turned on, and the voltage applied to the base terminal of the transistor PTR70 is pulled down to the ground (GND) side. As a result, the transistor PTR 70 is turned OFF, and the switch circuit is also turned OFF. As a result, the voltage applied to the collector terminal of the transistor PTR70 is pulled up to the + 5V side by the pull-up resistor PTR75, and the CR connection signal 1 whose logic becomes HI is input to the input terminal of the predetermined input port of the payout control MPU952a. The

  The circuit composed of the resistors PR72 and PR76 and the transistor PTR71 is also a switch circuit that is turned on / off by turning on / off the photocoupler PIC70.

  When the predetermined voltage VL from the CR unit 6 is not applied to the anode terminal of the photocoupler PIC70, the photocoupler PIC70 is turned off and pulled up to the + 5V side by the pull-up resistor PR73, thereby turning on the transistor PTR71 and the switch circuit also It will be turned on. As a result, a voltage applied to the collector terminal of the transistor PTR 71 is pulled down to the ground (GND) side in the power supply board 931 via the wiring (harness), and the CR connection signal whose logic becomes LOW is input to the power supply board 931. The

  On the other hand, when the predetermined voltage VL from the CR unit 6 is applied to the anode terminal of the photocoupler PIC70, the photocoupler PIC70 is turned on, and the voltage applied to the base terminal of the transistor PTR71 is pulled down to the ground (GND) side. As a result, the transistor PTR 71 is turned off, and the switch circuit is also turned off. As a result, the voltage applied to the collector terminal of the transistor PTR71 is pulled up to + 12V side by the pull-up resistor of the power supply substrate 931 via the wiring (harness), and the CR connection signal whose logic becomes HI is input to the power supply substrate 931. Is done.

  The predetermined voltage VL from the CR unit 6 is applied not only to the anode terminal of the photocoupler PIC70 but also to the anode terminal of the photocoupler PIC71 via the resistor PR77. The BRDY from the CR unit 6 is input to the cathode terminal of the photocoupler PIC71. The resistor PR77 is a limiting resistor for limiting the current flowing through the built-in infrared LED of the photocoupler PIC71. When the predetermined voltage VL from the CR unit 6 is applied to the anode terminal of the photocoupler PIC71 and the BRDY logic from the CR unit 6 is LOW, the photocoupler PIC71 is turned on, while the photocoupler PIC71 is turned on. When the predetermined voltage VL from the CR unit 6 is applied to the anode terminal of the coupler PIC71 and the BRDY logic from the CR unit 6 is HI, the photocoupler PIC71 is turned off. Yes. The emitter terminal of the photocoupler PIC71 is grounded to the ground (GND), and the collector terminal of the photocoupler PIC71 is electrically connected to the other end of the pull-up resistor PR78 whose one end is electrically connected to the + 5V power supply line. A non-inverted buffer ICPIC 80 (the non-inverted buffer ICPIC 80 includes eight non-inverted buffer circuits, and shapes and outputs the signal waveform input to one of them (PIC 80B) without inverting it). To the input terminal of a predetermined input port of the payout control MPU 952a. When the photocoupler PIC71 is turned on / off, the logic of the signal output from the collector terminal of the photocoupler PIC71 changes, and the signal is input as a BRDY signal to the input terminal of a predetermined input port of the payout control MPU 952a.

  When the predetermined voltage VL from the CR unit 6 is applied to the anode terminal of the photocoupler PIC71 and the BRDY logic from the CR unit 6 is LOW, the photocoupler PIC71 is turned on. The BRDY signal whose logic is set to LOW when the voltage applied to the collector terminal of the coupler PIC71 is pulled down to the ground (GND) side is input to the input terminal of a predetermined input port of the payout control MPU 952a. On the other hand, when the predetermined voltage VL from the CR unit 6 is applied to the anode terminal of the photocoupler PIC71 and the BRDY logic from the CR unit 6 is HI, the photocoupler PIC71 is turned off. The BRDY signal whose logic is HI is pulled up to the + 5V side by the pull-up resistor PR78 and the voltage applied to the collector terminal of the photocoupler PIC71 is input to the input terminal of the predetermined input port of the payout control MPU 952a. Thus, the logic of the BRDY signal output from the collector terminal of the photocoupler PIC 71 is the same as the logic of BRDY from the CR unit 6.

  The predetermined voltage VL from the CR unit 6 is applied to the anode terminal of the photocoupler PIC72 via the resistor PR79 in addition to the anode terminal of the photocoupler PIC70 and the anode terminal of the photocoupler PIC71. The BRQ from the CR unit 6 is input to the cathode terminal of the photocoupler PIC72. The resistor PR79 is a limiting resistor for limiting the current flowing through the built-in infrared LED of the photocoupler PIC72. When the predetermined voltage VL from the CR unit 6 is applied to the anode terminal of the photocoupler PIC72 and the BRQ logic from the CR unit 6 is LOW, the photocoupler PIC72 is turned on, while the photocoupler PIC72 is turned on. When the predetermined voltage VL from the CR unit 6 is applied to the anode terminal of the coupler PIC 72 and the BRQ logic from the CR unit 6 is HI, the photo coupler PIC 72 is turned off. Yes. The emitter terminal of the photocoupler PIC72 is grounded to the ground (GND), and the collector terminal of the photocoupler PIC72 is electrically connected to the other end of the pull-up resistor PR80 whose one end is electrically connected to the + 5V power supply line. A non-inverted buffer ICPIC 80 (the non-inverted buffer ICPIC 80 includes eight non-inverted buffer circuits, and shapes and outputs the signal waveform input to one of them (PIC 80C) without inverting it). To the input terminal of a predetermined input port of the payout control MPU 952a. When the photocoupler PIC72 is turned on / off, the logic of the signal output from the collector terminal of the photocoupler PIC72 changes, and the signal is input as a BRQ signal to the input terminal of a predetermined input port of the payout control MPU 952a.

  When the predetermined voltage VL from the CR unit 6 is applied to the anode terminal of the photocoupler PIC72 and when the BRQ logic from the CR unit 6 is LOW, the photocoupler PIC72 is turned on. A BRQ signal whose logic is LOW by the voltage applied to the collector terminal of the coupler PIC 72 being pulled down to the ground (GND) side is input to the input terminal of a predetermined input port of the payout control MPU 952a. On the other hand, when the predetermined voltage VL from the CR unit 6 is applied to the anode terminal of the photocoupler PIC72 and the BRQ logic from the CR unit 6 is HI, the photocoupler PIC72 is turned off. The voltage applied to the collector terminal of the photocoupler PIC 72 is pulled up to the + 5V side by the pull-up resistor PR80, and the BRQ signal whose logic becomes HI is input to the input terminal of the predetermined input port of the payout control MPU 952a. Thus, the logic of the BRQ signal output from the collector terminal of the photocoupler PIC 72 is the same as the logic of the BRQ from the CR unit 6.

  An EXS signal indicating that one payout operation has started or ended from the output terminal of the predetermined output port of the payout control MPU 952a is output to the payout control output circuit 952cb without reset function, and the payout control output circuit without reset function 952cb is input to the cathode terminal of the photocoupler PIC73 via the resistor PR81. One end of the anode terminal of the photocoupler PIC73 is electrically connected to the other end of the resistor PR82 that is electrically connected to the + 12V power supply line. The resistor PR82 is a limiting resistor for limiting the current flowing through the built-in infrared LED of the photocoupler PIC73. EXS output from the output terminal of a predetermined output port of the payout control MPU 952a via the payout control output circuit 952cb without reset function when + 12V is applied to the anode terminal of the photocoupler PIC73 via the resistor PR82. When the logic of the signal is LOW, the photocoupler PIC73 is turned on, while + 12V is applied to the anode terminal of the photocoupler PIC73 via the resistor PR82, and a predetermined output port of the payout control MPU 952a. When the logic of the EXS signal output from the output terminal via the payout control output circuit 952cb without reset function is HI, the photocoupler PIC73 is turned OFF. The emitter terminal of the photocoupler PIC73 is grounded to the ground LG from the CR unit 6, and the collector terminal of the photocoupler PIC73 is connected to the inside of the CR unit 6 via the pull-up resistor PR83 via the game ball lending device connection terminal plate 869. The voltage is raised to a predetermined voltage VL and electrically connected to the built-in control device. When the photocoupler PIC73 is turned ON / OFF, the logic of the signal output from the collector terminal of the photocoupler PIC73 changes, and the signal is input as EXS to the built-in control device of the CR unit 6.

  EXS output from the output terminal of a predetermined output port of the payout control MPU 952a via the payout control output circuit 952cb without reset function when + 12V is applied to the anode terminal of the photocoupler PIC73 via the resistor PR82. When the logic of the signal is LOW, the photocoupler PIC73 is turned ON, so that the voltage applied to the collector terminal of the photocoupler PIC73 is pulled down to the ground (GND) side, and EXS in which the logic becomes LOW is the CR unit. 6 built-in control device. On the other hand, when + 12V is applied to the anode terminal of the photocoupler PIC73 via the resistor PR82, the photocoupler PIC73 is output from the output terminal of a predetermined output port of the payout control MPU 952a via the payout control output circuit 952cb without reset function. When the logic of the EXS signal is HI, the photocoupler PIC73 is turned OFF, so that the voltage applied to the collector terminal of the photocoupler PIC73 is pulled up to the predetermined voltage VL by the pull-up resistor PR83, and the logic becomes HI. EXS is input to the built-in control device of the CR unit 6. Thus, the logic of the EXS output from the collector terminal of the photocoupler PIC 73 is the logic of the EXS signal output from the output terminal of the predetermined output port of the payout control MPU 952a via the payout control output circuit 952cb without the reset function. It has the same logic.

  A PRDY signal indicating that the payout operation for paying out the rented ball from the output terminal of the predetermined output port of the payout control MPU 952a is possible or impossible is sent to the cathode terminal of the photocoupler PIC74 via the resistor PR84. Has been entered. One end of the anode terminal of the photocoupler PIC74 is electrically connected to the other end of the resistor PR85 that is electrically connected to the + 12V power supply line. The resistor PR85 is a limiting resistor for limiting the current flowing through the built-in infrared LED of the photocoupler PIC74. PRDY output when + 12V is applied to the anode terminal of the photocoupler PIC74 via the resistor PR85 and output from the output terminal of a predetermined output port of the payout control MPU 952a via the payout control output circuit 952cb without reset function. When the logic of the signal is LOW, the photocoupler PIC74 is turned on, while + 12V is applied to the anode terminal of the photocoupler PIC74 via the resistor PR85, and a predetermined output port of the payout control MPU 952a. The photocoupler PIC74 is turned off when the logic of the PRDY signal output from the output terminal via the payout control output circuit 952cb without reset function is HI. The emitter terminal of the photocoupler PIC74 is grounded to the ground LG from the CR unit 6, and the collector terminal of the photocoupler PIC74 is connected to the inside of the CR unit 6 by a pull-up resistor PR86 via a game ball lending device connection terminal plate 869. The voltage is raised to a predetermined voltage VL and electrically connected to the built-in control device. When the photocoupler PIC74 is turned on / off, the logic of the signal output from the collector terminal of the photocoupler PIC74 changes, and the signal is input as PRDY to the built-in control device of the CR unit 6.

  PRDY output when + 12V is applied to the anode terminal of the photocoupler PIC74 via the resistor PR85 and output from the output terminal of a predetermined output port of the payout control MPU 952a via the payout control output circuit 952cb without reset function. When the signal logic is LOW, the photocoupler PIC74 is turned on. Therefore, the voltage applied to the collector terminal of the photocoupler PIC74 is pulled down to the ground (GND) side, and the PRDY whose logic is LOW is the CR unit. 6 built-in control device. On the other hand, when + 12V is applied to the anode terminal of the photocoupler PIC74 via the resistor PR85, the output is output from the output terminal of a predetermined output port of the payout control MPU 952a via the payout control output circuit 952cb without reset function. When the logic of the PRDY signal is HI, the photocoupler PIC74 is turned OFF, so that the voltage applied to the collector terminal of the photocoupler PIC74 is pulled up to the predetermined voltage VL by the pull-up resistor PR86, and the logic becomes HI. The PRDY is input to the built-in control device of the CR unit 6. Thus, the logic of PRDY output from the collector terminal of the photocoupler PIC74 is the logic of the PRDY signal output from the output terminal of a predetermined output port of the payout control MPU 952a via the payout control output circuit 952cb without reset function. It has the same logic.

[10-2-6. Various input / output signals to payout control MPU]
Next, various input / output signals input / output from the input / output terminals of the various input / output ports of the payout control MPU 952a will be described.

  As shown in FIG. 80, the RXD terminal which is the serial data input terminal of the payout control MPU 952a receives serial data from the main control board 1310 as a main pay serial data reception signal via the payout control input circuit 952b. Is done. On the other hand, from the TXD terminal which is the serial data output terminal of the serial output port of the payout control MPU 952a, serial data to be sent to the main control board 1310 is sent as a payer serial data transmission signal to the payout control output circuit 952cb without reset function. A payer serial data transmission signal is transmitted from the payout control output circuit 952cb without reset function to the main control board 1310.

  Each input terminal of the predetermined input port of the payout control MPU 952a has the above-mentioned RWMCLR signal, payout power failure warning signal, door open signal, full tank signal, various signals from the CR unit 6 (BRQ signal, BRDY signal, CR connection) In addition to the input of the signal 1 and the like), for example, a main payment ACK signal from the main control board 1310 that informs the completion of normal reception of the payer serial data reception signal is sent via the payout control input circuit 952b. 70, and detection signals from the ball breakage detection sensor 827, the payout detection sensor 842, the rotation detection sensor 840, and the like shown in FIG. 70 are input via the payout control input circuit 952b.

  On the other hand, the EXS signal and the PRDY signal described above are output from the output terminals of the predetermined output port of the payout control MPU 952a to the payout control output circuit 952cb without reset function, respectively, and the EXS signal from the payout control output circuit 952cb without reset function and The PRDY signal is output to the CR unit input / output circuit 952e, or the voltage switching signal described above is output to the payout control output circuit 952ca with reset function, and the voltage switching signal is sent from the payout control output circuit 952ca with reset function to the voltage switching circuit 952da. Or a payout motor drive signal is output to the payout control output circuit 952ca with reset function, and a payout motor drive signal is output from the payout control output circuit 952ca with reset function to the payout motor 834 via the payout motor drive circuit 952d. In addition to , A payer ACK signal that informs the completion of normal reception of the main payment serial data reception signal is output to the payout control output circuit 952ca with reset function, and the payer ACK signal is main-controlled from the payout control output circuit 952ca with reset function. 70 is output to the payout control output circuit 952ca with reset function and the drive signal is output from the payout control output circuit 952ca with reset function to the error LED display 860b. And so on.

[10-3. Various input / output signals with the main control board and various output signals to the external terminal board]
Next, various input / output signals between the dispensing control board 951 and the main control board 1310 and various output signals from the dispensing control board 951 to the external terminal board 784 will be described with reference to FIG.

[10-3-1. Various input / output signals with the main control board]
The payout control board 951 exchanges various input / output signals with the main control board 1310. Specifically, as shown in FIG. 85A, the payout control board 951 has the above-described payer serial data transmission signal, payer ACK signal, operation signal (RAM clear signal), main frame door open signal, and the like. Is output to the main control board 1310. These output signals are pulled up to the + 12V side by the pull-up resistor of the main control input circuit 1310b of the main control board 1310.

  On the other hand, in addition to the main payment serial data reception signal, the main payment ACK signal, and the operation signal (RAM clear signal) described above, the payout control board 951 has a main winning ball number information output signal, a 16 round jackpot information output signal, And games such as jackpot information output signal such as 2 round jackpot information output signal, information output signal during probability fluctuation, special symbol display information output signal, normal symbol display information output signal, short and medium time information output signal, start opening prize information output signal, etc. A game information signal, a payout blackout notice signal, etc. are input from the main control board 1310. These input signals are pulled up to the + 12V side by the pull-up resistor of the payout control input circuit 952b of the payout control unit 952 of the payout control board 951.

[10-3-2. Various output signals to external terminal board]
The payout control board 951 outputs various signals to the external terminal board 784. Specifically, as shown in FIG. 85 (b), in addition to the above-described outer frame door opening information output signal, the number of game balls actually paid out by the payout motor 834 as prize balls reaches 10 balls. The winning ball number information output signal that is output every time, the main winning ball number information output signal from the main control board 1310 via the payout control board 951, the jackpot information of the 16 round jackpot information output signal and the two round jackpot information output signal Game information signals such as an output signal, a probability changing information output signal, a special symbol display information output signal, a normal symbol display information output signal, a short time information output signal, and a start opening prize information output signal are output to the external terminal board 784. To do. These output signals are pulled up to the + 12V side by the pull-up resistor of the external terminal board 784. That is, the external terminal board 784 outputs two signals, that is, an outer end frame door opening information output signal from the payout control board 951 side and a prize ball number information output signal, and the number of main prize balls from the main control board 1310 side. Information output signal, 16 round jackpot information output signal, 2 round jackpot information output signal, probability changing information output signal, special symbol display information output signal, normal symbol display information output signal, short and medium time information output signal, and start opening prize information Eight signals called output signals are output (passed through) the payout control board 951.

  A signal output from the external terminal board 784 is transmitted to a hall computer installed in a game hall (hall) (not shown), and the hall computer monitors a player's game and the like. When the 16-round jackpot information output signal or the 2-round jackpot information output signal is output to the hall computer as one jackpot information output signal, the hall computer counts the number of jackpots (two round jackpots). ) And the number of jackpots with 15 rounds (number of jackpots for 16 rounds) is the sum of the number of jackpots of the pachinko machine 1. For this reason, the hall computer cannot grasp the number of occurrences of 2 rounds of big hits or the number of occurrences of 15 land big hits from the total number of big hits, so the number of big hits actually generated by the pachinko machine 1 is large. It is impossible to grasp whether it is a big hit of 2 rounds or a big hit of 16 rounds. In addition, a data counter (not shown) is arranged above the pachinko machine 1, and a player selects whether or not to play a game with reference to the number of occurrences of the big hit gaming state displayed on the data counter. Some people do.

  However, the number of occurrences of the jackpot gaming state displayed in the data counter may actually be biased to the number of occurrences of two rounds of big hits. In some cases, 16 rounds are hard to hit. As described above, the number of occurrences of the jackpot gaming state displayed on the data counter can give the player a sense of expectation, but may cause the player to be more eager than necessary.

  Therefore, in the present embodiment, as the jackpot information output signal, the 16-round jackpot information output signal and the 2-round jackpot information output signal are separately output to the hall computer, so that the hall computer can generate the number of occurrences of the jackpot for 2 rounds, The number of occurrences of 16 round big hits can be accurately grasped. Therefore, the hall computer can grasp whether the number of big hits actually generated by the pachinko machine 1 is the big hit of two rounds or the big hit of 16 rounds, and the data counter has 16 rounds. The number of occurrences of jackpots and the number of occurrences of jackpots for 2 rounds can be displayed separately or only the number of occurrences of jackpots for 16 rounds can be displayed as the number of occurrences of jackpot gaming state, which may increase the player's gambling ambition more than necessary Absent.

  In this embodiment, the 2-round jackpot information output signal is output to the hall computer during the period from when the 2-round jackpot is generated until the round-end jackpot is finished. It is in a state of being output to the hall computer during the period from occurrence to termination. In addition to the method of outputting the 2-round jackpot information output signal and the 16-round jackpot information output signal to the hall computer as in the present embodiment, for example, when a 2-round jackpot occurs, the 2-round jackpot information output signal is output only for a predetermined period. When the 16 round jackpot is generated and the 16 round jackpot information output signal is output to the hall computer only for a predetermined period when the 16 round jackpot is generated, such a two round jackpot information output signal and 16 round jackpot information are output. A method of outputting the output signal to the hall computer for the same predetermined period can also be mentioned.

[11. Output terminal arrangement of external terminal board]
Next, the arrangement of the output terminals of the external terminal board 784 that outputs various signals to the hall computer installed in the game hall (hall) will be described with reference to FIG. The external terminal plate 784 is attached to the rear surface of the prize ball base attached to the rear surface of the main body frame base 600, and the rear side thereof is covered with the external terminal plate cover 786. FIG. 86 is a diagram showing an arrangement of output terminals of the external terminal board.

  As described above, the external terminal board 784 includes the outer frame door opening information output signal, the prize ball number information output signal, the main prize ball number information output signal, the 16 round big hit information output signal, and the two round big hit information output signal. When the jackpot information output signal, the probability variation information output signal, the special symbol display information output signal, the normal symbol display information output signal, the short time medium information output signal, and the start opening prize information output signal are input from the payout control board 951, This is output to the outside of the pachinko machine 1.

  Briefly explaining these various signals, the outer end frame door opening information output signal is not generated during a normal game by a player that the door frame 3 and / or the main body frame 4 shown in FIG. 1 is opened. A signal indicating that a state has occurred. The prize ball number information output signal is output every time the number of game balls actually paid out by the payout motor 834 shown in FIG. 5 reaches 10 balls. The main prize-ball number information output signal is a signal indicating the effect, and the various prize-winning openings such as the first starting opening 2002, the second starting opening 2004, the general winning opening 2001, 2011, and the large winning opening 2005 shown in FIG. This is a signal to notify that every time the number of game balls scheduled to be paid out as a prize ball reaches 10 based on the game balls entered into the game, and the 16 round jackpot information output signal generates 16 round jackpots. In a state 2 round jackpot information output signal is a signal that reports that 2 round jackpots are occurring, and the probability changing information output signal is in a state where probability fluctuations are occurring. The special symbol display information output signal is a signal indicating that there is a change, and the special symbol change display is ended by the first special symbol display unit 1403 and the second special symbol display unit 1405 of the function display unit 1400 shown in FIG. The normal symbol display information output signal is a signal indicating that the normal symbol change display is ended (stopped) on the normal symbol display unit 1402 of the function display unit 1400 shown in FIG. The signal indicating that there is a time-shortage is a signal indicating that a time-short state has occurred, and the start-port winning information output signal is the first start-port 2 shown in FIG. 02 or game ball to the second start hole 2004 is a signal for transmitting this fact each time ball entrance.

  On the external terminal plate 784, as shown in FIG. 86, output terminals PT1 to PT10 are arranged horizontally in a row. The output terminal PT1 is provided in white and outputs an award ball number information output signal. As described above, the award ball number information output signal is a signal to notify that every time the number of game balls actually paid out by the payout motor 834 shown in FIG. In the embodiment, the signal is output from the output terminal PT1 for 0.105 seconds. When the award ball number information output signal from the external terminal board 784 is input to the hall computer, the hall computer receives 10 as the prize ball for the payout motor 834 of the pachinko machine 1 every time the award ball number information output signal is input. It is possible to grasp that the game balls of the balls are paid out as prize balls, and it is possible to grasp the total number of game balls paid out by the pachinko machine 1 by counting the number of game balls paid out.

  The output terminal PT2 is provided in green and outputs an outer end frame door opening information output signal. As described above, the outer end frame door opening information output signal has a state in which the player does not generate a normal game when the door frame 3 and / or the main body frame 4 shown in FIG. 1 is opened. In this embodiment, the signal is output while the door frame 3 and / or the main body frame 4 are opened from the output terminal PT2. When the outer end frame door opening information output signal from the external terminal board 784 is input to the hall computer, the hall computer outputs the door frame 3 of the pachinko machine 1 and the pachinko machine 1 while the outer end frame door opening information output signal is input. It can be grasped that the main body frame 4 is opened.

  The output terminal PT3 is provided in gray and outputs a special symbol display information output signal. As described above, the special symbol display information output signal ends (stops) the variation display of the special symbol in the first special symbol display unit 1403 and the second special symbol display unit 1405 of the function display unit 1400 shown in FIG. In this embodiment, the change display of the special symbol on the first special symbol display 1403 and the second special symbol display 1405 of the function display unit 1400 is terminated (stopped) in this embodiment. Sometimes it is output for 0.128 seconds. When the special symbol display information output signal from the external terminal board 784 is input to the hall computer, the hall computer receives the special symbol display information output signal and then the first special symbol of the function display unit 1400 of the pachinko machine 1. In the display 1403 and the second special symbol display 1405, it is possible to grasp that the variation display of the special symbol is finished (stopped), and the number of times is counted to count the first special of the function display unit 1400 of the pachinko machine 1. The total number of times that the special symbol is variably displayed on the symbol display 1403 or the second special symbol display 1405 can be grasped.

  The output terminal PT4 is yellow and outputs a start opening winning information output signal. As described above, the start opening winning information output signal is a signal to notify that every time a game ball enters the first start opening 2002 or the second start opening 2004 shown in FIG. Each time a game ball enters the first start port 2002 or the second start port 2004 from the output terminal PT4, it is output for 0.128 seconds. When the start opening prize information output signal from the external terminal board 784 is input to the hall computer, the hall computer inputs the first opening opening 2002 or the second of the pachinko machine 1 every time the start opening prize information output signal is input. It is possible to grasp that a game ball has entered the start port 2004 and count the number of times the start port winning information output signal is input to the first start port 2002 or the second start port 2004 of the pachinko machine 1. The total number of game balls entered can be ascertained.

  The output terminal PT5 is black and outputs a 16 round jackpot information output signal. As described above, the 16-round jackpot information output signal is a signal that indicates that the 16-round jackpot has been generated. In the present embodiment, while the 16-round jackpot is generated from the output terminal PT5, It is output. When the 16 round jackpot information output signal from the external terminal board 784 is input to the hall computer, the hall computer generates 16 round jackpots in the pachinko machine 1 while the 16 round jackpot information output signal is input. In addition to being able to grasp the state, it is possible to count the number of times the 16 round jackpot information output signal has been input and to grasp the total number of times that the 16 round jackpot has occurred in the pachinko machine 1.

  The output terminal PT6 is colored pink and outputs a 2-round jackpot information output signal. As described above, the 2-round jackpot information output signal is a signal that indicates that the 2-round jackpot has occurred. In the present embodiment, while the 2-round jackpot is being generated from the output terminal PT6, It is output. When the 2-round jackpot information output signal from the external terminal board 784 is input to the hall computer, the hall computer generates a 2-round jackpot on the pachinko machine 1 while the 2-round jackpot information output signal is being input. In addition to being able to grasp the state, it is possible to count the number of times the 2-round jackpot information output signal has been input and grasp the total number of times that the 2-round jackpot has occurred in the pachinko machine 1.

  The output terminal PT7 is provided in blue and outputs a normal symbol display information output signal. As described above, the normal symbol display information output signal is a signal that indicates that the normal symbol change display is ended (stopped) on the normal symbol display unit 1402 of the function display unit 1400 shown in FIG. In this embodiment, the output is performed for 0.128 seconds from the output terminal PT7 when the normal symbol variation display on the normal symbol display unit 1402 of the function display unit 1400 is ended (stopped). When the normal symbol display information output signal from the external terminal board 784 is input to the hall computer, the hall computer receives the normal symbol display information output signal and then the normal symbol display of the function display unit 1400 of the pachinko machine 1. In 1402, it is possible to grasp that the fluctuation display of the normal symbol is finished (stopped), and the number of times is counted and the normal symbol display 1402 of the function display unit 1400 of the pachinko machine 1 The number of times can be grasped.

  The output terminal PT8 is provided in red and outputs an information output signal for a short time. As described above, the time reduction / medium information output signal is a signal indicating that a time reduction state has occurred, and in the present embodiment, the signal is output from the output terminal PT8 while the time reduction state is occurring. ing. When the time reduction information output signal from the external terminal board 784 is input to the hall computer, the hall computer grasps that the time reduction state is generated in the pachinko machine 1 when the time reduction information output signal is input. In addition, the total number of times that the time-short state has occurred in the pachinko machine 1 can be grasped by counting the number of times the time-short-time information output signal is input.

  The output terminal PT9 is provided with an orange color and outputs a probability changing information output signal. As described above, the probability variation in-progress information output signal is a signal that indicates that the probability variation is occurring. In this embodiment, the probability variation information output signal is output while the probability variation is occurring from the output terminal PT9. It has become so. When the information output signal during probability variation from the external terminal board 784 is input to the hall computer, the hall computer is in a state in which probability variation occurs in the pachinko machine 1 when the information output signal during probability variation is input. It is possible to grasp that there is a certain number of times, and to count the number of times the information output signal during probability variation is input, and to grasp the total number of times that the probability variation has occurred in the pachinko machine 1.

  The output terminal PT10 is light blue and outputs a main prize ball number information output signal. As described above, the main winning ball number information output signal is input to various winning ports such as the first starting port 2002, the second starting port 2004, the general winning ports 2001, 2011, and the big winning port 2005 shown in FIG. This is a signal to notify that every time the number of game balls scheduled to be paid out as prize balls reaches 10 based on the game balls that have been balled, and is output from the output terminal PT10 for 0.128 seconds in this embodiment. It has become so. When the main prize ball number information output signal from the external terminal board 784 is input to the hall computer, the hall computer receives 10 balls as the prize ball every time the main prize ball number information output signal is input. It is possible to grasp that a game ball is scheduled to be paid out as a prize ball, and to determine the total number of game balls to be paid out by the pachinko machine 1 by counting the number of game balls scheduled to be paid out. can do. In addition, for example, game balls scheduled to be paid out as prize balls based on game balls entered in various prize openings such as the first start opening 2002, the second start opening 2004, the general winning openings 2001, 2011, and the big winning opening 2005. When the number of balls reaches 20 or more and the main award ball number information output signal is output a plurality of times, the main award ball number information output signal is 0.256 (= 0.128 seconds × 2 times) seconds, As with one continuous signal, it is output with an interval of 0.128 seconds.

  Among the output terminals PT1 to PT10 of the external terminal plate 784, the output terminals PT1 and PT2 output various signals output on the payout control board 951 side, whereas the output terminals PT3 to PT10 have the main control board. Various signals output on the 1310 side are arranged so as to be output (passed) via the payout control board 951. Each of the output terminals PT1 to PT10 is colored, and by electrically connecting wirings having connectors colored in the same colors as these colors to the output terminals PT1 to PT10, other wirings are mistakenly electrically connected. Connection can be prevented. Then, various signals output on the payout control board 951 side are transmitted to the hall computer so that various signals output on the payout control board 951 side and various signals output on the main control board 1310 side are not mixed. Output terminals PT1 and PT2 are arranged in a row on the left side of the external terminal board 784, and output terminals PT3 to PT10 for transmitting various signals output on the main control board 1310 side to the hall computer are provided on the external terminal board 784. By arranging in a line from the center left side toward the right side, also in this respect, wiring for transmitting various signals output on the payout control board 951 side to the hall computer and various outputs output on the main control board 1310 side. Wiring to transmit signals to the hall computer And it is capable to prevent the connection.

  In this embodiment, a prize ball number information output signal output on the payout control board 951 side and a main prize ball number information output signal output on the main control board 1310 side are respectively transmitted from the external terminal board 784 to the hall. It is configured to communicate to a computer. This is because, for example, the game balls stored in the prize ball tank 720 are not supplied to the prize ball tank 720 shown in FIG. 1 due to some trouble in the pachinko island equipment. If the 16-round big hit happens to happen in the pachinko machine 1 at the time when the remaining amount is reduced, the number of game balls stored in the award ball tank 720 for paying out game balls as award ball is insufficient, so that it is paid out. (In addition, for example, when a ball clog or a ball is generated in the payout device 830, the game ball cannot be paid out unless it can be resolved). Then, the prize ball number information output signal output on the payout control board 951 side, as described above, the number of game balls actually paid out as prize balls by the payout motor 834 shown in FIG. 5 reaches 10 balls. Since this is a signal that informs the player every time, the payout control board 951 can output the award ball number information output signal to the hall computer via the external terminal board 784 when the game ball cannot be paid out. become unable. When the game ball is not paid out, the player calls a hall clerk or the like. A hall clerk, for example, checks a hose-like supply nozzle for supplying game balls from the Pachinko Island facilities to the prize ball tank 720 to identify the position of the ball clogging (for example, occurs in the payout device 830) In this case, the game ball is returned to a state in which the game ball is paid out.

  However, even if the hall clerk is working, the game by the main control board 1310 is in progress, and the game ball is paid out by the hall clerk after completing 16 rounds. Returning to the state, the payout control board 951 pays out unpaid game balls one after another, and the payout control board 951 is in a period when the 16 round round big hit ends and the 16 round big hit has not occurred. Outputs an award ball number information output signal indicating that every time the number of game balls actually paid out by the payout motor 834 reaches 10 balls, and transmits it to the hall computer via the external terminal board 784. It will be. Then, in spite of the fact that 16 rounds of big hits have not occurred, an extremely large number of game balls will be paid out, so the gaming state of the pachinko machine 1 and the number of game balls paid out by the pachinko machine 1 There arises a problem that the hall computer cannot accurately grasp the relationship.

  Therefore, in this embodiment, regardless of whether or not the payout motor 834 is driven and controlled by the payout control board 951 and is actually paid out as a prize ball, that is, different from the prize ball number information output signal output by the payout control board 951. As shown in FIG. 8, the main control board 1310 receives the game balls that have entered the various winning ports such as the first starting port 2002, the second starting port 2004, the general winning ports 2001, 2011, and the big winning port 2005 shown in FIG. Each time the number of game balls scheduled to be paid out as prize balls reaches 10 balls, a main prize ball number information output signal is output as a signal to that effect, and the payout control board 951 and the external terminal board 784 are set. The system of passing to the hall computer was adopted. As a result, even if the above-described troubles (troubles such as clogged balls in the replenishing nozzles, clogged balls or balls in the dispensing device 830) occur, the gaming state of the pachinko machine 1 and the payment in this gaming state The relationship between the number of game balls to be released and the relationship with the hall computer can be accurately transmitted. Therefore, the hall computer can accurately grasp the relationship between the gaming state of the pachinko machine 1 and the number of game balls to be paid out in the gaming state.

[12. Stage display drive board circuit]
Next, a circuit of the effect display drive substrate 4450 for drawing the display area of the door frame side effect display device 460 will be described with reference to FIG. As described above, the effect display drive board 4450 is disposed in the vicinity of the lower side of the door frame side effect display device 460 attached to the right side of the dish unit 320 of the door frame 3, and is accommodated in the dish unit 320. A liquid crystal module circuit 450V that draws a display area of the door frame side effect display device 460 is mainly configured. FIG. 87 is a circuit diagram showing a liquid crystal module circuit for drawing a display area of the upper dish side liquid crystal display device.

[12-1. LCD module circuit]
As shown in FIG. 87, the liquid crystal module circuit 450V of the effect display drive substrate 4450 mainly includes a door frame effect receiver ICSDIC0.

  The liquid crystal module circuit 450V receives a serial signal (serial data) from the door frame side production transmitter IC 1512d of the peripheral control board 1510 shown in FIG. Is transmitted to the common mode choke coil SDL0 via the frame peripheral relay terminal plate 868 and the peripheral door relay terminal plate 882, respectively, and the common mode choke coil SDL0 Noise can be separated from the negative signal. The plus signal and minus signal from which noise has been separated are respectively input to the RXIN + terminal and the RXIN- terminal of the door frame side effect receiver ICSDIC0. A resistor SDR0 is electrically connected between the RXIN + terminal and the RXIN− terminal. The resistor SDR0 is a termination resistor (terminator), which prevents the plus signal and the minus signal from being reflected at the RXIN + terminal and the RXIN− terminal, respectively, and prevents the serial signal from being disturbed.

  Based on the serial signals (serial data) input at the RXIN + terminal and RXIN− terminal, the door frame side effect receiver ICSDIC0 has three video signals, a red video signal, a green video signal, and a blue video signal, It is restored to three synchronizing signals, that is, a horizontal synchronizing signal, a vertical synchronizing signal, and a clock signal (that is, restored to a parallel signal before being serialized). As described above, the red video signal, the green video signal, and the blue video signal are 8 bits each of the red video signal, the green video signal, and the blue video signal output from the channel CH2 of the sound source built-in VDP 1512a. Since the red video signal, the green video signal, and the blue video signal that can be input to the door frame side effect transmitter IC 1512d are each 6 bits, a total of 18 bits, the upper 6 bits of each video signal.

  The liquid crystal module circuit 450V is serial data output from the peripheral control MPU 1511a of the peripheral control unit 1511 of the peripheral control board 1510 as described above, in addition to the signal from the door frame side effect transmitter IC 1512d of the peripheral control board 1510. Two signals obtained by differentiating a certain LOCKN signal output request data into a plus signal and a minus signal in the differential circuit 1512e of the peripheral control board 1510 are also input. As described above, the forced switching circuit 1512f of the peripheral control board 1510 transmits these two signals when the differential circuit 1512e receives two signals that are differentiated into a plus signal and a minus signal. On the other hand, when two signals differentiated into a plus signal and a minus signal are not input in the differential circuit 1512e, a signal output from the door frame side effect transmitter IC 1512d is transmitted. The circuit configuration is such that the circuit is connected. As a result, when two signals differentiated into a plus signal and a minus signal are input in the differential circuit 1512e, the two signals are connected to each other so as to transmit the two signals. The peripheral control board 1510 is transmitted to the frame peripheral relay terminal board 868, the peripheral door relay terminal board 882, and the liquid crystal module circuit 450V of the effect display drive board 4450 housed in the dish unit 320 of the door frame 3, while the difference When two signals differentiated into a plus signal and a minus signal are not input in the activation circuit 1512e, the circuit connection is made so as to transmit the signal output from the door frame side effect transmitter IC 1512d. A signal output from the frame side effect transmitter IC 1512d is transmitted from the peripheral control board 1510 to the frame peripheral relay terminal. 868, near the door relay terminal plate 882, and transmitted to the liquid crystal module circuit 450V of the effect display driving substrate 4450 which is housed in the dish unit 320 of the door frame 3.

  The forcible switching circuit 1512f is a signal output from the door frame side effect transmitter IC 1512d, that is, the door frame when the two signals differentiated into the plus signal and the minus signal are not input in the differential circuit 1512e. The serial signal (serial data) by the differential method called “V-by-One (registered trademark)” of THINE ELECTRONICS CO., LTD. 868 and the peripheral door relay terminal plate 882, and is input to the common mode choke coil SDL0 and input to the RXIN + terminal and the RXIN- terminal of the door frame side effect receiver ICSDIC0, respectively, while the differential circuit 1512e In When two signals differentiated into a negative signal and a negative signal are input from the peripheral control board 1510 via the frame peripheral relay terminal board 868 and the peripheral door relay terminal board 882, the two signals are common. The signal is input to the mode choke coil SDL0, and is input to the RXIN + terminal and the RXIN- terminal of the door frame side effect receiver ICSDIC0, respectively. The door frame-side effect receiver ICSDIC0 determines that it is an output request for the LOCKN signal when two signals differentiated into a plus signal and a minus signal are input in the differential circuit 1512e. A LOCKN signal is output from the LOCKN terminal described later to the peripheral control board 1510 via the peripheral door relay terminal plate 882 and the frame peripheral relay terminal plate 868. The LOCKN signal is input to the peripheral control MPU 1511a of the peripheral control unit 1511 of the peripheral control board 1510 via a peripheral control input circuit (not shown) of the peripheral control board 1510.

  Note that the LOCKN signal output request data, which is serial data output from the peripheral control MPU 1511a of the peripheral control unit 1511 of the peripheral control board 1510, displays the start-up screen when the pachinko machine 1 is powered on, as described above. During the period displayed on the display device 1600 or during the period when the game board side effect display device 1600 is in the state of waiting for a customer and the demonstration is performed by the game board side effect display device 1600, the door frame side effect transmitter IC 1512d provided on the peripheral control board 1510, In order to confirm whether or not a failure has occurred in the connection between the door frame side effect receiver ICSDIC0 provided on the drive substrate 4450, that is, the connection between the transmitter and the receiver, the door frame side effect display device 460 It is sent as an operation confirmation request. The LOCKN signal output request data in the present embodiment is differentiated into a plus signal and a minus signal in the differentiation circuit 1512e, but is a signal output from the door frame side effect transmitter IC 1512d, that is, the above-mentioned Zain Electronics stock. The data format is completely different from that of the company's “V-by-One (registered trademark)” differential serial signal (serial data). For this reason, when the LOCKN signal output request data is received by the door frame side effect receiver ICSDIC0, it is determined that the door frame side effect receiver ICSDIC0 is not a signal output from the door frame side effect transmitter IC1512d. As data, a LOCKN signal is output from a LOCKN terminal described later. In other words, in the present embodiment, the LOCKN signal is output from the LOCKN terminal, which will be described later, by using the function of the door frame side effect receiver ICSDIC0 that outputs the LOCKN signal when it is determined that the received data is abnormal data. In order to forcibly output, the LOCKN signal output request data having a structure different in data format from the signal output from the door frame side effect transmitter IC 1512d is intentionally transmitted from the peripheral control MPU 1511a of the peripheral control board 1511. By outputting, it is possible to confirm whether or not the device called door frame side effect receiver ICSDIC0 is operating normally. Thereby, it is possible to confirm whether or not a failure has occurred in the connection between the transmitter and the receiver.

  The door frame side effect receiver ICSDIC0 has a VDD terminal, a VDDO terminal, an LVDSVDD terminal, a PLLVDD terminal, and a PDWN terminal supplied with + 3.3V respectively created by the upper plate side liquid crystal module power supply circuit 4450x shown in FIG. The GND terminal, the GNDO terminal, the LVDSGND application paper, the PLLGND terminal, the EDGE terminal, the OE terminal, the MODE0, and the MODE1 terminal of the frame side effect receiver ICSDIC0 are each grounded.

  The VDD terminal is a power supply terminal for a digital circuit, and a capacitor SDC0 is electrically connected between the terminal and the GND terminal which is a ground for the digital circuit, and a + 3.3V power supply supplied to the VDD terminal. High frequency noise is removed from the line.

  The VDDO terminal is a power supply terminal for TTL (Transistor-Transistor Logic) output, and a capacitor SDC1 is electrically connected between the terminal and the GNDO terminal serving as a ground for this TTL output, and is supplied to the VDDO terminal. High frequency noise is removed from the + 3.3V power line.

  The LVDSVDD terminal is a power supply terminal for LVDS (Low Voltage Differential Signaling) input, and a capacitor SDC2 is electrically connected between the terminal and the LVDSGND terminal which is the ground for this LVDS input, and is supplied to the LVDSVDD terminal. High frequency noise is removed from the + 3.3V power line.

  The PLLVDD terminal is a power supply terminal for a PLL (Phase Locked Loop) circuit, and a capacitor SDC3 is electrically connected between the terminal and the PLLGND terminal that is the ground for the PLL circuit, and is supplied to the PLLVDD terminal. High frequency noise is removed from the + 3.3V power line.

  The PDWN terminal tells that the logic is HI when + 3.3V is supplied (applied) and that the normal operation is performed, while the supply of +3.3 is stopped and the logic becomes LOW and the power down. It is a terminal to convey. The PDWN terminal is supplied with + 3.3V via the resistor SDR1, and is electrically connected to the other end of the varistor SDZ0 whose one end is grounded. The varistor SDZ0 suppresses noise and overvoltage of the + 3.3V electric line supplied via the resistor SDR1.

  The EDGE terminal is used to transmit various signals output from various output terminals (DE terminal, SYNC0 terminal to SYNC2 terminal, and D0 terminal to D17 terminal) based on a clock signal DCLK output from the CLKOUT terminal, which will be described later. (The logic transitions from LOW to HI) or a falling edge (the logic transitions from HI to LOW). As described above, the falling edge is designated by grounding the EDGE terminal to the ground. Incidentally, when the EDGE terminal is connected to + 3.3V, the rising edge can be designated.

  The OE terminal instructs whether to allow the output of various output terminals (DE terminal, SYNC0 terminal to SYNC2 terminal, D0 terminal to D17 terminal, and CLKOUT terminal) to be described later. As described above, the output is always possible by grounding the OE terminal to the ground. By the way, if the OE terminal is connected to + 3.3V, it cannot be output.

  The MODE0 terminal and the MODE1 terminal are terminals for selecting an operation mode, and the operation mode can be selected by grounding both to the ground. The operation modes include a normal mode and a shake hand mode. In the normal mode, three video signals (18-bit video signal) of a red video signal, a green video signal, and a blue video signal based on serial signals (serial data) respectively input at the RXIN + terminal and the RXIN- terminal. And a normal operation mode in which the door frame side receiver ICSDIC0 restores to a parallel signal composed of three synchronization signals (three-bit synchronization signal), a horizontal synchronization signal, a vertical synchronization signal, and a clock signal. is there. In the shake hand mode, the connection between the door frame side effect transmitter IC 1512d provided in the peripheral control board 1510 and the door frame side effect receiver IC SDIC0 provided in the effect display drive board 4450, that is, the connection between the transmitter and the receiver is performed. In this mode, a LOCKN signal is output from the LOCKN terminal to request transmission of a predetermined data pattern (SYNC pattern) for confirmation (recovery). This shake hand mode is automatically switched.

  For example, three video signals (18-bit video signal) of a red video signal, a green video signal, and a blue video signal based on serial signals (serial data) respectively input at the RXIN + terminal and the RXIN- terminal, For some reason, the door frame-side effect receiver ICSDIC0 is restored to a parallel signal composed of three synchronization signals (three-bit synchronization signal): a horizontal synchronization signal, a vertical synchronization signal, and a clock signal. When it is difficult to draw on the door frame side effect display device 460 with simple data, the normal mode is automatically switched to the shake hand mode, and the LOCKN signal is output from the LOCKN terminal. This LOCKN signal is input to the peripheral control board 1510 via the resistor SDR2, which is a damping resistor, the peripheral door relay terminal board 882, and the frame peripheral relay terminal board 868, and a peripheral control input circuit (not shown) of the peripheral control board 1510 is input to the peripheral control board 1510. Via the peripheral control MPU 1511a of the peripheral control unit 1511 of the peripheral control board 1510. The peripheral control MPU 1511a, when a predetermined condition is established based on the inputted LOCKN signal, transmits a connection confirmation signal to the INIT terminal of the door frame side effect transmitter IC 1512d to notify the door frame side effect transmitter IC 1512d of that fact. Is output. When this connection confirmation signal is input to the INIT terminal, the door frame side effect transmitter IC 1512d is connected between the door frame side effect receiver IC SDIC0 provided on the effect display drive board 4450, that is, between the transmitter and the receiver. A predetermined data pattern (SYNC pattern) for recovering the image from the peripheral control board 1510 via the frame peripheral relay terminal board 868 and the peripheral door relay terminal board 882 is used for the door frame side effect included in the effect display drive board 4450. Transmit to the receiver ICSDIC0. By receiving such a predetermined data pattern (SYNC pattern) by the door frame side effect receiver ICSDIC0, the connection between the transmitter and the receiver can be easily recovered. The predetermined data pattern (SYNC pattern) is stored in advance in the door frame side effect transmitter IC 1512d. It should be noted that the INIT terminal of the door frame side effect transmitter IC 1512d provided on the peripheral control board 1510 and the LOCKN terminal of the door frame side effect receiver IC SDIC0 provided on the effect display drive board 4450 include the frame peripheral relay terminal plate 868, and the peripheral door You may electrically connect directly via the relay terminal board 882.

  As described above, the LOCKN terminal is connected between the door frame side effect transmitter IC 1512d provided on the peripheral control board 1510 and the door frame side effect receiver IC SDIC0 provided on the effect display drive board 4450, that is, between the transmitter and the receiver. A terminal that outputs a request to transmit a predetermined data pattern (SYNC pattern) for confirming (recovering) the connection between the terminals. The LOCKN signal output from the LOCKN terminal is input to the peripheral control board 1510 via the resistor SDR2, which is a damping resistance of the effect display drive board 4450, the peripheral door relay terminal board 882, and the frame peripheral relay terminal board 868, This is input to the peripheral control MPU 1511a of the peripheral control unit 1511 of the peripheral control board 1510 via a peripheral control input circuit (not shown) of the control board 1510.

  The SYNC0 to SYNC2 terminals output three synchronization signals, a horizontal synchronization signal, a vertical synchronization signal, and a clock signal, which are restored based on serial signals (serial data) input at the RXIN + terminal and the RXIN- terminal, respectively. Terminal. In the present embodiment, since the restored three synchronization signals of the horizontal synchronization signal, the vertical synchronization signal, and the clock signal are not used, the SYNC0 terminal to the SYNC2 terminal are unconnected terminals.

  The DE terminal is a terminal that outputs a DE signal that reports that a clock signal output from the CLKOUT terminal and data output from the D0 to D17 terminals, which are data output terminals, are valid or invalid, which will be described later. The DE signal output from the DE terminal is input to the door frame side effect display device 460 via the resistor SDR3 that is a damping resistor.

  The CLKOUT terminal is a terminal that outputs a clock signal DCLK generated by a PLL circuit built in the door frame side effect receiver ICSDIC0. The clock signal DCLK output from the CLKOUT terminal is input to the door frame side effect display device 460 via the resistor SDR4 which is a damping resistor.

  The D0 to D17 terminals are provided with three video signals (18, red video signal, green video signal, and blue video signal restored on the basis of serial signals (serial data) input at the RXIN + terminal and RXIN- terminal, respectively. This is a data output terminal for outputting a bit video signal. Blue video signals B0 to B5 (6 bits) are output from the 6-bit data output terminals D0 to D5 in synchronization with the clock signal DCLK, and each signal line of the blue video signals B0 to B5 is a damping resistor. Each is input to the door frame side effect display device 460 via the ladder resistor SDRA0. Green video signals G0 to G5 (6 bits) are output from the 6-bit data output terminals D6 to D11 in synchronization with the clock signal DCLK, and each signal line of the green video signals G0 to G5 is a damping resistor. Each is input to the door frame side effect display device 460 via the ladder resistor SDRA1. The red video signals R0 to R5 (6 bits) are output in synchronization with the clock signal DCLK from the 6-bit data output terminals D12 to D17, and each signal line of the red video signals R0 to R5 is a damping resistor. Each is input to the door frame side effect display device 460 via the ladder resistor SDRA2.

  The grounds of the peripheral control board 1510, the frame peripheral relay terminal board 868, the peripheral door relay terminal board 882, the effect display drive board 4450, and the door frame side effect display device 460 are electrically connected, and are the same ground. It has become.

[Mounting mode of each electronic component included in the first control unit MCG and the second control unit SCG]
Incidentally, it is generally known that when electronic components are surface-mounted, it is beneficial in that the hardware circuit can be suitably downsized by integration. However, in the case of integrated circuit components (components encapsulated in a relatively large package in the form of integration of multiple types of single function elements (such as resistance elements, diode elements, or capacitor elements)), By nature, a package is naturally larger than a discrete component (a component in which a single functional element is enclosed in a relatively small package), thus creating a relatively large space on the back side of the package. In addition, the space on the back side of such a package becomes a place (a place where electronic parts (illegal parts) are easily mounted illegally) that is difficult to visually confirm in a surface-mounted state. For this reason, in the field of gaming machines, electronic components have been inserted and mounted on a base plate (so-called base substrate or the like) for many years instead of surface mounting.

  That is, the electronic component to be inserted and mounted tends to generate a relatively large gap between the package and the base plate. Therefore, by inserting and mounting electronic components, even in the mounted state, it is possible to maintain the space on the back side of the package as a place where it can be easily confirmed by visual recognition, which can mount unauthorized components. It is made to suppress suitably.

  However, in recent years, in the field of gaming machines, the space for presentations has been further increased, and the hardware circuit has been downsized while maintaining the security performance against unauthorized mounting of electronic components. There is a need to plan.

  Therefore, in the pachinko machine 1 according to this embodiment, the second control unit that only performs effect control relating to the game among the first control unit MCG and the second control unit SCG shown in FIG. 69. In view of the fact that the SCG is not directly related to the benefits obtained by the player and is not easily fraudulent, first, the second control unit SCG is configured by surface mounting.

  That is, as described above, the second control unit SCG according to this embodiment includes the peripheral control board 1510 as shown in FIG. Then, the second control unit SCG uses various integrated circuit components and various discrete components mounted on the base substrate of the peripheral control substrate 1510 to perform the effect progression process according to the result of the game progression process. Can be executed.

  Here, various integrated circuit components mounted on the base substrate of the peripheral control board 1510 include, for example, the peripheral control MPU 1511a and the peripheral control ROM 1511b shown in FIG. Examples of various discrete components mounted on the base substrate of the peripheral control board 1510 include resistors AR10 and AR11, a diode AD10, and an electrolytic capacitor AC10 shown in FIG.

  In this regard, in the second control unit SCG according to this embodiment, the lead portions of various electronic components are placed on the surface of the base plate (here, the base substrate of the peripheral control substrate 1510). Only the surface mounting area to be mounted in the form is formed. That is, in this case, surface mount type components (SMD) are also used as the above-described various electronic components that the peripheral control board 1510 has. However, since these electronic components are not directly related to the benefits that the player gets and are not subject to fraud, the security performance against unauthorized mounting of electronic components is not affected. The hardware circuit mounted on the pachinko machine 1 can be downsized.

  On the other hand, as shown in FIG. 69, the first control unit MCG according to this embodiment includes the main control board 1310, the payout control board 951, and the power supply board 931. The first control unit MCG uses various integrated circuit components and various discrete components mounted on the base substrates of these substrates 1310, 951, and 931 to control the power supply for control (for example, + 5V). Processing related to the game including generation processing and payout of prize balls can be executed. However, since such processing on the first control unit MCG side is directly linked to the player's privilege provision, the first control unit MCG is likely to be illegal. Therefore, although it is required to reduce the size of the hardware circuit, if the first control unit MCG is simply integrated by surface mounting, the security performance against illegal mounting of electronic components will be significantly reduced, and amusement entertainment The decline is inevitable.

  However, on the other hand, even such a first control unit MCG is mounted on the base plate (the base substrate of the main control board 1310, the base board of the payout control board 951, the base board of the power supply board 931). Of the various electronic components, the discrete component has a smaller package than the integrated circuit component, and even if the electronic component is illegally mounted on the back side, it can be easily confirmed by visual recognition. It can be said that this is a component having relatively high performance as security performance against illegal mounting of electronic components.

  That is, the inventor mixed electronic parts mounted on the first control unit MCG with high security performance parts (discrete parts) against fraud and low security performance parts (integrated circuit parts) against fraud. Focusing on the fact that further integration as a hardware circuit is made only with parts with high security performance against illegality (discrete parts), the first control unit MCG side that is likely to be fraudulent, It has been found that the hardware circuit can be miniaturized while maintaining the security performance against illegal mounting of electronic components.

  FIG. 104 is a diagram schematically illustrating a state in which the first control unit MCG is integrated only with components (discrete components) with high security performance against fraud. In the following, referring to FIG. 104, it is possible to reduce the size of the hardware circuit while maintaining the security performance against unauthorized mounting of electronic components even on the first control unit MCG side that is likely to be fraudulent. This is explained.

  As shown in FIG. 104, the first control unit MCG according to this embodiment includes a base plate BB and various electronic components D mounted on the base plate BB. . FIG. 104 is only a schematic diagram for explaining the principle of a characteristic technique according to the present application. For example, the base plate BB is actually a base substrate of the main control substrate 1310 and a payout control substrate. A base substrate 951 and a base substrate of the power supply substrate 931 are provided, and an example in which the characteristic technique according to the present application is applied to such an embodiment will be described later. As a matter of convenience, here, for the sake of convenience of explanation, description will be given assuming an example in which they are configured by one base substrate.

Here, the base plate BB includes
-An insertion mounting area TH that is mounted in a form in which the lead portion provided in the electronic component is inserted into the base plate BB, and that is inferior in integration performance but excellent in fraud suppression performance;
A surface mounting region SM that is mounted in a manner in which the lead portion provided on the electronic component is placed on the surface of the base plate BB and has excellent integration performance due to multi-layered wiring patterns, etc., but is inferior in fraud suppression performance. Both are provided in the form of being divided.

  According to such a configuration, while it is possible to mount an electronic component that is difficult to be fraudulent in the surface mounting region SM, an electronic component that should be pursued for fraud suppression rather than integration is mounted on the insertion mounting region TH side. Therefore, it is possible to suitably maintain the suppression performance against the mounting of unauthorized parts while making it possible to reduce the size of the hardware circuit.

That is, as described above, in the first control unit MCG according to this embodiment, as the various electronic components D,
-Integrated circuit component D1 with low security performance against unauthorized mounting, enclosed in a relatively large package in the form of integration of multiple types of single function elements;
A single-function element is simply enclosed in a relatively small package, and includes a discrete component D2 with high security performance against unauthorized mounting.

  In this regard, as a characteristic first technique according to the present application, in the first control unit MCG according to this embodiment, the integrated circuit component D1 having a low security performance is referred to as the insertion mounting region TH and the surface. The mounting area SM is mounted only in the insertion mounting area TH having excellent fraud suppression performance, and only the discrete component having high security performance is mounted in the surface mounting area SM inferior in fraud suppression performance. This makes it possible to reduce the size of the hardware circuit while maintaining the security performance against unauthorized mounting of electronic components on the first control unit MCG side that is likely to be fraudulent.

  Further, in the first control unit MCG according to this embodiment, as shown in FIG. 104, as the discrete component D2 having a high security performance, a surface mount type discrete component D2a mounted on the surface mount region SM is used. And an insertion mounting type discrete component D2b mounted in the insertion mounting region TH.

  That is, as described above, with respect to electronic components, in general, it is possible to achieve integration by using a surface mounting type instead of an insertion mounting type. However, when both the insertion mounting area TH and the surface mounting area SM are provided separately as the base plate BB, for example, the position where the integrated circuit component D1 to be electrically connected is provided in circuit design. In view of the balance with the space provided with the wiring pattern related to this, it is possible to reverse the integration by arranging the electronic components not in the surface mounting area SM but in the insertion mounting area TH. Cases can also arise.

  In this regard, in the first control unit MCG according to this embodiment, not all of the discrete components D2 are used as the surface mount type discrete components D2a, so that it is the most suitable mode for integration. In some cases, an insertion mounting type discrete component D2b is intentionally used. As a result, it is expected that the hardware circuit is more suitably reduced in size while maintaining security performance against unauthorized mounting of electronic components.

  Furthermore, in the first control unit MCG according to this embodiment, as shown in FIG. 104, a capacitor element having a large capacitance value among the capacitor elements (backup) even if the discrete component D2 has a high security performance. For the power supply, etc., the surface mount region is considered to have a relatively larger shape than other elements (such as a resistance element, a diode element, and a capacitor element with a small capacitance value (such as a filter circuit)). It is not used as the surface mount type discrete component D2a mounted on the SM, but is prepared only as the insertion mount type discrete component D2b-C mounted in the insertion mount region TH. As a result, when miniaturizing the hardware circuit, the security performance against unauthorized mounting of electronic components can be more suitably maintained.

  However, although a capacitor element having a large capacitance value is larger than other elements (discrete parts), there is no large gap between the package and the base plate as compared with the integrated circuit part D1. . Therefore, the capacitor element may be used as a surface mount type discrete component D2a mounted in the surface mount region SM, and even in this case, security performance against unauthorized mounting of electronic components is maintained. Is possible.

  In addition, the first control unit MCG according to this embodiment includes a characteristic second technique based on a viewpoint different from the characteristic first technique according to the present application described above. ing.

  That is, as shown in FIG. 104, in the first control unit MCG according to this embodiment, one hardware circuit intended to exhibit a specific electrical function (for example, a backup power supply function) As a discrete circuit (a hardware circuit that does not use the integrated circuit component D1) DHC that is electrically constituted by the discrete component D2. However, the discrete circuit DHC is provided with an electrical structure constituted by a plurality of discrete components D2 each mounted in a manner divided into an insertion mounting region TH and a surface mounting region SM.

  That is, in this case, although the circuit is a single discrete circuit DHC intended to exhibit a specific electrical function (for example, a backup power supply function), mounting on the insertion mounting region TH is performed on the base plate BB. An electronic component D2b having a shape that can be mounted and an electronic component D2a having a shape that can be mounted on the surface mounting region SM are mixed. Therefore, when a third party visually recognizes the base plate BB of the first control unit MCG, they have an electrical close role in order to exhibit a specific electrical function (for example, a backup power supply function). It is possible to make it difficult to recall the current situation, and it is expected that fraud can be suppressed even if the difficulty in understanding the circuit is increased. Further, by mounting a part of the electronic component on the surface mounting region SM, it is possible to expect a reduction in the size of the hardware circuit.

  As described above, according to the pachinko machine 1 according to this embodiment, it is possible to reduce the size of the hardware circuit while suppressing fraud to electronic components.

  However, as described above, the example shown in FIG. 104 is for explaining the principle of two characteristic techniques according to the present application. Next, an example in which each of the above techniques is applied to the embodiment of the present application. explain.

  In the pachinko machine 1 according to this embodiment, first, the base plate BB of the first control unit MCG includes the base substrate of the main control board 1310, the base board of the payout control board 951, and the base board of the power supply board 931. And three base substrates. Then, both the insertion mounting area TH and the surface mounting area SM are provided on these base substrates.

  However, in the pachinko machine 1 according to this embodiment, of the three base boards, only the insertion mounting region TH is formed on the base board of the power supply board 931, and the base of the main control board 1310 is formed. In the board and the base board of the payout control board 951, both the insertion mounting area TH and the surface mounting area SM are provided so as to be separated from each other.

  Of the various electronic components D mounted on the base plate BB of the first control unit MCG, the diode MD0 (FIG. 75) of the “backup power supply circuit for supplying backup power to the main control built-in RAM” described above. Is mounted on the surface mounting area SM of the base substrate of the main control board 1310 as a surface mount type discrete component D2a. Similarly, the diode PD0 (see FIG. 75) in the above-mentioned “backup power supply circuit for supplying backup power to the payout control built-in RAM” is mounted on the surface of the base board of the payout control board 951. The surface SM is mounted as a surface mount type discrete component D2a.

  According to such a configuration, only the discrete component D2 (diode MD0, diode PD0) among the integrated circuit component D1 with low security performance and the discrete component D2 with high security performance is the surface mount type discrete component D2a. It is mounted on the surface mounting area SM (main control board 1310, payout control board 951). This makes it possible to reduce the size of the hardware circuit while maintaining security performance against unauthorized mounting of electronic components even on the first control unit MCG side that is likely to be fraudulent. A characteristic first technique according to the present application).

  In addition, in the example applied to this embodiment, the surface mount region SM formed on the base plate BB of the first control unit MCG has a specific type of discrete component (here, both the diode MD0 and the diode PD0 are Schottky). Only a plurality of diode elements) are mounted. That is, in this case, since all the electronic components mounted on the surface mounting region SM that is inferior in fraud suppression performance have the same shape, it is expected that the effort required for fraud confirmation is saved.

  Further, in the above configuration, discrete components (electronic components that bear a part of the power supply function) that the power supply board 931 should originally have are mounted on a board (main control board 1310) side different from the power supply board 931. I have to. That is, even if there is not enough space to form the surface mounting region SM on the power supply substrate 931, the surface mounting region SM is formed on another substrate and mounted as a surface mounting type discrete component D2 there. Therefore, it is possible to improve the degree of freedom for circuit design of the first control unit MCG as a whole.

  Furthermore, in the above configuration, a single discrete circuit DHC (backup power supply circuit) having a plurality of discrete components D2 (here, a capacitor element and a Schottky diode element) for the purpose of exhibiting a backup power supply function. The plurality of discrete components D2 constituting the discrete circuit DHC are mounted separately in an insertion mounting area TH (capacitor element) and a surface mounting area SM (Schottky diode element). I am going to do that.

  According to such a configuration, in spite of the single discrete circuit DHC (backup power supply circuit) intended to exhibit the backup power supply function, the insertion mounting region TH (power supply board) is formed on the base plate BB. 931) and an electronic component D2a having a shape enabling mounting on the surface mounting area SM (main control board 1310, payout control board 951) are mixed. become. Therefore, when a third party visually recognizes the base plate BB of the first control unit MCG, they have an electrical close role in order to exhibit a specific electrical function (for example, a backup power supply function). It is possible to make it difficult to recall the situation, and it is possible to expect fraud suppression even if the difficulty of understanding the circuit is increased (the second characteristic technique according to the present application).

  In addition, in the example applied to this embodiment, a plurality of discrete components D2 included in one discrete circuit DHC (backup power supply circuit) for the purpose of exhibiting a backup power supply function are inserted and mounted region TH (capacitor element). And the surface mounting region SM (Schottky diode element), and the discrete component D2 is divided into two different boards (main control board 1310, payout control board 951 (Schottky diode element), power supply board) In this case, electronic components D2a and D2b mixed for surface mounting and insertion mounting are mounted on different base boards, respectively. As a result, the difficulty of understanding the circuit has increased. So incorrect suppression can be further expected.

  In the above embodiment, as is apparent from FIG. 104, the mounting surface of the surface mounting region SM on the base plate BB of the first control unit MCG is the same as the insertion mounting region TH of the base plate BB of the first control unit MCG. The area is smaller than the mounting surface. Therefore, it becomes difficult for a third party to notice that the surface mounting region SM having inferior fraud suppression performance is provided, and suppression of fraud can be expected.

  In the above embodiment, as is clear from FIG. 104, the number of types of electronic components mounted on the surface mounting region SM in the base plate BB of the first control unit MCG is the base plate of the first control unit MCG. It is provided so as to be smaller than the number of types of electronic components mounted in the insertion mounting area TH in BB. Therefore, the types of electronic components that are subject to a visual check for whether or not fraudulent acts have been performed on the electronic components mounted on the surface mounting region SM that is relatively inferior in security performance are relatively reduced. Thus, the visual check can be facilitated.

  In the above embodiment, as is clear from FIG. 104, the total number of electronic components mounted on the surface mounting region SM in the base plate BB of the first control unit MCG is the same as that in the base plate BB of the first control unit MCG. It is provided to be smaller than the total number of electronic components mounted in the insertion mounting area TH. Therefore, the total number of electronic components that are subject to a visual check for fraudulent acts on electronic components mounted on a surface mounting area that is relatively inferior in security performance is relatively reduced. The load on the visual check can be reduced.

  In the pachinko machine 1 according to this embodiment, the surface mounting region SM is provided on each of the base board of the main control board 1310 and the base board of the payout control board 951. It may be formed.

  Further, the surface mounting region SM is formed only on a specific base substrate, and the surface mount type discrete component D2 that should be originally mounted on the other base substrate is also collectively arranged on the specific base substrate. Also good. According to such a configuration, when confirming whether or not unauthorized mounting has been performed, it is only necessary to focus on the surface mounting region SM formed on a specific base substrate. It will be expected that it will save time and effort.

  However, in view of the fact that the integrated circuit component D1 is mounted on any of the three base substrates, at least the insertion mounting region TH must be formed on any of the three base substrates in order to appropriately suppress fraud. I must.

  In the pachinko machine 1 according to this embodiment, the base plate BB of the first control unit MCG includes the base substrate of the main control board 1310, the base board of the payout control board 951, and the base board of the power supply board 931. Although it is configured by three base substrates, they may be configured collectively on one base substrate as schematically shown in FIG.

  In addition, the “base plate BB of the first control unit MCG” according to the present application may be anything as long as the surface mounting region SM and the insertion mounting region TH are separated, and these are provided by a plurality of base substrates. Alternatively, it may be provided by one base substrate.

  For example, the base board of the main control board 1310 includes a first base board in which only the insertion mounting area TH is formed, and a second base board in which only the surface mounting area SM is formed, and the second base board By inserting and mounting the board on the insertion mounting area TH of the first base board, the electronic components inserted and mounted on the first base board are maintained while maintaining security performance against unauthorized mounting of electronic components. It may be assumed that a structure in which the component and the electronic component surface-mounted on the second base substrate are electrically connected to each other is adopted, but in this case, the “base of the first control unit MCG” The “plate BB” is a concept including at least both the first base substrate in which only the insertion mounting region TH is formed and the second base substrate in which only the surface mounting region SM is formed. . That is, this aspect is also one of the aspects in which “the insertion plate mounting region TH and the surface mounting region SM are both provided in the base plate BB of the first control unit MCG”. It is included as an aspect.

  That is, as described above, the pachinko machine 1 according to this embodiment is an electronic component enclosed in a relatively small package as a component (surface-mounted component) mounted on the surface-mounting region SM that is inferior in fraud suppression performance. By using only discrete components, it is possible to reduce the size of the hardware circuit while eliminating the space for mounting unauthorized components (reducing the space on the back side).

  However, even with such discrete components (surface mount components) with excellent security performance, there are places on the back side that are difficult to confirm by visual inspection when mounted on the surface mount region SM, although it is a small space. Still left. Therefore, the hall side that operates and manages the pachinko machine 1 understands that “there is no space left on the back side of the discrete parts (surface mounted parts) to mount unauthorized parts”. However, in the situation where it is difficult to check by anxiety, such as “an extremely small illegal part may be created and this may be illegally installed”, it is difficult to confirm by visual inspection. There is a concern that the operation and management of the pachinko machine 1 become complicated, such as being forced to confirm.

  Therefore, it is more desirable to provide each base substrate of the main control substrate 1310 and the payout control substrate 951 in the following manner instead of the above-described manner.

[Modifications of the base board of the main control board 1310 and the payout control board 951]
FIG. 105 is a diagram illustrating a partial region of the base substrate MB of the main control substrate 1310 according to the modification. Hereinafter, a modification of the base substrate MB of the main control substrate 1310 will be described with reference to FIG. Note that description of modifications of the base board of the payout control board 951 is omitted, but it is possible to make modifications with the same contents as the base board MB of the main control board 1310 described below.

  As shown in FIG. 105, the base substrate MB of the main control board 1310 according to this modification is configured to include at least an insertion mounting board THB that is inferior in integration performance but excellent in fraud suppression performance.

  And also in the insertion mounting board | substrate THB concerning this modification, it mounts in the form in which several types of electronic components (insertion mounting parts) are inserted similarly to the insertion mounting board | substrate TH of the said embodiment. Similarly, these electronic components (insertion mounting components) include both the integrated circuit component D1 having a low security performance and the discrete component D2b having a high security performance.

  However, as apparent from FIG. 105, in the base board MB of the main control board 1310 according to this modification, the insertion mounting board THB and the insertion mounting lead portion are inserted into the insertion mounting board THB. The electronic components to be mounted in this way are only provided. That is, although the base board MB of the main control board 1310 according to this modification has a surface mounting region and a surface mounting component mounted in the region, it is not It is supposed to adopt a special mounting structure that does not seem to be provided.

  More specifically, the base board MB of the main control board 1310 according to this modification is not limited to the integrated circuit part D1 and the discrete part D2b as the above-described mounting parts, but also the special mounting part D3 (in the figure, the special mounting part). D3a, special mounting component D3b). Although this special mounting component D3 contains an electronic component (surface mounting component) mounted in a surface mounting region inferior in fraud suppression performance, it is hidden from the insertion mounting substrate THB. Insertion mounting is performed via a special insertion mounting lead portion TL described later.

  According to such a special mounting component D3, although the surface mounting area described later and the electronic component (surface mounting component) mounted in the surface mounting area are respectively provided in the interior, fraud suppression is performed. Since it has an appearance shape that looks as if it is a single insertion mounting component mounted on the insertion mounting board THB having excellent performance, it is expected to be removed from the target component for unauthorized purposes by a malicious person. Can be done. Note that in the base board MB of the main control board 1310 according to this modification, the portion on which the special mounting component D3 is inserted and mounted in the insertion mounting board THB is the surface mounting on which the surface mounting component is mounted. It will function as an area.

  In addition, in the base board MB of the main control board 1310 according to this modification, such special mounting components D3 are not arranged in one place (adjacent) but are arranged at a plurality of places on the base board MB. In addition, at least one of the special mounting components D3 (in the drawing, the special mounting component D3a) is arranged so as to be surrounded by a relatively large region (insertion mounting region) where the insertion mounting components D1 and D2b are inserted and mounted. We are going to establish.

  That is, in this case, the surface mount area inferior to the fraud suppression performance and the electronic components (surface mount parts) mounted on the surface mount area are subdivided and become inconspicuous. The surface mounting area exists when a malicious person views the base board MB of the main control board 1310 because it is well mixed in the insertion mounting area provided as a relatively large area. In particular, it is possible to make the hardware circuit more difficult to notice, and thus, it is expected to reduce the size of the hardware circuit while maintaining the suppression performance against mounting of unauthorized parts more appropriately.

  As will be described later, inside the special mounting component D3a according to this modification, a diode MD0 (see FIG. 75) as a surface mounting type discrete component D2a shown in FIG. 104 is enclosed. As described above, the diode MD0 is used in one discrete circuit (backup power supply circuit) for the purpose of exhibiting a backup power supply function. Nevertheless, also in this modification, for a plurality of discrete components constituting one discrete circuit (backup power supply circuit), an insertion mounting region (capacitor element (capacitor BC0)) and a surface mounting region (Schottky diode element) (Diode MD0)) and mounting. In addition, with respect to the capacitor element (capacitor BC0) that is inserted and mounted in the insertion mounting area, a position that is not adjacent to the special mounting component D3a containing the Schottky diode element (diode MD0) in the insertion mounting area (such as the power supply board 931). It is made to be implemented with.

  As described above, it is difficult to recall that the electronic component incorporated in the special mounting component D3a exhibits a specific electrical function (backup power supply function), thereby increasing the difficulty in understanding the circuit. Thus, even when it is noticed that there is a surface mounting region inferior to the fraud suppression performance, fraud suppression can be expected.

  Next, an example of the structure of the special mounting component D3a according to this modification will be described. In FIG. 105, for convenience of explanation, the portion where the special mounting component D3a is mounted is enlarged, and the outer package OP of the special mounting component D3a is partially omitted to expose the internal structure. The figure (portion surrounded by a dotted line) is included.

  As shown in the explanatory diagram, the special mounting component D3a according to this modification includes a special surface mounting substrate SMB as a surface mounting substrate on which a surface mounting type electronic component (surface mounting component) is mounted, A surface mount type discrete component D2a mounted on the special surface mount substrate SMB, and a special insertion mount lead portion that is inserted into a through hole (specific insertion hole) of the insert mount substrate THB. TL and the outer package OP which molds each of these parts with mold resin are provided.

  Here, the special surface mounting substrate SMB electrically connects the surface mounting lead portion SL provided on the electronic component (surface mounting type discrete component D2a) mounted on the substrate and the special insertion mounting lead portion TL. The wiring patterns HP are formed so as to be connected to each other, and the mounting surface thereof is provided so as to be substantially orthogonal to the mounting surface of the insertion mounting board THB.

  The surface area of the mounting surface of the special surface mounting substrate SMB is limited to a size that allows the surface mounting type discrete component D2a to be mounted. For example, it is necessary when mounting an integrated circuit component constituting the main control MPU 1310a. The mounting surface has an area smaller than the assumed area. In other words, in the insertion mounting board THB, even when all the electronic components required for operating the pachinko machine 1 are mounted, there is a surplus space for further mounting other electronic components. In the surface mount substrate SMB, in order to reduce the size, there is not enough space to mount another electronic component when the electronic component to be mounted (surface mount type discrete component D2a) is mounted. Not left.

  According to such a configuration, since it becomes difficult to perform any fraud on the special surface mounting board SMB, further downsizing of the hardware circuit can be achieved while suppressing the mounting of the fraudulent parts. Expected.

  The surface mount type discrete component D2a itself has a package structure (inner package) molded with a mold resin. Inside, a Schottky diode element (diode MD0) included in one discrete circuit (backup power supply circuit) is electrically connected to the surface mounting lead portion SL by a bonding wire. That is, the surface mount type discrete component D2a is provided with the surface mount lead portion SL formed so as to be pulled out to the outside of the inner package (mold resin). Other electronic components mounted on the insertion mounting board THB are electrically connected to the special insertion mounting lead TL via the wiring pattern HP formed on the special surface mounting board SMB. The Schottky diode element (diode MD0) is electrically connected to perform processing in cooperation with each other.

  Furthermore, the surface mount type discrete component D2a is provided with a flat external shape (package shape), and is soldered so that the flat surface faces the special surface mount substrate SMB. By surface mounting. However, as described above, the special surface mounting substrate SMB on which the surface mounting type discrete component D2a is mounted has a mounting surface that is substantially orthogonal to the mounting surface of the insertion mounting substrate THB. Accordingly, the surface mounting type discrete component D2a provided in the special mounting component D3 is opposed to the thin mounting surface (thin surface) of the insertion mounting substrate THB instead of its flat surface. It will be implemented in a form.

  In such a configuration, a thin surface having a relatively small area is opposed to the insertion mounting board THB, not a flat surface having a relatively large area. Therefore, as shown in FIG. 105, in the insertion mounting board THB, only a small area (for two through holes) is left so that only one discrete component (insertion mounting type) can be mounted. Even in such a situation, the special mounting component D3 can be arranged in the small area (for two through holes).

  Note that the size of the surface mount type discrete component D2a itself (the length in the horizontal direction in the figure) according to this modification is when the special mount component D3a is mounted on the insertion mounting board THB. The pitch is smaller than the pitch between the through holes into which the special insertion mounting lead portions TL are inserted (specific insertion hole installation interval).

  The special insertion mounting lead portion TL has a bifurcated structure in which one end side sandwiches the special surface mounting substrate SMB from both sides thereof, and the wiring pattern HP is formed in the special surface mounting substrate SMB. By being soldered at a certain location, it is fixed to the special surface mounting substrate SMB and is electrically connected to the surface mounting lead portion SL via the wiring pattern HP. . On the other hand, the other end side is fixed to the insertion mounting board THB by being soldered in a state of being inserted into the through hole of the insertion mounting board THB, and the insertion mounting board THB side It is electrically connected to various electronic components through the wiring pattern.

  Further, the outer package OP has a package structure (inner package) in which the surface mount type discrete component D2a itself is molded by a mold resin, but is different from the mold resin. Thus, the surface mount type discrete component D2a is further molded (double-molded) together with the special surface mount substrate SMB to be mounted.

  With such a configuration, it is extremely difficult to perform any fraud on a surface-mount substrate that is inferior in fraud suppression performance.

  In particular, in the specially mounted component D3a according to this modification, the external shape produced by the outer package OP of the double mold is different from the external shape of a specific type of surface mounted component that is surface-mounted inside. . That is, in this case, the discrete component D2a itself can be mounted in a concealed form, so that a specific type of surface mount component built in the special mount component D3a is not mounted. As a result, the difficulty of understanding the circuit is increased, and fraud suppression can be expected.

  Moreover, the outer package OP has only the special insertion mounting lead portion TL out of the special insertion mounting lead portion TL and the surface mounting lead portion SL provided in the outer package OP (mold resin). The surface mount type discrete component D2a is integrally molded together with the special surface mount substrate SMB so as to be drawn out to the outside of the lead. The electronic component having the lead portion TL) is mounted on the insertion mounting board THB.

  According to such a configuration, despite the fact that the surface mounting substrate inferior in fraud suppression performance and the electronic component (surface mounting component) mounted on the substrate are provided inside, the special mounting component D3a, Since it can function as if it were one insertion mounting component mounted in the insertion mounting area with excellent fraud suppression performance, it is expected to be excluded from the target of malicious purposes by malicious persons Can be done. In addition, since it can be handled in the same way as one insertion mounting type discrete component in terms of physical distribution and mounting, it can be said that it is excellent in terms of such handling.

  Still further, the outer package OP is mounted on the surface mount type discrete component D2a having a width smaller than the pitch between the through holes by a mold resin different from the mold resin of the discrete component D2a itself. By molding together with the target special surface mounting substrate SMB, the external shape as one electronic component having a size that does not fit within the pitch between the through holes is provided.

  That is, as shown in FIG. 104, when the surface mount type discrete component is left in an external shape smaller than the pitch between the through holes in the insertion mounting area (insertion hole installation interval), the main control board It becomes easy for a third party to notice that a surface mounting region inferior in fraud suppression performance is provided in the base board MB of 1310, which may promote fraud.

  In this regard, in the above configuration, the surface mount type discrete component D2a having a width smaller than the pitch between the through holes is an electronic component having a size that does not fit within the pitch between the through holes. It is designed to be mounted after having an external shape. That is, in this case, as shown in FIG. 105, there is no electronic component having an external shape having a lateral width smaller than the pitch between the through holes on the base substrate MB of the main control board 1310. Since only the electronic component of the type (insertion mounting component) can be viewed as being mounted, it is possible to improve the suppression performance against mounting of unauthorized components.

  Furthermore, the external shape produced by such an outer package OP is different from the external shape of the electronic components mounted on the surface, and all the insertion mounted components mounted on the insertion mounting board THB (special It has a unique external shape different from any of the electronic components except the mounting component D3). That is, the specially mounted component D3a according to this modification has an excessive security performance such as protection with a double mold resin against a mere discrete component D2a that can only have a limited function as compared with an arithmetic processing unit or the like. After being given, it is unique as an appearance shape that attracts the attention of a malicious person and has a relatively large appearance shape (trap).

  According to such a configuration, since excessive security performance provided on the base board MB of the main control board 1310 can be shown to a third party, the willingness to perform fraud is reduced. Can be expected.

  Furthermore, an identification number indicating the type of the electronic component as the special mounting component D3a is attached to the outer package OP. In this modification, the content of the identification number (◯ 3213) is assigned to the inner package ( The content is different from the content (SD) of the identification number attached to the surface mount type discrete component D2a) mounted on the special surface mount substrate SMB.

  According to such a configuration, the content (SD) of the identification number assigned to a specific type of surface mounting component does not appear, so that the external shape generated by the outer package OP and the surface mounting are internally performed. This makes it possible to make it appear that a specific type of surface mount component is not mounted, coupled with the fact that the specific shape of the surface mount component is different (in combination with the structure of the double mold). In addition, it is possible to make it appear as if only an insertion-mounting type electronic component (insertion-mounting component) is mounted, and it is possible to improve the suppression performance against mounting of unauthorized components.

  Further, in the special mounting component D3a according to this modification, the length in the thickness direction of the special surface mounting substrate SMB is set to be smaller than the length in the thickness direction of the surface mounting type discrete component D2a. On this, a mounting surface on which electronic components and wiring patterns are provided is formed only on one side of the flat surface of the special surface mounting substrate SMB, and the mold resin is directly applied to the back surface thereof. It has become.

  That is, by adopting such a configuration, a unique and non-target appearance shape is formed, and the length of the special mounting component D3a in the thickness direction is mounted in the insertion mounting region TH. It is smaller than the length of the type discrete component D2b in the thickness direction. This eliminates the necessity of securing a special mounting space when mounting the special mounting component D3a on the insertion mounting board THB, coupled with the above-described structure in which the mounting surfaces are orthogonal to each other. The special mounting component D3a can be inserted while the insertion mounting component is mounted.

  As described above, the special mounting component D3a according to this modified example appears as one insertion mounting type discrete component in appearance, but in practice, the special surface mounting substrate SMB and the surface mounting type discrete component are used. D2a is included in each of them. That is, in the special mounting component D3a, the special insertion mounting lead portion TL is fixed to the special surface mounting substrate SMB inside and electrically connected to the surface mounting lead portion SL via the wiring pattern HP. In contrast, the insertion mounting component has a structure in which the insertion mounting lead portion is electrically connected to a specific electronic component by a bonding wire.

  Further, in the base board MB of the main control board 1310 according to this modification, as shown in FIG. 105, a Schottky diode element (diode MD0) is internally provided as a special mounting component D3 having such an internal structure. In addition to the special mounting component D3a to be surface-mounted, a special mounting component D3b for internally mounting a capacitor element having a small capacitance value is provided.

  That is, the special mounting component D3b according to this modification is a filter for a specific data line between the discrete component D2b provided as a resistance element among the insertion mounting type discrete components D2b mounted in the insertion mounting region TH. A circuit is formed. Even in such a configuration related to a filter circuit, it is recalled that the electronic components included in one discrete circuit have an electrical close role in order to exhibit a specific electrical function (filter function). It is possible to make it difficult to suppress the fraud. By increasing the difficulty of understanding the circuit, fraud can be suppressed.

  As for the special mounting component D3b, both the resistance element and the capacitor element constituting the filter circuit may be surface-mounted on the special surface mounting substrate SMB, respectively. However, in this case, the electronic components having the highest height among the electronic components (insertion mounting components) inserted and mounted on the insertion mounting board THB (for example, the electronic components are arranged side by side in a line) For example, in order to reduce the size of the base board MB of the main control board 1310, it is desirable to keep the appearance shape lower than that of the capacitor element omitted in the drawing.

  The special mounting component D3 may include a plurality of types of electronic components as described above, or may include a plurality of one type of electronic components. In any case, when a plurality of electronic components are built in, the plurality of electronic components are surface-mounted side by side and in a row with respect to one special surface mounting substrate SMB, and those electronic components are also mounted. It is desirable that the component and the special surface mounting substrate SMB are collectively molded with a mold resin and packaged.

  However, when a plurality of electronic components are built in the special mounting component D3, the external shape naturally increases, and “It is an electronic component of a type that is inserted and mounted in this size and shape. There is a concern that it will no longer be possible to expect a dazzling effect using preconceptions, such as "Is it a discrete component of the insertion mounting type?" Therefore, in order to suitably obtain such a dazzling effect using preconceptions, a single surface mount type discrete component is used alone, and its external shape is made different by the structure of the double mold described above, and its thinness is reduced. It is desirable to mount the surface so that the surface faces the insertion mounting substrate TH.

  In addition to forming the outer package OP of the above-mentioned double mold with a non-transparent material such as a mold resin, the outer package has an identification number different from the identification number attached to one surface mount type discrete component itself. It can also be said that it is important to increase the difficulty of circuit understanding by adding OP.

  The special mounting component D3 according to this modification is a structure having “one surface mounting type discrete component” smaller than “one insertion mounting type discrete component” in the inside thereof. The size when double-molded is about the same size as “one insert mounting type discrete component”, and it can be expected that the above-described excellent operational effects can be expected. . Therefore, in a configuration in which “one insert mounting type discrete component” is included and double-molded, the size is larger than “one insertion mounting type discrete component”. Therefore, it is impossible to expect the above-described excellent effects.

  Next, technical ideas that can be grasped from the above-described embodiments and modifications will be described below.

[Technology 1-1]
It has a base plate on which a plurality of electronic components are mounted, and includes a specific control unit that can execute control power generation processing and game progression processing by using these electronic components,
When a special game result is obtained as a result of the progress process of the game, a gaming machine that can give a privilege to the player,
The base plate of the specific control unit is
An insertion mounting area where the lead portion provided on the electronic component is mounted in a manner to be inserted into the base plate,
And a surface mounting area where a lead portion provided on the electronic component is mounted on the surface of the base plate.
Among the plurality of electronic components, at least one of the surface mount components mounted on the surface mount region is formed by molding the surface mount component itself with a mold resin. The game machine is characterized in that it is molded together with the surface mounting region to be mounted by another mold resin.

[Technology 1-2]
A first control unit that has a base plate on which a plurality of electronic components are mounted, and that can perform control power generation processing and game progression processing by using those electronic components;
A second control unit having a base plate on which a plurality of electronic components are mounted, and capable of executing a progress process of an effect according to a result of the progress process of the game by using the electronic components;
When a special game result is obtained as a result of the progress process of the game, the gaming machine can give a privilege to the player,
The base plate of the second control unit includes an insertion mounting area where a lead portion provided in an electronic component is inserted into the base plate, and a lead portion provided in the electronic component. Of the surface mounting area mounted on the surface of the surface, only the surface mounting area is provided,
The base plate of the first control unit is provided with both the insertion mounting area and the surface mounting area,
Among the plurality of electronic components, a first side surface mount component mounted on the surface mount region provided on the base plate of the first control unit and a surface mount region provided on the base plate of the second control unit The second side surface mounted component to be mounted is one of the first side surface mounted component and the second side surface mounted component, although both are molded by a mold resin. The gaming machine, wherein the first side surface mounting component is molded together with the surface mounting region using a molding resin different from the molding resin of the first side surface mounting component itself.

  In such technical thoughts 1-1 and 1-2, the surface mount component mounted in the surface mount region inferior to the fraud suppression performance is formed by molding resin itself, Since it is molded integrally with the surface mounting area to be mounted by a mold resin different from the mold resin, it is possible to apply some fraud to the surface mounting area that is inferior in fraud suppression performance. It becomes extremely difficult.

[Technology 2]
It has a base plate on which a plurality of electronic components are mounted, and includes a specific control unit that can execute control power generation processing and game progression processing by using these electronic components,
When a special game result is obtained as a result of the progress process of the game, a gaming machine that can give a privilege to the player,
The base plate of the specific control unit is
An insertion mounting board that is mounted in such a manner that the insertion mounting lead portion provided in the insertion mounting component of the electronic component is inserted;
A surface mounting lead mounted on the surface of the surface mounting lead provided on the surface mounting component of the electronic component.
In the surface mounting board,
At least a special surface mounting board having a special insertion mounting lead portion formed so as to extend outward from the surface mounting board and be inserted into the insertion mounting board is included,
On the special surface mount board,
A wiring portion formed to electrically connect the surface mounting lead portion of the surface mounting component mounted on the special surface mounting board and the special insertion mounting lead portion;
Surface mount components mounted on the special surface mount board are:
Of the surface mounting lead portion and the special insertion mounting lead portion, only the special insertion mounting lead portion is molded integrally with the special surface mounting plate so as to be drawn out of the mold resin, A gaming machine that is mounted on the insertion mounting board as one electronic component having a special insertion mounting lead portion.

  In such a technical idea 2, a surface mounting component mounted in a surface mounting area inferior in fraud suppression performance is caused to function as if it is one insertion mounting component mounted in an insertion mounting area in excellent fraud suppression performance. As a result, it can be expected that a malicious person is excluded from the object of fraud.

[Technology 3]
It has a base plate on which a plurality of electronic components are mounted, and includes a specific control unit that can execute control power generation processing and game progression processing by using these electronic components,
When a special game result is obtained as a result of the progress process of the game, a gaming machine that can give a privilege to the player,
The base plate of the specific control unit is
An insertion mounting board that is mounted in such a manner that the insertion mounting lead portion provided in the insertion mounting component of the electronic component is inserted;
A surface mounting lead mounted on the surface of the surface mounting lead provided on the surface mounting component of the electronic component.
The surface mount component includes
It includes at least discrete surface mount components in which a single function element is molded with a mold resin,
The discrete surface mount component is:
The discrete surface mount component has a relatively large external shape by being integrally molded with a surface mount plate to be mounted by a mold resin different from the mold resin of the discrete surface mount component itself, and the base of the specific control unit A gaming machine having an appearance shape different from any of all electronic components mounted on a board.

  In such technical idea 3, an excessive security performance such as protection with a double mold resin is applied to a mere discrete surface mount component that can only have a limited function as compared with an arithmetic processing unit or the like. It is unique as an external shape that attracts the attention of a malicious person, and has a relatively large external shape (trap). That is, in this case, since it becomes possible to show the third party the excessive security performance performed in the specific control unit, it is possible to expect a decrease in the willingness to perform fraudulent acts.

[Technology 4]
It has a base plate on which a plurality of electronic components are mounted, and includes a specific control unit that can execute control power generation processing and game progression processing by using these electronic components,
When a special game result is obtained as a result of the progress process of the game, a gaming machine that can give a privilege to the player,
The base plate of the specific control unit is
An insertion mounting area where the lead portion provided on the electronic component is mounted in a manner to be inserted into the base plate,
And a surface mounting area where a lead portion provided on the electronic component is mounted on the surface of the base plate.
In the base plate of the specific control unit, the surface mounting area is distributed in a plurality of locations so that each area is a relatively small area, whereas the insertion mounting area is distributed. A gaming machine, wherein the gaming machine is provided as a relatively large area surrounding at least one of the provided surface mounting areas.

  In such a technical idea 4, the surface mounting area inferior to the anti-fraud performance is not concentrated in one place, but is divided and made inconspicuous. It is arranged to be inserted into an insertion mounting area provided as an area. Therefore, when a malicious person looks at the base plate of the specific control unit, it becomes difficult to notice that the surface mounting area exists, while maintaining the suppression performance against mounting of unauthorized parts, It is expected to reduce the size of the hardware circuit.

[Technology 5]
It has a base plate on which a plurality of electronic circuits are formed, and includes a specific control unit that can perform control power generation processing and game progression processing by using these electronic circuits,
When a special game result is obtained as a result of the progress process of the game, a gaming machine that can give a privilege to the player,
The plurality of electronic circuits include
A backup power supply circuit that supplies a backup power supply to a predetermined storage unit when the control power supply is cut off is included as a discrete circuit having at least a capacitor and a diode, which are electronic components of a single function element. ,
The base plate of the specific control unit is
An insertion mounting area where the lead portion provided on the electronic component is mounted in a manner to be inserted into the base plate,
A surface mount area where the lead portion provided on the electronic component is mounted on the surface of the base plate;
The insertion mounting area is
Provided as a relatively large area surrounding the surface mounting area, so that the electronic components mounted in the surface mounting area are adjacent to some of the electronic components mounted in the insertion mounting area,
The backup power supply circuit is
Despite being provided as a discrete circuit having a backup power supply function for supplying backup power to a predetermined storage unit when the control power is shut off, the capacitors and diodes of the discrete circuit are provided. One of the electronic components is mounted on the surface mounting region surrounded by the insertion mounting region, and the other electronic component is mounted on the surface mounting region of the insertion mounting region. A gaming machine that is mounted at a position that is not adjacent to a component.

  According to the technical idea 5 as described above, although it is a discrete circuit intended to exhibit a specific electrical function (backup power supply function), it can be mounted on an insertion mounting area on the base plate. Electronic components having a shape to be standardized and electronic components having a shape to be capable of being mounted on the surface mounting region are mixed. Therefore, it is recalled that when a third party visually recognizes the base plate of a specific control unit, they have a close electrical role to perform a specific electrical function (backup power supply function). It becomes possible to make it difficult, and by increasing the difficulty of understanding the circuit, fraud can be suppressed.

  In addition, the surface mounting area that is inferior in fraud suppression performance is placed in a form that is inserted into the insertion mounting area that is excellent in fraud suppression performance and is provided as a relatively large area. The capacitor and the diode included in one discrete circuit aiming to exhibit the supply function) are arranged so as not to be adjacent to each other. Therefore, it is possible to make it difficult to notice the existence of a surface mounting area that is inferior in fraud suppression performance, and even if the presence is noticed, the electronic component mounted in the surface mounting area cooperates with other electronic components. Thus, it becomes difficult to recall what electrical functions are implemented so as to make it difficult to suppress fraud by further increasing the difficulty of understanding these circuits. It can be expected.

[Technology 6]
It has a base plate on which a plurality of electronic components are mounted, and includes a specific control unit that can execute control power generation processing and game progression processing by using these electronic components,
When a special game result is obtained as a result of the progress process of the game, a gaming machine that can give a privilege to the player,
The base plate of the specific control unit is
An insertion mounting board that is mounted in a manner in which the insertion mounting lead portion provided in the electronic component is inserted;
A surface mounting lead mounted on the surface of the surface mounting lead provided on the electronic component.
In the surface mounting board,
At least a special surface mounting board having a special insertion mounting lead portion formed so as to extend outward from the surface mounting board and be inserted into the insertion mounting board is included,
The special surface mount board is
The wiring part is formed so as to electrically connect the surface mounting lead part of the electronic component mounted on the special surface mounting board and the special insertion mounting lead part, and with respect to the insertion mounting board. The special insertion / mounting lead portions are inserted into the insertion / mounting board and disposed so that their mounting surfaces are substantially orthogonal to each other.
A gaming machine characterized by that.

  In general, the components mounted on the surface mounting board often have a flat shape. In this regard, in the technical idea 6 described above, the special surface mounting board is arranged so that the mounting surfaces of the insertion mounting board are substantially orthogonal to each other. That is, in this case, an electronic component is mounted as an insertion mounting board because a thin surface having a relatively small area is opposed to the insertion mounting board instead of a flat surface having a relatively large area. The special surface mount board can be disposed even in a situation where only a small possible area (surface area) remains.

[Technology 7]
It has a base plate on which a plurality of electronic components are mounted, and includes a specific control unit that can execute control power generation processing and game progression processing by using these electronic components,
When a special game result is obtained as a result of the progress process of the game, a gaming machine that can give a privilege to the player,
The base plate of the specific control unit is
An insertion mounting board that is mounted in a manner in which the insertion mounting lead portion provided in the electronic component is inserted;
A surface mounting lead mounted on the surface of the base plate, and the surface mounting lead provided on the electronic component has a surface mounting plate,
Among the plurality of electronic components, the surface mount component mounted on the surface mount plate includes a specific surface mount component having a size that fits within an installation interval of a specific insertion hole provided in the insertion mount plate. And
The specific surface mount component is:
Despite being a size that fits within the installation interval of the specific insertion hole, the specific surface mount component is integrated with the surface mount plate to be mounted by a mold resin different from the mold resin of the specific surface mount component itself. A gaming machine having an appearance shape as one electronic component having a size that does not fit within an installation interval of the specific insertion hole by being molded.

  That is, when a specific surface mount component is left in an external shape smaller than the installation interval of the insertion holes in the insertion mounting board, a surface mounting region inferior in fraud suppression performance is provided in the specific control unit. It becomes easy for third parties to notice and, in turn, can promote fraud.

  In this regard, in the above technical idea 7, a specific surface mount component is integrally molded with a surface mount plate to be mounted by a mold resin different from the mold resin of the specific surface mount component itself. Since the appearance shape as one electronic component having a size that does not fit within the installation interval of the specific insertion hole appears, a surface mounting region inferior in fraud suppression performance is provided in the specific control unit. This makes it difficult for third parties to notice this.

[13. Various commands related to transmission / reception of main control board]
Next, various commands transmitted from the main control board 1310 to the payout control board 951 and various commands transmitted from the main control board 1310 to the peripheral control board 1510 will be described with reference to FIGS. 88 to 91. FIG. 88 is a table showing an example of various commands transmitted from the main control board to the payout control board, and FIG. 89 is a table showing an example of various commands sent from the main control board to the peripheral control board. 89 is a table showing the continuation of various commands transmitted from the main control board to the peripheral control board in FIG. 89, and FIG. 91 is a table showing an example of various commands from the payout control board received by the main control board. First, a prize ball command that is a command related to payout transmitted from the main control board to the payout control board will be described, and then various commands transmitted from the main control board to the peripheral control board will be described and received by the main control board. Various commands from the payout control board will be described.

[13-1. Various commands sent from the main control board to the payout control board]
The main control MPU 1310a of the main control board 1310 detects from various winning switches such as the general winning port sensors 4020 and 4020, the first starting port sensor 4002, the second starting port sensor 4004, and the count sensor 4005 shown in FIG. When the signal is input, based on these detection signals, a prize ball command for paying out a predetermined number of game balls as a prize ball is transmitted to the payout control board. This prize ball command is a command having a storage capacity of 1 byte (8 bits). In this embodiment, the pachinko machine 1 and the CR unit 6 (communicating with the pachinko machine 1 and driving the payout motor 834 of the pachinko machine 1 (payout device 830) to the upper dish 321 and the lower dish 322, which are storage dishes, When the game ball as a rental ball is electrically connected (such a pachinko machine is called a “CR machine”), as shown in FIG. 88 (a), the main control board Command balls 10H to 1EH (“H” represents a hexadecimal number) are prepared as prize ball commands transmitted from 1310 to the payout control board 951, and one prize ball is designated in the command 10H, and the command 11H is designated. In the example, two prize balls are designated, and in the command 1EH, 15 prize balls are designated. The payout control board 951 controls the payout of game balls by driving the payout motor 834 for the designated number of prize balls.

  Also, a pachinko machine 1 and a ball lending machine (a device that directly pays out game balls as lending balls to the upper plate 321 and the lower plate 322) are installed adjacent to the game hall (hall). 1 and a ball lending machine are electrically connected (such a pachinko machine is referred to as a “general machine”), as shown in FIG. 88 (b), a payout control board 951 from the main control board 1310. Command 20H to command 2EH are prepared as the prize ball commands to be transmitted to the command. One prize ball is designated by the command 20H, two prize balls are designated by the command 21H,... 15 spheres are designated. The payout control board 951 controls the payout of game balls by driving the payout motor 834 for the designated number of prize balls.

As a command common to the CR machine and the general machine, a command 30H is prepared as shown in FIG. 88 (c), and the self check is designated in the command 30H.
By transmitting a command 30H and checking whether or not an ACK signal is input when the transmitting side does not input an ACK signal output as a command reception confirmation from the receiving side for a predetermined period after the command is transmitted. Check the connection status. In the case of the CR machine in this embodiment, the payout control board 951 confirms the connection state with the CR unit 6.

[13-2. Various commands sent from the main control board to the peripheral control board]
Next, various commands transmitted from the main control board 1310 to the peripheral control board 1510 will be described. The main control MPU 1310a of the main control board 1310 transmits various commands to the peripheral control board 1510 based on the progress of the game. These various commands are commands having a storage capacity of 2 bytes (16 bits). As shown in FIGS. 89 and 90, a status indicating the type of command having a storage capacity of 1 byte (8 bits), and And a mode showing variations of performance having a storage capacity of 1 byte (8 bits).

  As shown in FIG. 89 and FIG. 90, the various commands are related to special figure 1 synchronized effect, special figure 2 synchronized effect related, jackpot related, power-on, general synchronized effect related, ordinary electric role effect related, notification display, state Classified into display and other.

[13-2-1. Special Figure 1 Entrainment Production Related]
The special figure 1 synchronization effect related is based on the detection signal from the first start port sensor 4002 shown in FIG. 69, and, as shown in FIG. 89, the function display unit 1400 shown in FIG. The first special symbol display 1403 is composed of commands named special figure 1 synchronized effect start, special symbol 1 designation, special figure 1 synchronized effect end, and variable state designation. These various commands are assigned “A * H” as a status and “** H” (“H” represents a hexadecimal number) as a mode (“*” is a specific hexadecimal number). This is predetermined according to the specifications of the pachinko machine 1).

  The special figure 1 synchronized production start command instructs the start of the special figure synchronized production with the production pattern designated in the mode, and the special symbol 1 designated command designates the off, specific big hit, and non-specific big hit. The special figure 1 tuning effect end command is for instructing the end of the special figure 1 tuning effect, and the variable state designation command is for instructing the probability and the short time state. Note that the probability and short-time state include a low-probability short-time state that indicates a low-probability state and a short-time state, a high-probability time-short state that indicates a high-probability state and a short-time state, and a low-probability state. It is composed of a low-probability non-time-short state that indicates that the state is not a short-time state, and a high-probability non-time-short state that indicates that the state is a high-probability state and not a short-time state (as a normal gaming state, Low probability non-short state is set). Here, the high probability state is a state in which the probability of hitting is set higher than the low probability state (normal game state), and the short time state is, for example, a normal symbol display 1402 shown in FIG. Compared with the non-short-time state (normal game state), the time for displaying the symbols in a variable manner is shortened and stopped with a light emission pattern corresponding to the normal lottery result. In addition to increasing the number of times of stop display compared to the non-time-short state, the period for opening and closing the pair of movable pieces shown in FIG. 8 is made longer than that of the non-time-short state (normal game state), as shown in FIG. A state in which a lottery opportunity for a special symbol can be obtained without reducing the number of possessed balls by increasing the acceptance rate (entrance rate) of game balls to the second starting port 2004 shown (in other words, a non-short-time state) In addition, the number of times of determining whether or not to open / close the pair of movable pieces is increased, and in the case of opening / closing the pair of movable pieces, the period of the opening / closing operation of the pair of movable pieces is lengthened. The state of increasing the acceptance rate (entrance rate) of game balls to the mouth 2004).

  As the transmission timing of these various commands, the special symbol 1 tuning effect start command is transmitted at the start of the special symbol 1 fluctuation start, and the special symbol 1 designation command is transmitted immediately after the special symbol 1 tuning effect is started. The production end command is transmitted when the special symbol 1 variation time has elapsed (when the special symbol 1 is determined), and the variation state designation command is transmitted immediately after the special symbol winning information designation. These various commands are actually transmitted in the peripheral control board command transmission process in step S120 in the main control timer interrupt process described later.

[13-2-2. Special figure 2 synchronized production]
The special figure 2 synchronization effect related is based on the detection signal from the second start port sensor 4004 shown in FIG. 69, and is divided into the function display unit 1400 shown in FIG. 69 as shown in FIG. The second special symbol display 1405 is composed of commands named special figure 2 synchronization effect start, special symbol 2 designation, and special figure 2 synchronization effect end. In these various commands, “B * H” as the status and “** H” as the mode (“H” represents a hexadecimal number).
("*" Indicates a specific hexadecimal number, which is determined in advance by the specification content of the pachinko machine 1).

  The special figure 2 synchronized production start command instructs the start of the special figure synchronized production with the production pattern designated in the mode, and the special symbol 2 designated command designates the off, specific big hit, and non-specific big hit. The end of the special figure 2 synchronization effect instructs the end of the special figure 2 synchronization effect.

  As the transmission timing of these various commands, the special symbol 2 tuning effect start command is transmitted when the special symbol 2 fluctuation starts, and the special symbol 2 designation command is transmitted immediately after the start of the special symbol 2 tuning effect. The effect end command is transmitted when the special symbol 2 variation time has elapsed (when the special symbol 2 is confirmed). These various commands are actually transmitted in the peripheral control board command transmission process in step S120 in the main control timer interrupt process.

[13-2-3. Jackpot related]
As shown in FIG. 89, the jackpot-related category includes a jackpot opening, a grand prize opening 1 open Nth display, a big prize opening 1 closed display, a big prize opening 1 count display, a jackpot ending, a jackpot symbol display, a small hit opening , A small hit opening display, a small hit count display, and a command with the names of small hit ending. These various commands are assigned “C * H” as a status and “** H” (“H” represents a hexadecimal number) as a mode (“*” is a specific hexadecimal number). This is predetermined according to the specifications of the pachinko machine 1).

  The jackpot opening command is an instruction to start the jackpot opening, and the N-th display command for the big winning opening 1 is started during the first to sixteenth rounds of opening the big winning opening 1 (the start opening unit 2100 shown in FIG. 8). The grand prize opening 1 closing display command indicates that the grand prize opening 1 is closed during the round (the start opening unit 2100 is large). The winning prize opening 2005 is closed during the round or the closing start is instructed, and the large winning opening 1 count display command indicates that the number of game balls of 0 to 10 is counted (shown in FIG. 69). The number of game balls that have entered the big prize opening 2005 detected by the count sensor 4005) is transmitted. Is intended to instruct the loading start, big hit symbol display command is for instructing the big hit symbol information display.

  The small hit opening command is for instructing the start of the small hit opening, and the small hit opening display command is for starting the small hit opening (during opening of the big winning opening 2005 of the start opening unit 2100 at the small hit or The small hit count display command is used when a small hit middle / large prize opening winning effect (a game ball that has entered the big winning opening 2005 during the small hit is detected by the count sensor 4005). The small hit ending command is an instruction to start the small hit ending.

  As the transmission timing of these various commands, the big hit opening command is sent at the start of the big hit opening, and the big winning opening 1 opening N-th display command is when the big winning opening 1 at the 1st to 16th rounds is released (the start opening unit 2100 The grand prize opening 1 closing display command is sent when the big prize opening 1 is closed (the closing of the big prize opening 2005 of the start opening unit 2100). The prize winning 1 count display command is used when the prize winning opening 1 is opened and when the count to the prize winning opening 1 is changed (when the prize winning opening 2005 of the start opening unit 2100 is opened and when the game ball enters the prize winning opening 2005. Is detected by the count sensor 4005), and the big hit ending command is sent at the start of the big hit ending. , Big hit symbol display command is sent during the special winning opening open (when opening the special winning opening 2005 of the starting opening unit 2100).

  The small hit opening command is transmitted at the start of the small hit opening, and the small hit release display command is transmitted when the small hit is released (when the big winning opening 2005 of the start port unit 2100 is opened at the small hit), The small hit count display command is transmitted at the time of winning a small hit medium / large winning opening (when a game ball that has entered the big winning opening 2005 is detected by the count sensor 4005 during the small hit), and the small hit ending command is Sent at the start of a small hit ending. These various commands are actually transmitted in the peripheral control board command transmission process in step S120 in the main control timer interrupt process.

[13-2-4. Power on]
As shown in FIG. 89, the power-on category includes a command at the time of power-on and a name of the main control return destination at power-on. These various commands are assigned “D * H” as a status and “** H” (“H” represents a hexadecimal number) as a mode (“*” is a specific hexadecimal number). This is predetermined according to the specifications of the pachinko machine 1).

  The power-on state command is for instructing the start of the RAM clear effect and the gaming state. When the power is turned on, the power-on status command is used when the power supply is turned on (in addition to when the power is turned on, including when the power is restored due to a power failure or a momentary power failure) of the payout control board 951 shown in FIG. When the operation switch 954 is operated to clear the RAM, information indicating that, and when the power is turned on (in addition to when the power is turned on, including when the power is restored due to a power failure or a momentary power failure )), The information indicating which state (probability and short-time state) to recover from among the low-probability short-time state, high-probability short-time state, low-probability non-short-time state, and high-probability non-short-time state, And information indicating the model code of the pachinko machine. The model code of this pachinko machine, for example, when creating so-called max type, middle type, and sweet digital type, what kind of game is copyrighted, what kind of game specifications (for example, probability variation occurs) In addition to the game specification that the state continues until the next big hit game state occurs, the game specification that the probability variation occurs when the number of changes of the special symbol is limited (for example, 30 times or 70 times). (So-called ST machine) or the like). In other words, the information on the model code of the pachinko machine is used to specify the series code for identifying which type is the max type, middle type, or sweet digital type indicating the model type, and the copyright of the work. Copyright code and game specifications (for example, if a probability change occurs, that state will continue until the next jackpot game state occurs, and the probability change with a limited number of special symbol changes) And a game specification code for specifying a game specification (ST machine, etc.).

  The main control return destination command at power-on indicates the return destination of the main control board 1310 itself. The power-on main control return destination command mainly includes information for instructing the driving state of the start solenoid 2107 shown in FIG. 69 and information for instructing the driving state of the attacker solenoid 2108 shown in FIG. ing.

  As the transmission timing of the power-on status command and the power-on main control return destination command, when the main control board power is turned on (in addition to when the power is turned on, when power is restored due to a power failure or instantaneous power failure) Is also included.) Specifically, when the pachinko machine 1 is turned on, when it recovers from a power failure or a momentary power failure, the main control side power-on process described later is executed, and the peripheral control board command in step S120 in the main control side timer interrupt process is executed. In the transmission process, a power-on state command and a power-on main control return destination command are transmitted.

[13-2-5. General drawing related production]
The general figure synchronization effect is based on the detection signal from the gate sensor 4003 shown in FIG. 69. As shown in FIG. 89, the normal symbol display of the function display unit 1400 shown in FIG. The command 1402 is composed of commands with the names of general drawing synchronization production start, universal symbol designation, universal drawing synchronization production end, and variable state designation. These various commands are assigned “E * H” as a status and “** H” (“H” represents a hexadecimal number) as a mode (“*” is a specific hexadecimal number). This is determined in advance according to the specifications of the pachinko machine 1).

  The general pattern synchronization production start command is for instructing the general pattern synchronization production start with the production pattern specified in the mode, and the general pattern designation command is for specifying off, specific big hit, non-specific big hit, The figure synchronization effect end command is for instructing the end of the common figure synchronization effect, and the change state designation command is for instructing the probability and the short time state. As described above, the probability and the short time state include a low probability short time state that indicates a low probability state and a short time state, and a high probability short time state that indicates a high probability state and a short time state. A low-probability non-time-short state that indicates a low-probability state and not a time-short state, and a high-probability non-time-short state that indicates a high-probability state and not a time-short state (usually As the gaming state, a low probability non-short-time state is set).

  As the transmission timings of these various commands, the ordinary symbol synchronization effect start command is transmitted at the time of the normal symbol 1 variation start, the ordinary symbol designation command is transmitted immediately after the ordinary symbol synchronization effect start, and the ordinary symbol synchronization effect end command is When the normal symbol variation time has elapsed (when the normal symbol is determined), the variation state designation command is transmitted immediately after the ordinary symbol winning information designation. These various commands are actually transmitted in the peripheral control board command transmission process in step S120 in the main control timer interrupt process.

[13-2-6. Ordinary electric role production related]
The ordinary electric role effect is related to the pair of movable pieces shown in FIG. 8 that are opened and closed by the driving of the start opening solenoid 2107 shown in FIG. 69. As shown in FIG. It consists of commands named hitting opening, public power open display, and ending per common figure. These various commands are assigned “F * H” as a status and “** H” (“H” represents a hexadecimal number) as a mode (“*” is a specific hexadecimal number). This is predetermined according to the specifications of the pachinko machine 1).

  The opening command per base map is an instruction to start the opening per base map, and the open command display of the general power is started while the general power is open (a pair of movable pieces are expanded in the left-right direction by driving the start opening solenoid 2107). State or when expanding), and the ending command per universal map is an instruction to start ending per universal map.

  As the transmission timing of these various commands, the opening command per base map is transmitted at the start of the opening per base map, and the general power open display command is displayed when the general power is open (a pair of movable pieces are driven by the start-up solenoid 2107. The ending command per common map is transmitted at the start of ending per universal map. These various commands are actually transmitted in the peripheral control board command transmission process in step S120 in the main control timer interrupt process.

[13-2-7. Notification display]
As shown in FIG. 90, the notification display section includes commands having names such as winning abnormality display, connection abnormality display, disconnection / short circuit abnormality display, magnetic detection switch abnormality display, door opening, and door closing. These various commands are assigned “6 * H” as a status and “** H” (“H” represents a hexadecimal number) as a mode (“*” is a specific hexadecimal number). This is predetermined according to the specifications of the pachinko machine 1).

  The winning anomaly display command is used when a winning ball is won other than during a big hit (when the condition device is operating) (a game ball is entered into the big winning port 2005 of the start opening unit 2100 even though it is not a big hit). When the count sensor 4005 detects the winning abnormality notification, the connection abnormality display command is, for example, an electrical signal on a path between the main control board 1310 and the payout control board 951. When there is a connection abnormality, an instruction to start connection abnormality notification is given. The disconnection / short circuit abnormality display command includes, for example, a main control board 1310, a first start port sensor 4002, a second start port sensor 4004, and a count sensor. Instructs the start of disconnection / short-circuit abnormality display when a disconnection / short-circuit of the electrical connection with 4005, etc. occurs. De is for instructing the start of magnetic detection switch abnormality notification when an abnormality occurs in the magnetic detection sensor 4024 shown in FIG. 69.

  Further, the door opening command is sent from the door frame 3 to the main body frame 4 based on a detection signal (opening signal) from the door frame opening switch 618 input via the payout control board 951 shown in FIG. In the opened state, the door opening notification is instructed, and the door frame closing command is based on the detection signal from the door frame opening switch 618 and the door frame 3 is closed with respect to the main body frame 4. When it is in the state, it is instructed to end the door opening notification. On the other hand, the main body frame opening command is sent from the main body frame 4 to the outer frame 2 based on a detection signal (open signal) from the main body frame opening switch 619 input via the payout control board 951 shown in FIG. In the open state, the main body frame close command is sent to the outer frame 2 based on the detection signal from the main body frame open switch 619. In the closed state, the main body frame opening notification is instructed to end.

  As the transmission timing of these various commands, a winning abnormality display command is transmitted when winning a prize winning opening other than during a big hit (when the condition device is operating), and a connection abnormality displaying command is sent from the main control board 1310 to the payout control board 951. Is transmitted when there is no ACK reply (ACK signal) from the payout control board 951 at the time of command transmission, and the disconnection / short circuit abnormality display command includes the first start port sensor 4002, the second start port sensor 4004, the count sensor 4005, etc. The magnetic detection switch abnormality display command is transmitted when an abnormality of the magnetic detection sensor 4024 is detected. The door opening command is transmitted when the door opening is detected (when the door frame 3 is in an open state with respect to the main body frame 4 based on the detection signal from the door frame opening switch 618), and the door is opened. The frame closing command is transmitted when door closing is detected (when the door frame 3 is closed with respect to the main body frame 4 based on a detection signal from the door frame opening switch 618). The body frame release command is transmitted when the body frame release is detected (when the body frame 4 is opened to the outer frame 2 based on the detection signal from the body frame release switch 619). The frame closing command is transmitted when the main body frame closing is detected (when the main body frame 4 is closed with respect to the outer frame 2 based on the detection signal from the main body frame opening switch 619). These various commands are actually transmitted in the peripheral control board command transmission process in step S120 in the main control timer interrupt process.

[13-2-8. Status display]
As shown in FIG. 90, the status display section is composed of commands named frame status 1 command (corresponding to an error occurrence command), error canceling navigation command (corresponding to error canceling command), and frame status 2 command. Yes. These various commands are assigned a status of “7 * H” and a mode of “** H” (“H” represents a hexadecimal number) (“*” is a specific hexadecimal number). This is predetermined according to the specifications of the pachinko machine 1).

  The frame status 1 command, the error canceling navigation command, and the frame status 2 command are commands having a storage capacity of 1 byte (8 bits) transmitted from the payout control board 951, and detailed descriptions thereof will be described later. . When the main control MPU 1310a of the main control board 1310 receives the frame state 1 command, the error release navigation command, and the frame state 2 command from the payout control board 951, as shown in FIG. 90, “7 * H” is displayed. While setting as a status, the received command is set as a mode as it is. That is, when the main control MPU 1310a receives the frame state 1 command, the error release navigation command, and the frame state 2 command from the payout control board 951, it adds “7 * H” as additional information to these received commands. Thus, the command is shaped into a command having a storage capacity of 2 bytes (16 bits).

  The shaped frame status 1 command is transmitted when the power is restored, when the status of the frame is changed, and when the error cancellation navigation is performed. The error cancellation navigation command is transmitted during the error cancellation navigation. The frame status 2 command is transmitted when the power is restored. And when the frame state changes. Note that the shaped frame state 1 command, error release navigation command, and frame state 2 command are actually transmitted in the peripheral control board command transmission process of step S120 in the main control timer interrupt process.

[13-2-9. Test related]
As shown in FIG. 90, the test-related classification includes various commands named test. This test command is assigned “8 * H” as a status and “** H” (“H” represents a hexadecimal number) as a mode (“*” is a specific hexadecimal number). And is predetermined according to the specifications of the pachinko machine 1).

  The test command instructs various inspections of the peripheral control board 1510 (for example, the peripheral control unit 1511, the liquid crystal display control unit 1512, the lamp driving board 4170, the motor driving board 4180, and the frame decoration shown in FIG. 72). Inspects various substrates such as the drive amplifier substrate 194).

  As a test command transmission timing, it is transmitted when the main control board power is turned on when the RAM is not cleared and when the RAM is not cleared. Specifically, when the pachinko machine 1 is powered on, when recovering from a power failure or a momentary power failure and when the operation switch 954 of the payout control board 951 is operated, the main control side power-on process described later is performed. When executed, a test command is transmitted in the peripheral control board command transmission process of step S120 in the main control timer interrupt process.

[13-2-10. Others]
As shown in FIG. 90, the other categories include start opening prize, change shortening operation end designation, high probability end designation, special symbol 1 memory, special symbol 2 memory, normal symbol memory, special symbol 1 memory pre-reading effect, and It consists of a command with the name of special symbol 2 storage pre-reading effect. These various commands are assigned “9 * H” as a status and “** H” (“H” represents a hexadecimal number) as a mode (“*” is a specific hexadecimal number). This is predetermined according to the specifications of the pachinko machine 1).

  The start opening prize command is an instruction to start the start opening winning effect, and the start of the effect when a game ball enters the first start opening 2002 based on the detection signal from the first start opening sensor 4002. , And the start of the effect when a game ball enters the second start port 2004 based on the detection signal from the second start port sensor 4004, respectively. The command for instructing state transition from the shortened operating state to the variable shortening non-operating state, and the high probability end designation command is for instructing state transition from the high probability state to the low probability state. The special symbol 1 holds 0 to 4 pieces (the game ball enters the first starting port 2002 shown in FIG. 8 and the special symbol is changed by the first special symbol display 1403 of the function display unit 1400. The number of balls not yet used for display (the number of holdings) is transmitted, and the special symbol 2 storage command is a special symbol 2 holding 0-4 pieces (the game ball is placed in the second starting port 2004 shown in FIG. 8). The second special symbol display 1405 of the function display unit 1400 enters the ball and informs the number of balls that have not been used yet for the variation display of the special symbol (the number of holdings), and the normal symbol storage command is the normal symbol 1 Reservation 0 to 4 (the number of balls that have passed through the gate portion 2003 shown in FIG. 8 and have not yet been used for the normal symbol display on the normal symbol display 1402 of the function display unit 1400) The special symbol 1 storage pre-reading effect command is pre-read before the special symbol 1 hold is used for the special symbol variable display on the first special symbol display 1403 of the function display unit 1400. The special symbol 2 storage pre-reading effect command instructs the start of the pre-reading effect informing the advance notice of the display result by the first special symbol indicator 1403 based on the special symbol 1 hold. Before using the second special symbol display 1405 to display the variation of the special symbol, pre-read and instruct the start of the pre-reading effect to notify the advance notice of the display result by the second special symbol display 1405 based on the special symbol 2 hold To do.

  As the transmission timing of these various commands, the start opening prize command is the start opening winning prize (when a game ball enters the first start opening 2002 based on the detection signal from the first start opening sensor 4002, When a game ball enters the second start port 2004 based on a detection signal from the start port sensor 4004), the fact is mainly voiced from the speaker 921 shown in FIG. 5 and the upper speaker 573 shown in FIG. Is sent at the end of the stop period after the change is confirmed after digesting the specified number of fluctuation reductions (after the outage stop period has elapsed). The special symbol 1 storage command is sent at the end of the stop period after the change is confirmed (after the lapse of the stoppage period), after digesting the high probability count in the case of “high probability N times”. At the time of change (in a state where a game ball enters the first start port 2002 and there is a number of holdings that are not yet used in the special symbol change display on the first special symbol display unit 1403 of the function display unit 1400, Sent when a game ball enters the starting port 2002 and the number of holds increases, or when the number of holds decreases by using the first special symbol display 1403 to display the fluctuation of the special symbol from the number of holds) The special symbol 2 memory command is displayed when the special symbol 2 operation holding ball number changes (the game ball enters the second starting port 2004 and the special symbol 2 1 is displayed on the second special symbol display 1405 of the function display unit 1400). In the state where there is a reserve number that has not been used yet, when the game ball enters the second start port 2004 and the number of reserves increases, the special symbol is displayed on the second special symbol display 1405 from the hold number. Strange The normal symbol storage command is transmitted when the number of reserved balls for the normal symbol 1 is changed (when the game ball passes through the gate part 2003 and the normal symbol of the function display unit 1400 is used). In a state where there is a number of holdings that are not yet used for the normal symbol fluctuation display on the display 1402, when the number of holdings increases as the game ball passes through the gate part 2003, or from the number of holdings, the normal symbol display 1402 The special symbol 1 memory pre-reading effect command is sent when the number of reserved symbols for the special symbol 1 operation increases (the game ball is placed at the first start port 2002). The special symbol 2 storage pre-reading effect command is sent when the number of special symbol 2 actuated reserve balls increases (the game ball enters the second starting port 2004 and the number of holds is increased). increase Sent). These various commands are actually transmitted in the peripheral control board command transmission process in step S120 in the main control timer interrupt process.

  By the way, as described above, the start opening prize command is given when the start opening is won (when a game ball enters the first start opening 2002 based on the detection signal from the first start opening sensor 4002, When a game ball enters the second starting port 2004 based on a detection signal from the sensor 4004), the signal is transmitted mainly from the speaker 921 and the upper speaker 573 to notify that effect. How the peripheral control board 1510 shown in FIG. 1 uses the start opening prize command may differ depending on the specifications of the pachinko machine. For example, the pachinko machine 1 according to the present embodiment is of a specification that is used for monitoring the presence or absence of fraud in addition to notifying the speaker 921 and the upper speaker 573 by voice. On the other hand, in other pachinko machines, there is a specification in which the peripheral control board 1510 simply receives the start opening prize command and does not notify the speaker 921 and the upper speaker 573 by voice.

[13-3. Various commands from the payout control board received by the main control board]
Next, various commands from the payout control board 951 received by the main control board 1310 will be described.

  As shown in FIG. 91, each command from the payout control board 951 is composed of commands named frame state 1, error release navigation, and frame state 2, and includes frame state 1, error release navigation, and Priorities are set in the order of frame state 2.

  For the frame status 1 command (corresponding to an error occurrence command), a ball breakage, a full tank, a connection abnormality and a CR non-connection in 50 or more stocks are prepared. Represents a bit.) Is set to 1; when full, bit 1 (B1) is set to 1; in more than 50 stocks, bit 2 (B2) is set to 1; A value 1 is set in bit 3 (B3), and a value 1 is set in bit 4 (B4) when the CR is not connected. In bit 5 (B5) to bit 7 (B7) of the frame state 1 command, a value 1 is set in B5, a value 0 is set in B6, and a value 0 is set in B7.

  In the error canceling navigation command (corresponding to the error canceling command), a sphere ball, a payout detection sensor error and a retry error are prepared. In error, the value 1 is set in bit 3 (B3), and in retry error, the value 1 is set in bit 4 (B4). Here, the “payout detection sensor error” indicates whether or not a failure of the payout detection sensor 842 shown in FIG. 70 has occurred. The “retry error” indicates that a game ball that is not consistent with the retry operation has been repeatedly paid out. Bit (B0), bit (B1), and bit 5 (B5) to bit 7 (B7) of the error cancellation navigation command have a value 0 for B0, a value 0 for B1, a value 0 for B5, a value 1 for B6, The value 0 is set in B7.

  The frame state 2 command is prepared for ball removal, and the value 1 is set to bit 0 (B0) during ball removal. Bit 1 (B1) to Bit 7 (B7) of the frame status 2 command include a value 0 for B1, a value 0 for B2, a value 0 for B3, a value 0 for B4, a value 1 for B5, a value 1 for B6, and The value 0 is set in B7.

  As the transmission timing of these various commands, the frame status 1 command is transmitted when the power is restored, when the frame status is changed, and during error cancellation navigation, and the error cancellation navigation command is transmitted during error cancellation navigation. Is transmitted when the power is restored and when the frame state changes. Note that these various commands are actually transmitted in the command transmission process in the payout control unit main process of the payout control unit power-on process.

[14. Various control processes of main control board]
Next, various control processes performed by the main control board 1310 shown in FIG. 69 according to the progress of the game of the pachinko machine 1 will be described with reference to FIGS. FIG. 92 is a flowchart showing an example of main control-side power-on processing, FIG. 93 is a flowchart showing the main control-side power-on processing in FIG. 92, and FIG. 94 is an example of main control-side timer interrupt processing. It is a flowchart which shows. First, various random numbers used for game control will be described, and then the operation of the initial value update type counter, main control side power-on processing, and main control side timer interrupt processing will be described.

[14-1. Various random numbers]
As the various random numbers used for game control, a big hit determination random number used for determining whether or not to generate a big hit gaming state, and whether or not to generate a reach (reach out) when no big hit gaming state is generated The random number for reach determination to be used for determination, and the variation for use in determining the variation display pattern of the special symbol that is variably displayed on the first special symbol display 1403 and the second special symbol display 1405 shown in FIG. Display pattern random numbers, jackpot symbol random numbers for use in determining the jackpot symbols derived and displayed by the first special symbol display 1403 and the second special symbol display 1405 when generating the jackpot gaming state, and the jackpot A big hit symbol initial value determining random number for use in determining the initial value of the symbol random number, the first special symbol indicator 1 when generating a small hit gaming state 03 and a small hit symbol for use in determining the small hit symbol derived and displayed by the second special symbol indicator 1405, and an initial value for the small hit symbol for use in determining the initial value of the random symbol for the small hit symbol A random number for determination is prepared. Further, in addition to these random numbers, it is used to determine a normal random number for determination per symbol for use in determining whether or not the movable piece shown in FIG. 8 is opened and closed, and an initial value of the random number for determination per normal symbol. For determining the initial value for determining the normal symbol, and the random number for the normal symbol variation display pattern to be used for determining the variation display pattern of the ordinary symbol that is variably displayed on the ordinary symbol display unit 1402 shown in FIG. It is prepared.

  Of the various random numbers used for such game control, the jackpot determination random number is updated by hardware, while the other various random numbers are updated by software.

  For example, the big hit determination random number is directly updated by hardware by the main control built-in hardware random number circuit 1310an built in the main control MPU 1310a shown in FIG. As described above, when the main control MPU 1310a is reset, this main control built-in hard random number circuit 1310an first sets a clock signal input to the main control MPU 1310a as an initial value within a predetermined numerical range. Based on (the clock signal output from the main control crystal oscillator MX0 shown in FIG. 77), other values within a predetermined numerical range are extracted one after another at a high speed, and all values within the predetermined numerical range are obtained. When the extraction is completed, one value in the predetermined numerical range is extracted again, and other values in the predetermined numerical range are extracted one after another based on the clock signal input to the main control MPU 1310a. To do. The main control built-in hard random number circuit 1310an repeatedly performs such a high-speed lottery, and the main control MPU 1310a wins the value extracted by the main control built-in hard random number circuit 1310an at the time of acquiring a value from the main control built-in hard random number circuit 1310an. It is set as a random number for judgment.

  On the other hand, the counter for updating the random number for determination per normal symbol is updated within a predetermined fixed numerical value range from the minimum value to the maximum value, and a range from the minimum value to the maximum value will be described later. Each time the main control side timer interrupt process is performed, the value is incremented by one. This counter counts up from the normal value for determining the initial value for determination per normal symbol toward the maximum value, and then counts up from the minimum value to the random number for determining the initial value for determination per normal symbol. When the counter finishes counting up the range from the minimum value to the maximum value of the random number for normal symbol determination, the random number for initial value determination for normal symbol is updated. Such a counter updating method is referred to as an “initial value updating type counter”. The random value for determining the initial value for normal symbol determination can be obtained by executing an initial value lottery process for drawing one value from the fixed numerical range of the counter for updating the random number for determination per normal symbol. .

  In this embodiment, when the operation switch 954 of the payout control board 951 shown in FIG. 70 is operated when the power is turned on, or in the main control side power-on process described later, the main control MPU 1310a shown in FIG. The check sum value (sum value) obtained by calculating the sum of the game information stored in the main control built-in RAM as a numerical value is stored in the main control side power-off process (at power-off). When clearing the entire area of the main control built-in RAM, such as when the checksum value (sum value) does not match, the normal value for determining the initial value for determining the normal symbol per symbol is the main control MPU 1310a shown in FIG. Extracts the ID code from the built-in non-volatile RAM, and always updates the random number for determination per symbol based on the extracted ID code. Perform initial value derivation process of deriving the same fixed value, a fixed value this derivation has a mechanism to be set. That is, the random value for determining the initial value for determining the normal symbol is always overwritten and updated with the same fixed value derived based on the ID code by executing the initial value deriving process. As described above, the value set to the random number for determining the initial value for determining the normal symbol is derived by using the ID code, and the nonvolatile RAM built in the main control MPU 1310a by the manufacturer that manufactured the main control MPU 1310a. If the ID code is stored in the ID code, the ID code is not rewritten even if an external device is used, and the ID code is executed by executing the initial value derivation process when clearing the entire area of the main control built-in RAM. The second security measure of deriving the same fixed value based on the above and the two steps of security measures are taken to prevent analysis.

  Here, an advantage will be described in which an ID code is extracted from the nonvolatile RAM built in the main control MPU 1310a, and the extracted ID code is used as a random number for determining an initial value for normal symbol determination. For example, a person who intends to illegally acquire a game ball to be paid out as a prize ball obtains the game board 5 by some method, disassembles it, and uses an ID code stored in advance in a nonvolatile RAM built in the main control MPU 1310a. Even if the counter value that is obtained illegally and the counter value for updating the determination random number per normal symbol and the determination value per normal symbol match can be grasped, the ID code is unique for identifying the individual. Since the reference numerals are given, the ID codes are completely different from the ID codes stored in advance in the nonvolatile RAM built in the main control MPU 1310a ′ included in the other game board 5 ′. In other words, in the other game boards 5 ′, the timing at which the counter value for updating the random number for normal symbol determination matches the normal symbol determination value is also completely different from that of the acquired game board 5. In other words, the ID code obtained by disassembling and analyzing the obtained game board 5 is completely useless in other game boards 5 ', that is, other pachinko machines 1'. Even if an instantaneous power failure is generated at every predetermined interval and the game ball is passed through the gate unit 2003 shown in FIG. 8 at each predetermined interval, the movable piece shown in FIG. A gaming state in which a game ball can be received at the start port 2004 cannot be generated.

[14-2. Main control side power-on processing]
First, when the power to the pachinko machine 1 is turned on, the main control MPU 1310a is configured so that the stack pointer is set to a predetermined address as a default.
This stack pointer indicates, for example, the address accumulated on the stack to temporarily store the contents of the memory element (register) being used, or the return address of this routine when the subroutine is terminated and the routine returns. This indicates the address accumulated on the stack for temporary storage, and the stack pointer advances each time the stack is stacked.

  The main control program described above performs main control side power-on processing as shown in FIGS. 92 and 93 under the control of the main control MPU 1310a of the main control board 1310. When the main control side power-on process is started, the main control program sets RAM access permission under the control of the main control MPU 1310a (step S10). Update to the main control built-in RAM (game storage unit) can be performed by setting the RAM access permission.

  Subsequent to step S10, the main control program performs initial value setting and activation setting of the main control built-in WDT 1310af shown in FIG. 69 (step S12). Here, in order to set an initial value in the main control built-in WDT 1310af for monitoring whether or not the operation (system) of the main control MPU 1310a is operating normally, a watchdog timer control register (hereinafter referred to as “the main control MPU 1310a”). The timer setting value is set in the "WDT control register"), the main control built-in WDT 1310af is started, and the time measurement from when the main control MPU 1310a is reset is started. When the main control built-in WDT 1310af is started, the time measurement by the main control built-in WDT 1310af is started, and the watchdog timer clear register (built-in to the main control MPU 1310a is reached by the time set by the timer set value. Hereinafter, if the timer clear setting value is not set in “WDT clear register”), the main control MPU 1310a is forcibly reset by the main control built-in WDT 1310af. On the other hand, when the main control built-in WDT 1310af is activated and time measurement is started, the timer clear setting value is set in the WDT clear register until the time measured reaches the time set by the timer setting value. The time measurement by the main control built-in WDT 1310af is cleared, and the time measurement is started again. As described above, the operation (system) of the main control MPU 1310a operates normally by repeatedly performing the process of clearing the time measurement by the main control built-in WDT 1310af until the time set by the timer set value is reached and starting the time measurement again. It can be monitored whether or not.

  Subsequent to step S12, the main control program performs a power failure clear process (step S14). In this electric power clear process, first, the output of the power outage clear signal is started to the power outage monitoring circuit 1310e shown in FIG. The power failure monitoring circuit 1310e includes a comparator MIC21 that is a voltage comparison circuit and a D-type flip-flop MIC22. The comparator MIC21, which is a voltage comparison circuit, compares the voltage between + 24V and the reference voltage, or compares the voltage between + 12V and the reference voltage, and outputs the comparison result. This comparison result shows that when no power failure or instantaneous power failure occurs, the logic becomes HI and is input to the PR terminal which is the preset terminal of the D-type flip-flop MIC22, while when a power failure or instantaneous power failure occurs. The logic becomes LOW and is input to the PR terminal which is a preset terminal of the D-type flip-flop MIC22.

  In the electric power clear process, first, output of a power outage clear signal is started to the power outage monitoring circuit 1310e, thereby starting output of the power outage clear signal to the CLR terminal which is the clear terminal of the D-type flip-flop MIC22. This power failure clear signal is input from the output terminal of a predetermined output port of the main control MPU 1310a to the CLR terminal which is the clear terminal of the D type flip-flop IC via the main control output circuit 1310ca with a reset function, with the logic being LOW. Is done. As a result, the main control MPU 1310a can release the latch state of the D-type flip-flop MIC22, and the logic input to the PR terminal that is the preset terminal of the D-type flip-flop MIC22 until the latch state is set. It can be inverted and output from the 1Q terminal, which is the output terminal, and the signal from the 1Q terminal can be monitored.

  Subsequently, in the electric power clear process, a wait timer process is performed to determine whether or not a power failure notice signal is input. The voltage does not increase immediately from when the power is turned on until the voltage reaches the predetermined voltage. On the other hand, when there is a power failure or a momentary power failure (a phenomenon in which the supply of power is temporarily stopped), when the voltage drops and becomes smaller than the power failure warning voltage, a power failure warning signal is input as a power failure warning from the power failure monitoring circuit 1310e. Similarly, when the voltage becomes lower than the power failure warning voltage from when the power is turned on until it reaches the predetermined voltage, a power failure warning signal is input from the power failure monitoring circuit 1310e. Therefore, in the wait timer process, after the power is turned on, the process waits until the voltage becomes larger than the power failure warning voltage and stabilizes. In this embodiment, 200 milliseconds (ms) is set as the wait time (wait timer). Has been. Whether or not a power failure warning signal is input is determined based on a signal output from the 1Q terminal, which is the output terminal of the D-type flip-flop MIC22, as the power failure warning signal.

  If the power failure warning signal is not input even after waiting for the voltage to become higher than the power failure warning voltage and stabilize after the power is turned on, the main control program sends a power failure clear signal to the CLR terminal which is the clear terminal of the D-type flip-flop MIC22. Stop output. Here, the power failure clear signal is output from the output terminal of a predetermined output port of the main control MPU 1310a, the logic is HI, and the CLR terminal which is the clear terminal of the D-type flip-flop IC via the main control output circuit 1310ca with reset function. Is input. Thereby, the main control MPU 1310a can set the D-type flip-flop MIC22 to the latched state. When the D-type flip-flop MIC22 latches the state in which the logic is LOW and is input to the PR terminal which is the preset terminal, the D-type flip-flop MIC22 outputs a power failure warning signal from the 1Q terminal which is the output terminal.

  Subsequent to step S14, the main control program makes a state in which RAM clear processing for initializing the main control built-in RAM (game storage unit) can be executed for a predetermined time from when the power is turned on (when the game side power is turned on). Operation control means). Specifically, the main control program first determines whether or not the operation switch 954 of the payout control board 951 shown in FIG. 70 is operated (step S16). In this determination, the main control program inputs an error release navigation command (first error release command) based on an operation signal (detection signal) associated with the operation switch 954 of the payout control board 951 being operated to the main control MPU 1310a. Depending on whether or not it is done. Based on the logic value of the operation signal, the main control program determines that the RAM is not instructed to be cleared when the logic value of the operation signal from the operation switch 954 is HI. On the other hand, when the logical value of the operation signal from the operation switch 954 is LOW, it is determined that the instruction to perform the RAM clear is made and it is determined that the operation switch 954 is operated.

  In step S16, when the operation switch 954 is operated, the main control program sets a value 1 to the RAM clear notification flag RCL-FLG (step S18). On the other hand, when the operation switch 954 is not operated in step S16, the main control program sets a value 0 to the RAM clear notification flag RCL-FLG (step S20). That is, the main control program can execute a RAM clear process that initializes the RAM (that is, the main control built-in RAM (game storage unit)) built in the main control MPU 1310a for a predetermined time from the time of power-on. State (game control side power-on operation control means). The above-described RAM clear notification flag RCL-FLG indicates whether or not to erase game information related to games such as probability variation, unpaid prize balls, etc. stored in the main control built-in RAM (game storage unit) of the main control MPU 1310a. This flag is set to a value of 1 when erasing game information and a value of 0 when not erasing game information. Note that the value of the RAM clear notification flag RCL-FLG set in step S18 and step S20 is stored in a general-purpose storage element (general-purpose register) of the main control MPU 1310a.

  Subsequent to step S18 or step S20, the main control program performs a wait time standby process (step S22). In this wait time standby process, the system that performs drawing control of the game board side effect display device 1600 and the door frame side effect display device 460 by the liquid crystal display control unit 1512 of the peripheral control board 1510 shown in FIG. Wait until. In this embodiment, 2.5 seconds (s) is set as a standby time (boot timer) until booting.

  Subsequent to step S22, the main control program determines whether or not a power failure notice signal is input (step S24). As described above, when the power of the pachinko machine 1 is shut off, or when a power failure or instantaneous power failure occurs, a power failure warning signal is input from the power failure monitoring circuit 1310e as a power failure warning voltage when the voltage becomes equal to or lower than the power failure warning voltage. The determination in step S24 is made based on this power failure notice signal. When a power failure warning signal is input in the determination in step S24, the main control program returns to the determination in step S24 again, and repeats the determination in step S24 as long as the power failure notification signal is continuously input. As a result, the timer clear setting value is set in the WDT clear register incorporated in the main control MPU 1310a for the main control built-in WDT 1310af activated in step S12, the time measurement by the main control built-in WDT 1310af is cleared, and the time measurement is started again. The main control MPU 1310a is forcibly reset by the built-in main control WDT 1310af. Thereafter, the main control program performs this main control side power-on process again under the control of the main control MPU 1310a of the main control board 1310. A detailed description will be given later on that the determination in step S24 is performed following the wait time waiting process in step S22.

  When the power failure warning signal is not input in the determination in step S24, the main control program determines whether or not the RAM clear notification flag RCL-FLG is 0 (step S26). As described above, the RAM clear notification flag RCL-FLG is set to a value of 1 when erasing game information and a value of 0 when not erasing game information. When the RAM clear notification flag RCL-FLG is 0 in step S26, that is, when the game information is not deleted, a checksum is calculated (step S28). This checksum is calculated by regarding the game information stored in the main control built-in RAM as a numerical value and calculating the sum.

  Subsequent to step S28, the main control program calculates the checksum value (sum value) stored in the main-control-side power-off process (power-off) described later and the calculated checksum value (sum value). It is determined whether or not they match (step S30). If they match, the main control program determines whether or not the backup flag BK-FLG is 1 (step S32). This backup flag BK-FLG stores game backup information such as game information, checksum value (sum value) and backup flag BK-FLG in the main control built-in RAM in the main control side power-off process described later. This flag is set to a value of 1 when the main control-side power-off process is normally terminated, and a value of 0 when the main-control-side power-off process is not terminated normally. In the inspection process of the production line of the main control board 1310, when the main control board 1310 is first turned on after being manufactured for inspection, the checksum is calculated in step S28 and the determination is made in step S30. A detailed description will be given later.

  When the backup flag BK-FLG has a value of 1 in step S32, that is, when the main control side power-off process has been normally terminated, the main control program sets the work area of the main control built-in RAM as the power is restored ( Step S34). In this setting, power recovery time information is read from a ROM (that is, main control internal ROM) built in the main control MPU 1310a, and the power recovery time information is set in the work area of the main control built-in RAM. Thus, the game information is read from the game backup information, and various commands corresponding to the game information are stored in a predetermined storage area of the main control built-in RAM. Note that “power recovery” refers to a state in which power is turned on from a power-off state, a state in which power is subsequently recovered from a power failure or a momentary power interruption, and unauthorized means (for example, an unauthorized person is placed on the skirt of his arm). A state in which the main control board 1310 is irradiated with a high frequency from the hidden high-frequency output device) and the main control MPU 1310a itself is reset and then restored is also included.

  Subsequent to step S34, the main control program sets a value 0 to the backup flag BK-FLG (step S36). As a result, game information, checksum value (sum value), and the like are changed by performing various processes thereafter, so that the main control side power-off process described later is terminated normally and the backup flag BK- If the value 1 is not set in FLG, as will be described later, the entire area of the main control built-in RAM is cleared.

  On the other hand, when the RAM clear notification flag RCL-FLG is not 0 (value 1) in step S26, that is, when the game information is erased, or when the checksum value (sum value) does not match in step S30. Alternatively, when the backup flag BK-FLG is not a value 1 (value 0) in step S32, that is, when the main control side power-off process has not been terminated normally, the main control program stores all the main control built-in RAM. The area is cleared (step S38). That is, the main control program executes the game control side RAM clearing process triggered by the input of the detection signal accompanying the operation of the operation switch 954 described above (payout control side power-on operation control means). Specifically, the main control program is executed by writing the value 0 in the main control built-in RAM. Alternatively, the main control program may read and set a predetermined value from the main control built-in ROM as an initial value. In addition, the main control MPU 1310a performs processing for when the logical value of the operation signal from the operation switch 954 instructs to clear the RAM, when the game information is erased, when the sum values do not match, or when the main control side power is cut off. When not finished normally, a unique ID code stored in advance in the non-volatile RAM of the main control MPU 1310a is taken out, and a fixed numerical range of a counter for updating the random number for determination per ordinary symbol based on the taken out ID code The initial value derivation process for always deriving the same fixed value from is performed, and this fixed value is set as the normal value determining random number for determining the initial value for the normal symbol determining random value described above. To do.

  Subsequent to step S38, the main control program sets a work area of the main control built-in RAM as an initial setting (step S40). This setting is performed by reading the initial information from the main control built-in ROM and setting the initial information in the work area of the main control built-in RAM.

  Subsequent to step S36 or step S40, the main control program performs interrupt initialization (step S42). This setting is to set an interrupt cycle when a main control timer interrupt process described later is performed. In this embodiment, it is set to 4 milliseconds (ms).

  Subsequent to step S42, the main control program performs serial communication initial setting (step S44). Here, various serial input / output ports (for example, serial input / output ports (reception channels and transmission channels) for the payout control board 951 and serial input / output ports (reception channels and transmission channels) for the peripheral control board 1510 built in the main control MPU 1310a. ) Corresponding to the transmission serial port prescaler, the transmission speed is set and the parity is set, and the transmission serial port control register is set to initialize the transmission circuit and set transmission permission.

  Subsequent to step S44, the main control program performs test signal output port initialization settings (step S46). Here, a test signal output port (not shown) for outputting various types of inspection information is initialized (set to OFF data output) when the power is turned on in the testing institution of the gaming machine.

  Subsequent to step S46, the main control program performs activation setting of the main random number circuit with built-in main control 1310an shown in FIG. 69 (step S48). Here, among the various random numbers related to the game, a hard random number control register incorporated in the main control MPU 1310a for updating by hardware the random number for determining the big hit for use in determining whether or not to generate the big hit gaming state And setting the acquisition of the random number by latching, and setting the activation of the hard random number circuit 1310an with the main control in the hard random number setting register. When the main control built-in hard random number circuit 1310an is activated by these settings, it is predetermined in advance at a high speed based on the clock signal (clock signal output from the main control crystal oscillator MX0 shown in FIG. 77) input to the main control MPU 1310a. Extract other values in the numerical range one after another without duplication, and once all the values in the predetermined numerical range have been extracted, again extract one value in the predetermined numerical range, Based on the clock signal input to the main control MPU 1310a, other values within a predetermined numerical range are extracted one after another without overlapping. The main control MPU 1310a outputs a latch signal to the main control built-in hard random number circuit 1310an when acquiring a random number (random number value) from the main control built-in hard random number circuit 1310an, and the main control when the latch signal is input The random number (random number value) extracted by the built-in hard random number circuit 1310an is obtained from a hard random number latch register built in the main control built-in main control MPU 1310a. The main control MPU 1310a sets the acquired random number value as a jackpot determination random number.

  Subsequent to step S48, the main control program performs reservation setting for a command to be transmitted when the power is turned on (step S50). Here, in order to notify that the power is turned on (power recovery) based on the power recovery time information set in the work area of the main control built-in RAM in the setting of the work area of the main control built-in RAM in step S34, FIG. The power-on state command and the power-on main control return destination command, which are classified into the power-on shown in FIG. 5, are created and stored as transmission information in the transmission information storage area of the main control built-in RAM. In the transmission information storage area of the main control built-in RAM, in the setting of the work area of the main control built-in RAM in step S34, the game information may be read from the game backup information and various commands corresponding to the game information may be stored. is there. In such a case, first after completion of transmission of various commands according to the game information, a power-on state command and a power-on main control return destination command are transmitted. These commands are transmitted in the main control side timer interrupt processing described later. A detailed description will be given later of reservation setting of a command to be transmitted at power-on in step S50.

  Subsequent to step S50, the main control program performs interrupt permission setting (step S52). With this setting, the main control side timer interrupt processing described later is repeated every interrupt cycle set in step S42, that is, every 4 ms.

  Subsequent to step S52, the main control program executes an error canceling navigation command associated with the operation of the operation switch 954 (operation switch) when a predetermined time elapses from when the power is turned on, that is, when the main process on the main control side is started. Execution of the game control side RAM clear process triggered by the reception will be restricted (normal operation control means). As described above, the main control program uses the concept of time sharing to detect a detection signal input in accordance with the operation of the operation switch 954 for a predetermined time from the time of power-on as described above. When the input is triggered, the RAM clear process is executed (game control side power-on operation control means), and after the predetermined time has elapsed, the execution of the RAM clear process is restricted even if the error canceling navigation command is input ( The game control side normal operation control means) is handled as a release switch for releasing the error notification associated with the error that has occurred. That is, the operation switch 954 (error canceling unit) that should have been originally used for canceling the error that has occurred with respect to the payout operation is used as a game storage unit instead of a predetermined time from power-on. The main control built-in RAM (and a payout control built-in RAM as a payout storage unit to be described later) functions as an operation unit for executing a RAM clear process for starting initialization, and after the predetermined time has elapsed, It can be made to function as an operation unit for canceling an error that has occurred with respect to the ball dispensing operation.

  Next, the main control program determines whether or not a power failure notice signal is input (step S54). As described above, when the power of the pachinko machine 1 is shut off, or when a power failure or instantaneous power failure occurs, a power failure warning signal is input from the power failure monitoring circuit 1310e as a power failure warning voltage when the voltage becomes equal to or lower than the power failure warning voltage. The determination in step S54 is made based on this power failure notice signal.

  When no power failure warning signal is input in step S54, the main control program performs a non-winning random number update process (step S56). In the non-winning random number update process, the above-described reach determination random number, variable display pattern random number, big hit symbol initial value determining random number, small hit symbol initial value determining random number, and the like are updated. As described above, in the non-winning random number update process, random numbers that are not involved in the winning determination (big hit determination) are updated by software. It should be noted that the above-described random numbers for normal symbol determination, random numbers for initial value determination for normal symbol determination, random numbers for normal symbol variation display pattern, and the like described above are also updated by this non-winning random number update process.

  Following step S56, the process returns to step S54 again, and the main control program determines whether or not a power failure warning signal has been input. Step S54 to Step S56 are repeated. The processes in steps S54 to S56 are referred to as “main control side main process”.

  On the other hand, when a power failure warning signal is input in step S54, the main control program performs interrupt prohibition setting (step S58). With this setting, the main control side timer interrupt processing described later is not performed, writing to the main control built-in RAM is prevented, and rewriting of game information is protected.

  Subsequent to step S58, the main control program starts outputting a power failure clear signal (step S60). Here, the same process as the process that started outputting the power failure clear signal in the power failure clear process in step S14 is performed. Thereby, the main control program can release the latch state of the D-type flip-flop MIC22 under the control of the main control MPU 1310a.

  Subsequent to step S60, the main control program reads the start port solenoid 2107, the attacker solenoid 2108, the first special symbol display 1403, the second special symbol display 1405, and the first special reserved number display 1404 shown in FIG. The drive signal output to the second special reserved number display 1406, the normal symbol display 1402, the normal symbol storage display 1188, the status indicator 1401, the round indicator 1407, etc. is stopped (step S62).

  Subsequent to step S62, the main control program calculates a checksum and stores the calculated value (step S64). This checksum is calculated by regarding the game information in the work area of the main control built-in RAM as a numerical value excluding the storage area for the checksum value (sum value) and backup flag BK-FLG described above.

  Subsequent to step S64, the main control program sets a value 1 to the backup flag BK-FLG (step S66). Thereby, storage of game backup information is completed.

  Subsequent to step S66, the main control program sets the RAM access prohibition (step S68). This RAM access prohibition setting prevents access to the main control built-in RAM (game storage unit), thereby preventing the contents of the main control built-in RAM (game storage unit) from being updated.

  Following step S68, an infinite loop is entered. In this infinite loop, the timer clear setting value is set in the WDT clear register incorporated in the main control MPU 1310a for the main control built-in WDT 1310af activated in step S12, the time measurement by the main control built-in WDT 1310af is cleared, and the time measurement is started again. As a result, the main control MPU 1310a is forcibly reset by the main control built-in WDT 1310af. Thereafter, the main control program performs this main control side power-on process again under the control of the main control MPU 1310a of the main control board 1310. The processing from step S58 to step S68 and the infinite loop are referred to as “main control side power-off processing”.

  The pachinko machine 1 (main control MPU 1310a) is reset when a power failure occurs or an instantaneous power failure is performed, and the main control side power-on process is performed by subsequent power recovery.

  In step S30, it is checked whether or not the game backup information stored in the main control built-in RAM is normal. Subsequently, in step S32, whether or not the main control side power-off process has been normally completed. Are inspected. In this way, by checking the game backup information stored in the main control built-in RAM twice, it is checked whether or not the game backup information is stored by an illegal act.

  Here, the point where the presence / absence of the power failure notice signal in step S24 is determined following the wait time waiting process in step S22 will be described. First, regarding the problem in the case where the presence / absence of the power failure warning signal is not determined in step S24, that is, the value of the RAM clear flag in step S26 is determined after the wait time waiting process in step S22, and the subsequent processing is performed. The problems in will be described.

  As described above, the power supply terminal of the main control MPU 1310a is charged to the electrolytic capacitor MC2 shown in FIG. 77 when a power failure or a momentary power failure occurs and the power supply from the pachinko island facility is cut off. The electric charge is applied as +5 V for a period of about 7 milliseconds (ms) after the occurrence of a power failure or a momentary power failure. In other words, even when the power supply from the Pachinko island facility is shut off due to a momentary power failure or a power failure, the electric charge charged to the hardware called the electrolytic capacitor MC2 is applied as +5 V, so that the power supply from the pachinko island facility is The main control side power-off process can be completed within a period of about 7 ms after the interruption. This is because when a player is playing a game, that is, when the main control side main process or the main control side timer interrupt process described later is performed, a power failure or a momentary power failure occurs and the pachinko island facility When the power is cut off, the main control side power-off process can be completed with certainty.

  However, as an extremely rare phenomenon, in the wait time waiting process of step S22 at the time of power recovery, the game board side effect display device 1600 and the door frame side effect display by the liquid crystal display control unit 1512 of the peripheral control board 1510 shown in FIG. Just before the system that performs the drawing control of the device 460 starts (boots) starts to wait (boot timer: 2.5 seconds is set in this embodiment) and immediately before reaching the waiting time. Thus, if a momentary power failure or a power failure occurs, the electric charge charged to the hardware called the electrolytic capacitor MC2 is applied to the VDD terminal, which is the power supply terminal of the main control MPU 1310a, as +5 V, but within a period of about 7 ms, step S42. The interrupt initial setting is performed in step S52, and then the interrupt permission setting is performed in step S52. Even if the main control side timer interruption process described below is performed and the contents of the main control built-in RAM are updated, the main control side power-off process in the main control-side power-on process may not be completed. . For this reason, the main control side power-on process is started again at the time of power recovery without storing the calculated value of the checksum based on the contents of the main control built-in RAM.

  Then, the main control side power-on process is started at the time of the current power recovery, and the wait time waiting process in step S22 is completed without causing an instantaneous power failure or a power failure. Thereafter, in step S28, the main control built-in RAM If the value calculated in the checksum based on the contents of the checksum is compared with the value stored in the main control built-in RAM immediately before the instantaneous power failure or power failure occurs in step S30, the checksum value should match. In step S38, the entire area of the main control built-in RAM is cleared. In other words, the information stored in the main control built-in RAM is forcibly erased (cleared) even when the operation switch 954 is operated by a hall clerk at the time of power recovery and there is no indication of the clearing of the hall by the clerk of the hall. ).

  Therefore, in this embodiment, immediately after the wait time waiting process in step S22, a process for determining whether or not a power failure warning signal is input is provided as step 24, and when a power failure warning signal is input, Returning to the determination in step S24, the determination in step S24 is repeatedly performed as long as the power failure warning signal continues to be input. As a result, the timer clear setting value is set in the WDT clear register built in the main control MPU 1310a for the main control built-in WDT 1310af activated in step S12, the time measurement by the main control built-in WDT 1310af is cleared, and the time measurement is started again. The main control MPU 1310a can be forcibly reset by the built-in main control WDT 1310af. Although the RAM clear notification flag RCL-FLG is set to a value in the RAM clear notification flag RCL-FLG in step S18 or step S20 before the wait time waiting process in step S22, the value of the RAM clear notification flag RCL-FLG is as described above. Since it is stored in the general-purpose storage element (general-purpose register) of the control MPU 1310a, even if the RAM access permission is set in step S10, the contents (game information) of the main control built-in RAM are not changed at all.

  In this way, immediately after the wait time waiting process in step S22, a process for determining whether or not a power failure warning signal is input is provided as step 24, and when a power failure warning signal is input (ie, step If the power to the pachinko machine 1 is cut off after waiting in the wait time waiting process of S22 (when determined by the determination of step S24), the process returns to the determination of step S24 again, as long as the power failure warning signal continues to be input, By repeating the determination in step S24, the main control MPU 1310a of the main control board 1310 can be forcibly reset and the main control board 1310 can be restarted, so that the game can proceed. It is possible to prevent the game information from being updated, and the checksum calculation result does not fluctuate. It has become so that it does not. Thereby, when restarting, the main control MPU 1310a of the main control board 1310 determines that the checksum calculation result in step S28 matches the checksum calculation value stored in step S64. Therefore, the game information that is stored and held in the main control built-in RAM is not initialized immediately before a momentary power failure or power failure occurs. Therefore, at the time of power recovery, it is possible to prevent the game information immediately before the occurrence of a momentary power failure or a power failure from being initialized.

  Further, immediately after the wait time waiting process in step S22, a process for determining whether or not a power failure warning signal is input is provided as step 24, and when a power failure warning signal is not input (that is, in step S22). When the main control MPU 1310a of the main control board 1310 is proceeding with the game (when it is determined by the determination in step S24 that the power to the pachinko machine 1 is not shut off after waiting in the wait time waiting process), the pachinko machine Even when the power supply to 1 is cut off, a backup process for storing game information due to the progress of this game by supplying power to the VDD terminal, which is the power supply terminal of the main control MPU 1310a, by the electrolytic capacitor MC2 shown in FIG. The main system constituted by the process of steps S58 to S68 and an infinite loop Since the main control MPU 1310a of the main control board 1310 can complete the process at the time of power-off on the main side, when the main control MPU 1310a of the main control MPU 1310a restarts, the checksum calculation result in step S28 And the checksum calculation result in the backup process (that is, the value calculated and stored in step S64) match, so the instantaneous stop stored and held in the main control built-in RAM. The game information just before a power failure occurs is not initialized. That is, the main control board 1310 can be activated by being restored to the game information immediately before the momentary power failure or power failure occurs.

  Further, immediately after the wait time waiting process in step S22, when it is determined in step S24 that a power failure warning signal has been input, the main control MPU 1310a is forcibly reset by the main control built-in WDT 1310af, thereby causing the contents of the main control built-in RAM. The main control side power-off process can be started again without updating the process at all. On the other hand, immediately after the wait time standby process in step S22, if it is determined in step S24 that the power failure warning signal has not been input, As a result, it is possible to reliably complete the main control side power-off process within the “instantaneous power failure or power failure securing period” of about 7 ms. That is, in the present embodiment, when the main control side power-on process is performed at the time of power recovery, a power failure from the pachinko island facility is interrupted due to an instantaneous power failure or a power failure, and the main control MPU 1310a The electric charge charged in the electrolytic capacitor MC2 shown in FIG. 77 is applied to the power supply VDD terminal as +5 V over a period of about 7 milliseconds (ms) after the occurrence of a power failure or instantaneous interruption. Therefore, if the main control-side power-off process cannot be completed within the “instantaneous power failure or power supply securing period” of about 7 ms by the hardware of the electrolytic capacitor MC2, the wait time waiting process of step S22 is performed. In step 24 immediately after that, it is determined whether or not a power failure warning signal is input. If a power failure warning signal is input, step S24 is performed. Returning to the determination again, as long as the power failure warning signal continues to be input, the determination in step S24 is repeated to clear the timer in the WDT clear register built in the main control MPU 1310a with respect to the main control built-in WDT 1310af activated in step S12. The main control MPU 1310a can be forcibly reset by the main control built-in WDT 1310af by setting the set value and clearing the time measured by the main control built-in WDT 1310af so that it cannot be started again. . The main control MPU 1310a is forcibly reset by such software built-in main control WDT 1310af, so that an interrupt initial setting is performed after step S24 (specifically, an interrupt initial setting is performed in step S42, and then in step S52). It is possible to avoid updating the contents (game information) of the main control built-in RAM by setting the interrupt permission and preventing the progress to the main control side timer interrupt processing (to be described later). The system is adopted. In this way, when a power failure or a momentary power failure occurs and the power from the Pachinko Island facility is shut off, the main control-side power supply and the part that is covered by software so that the contents (game information) of the main control built-in RAM are not changed at all The contents of the main control built-in RAM (the contents of the main control built-in RAM are divided into two parts, that is, the part covered by hardware so that the content of the main control built-in RAM (game information) is not changed at all. (Game information) can be reliably prevented from being changed.

  Next, a description will be given of the reservation setting of the command to be transmitted when the power is turned on in step S50. In step S50, as described above, the fact that the power has been turned on (recovered) based on the power recovery time information set in the work area of the main control built-in RAM in the setting of the work area of the main control built-in RAM in step S34. In order to communicate, the power-on state command and the power-on main control return destination command shown in FIG. 89, which are classified into power-on, are created and stored as transmission information in the transmission information storage area of the main control built-in RAM. As described above, this power-on main control return destination command is mainly composed of information for instructing the driving state of the start solenoid 2107 and information for instructing the driving state of the attacker solenoid 2108 shown in FIG. Yes. Here, first, when the power-on main control return destination command does not include the information for instructing the driving state of the start-up solenoid 2107 and the information for instructing the driving state of the attacker solenoid 2108 shown in FIG. The problem in the case where the reservation setting of the command to be transmitted when the power-on main control return destination command is turned on in step S50 is not performed in step S50 will be described.

  For example, when the peripheral control board 1510 controls the display of the big hit game state screen (for example, the big hit game effect screen) in the display area of the game board side effect display device 1600 shown in FIG. When the attacker solenoid 2108 is driven and the large winning opening 2005 shown in FIG. 8 is opened by the opening / closing member 2107, when an instantaneous power failure or power failure occurs, and then power is restored, the main control board 1310 Based on the power recovery time information set in the work area of the main control built-in RAM in the setting of the work area of the main control built-in RAM in S34, the game state immediately before the occurrence of a momentary power failure or power failure is restored. Starting to drive the solenoid 2108 and shifting from the state in which the big prize opening 2005 is closed by the opening / closing member 2107 to the state in which it is opened; That.

  However, when a momentary power failure or a power failure occurs, the peripheral control board 1510 receives various commands from the main control board 1310 and returns when power is restored. Then, when the power is restored thereafter, the peripheral control board 1510 can return based on the probability and the time-short state indicated by the power-on state command received from the main control board 1310 at the time of power restoration. However, when the main control board 1310 is generating a big hit gaming state as a gaming state, if an instantaneous power failure or a power failure occurs, and then power is restored, the peripheral control board 1510 is in the main control board 1310 at the time of power restoration. Even if the screen can be displayed in the display area of the game board side effect display device 1600 and returned based on the probability and the short time state based on the probability and the short time state indicated by the power-on state command received from It is not possible to indicate at all which round of the jackpot gaming state. In other words, for example, a winning prize 1 count display command is transmitted to inform the number of gaming balls that are detected by the count sensor 4005 shown in FIG. Even if the main control board 1310 transmits to the peripheral control board 1510 and the peripheral control board 1510 receives the peripheral control board 1510, the peripheral control board 1510 is a ball of the game ball that has entered the big winning opening 2005 on the screen according to the probability and the short time state. Even if the number can be displayed in the display area of the game board side effect display device 1600, it is not possible to display at all which round of the jackpot gaming state (that is, how many rounds).

  In such a situation, for example, when the main control board 1310 finishes four rounds (fourth round) of the big hit gaming state, the driving of the attacker solenoid 2108 is stopped and the big prize opening 2005 is opened by the opening / closing member 2107. The main prize-winning port 1 closing display command for instructing the transition from the closed state to the closed state (that is, starting the closing of the big winning opening 2005 of the start opening unit 2100 between rounds) from the main control board 1310. When transmission is made to the board 1510 and the main control board 1310 starts 5 rounds (fifth round) of the big hit gaming state, the attack solenoid 2108 is started and the big winning opening 2005 is closed by the opening / closing member 2107. That the state is to be released (that is, 5 of the big prize opening 2005) To send a special winning opening open the fifth display command instructing the open start) of the eye of the round from the main control board 1310 to the peripheral control board 1510. Thereby, the peripheral control board 1510 finally switches the screen of the start of the 5 rounds of the big hit gaming state from the screen corresponding to the above-described probability and the short time state, and displays it on the display area of the game board side effect display device 1600. It becomes.

  Further, for example, a screen (for example, indicating that the movable piece is expanded) that indicates that the gaming state where the game ball can be received at the second start port 2004 is in an advantageous gaming state for the player. When the peripheral control board 1510 performs display control on the display area of the game board side effect display device 1600, the main control board 1310 drives the start port solenoid 2107 to display the pair shown in FIG. When a momentary power failure or power failure occurs when the movable piece is expanded in the left-right direction, and then the power is restored, the main control board 1310 displays the work area of the main control built-in RAM in step S34. Based on the power recovery information set in the work area of the main control built-in RAM in the setting, the driving state of the start port solenoid 2107 is started by being restored to the gaming state immediately before the momentary power failure or power failure occurs. And thus the transition to a state of being expanded from a state in which the movable piece of the pair climbed standing substantially perpendicularly to the lateral direction.

  However, when a momentary power failure or a power failure occurs, the peripheral control board 1510 receives various commands from the main control board 1310 and returns when power is restored. When power is restored thereafter, the peripheral control board 1510 can be restored based on the power-on state command received from the main control board 1310 at the time of power restoration. However, when the main control board 1310 is in a gaming state and a gaming state in which a gaming ball can be received at the second start port 2004 is generated and a gaming state advantageous to the player is generated, a momentary power failure or power failure occurs. Then, when the power is restored after that, the peripheral control board 1510 displays the screen according to the probability and the time-short state based on the probability and the time-short state indicated by the power-on state command received from the main control board 1310 at the time of power recovery. Even if it can be displayed in the display area of the game board side effect display device 1600 and returned, it becomes a gaming state in which a game ball can be received at the second starting port 2004 and becomes a gaming state advantageous to the player. The peripheral control board 1510 cannot display the screen indicating that the game board is present in the display area of the game board side effect display device 1600 at all. For this reason, the player who sits in front of the pachinko machine is surprised that a momentary power failure or power failure has occurred, and at the time of power recovery, the game ball is received at the second start port 2004 immediately before the momentary power failure or power failure occurs. In some cases, it is forgotten that the gaming state is enabled. In such a case, the gaming state is restored to the second starting port 2004 as a gaming state at the time of power recovery. Nevertheless, a screen for instructing a game (that is, a screen for instructing a game to enter a game ball into the second starting port 2004) is not displayed in the display area of the game board side effect display device 1600 when power is restored. Therefore, there is also a problem that the player cannot understand what kind of game he / she plays.

  Thus, in the two examples mentioned above, there was a problem that it was not possible to quickly return to the gaming state immediately before the momentary power failure or power failure after power recovery. In other words, a player who sits in front of a pachinko machine mistakes for a momentary power outage or power failure, and then recovers after power recovery, and the pachinko machine system appears to be in a clumped state, a so-called frozen state. There was a problem.

  Therefore, in this embodiment, when the main control board 1310 is turned on (including when the power is turned on, and also when the power is restored due to a power failure or a momentary power failure), the power-on state command In order to transmit the power-on main control return destination command to the peripheral control board 1510, in step S50, the power-on state command and power-on main control return destination command shown in FIG. Are stored in the transmission information storage area of the main control built-in RAM as transmission information. These commands are transmitted in a main control timer interrupt process described later.

  Thereby, the peripheral control board 1510 is based on the power-on state command and the power-on main control return destination command received from the main control board 1310. When a momentary power failure or power failure occurs, and then the power is restored, the attacker solenoid 2108 starts to be driven as the return destination of the main control board 1310 and the big prize opening 2005 is released from the state closed by the opening / closing member 2107. Since the peripheral control board 1510 can be notified to the peripheral control board 1510, the peripheral control board 1510 has a screen that specifies that it is the fourth round of the big hit gaming state (that is, a screen showing how many rounds it is) ) Cannot be displayed in the display area of the game board-side effect display device 1600, A screen (for example, “It is a big hit. The big prize opening is open. A game is played in the big prize opening is started.) The driving of the casoleole 2108 is started and the big prize opening 2005 is opened by the opening / closing member 2107. “Please play the game to make the ball enter.” Is displayed on the display area of the game board side effect display device 1600 and the player sitting on the front of the pachinko machine is restored. Later, a game can be instructed to enter a game ball into the grand prize opening 2005. For example, in the above-described example, a game state in which a game ball can be received at the second start port 2004 is entered. When a momentary power failure or power failure occurs in a game state advantageous to the user and then power is restored, the start-up solenoid 2107 serves as a return destination of the main control board 1310. A screen that informs that the pair of movable pieces has been expanded in the left-right direction after driving is started (for example, “The movable piece has been expanded. After the power is restored, the peripheral control board 1510 displays in the display area of the game board side effect display device 1600 and the player sitting on the front surface of the pachinko machine. The game can be instructed to enter the game ball into the second starting port 2004 at. Thereby, when a power failure occurs or a power failure occurs and then power is restored, the return destination of the peripheral control board 1510 can be finely instructed on the main control board 1310 side. Therefore, it is possible to quickly return to the gaming state immediately before the momentary power failure or power failure after the power recovery. In other words, a player who sits in front of a pachinko machine mistakes for a momentary power outage or power failure, and then recovers after power recovery, and the pachinko machine system appears to be in a clumped state, a so-called frozen state. This can be prevented.

  Next, in the main control board inspection process, which is an inspection process for the production line of the main control board 1310, when the main control board 1310 is first turned on after being manufactured for inspection, the checksum of step S28 Calculation and determination in step S30 will be described. In the main control board inspection process, when the main control board 1310 is powered on for the first time after being manufactured for inspection, the main control board is configured by the above-described processes of steps S58 to S68, which are backup processes, and an infinite loop. Since the main control MPU 1310a of the main control board 1310 has never executed the control-side power-off process, even if a checksum based on the contents of the main control built-in RAM is calculated in step S28, in step S30 In the comparison determination, the checksum values cannot be matched, and the entire area of the main control built-in RAM is always cleared in step S38. Thus, when the reservation setting of the command to be transmitted at power-on is performed in step S50, the power-on state command and the power-on main control return destination command shown in FIG. 89 are generated. By storing the transmission information in the transmission information storage area of the main control built-in RAM, only two commands, the power-on state command and the power-on main control return destination command, are transmitted as transmission information in the main control built-in RAM. Will be stored in For these commands, a power-on state command is transmitted first, followed by a power-on main control return destination command in a main control timer interrupt process to be described later. By utilizing this, in the main control board inspection process, when the main control board 1310 is first turned on after manufacturing for inspection, a power-on state command is sent from the main control board 1310 as the first command. It is transmitted to the inspection device in the main control board inspection process.

  Incidentally, as described above, the power-on state command is shown in FIG. 70 when the power is turned on (including when the power is turned on, and when the power is restored due to a power failure or a momentary power failure). When the operation switch 954 of the payout control board 951 shown is operated to clear the RAM, information indicating that, and when the power is turned on (in addition to when the power is turned on, a power failure or a momentary power failure occurs, (Including the time of recovery to recover)) In any of the above states (probability and short-time state) among the low-probability short-time state, high-probability short-time state, low-probability non-short-time state, and high-probability non-short-time state Information indicating whether to do so, and information indicating the model code of the pachinko machine. Here, a problem in the case where the power-on state command does not include information indicating the model code of the pachinko machine will be described.

  As described above, the model code of the pachinko machine corresponds to the copyright of which work when creating the so-called max type, middle type and sweet digital type as the pachinko machine 1 (more precisely, the main control board 1310). What kind of gaming specifications (for example, if the probability variation occurs, the state will continue until the next big hit gaming state occurs, in addition to the number of variations of special symbols (for example, It is possible to specify whether or not the game specifications (so-called ST machine, etc.)) in which the probability fluctuation occurs in the state of 30 times or 70 times).

In the manufacturing line of the manufacturer that manufactures the pachinko machine 1, when manufacturing the main control board 1310, there are cases where the main control boards 1310 for the copyrights of a plurality of types of works are mixed.
Then, the worker on the production line is responsible for the copyright of which work among the copyrights of a plurality of kinds of works (for example, the copyrights of the works of movie A, movie B, drama C, movie D, comic E, and comic F). The main control board for the one copyright (for example, the copyright of the movie D) among the copyrights of a plurality of types of works is lost, or it is unclear whether the main control board 1310 is flowing in the production line in order to manufacture the control board 1310 The main control board 1310 is used to manufacture the main control board 1310 for another copyright (for example, the copyright of the work of the comic F), even though the main control board 1310 flows on the production line to manufacture 1310. There is also a misunderstanding and misunderstanding that it is flowing in the production line. For this reason, when manufacturing the main control board 1310 in the manufacturing line of the manufacturer that manufactures the pachinko machine 1, if the main control board 1310 corresponding to the copyrights of a plurality of types of works is mixed, the worker of the manufacturing line can use the manufacturing line. It is impossible to confirm which copyright of the work the produced main control board 1310 belongs to, and for any copyright of the same work, any model type (max type, middle type, sweet digital type) It is also not possible to confirm what type of game it is and what type of game it is (a game specification or ST machine that will continue until the next jackpot gaming state occurs when probability changes occur). As a result, when the main control board 1310 for the copyrights of a plurality of types of works is mixed when the main control board 1310 is manufactured in the production line of the manufacturer that manufactures the pachinko machine 1, the main control board for the copyrights of the plurality of types of works is mixed. While 1310 is mixed, it is sent to a game board assembly line for attaching the main control board 1310 to the game board 5. For this reason, an operator of the game board assembly line sometimes attaches to the game board 5 a main control board 1310 that does not correspond to the game board 5 for the copyright of the work. As a result, there is a problem that the production efficiency of the game board 5 decreases.

  Therefore, in this embodiment, when the main control board 1310 is turned on (including when the power is turned on, and also when the power is restored due to a power failure or a momentary power failure), the model code of the pachinko machine is included. In step S50, a power-on state command and a power-on main control return destination command classified into power-on shown in FIG. 89 are transmitted to the peripheral control board 1510. Are stored as transmission information in the transmission information storage area of the main control built-in RAM. These commands are transmitted in a main control timer interrupt process described later.

  Thereby, an operator of a manufacturing line of the manufacturer that manufactures the pachinko machine 1 turns on the main control board 1310 in the main control board inspection process, which is the inspection process of the production line, so that the inspection apparatus causes the main control board 1310 to turn on. Based on the information indicating the model code of the pachinko machine included in the power-on state command received from the above, that is, constituting the information indicating the model code of the pachinko machine, the above-described max type indicating the model type, middle type, And a series code for specifying which of the types is a sweet digital type, a copyright code for specifying the copyright of the work, and a game specification (for example, when probability change occurs, the next jackpot game state is In addition to the game specification that the state will continue until it occurs, the probability variation with a limited number of special symbol variations By checking the detailed model information displayed on the inspection monitor based on the game specification code for specifying the game specification (ST machine, etc.), the main control board 1310 is associated with which copyright. It is possible to determine the type of machine, and for the copyright of the same work, which model type (max type, middle type, and sweet digital type), and what game specifications It is also possible to determine whether the game state or ST machine is such that when the probability variation occurs, that state will continue until the next big hit gaming state occurs. Thereby, when manufacturing the main control board 1310 in the production line of the manufacturer that manufactures the pachinko machine 1, even if the main control board 1310 for the copyrights of a plurality of types of works is mixed, the main control board inspection process of the production line The operator can discriminate each main control board 1310 with respect to the copyright of the work, by accurately determining the model type of the main control board 1310, the copyright of the work, and the game specification by visually checking the inspection monitor. It can be sent to the game board assembly line. The operator of the game board assembly line can securely attach the main control board 1310 corresponding to the game board 5 for the copyright of the work to the game board 5, and the main control board not corresponding to the game board 5 for the copyright of the work. It is possible to prevent a decrease in production efficiency of the game board 5 caused by the work of attaching 1310 to the game board 5. Therefore, it can contribute to the improvement of the production efficiency of the game board 5.

[14-3. Main control timer interrupt processing]
Next, the main control timer interrupt process will be described. This main control timer interruption process is repeated every interruption period (4 ms in this embodiment) set in the main control side power-on process shown in FIGS.

  When the main control side timer interrupt process is started, in the main control board 1310, the main control program switches register banks as shown in FIG. 94 under the control of the main control MPU 1310a (step S100). The general-purpose storage element (general-purpose register) of the main control MPU 1310a has two register banks each composed of a first register bank and a second register bank. The first register bank is used in the main control main process in the main control side power-on process described above, while the first register bank is used in the main control side timer interrupt process which is this routine. In step S100, since the second register bank is used in the main control side timer interrupt processing which is this routine, the second register bank is used from the first register bank used in the main control main processing in the main control side power-on processing. The register bank is switched to the register tank. In the present embodiment, when the main control timer interrupt process, which is this routine, is started, the process of saving each register to the stack is not necessary.

  Subsequent to step S100, the main control program performs timer subtraction processing (step S102). In this timer subtraction process, for example, the time during which the first special symbol display 1403 and the second special symbol display 1405 are turned on in accordance with the variable display pattern determined in the special symbol and special electric accessory control processing described later, In addition to the time when the normal symbol display 1402 is turned on according to the normal symbol variation display pattern determined by the symbol and normal electric accessory control process, various commands transmitted by the main control board 1310 (main control MPU 1310a) are issued. When determining whether or not a payer ACK signal indicating that the signal is normally received is input, time management such as an ACK signal input determination time set as a determination condition is performed. Specifically, when the fluctuation time of the fluctuation display pattern or the normal symbol fluctuation display pattern is 5 seconds, the timer interruption period is set to 4 ms. Therefore, every time this timer subtraction process is performed, the fluctuation time is subtracted by 4 ms. When the subtraction result is 0, the fluctuation time of the fluctuation display pattern or the normal symbol fluctuation display pattern is accurately measured.

  In this embodiment, the ACK signal input determination time is set to 100 ms. Each time this timer subtraction process is performed, the ACK signal input determination time is subtracted by 4 ms, and the result of the subtraction becomes 0, thereby accurately measuring the ACK signal input determination time. The various times and the ACK signal input determination time are stored as time management information in the time management information storage area of the main control built-in RAM.

  Subsequent to step S102, the main control program performs switch input processing (step S104). In this switch input process, various signals input to the input terminals of the various input ports of the main control MPU 1310a are read and stored as input information in the input information storage area of the main control built-in RAM. Specifically, the main control program is, for example, a detection signal from the general winning opening sensors 4020 and 4020 shown in FIG. 69 for detecting a game ball that has entered the general winning openings 2001 and 201 shown in FIG. The detection signal from the count sensor 4005 shown in FIG. 69 for detecting the game ball that has entered the grand prize opening 2005 shown in FIG. 8, and the game ball that has entered the first start port 2002 shown in FIG. 8 are detected. A detection signal from the first start port sensor 4002 shown in FIG. 69, a detection signal from the second start port sensor 4004 shown in FIG. 69 that detects a game ball that has entered the second start port 2004 shown in FIG. A detection signal from the gate sensor 4003 shown in FIG. 69 that detects the game ball that has passed through the gate portion 2003 shown in FIG. 8, a magnetic detection sensor that detects fraud using the magnet shown in FIG. 69, and a payer ACK signal from the payout control board 951 notifying that the payout control board 951 shown in FIG. 69 has successfully received a prize ball command transmitted in the prize ball control process described later. And stored as input information in the input information storage area. In addition, a detection signal from the first start port sensor 4002 that detects a game ball that has entered the first start port 2002, and a detection from the second start port sensor 4004 that detects a game ball that has entered the second start port 2004. When each signal is read, the corresponding start port winning command shown in FIG. 90 and corresponding thereto is stored as transmission information in the transmission information storage area described above. That is, when there is a detection signal from the first start port sensor 4002, a corresponding start port winning command is stored in the transmission information storage area as transmission information, and there is a detection signal from the second start port sensor 4004. The start opening winning command corresponding to this is stored as transmission information in the transmission information storage area.

  In the present embodiment, the detection signals from the general winning opening sensors 4020 and 4020 that detect the gaming balls that have entered the general winning openings 2001 and 2011, and the count sensor 4005 that detects the gaming balls that have entered the large winning opening 2005. , A detection signal from the first start port sensor 4002 that detects a game ball that has entered the first start port 2002, and a second start port sensor 4004 that detects a game ball that has entered the second start port 2004 And the detection signal from the gate sensor 4003 that detects the game ball that has passed through the gate unit 2003 are first read as the first time when this switch input process is started, and are each read for a predetermined time (for example, 10 μs). ) After the passage, each is read again as the second time. Then, the result read at the second time is compared with the result read at the first time. It is determined whether there is a comparison result among the comparison results. Those that are not the same result are read again as the third time, and the result read at the third time is compared with the result read at the second time. It is determined again whether there is a comparison result among the comparison results. Those that are not the same result are read again as the fourth time, and the result read at the fourth time is compared with the result read at the third time. It is determined again whether there is a comparison result among the comparison results. Those with the same result are treated as having no game balls.

  Thus, in the switch input process, the main control program receives the detection signals from the general prize opening sensors 4020 and 4020, the count sensor 4005, the first starting port sensor 4002, the second starting port sensor 4004, and the gate sensor 4003. Due to the influence of chattering, noise, etc., by reading twice, a total of two times of reading, which is compared twice for the first to third times, and twice for comparing the second time to the fourth time. Since erroneous detection can be avoided, detection signals from the general winning award opening sensors 4020 and 4020, the count sensor 4005, the first starting opening sensor 4002, the second starting opening sensor 4004, and the gate sensor 4003 are displayed. Reliability can be increased.

  Subsequent to step S104, the main control program performs a winning random number update process (step S106). In this winning random number update process, the big hit symbol random number and the small hit symbol random number described above are updated. Further, in addition to these random numbers, the big hit symbol initial value determination random number updated in the non-winning random number update process of step S56 in the main control side power-on process (main control side main process) shown in FIG. And the random number for determining the initial value for the small hit symbol is also updated. The random value for determining the initial value for the big hit symbol and the random number for determining the initial value for the small hit symbol are updated in the main control side main process and the main control side timer interrupt process, respectively, thereby improving the randomness. . On the other hand, since the big hit symbol random number and the small hit symbol random number are random numbers related to the winning determination (big hit determination), each counter is incremented only when the winning random number update process is performed. It should be noted that the above-described random number for normal symbol determination and the random number for initial value determination for normal symbol determination are also updated by this winning random number update process.

  For example, as described above, the counter that updates the random number for normal symbol determination is an initial value update type counter, and is updated within a predetermined fixed numerical value range from the minimum value to the maximum value. To the maximum value, the value is incremented by adding 1 each time the main control timer interrupt process is performed. The random number for determining the initial value for determination per normal symbol is counted up toward the maximum value, and then the random number for determining the initial value for determination per normal symbol is counted up from the minimum value. When the counter finishes counting up the range from the minimum value to the maximum value of the random number for normal symbol determination, the random number for initial value determination for big hit determination is updated by this winning random number update processing. The random value for determining the initial value for normal symbol determination can be obtained by executing an initial value lottery process for drawing one value from the fixed numerical range of the counter for updating the random number for determination per normal symbol. .

  In the present embodiment, the big hit symbol initial value determining random number and the small hit symbol initial value determining random number are stored in the main control side power-on processing (main control side main processing) shown in FIG. The winning random number update process and the winning random number update process in step S106 in the main control timer interrupt process, which is this routine, are updated respectively. However, each time an interrupt timer is generated, the processing time of this routine becomes uneven. If the number of executions of the non-winning random number update process in step S56 is random by repeatedly executing the main process on the main control side within the remaining time until the interrupt timer is generated, a random number for determining the initial value for the big hit symbol , And the random number for determining the initial value for the small hit symbol may be updated only in the non-winning random number update process in step S56.

  Subsequent to step S106, the main control program performs prize ball control processing (step S108). In this prize ball control process, the input information is read from the above-mentioned input information storage area, and the prize ball command shown in FIG. 88 for paying out a game ball based on this input information is created and paid out as a prize ball. When the number of scheduled game balls has reached 10, the main prize ball number information output signal is set to notify that fact and stored as output information in the output information storage area, The self-check command shown in FIG. 88 for confirming the connection state between the control board 1310 and the payout control board 951 is created. Then, the created prize ball command or self-check command is transmitted to the payout control board 951 as main payout serial data. For example, when one game ball enters the big winning opening 2005 shown in FIG. 8, a prize ball command for paying out 15 balls as a prize ball is created, and the number of game balls to be paid out as a prize ball Is set to 10 balls, the main prize ball number information output signal output is set in order to notify that, and is stored in the output information storage area as output information, and a prize ball command is transmitted to the payout control board 951. If the payer ACK signal notifying that the payout control board 951 has successfully received the prize ball command is not input within a predetermined time, the connection state between the main control board 1310 and the payout control board 951 is confirmed. A self-check command to be generated is transmitted to the payout control board 951. If the number of game balls to be paid out as a prize ball exceeds 10 as in the case of creating a prize ball command for paying out 15 balls as a prize ball, In the prize ball control process, the input information is read from the above-mentioned input information storage area, the number of game balls to be paid out as a prize ball is added based on this input information, and the added number of game balls In order to notify that, the output of the main prize ball number information output signal is set and stored as output information in the output information storage area.

Subsequent to step S108, the main control program performs a frame command reception process (step S110). In the payout control board 951, the payout control program executes various commands of 1 byte (8 bits) classified into the status display shown in FIG. 91 (for example, frame status 1 command, error release navigation command, and frame status 2 command). Send. On the other hand, as described later, the payout control program outputs an error occurrence command when an error occurs in the payout operation, or outputs an error cancellation navigation command based on a detection signal of the operation switch 954.
In the frame command reception process described above, when the main control program normally receives these various commands as payer serial data, information that informs the payout control board 951 to that effect is stored as output information in the main control built-in RAM. Store in the area. Also, the main control program reformats the command normally received as the payer serial data into a 2-byte (16-bit) command (various commands (frame status 1 command, error release classified into the status display in FIG. 90). The navigation command and the frame state 2 command))) are stored in the transmission information storage area described above as transmission information. The frame state 1 command here corresponds to the first error occurrence command, and the error cancellation navigation command corresponds to the first error cancellation command.

  Subsequent to step S110, the main control program performs a fraud detection process (step S112). In this fraud detection process, the abnormal state related to the prize ball is confirmed. For example, when the input information is read from the above-described input information storage area and the detection signal from the count sensor 4005 is input when the game is not in the big hit game state (when a game ball enters the big prize opening 2005), etc. Then, a winning abnormality display command classified into the notification display shown in FIG. 90 as an abnormal state is created, and stored as transmission information in the transmission information storage area described above.

  Subsequent to step S112, the main control program performs a special symbol and special electric accessory control process (step S114). In this special symbol and special electric accessory control process, a latch signal is output to the main random number circuit with built-in main control 1310an shown in FIG. 69, and the random number extracted by the main random number circuit with built-in main control 1310an when the latch signal is input. (Random number value) is acquired from a hard random number latch register incorporated in main control built-in main control MPU 1310a, and the obtained random number value is set as a big hit determination random number. Whether or not the jackpot determination random number (that is, the random number value acquired from the hard random number latch register built in the main control built-in main control MPU 1310a) matches the jackpot determination value stored in advance in the main control built-in ROM. (Determining whether or not to generate a big hit gaming state (referred to as “special lottery”)) or taking out the value of the counter for updating the big hit symbol random number and pre-stored in the main control built-in ROM It is determined whether or not it matches with the probability variation determination value (determination of whether or not to generate a probability fluctuation). Here, “probability fluctuation” means that the probability of a big hit changes to a high probability (at the time of probability change) that is set higher than that at normal time (low probability). For example, the value 32668 to the value 32767 are set for the low probability as the range of the big hit determination value (the jackpot determination range) described above, and read from the normal determination table, whereas the value 31768 to the value 32767 for the high probability. Is set and is read from the probability variation determination table. As described above, in the special symbol and special electric accessory control process in step S114, the big hit determination random number (that is, the random number value acquired from the hard random number latch register built in the main control built-in main control MPU 1310a) and the built-in main control. When determining whether or not the jackpot determination value stored in advance in the ROM matches, the jackpot determination random number (that is, the random value acquired from the hard random number latch register built in the main control built-in main control MPU 1310a) Is determined by whether or not is included in the big hit determination range.

  When these determination results are based on the first start port sensor 4002, various commands related to the special figure 1 synchronization effect shown in FIG. 89 are created, while the lottery results are based on the second start port sensor 4004. In some cases, various commands related to the special figure 2 tuning effect shown in FIG. 89 are created and stored as transmission information in the transmission information storage area, and the first special symbol display is performed according to the determined special symbol variation display pattern. The lighting signal output to the first special symbol display unit 1403 or the second special symbol display unit 1405 is set so that the indicator 1403 or the second special symbol display unit 1405 is lit, and the output information is stored in the output information storage area described above. To do. Also, depending on the game state to be generated, for example, when the game state is a big hit game state, various commands classified into the big hit relationship shown in FIG. 89 (a big hit opening command, a big winning opening 1 opening Nth display command, a big winning opening 1 Closing display command, winning prize 1 count display command, jackpot ending command, and jackpot symbol display command) are created and stored in the transmission information storage area as transmission information, or the opening / closing member 2107 shown in FIG. 8 is opened / closed. When the output of the drive signal to the attacker solenoid 2108 is set and stored as output information in the output information storage area, or when the number of times (round) when the special winning opening 2005 is opened from the closed state is two times, 2 to turn on the two-round display lamp 1407a of the round indicator 1407 shown in FIG. When the output of the lighting signal to the wind display lamp 1407a is set and stored in the output information storage area as output information, or when the round is 15 times, the 16 round display lamp 1407b of the round display 1407 shown in FIG. The lighting signal output to the 16-round display lamp 1407b is set so as to be lit and stored in the output information storage area as output information, or the presence / absence of probability fluctuation is lit in a predetermined color. The output of the lighting signal is set and stored as output information in the output information storage area.

  Subsequent to step S114, the main control program performs a normal symbol and normal electric accessory control process (step S116). In the normal symbol and normal electric accessory control process, the input information is read from the above-described input information storage area, and the gate winning process is performed based on the input information. In this gate winning process, it is determined from the input information whether a detection signal from the gate sensor 4003 has been input to the input terminal. Based on this determination result, when a detection signal is input to the input terminal, the gate information storage area of the main control built-in RAM is extracted as gate information by extracting the counter value etc. for updating the random number for determination per normal symbol described above To remember.

  This gate information storage area is provided with 0th partition to 3rd partition (four partitions), and gate information is stored in the order of 0th partition, 1st partition, 2nd partition, and 3rd partition. It is like that. For example, when gate information is stored in the 0th to 2nd sections of the gate information storage, when the detection signal from the gate sensor 4003 is input to the input terminal, the gate information is stored in the third section of the gate information storage. To do.

  The gate information stored in the 0th section of the gate information storage is set in the work area of the main control built-in RAM. When this gate information is set, the gate information of the first section of the gate information storage is in the 0th section of the gate information storage, the gate information of the second section of the gate information storage is in the first section of the gate information storage, The gate information of the third section of the information storage is shifted to the second section of the gate information storage, respectively, and the third section of the gate information storage becomes an empty area. For example, when gate information is stored in the first partition to the second partition of the gate information storage, the gate information of the first partition of the gate information storage is stored in the 0th partition of the gate information storage. The gate information of the two sections is shifted to the first section of the gate information storage, and the second section of the gate information storage and the third section of the gate information storage become empty areas. Here, when the gate information is stored in the first to third sections of the gate information storage, the above-described gate information is turned on so that the normal symbol storage display 1188 is turned on using the total number of stored gate information as a holding ball. Based on the above, the output of the lighting signal of the normal symbol storage display 1188 is set and stored as output information in the output information storage area described above.

  Following the gate winning process, the gate information set in the work area of the main control built-in RAM is read out, and the normal design random number is extracted from the read gate information and stored in the main control built-in ROM in advance. It is determined whether or not it matches the determination value per normal symbol (referred to as “normal lottery”). Whether or not the movable piece is opened / closed is determined based on the determination result (the lottery result of the normal lottery). In the case of performing the opening / closing operation by this determination, the pair of movable pieces is in a state of being expanded in the left-right direction, so that a gaming state in which a game ball can be received at the second starting port 2004 becomes advantageous to the player. It becomes a gaming state. The variable display pattern of the normal symbol corresponding to this determination is determined based on the above-mentioned random number for the normal symbol variable display pattern, and various commands classified as related to the general pattern synchronization effect shown in FIG. The output of the lighting signal to the normal symbol display unit 1402 is set so that the normal symbol display unit 1402 is turned on in accordance with the determined normal symbol variation display pattern while being stored in the transmission information storage area described above, and output information described above. Store in the output information storage area. Further, for example, when the value of the extracted random number for normal symbol determination matches the normal symbol determination value stored in advance in the main control built-in ROM, various commands related to the ordinary electric role effect shown in FIG. Is created and stored as transmission information in the transmission information storage area, and the output of the drive signal to the start port solenoid 2107 is set so as to open and close the movable piece, and is stored as output information in the output information storage area described above. When the extracted random number for normal symbol determination does not coincide with the normal symbol determination value stored in advance in the main control built-in ROM, the normal symbol variation is based on the normal symbol variation display pattern random number described above. The transmission information described above as transmission information is determined by determining the display pattern and creating various commands classified as related to the common figure synchronization effect shown in FIG. In addition to storing in the storage area, the output of the lighting signal to the normal symbol display 1402 is set so that the normal symbol display 1402 is turned on according to the determined normal symbol variation display pattern, and the output information is stored in the output information storage area described above as output information. Remember.

  Subsequent to step S116, the main control program performs port output processing (step S118). In this port output process, output information is read from the output information storage area described above from the output terminals of the various output ports of the main control MPU 1310a, and various signals are output based on the output information. The main control program, for example, outputs a main payout ACK signal when the various commands from the payout control board 951 are normally received from the output terminal of a predetermined output port of the main control MPU 1310a based on the output information. Or a driving signal is output to an attacking solenoid 2108 that opens and closes the opening / closing member 2107 of the winning prize opening 2005, or a driving signal is output to a starting opening solenoid 2107 that opens and closes a movable piece. In addition to the main prize ball number information output signal, 16 round jackpot information output signal, 2 round jackpot information output signal, probability changing information output signal, special symbol display information output signal, normal symbol display information output signal, Various information related to games such as time information, information output information, start prize information output signal, etc. And it outputs a broadcast) signal to the payout control board 951.

  Subsequent to step S118, the main control program performs peripheral control board command transmission processing (step S120). In this peripheral control board command transmission process, the main control program reads transmission information from the transmission information storage area described above and transmits this transmission information to the peripheral control board 1510 as main peripheral serial data. The transmission information includes various commands created in the main control side timer interruption process, which is this routine, and shown in FIG. Various commands classified into commands and jackpot relations (for example, when a game ball that has entered the big prize opening 2005 (see FIG. 8) is detected, the big prize is based on the detection signal from the count sensor 4005 (see FIG. 69). 90 winning command 1 count display command corresponding to mouth count command), various commands classified as power-on, various commands related to ordinary drawing synchronization effects, various commands classified as ordinary electric role effects, FIG. The various commands (door opening command, door frame closing command, main body frame opening command, main body frame closing command, etc.) and status display that are classified into the notification display shown in Various commands (frame state 1 command, error reset navigation command and the frame state 2 command), various commands and various commands are classified into other are divided into test-related are stored that. The main serial data consists of 3 bytes per packet. Specifically, the main peripheral serial data includes a status indicating a type of command having a storage capacity of 1 byte (8 bits), a mode indicating a production variation having a storage capacity of 1 byte (8 bits), and a status. And a sum value obtained by calculating the sum with the mode regarded as a numerical value, and this sum value is created at the time of transmission.

  In this peripheral control board command transmission process, the main control program transmits various commands as main peripheral serial data to the peripheral control board 1510 in the order of status, mode, and sum value. As described above, the charge charged in the electrolytic capacitor MC2 shown in FIG. 77 is applied to the VDD terminal, which is the power supply terminal of the main control MPU 1310a, as + 5V when a power failure or a momentary power failure occurs. Therefore, the main peripheral serial transmission port 1310ae built in the main control MPU 1310a shown in FIG. 79 shifts at least the command set by the main control CPU core 1310aa in the transmission buffer register 1310aeb by the serial management unit 1310aec. The data can be transferred to the register 41 aea and transmitted from the transmission shift register 1310 aea as main serial data. When power is restored due to a power failure or a momentary power failure, to notify that power has been restored in the reservation setting of the command transmitted at power-on in step S50 in the main-control-side power-on processing shown in FIG. Furthermore, since the power-on state command and the power-on main control return destination command shown in FIG. 89 are stored in the transmission information storage area of the main control built-in RAM as transmission information. , Constituting a power-on state command as main peripheral serial data, transmitted to the peripheral control board 1510 in the order of status, mode, and sum value, and subsequently configuring a main control return destination command at power-on, status, The data is transmitted to the peripheral control board 1510 in the order of mode and sum value. The transmission information storage area of the main control built-in RAM reads out the game information from the game backup information in accordance with the game information in the setting of the work area of the main control built-in RAM in step S34 in the main control side power-on process. Various commands may be stored. In such a case, first after completion of transmission of various commands according to the game information, a power-on state command and a power-on main control return destination command are transmitted.

  In this peripheral control board command transmission process, when the main control program receives a frame state 1 command (first error occurrence command) from the payout control board 951 via the RXA terminal reception port, the peripheral control board 1510 (effect control unit) ) Frame status 1 command (second error occurrence command) is transmitted (error command sending means). In this case, the main control program transfers the frame state 1 command in the form shown in FIG. 91 received from the payout control board 951 to the peripheral control board 1510 as the frame state 1 command in the form shown in FIG.

  On the other hand, in this peripheral control board command transmission process, when the main control program receives an error release navigation command (first error release command) from the payout control board 951 through the RXA terminal reception port, the peripheral control board 1510 An error cancellation navigation command (second error cancellation command) is transmitted to (error command sending means). In this case, the main control program transfers the error release navigation command in the form shown in FIG. 91 received from the payout control board 951 to the peripheral control board 1510 as the error release navigation command in the form shown in FIG.

  Furthermore, in this peripheral control board command transmission process, when the main control program receives a main body frame release command (first main body frame release command) from the payout control board 951 via the RXA terminal reception port, the peripheral control board 1510 A main body frame release command (second main body frame release command) is transmitted to the (production control unit) (main body frame command sending means, second main body frame sending means). In this case, the main control program transfers the main body frame release command in the form shown in FIG. 91 received from the payout control board 951 to the peripheral control board 1510 as the main body frame release command in the form shown in FIG. On the other hand, in this peripheral control board command transmission process, when the main control program receives a main body frame close command (first main body frame close command) from the payout control board 951 through the reception port of the RXA terminal, the peripheral control board 1510 ( A main body frame closing command (second main body frame closing command) is transmitted to the effect control unit) (main body frame command sending means, second main body frame command sending means). In this case, the main control program transfers the main body frame closing command in the form shown in FIG. 91 received from the payout control board 951 to the peripheral control board 1510 as the main body frame closing command in the form shown in FIG.

  In this peripheral control board command transmission process, if the main control program receives a door opening command (first door opening command) from the payout control board 951 through the RXA terminal reception port, the peripheral control board 1510 (effect control) A door opening command (second door frame opening command) (door frame command sending means, second door frame command sending means). In this case, the main control program transfers the door frame closing command in the form shown in FIG. 91 received from the payout control board 951 to the peripheral control board 1510 as the door closing command in the form shown in FIG. On the other hand, in this peripheral control board command transmission process, when the main control program receives a door closing command (first door closing command) from the payout control board 951 via the RXA terminal reception port, the peripheral control board 1510 (effect control) A door closing command (second door closing command) (door frame command sending means, second door frame command sending means). In this case, the main control program transfers the door closing command in the form shown in FIG. 91 received from the payout control board 951 to the peripheral control board 1510 as the door closing command in the form shown in FIG.

  Subsequent to step S120, the main control program clears the main control built-in WDT 1310af shown in FIG. 69 (step S122), and ends this routine. The main control built-in WDT 1310af in step S22 is cleared by setting a timer clear setting value in a WDT clear register built in the main control MPU 1310a. Thereby, the time count by the main control built-in WDT 1310af is cleared. Then, the time measurement by the main control built-in WDT 1310af is started again, so that the main control MPU 1310a is not forcedly reset by the main control built-in WDT 1310af.

  In addition, as described above, the main control board 1310 stores the game information according to the progress of the game before the power to the pachinko machine 1 is cut off while the game is progressing. The process can be completed by executing the process. At the time of power recovery, the power to the pachinko machine 1 is cut off based on the game information on which the backup process was executed as the return destination of the game progress by the main control board 1310. 89, the power-on main control return destination command shown in FIG. 89 for instructing the drive state of the start-up solenoid 2107 and the attacker solenoid 2108, which are electrical drive sources by the port output processing of step S118 in this routine, is set to the peripheral control board 1510. Can be output to. That is, the main control board 1310 performs main setting in the work area setting of the main control built-in RAM in step S34 in the reservation setting of the command transmitted at the time of power-on in step S50 in the main-control-side power-on process in FIG. Based on the power recovery time information set in the work area of the control built-in RAM, in order to notify that the power was turned on (power recovery), the power-on status command and the main power-on time are shown in FIG. A control return destination command is created and stored as transmission information in the transmission information storage area of the main control built-in RAM. In the peripheral control board command transmission processing of step S120 in this routine, the power-on state command is used as the main peripheral serial data. Are transmitted to the peripheral control board 1510 in the order of status, mode, and sum value, and then Constituting the main control return destination command at power-transmitting status, mode, and a peripheral control board 1510 in the order of thumb value. Therefore, the peripheral control board 1510 indicates the game board side effect display device 1600 based on the power-on main control return destination command from the main control board 1310 to indicate the return destination of the game progress by the main control board 1310 at the time of power recovery. It is possible to display effects in the display area. As a result, when a player is playing a game, when a momentary power failure or power failure occurs, and when power is restored thereafter, the game state immediately before the power failure or power failure is restored immediately after power recovery. In addition, the return destination of the progress of the game by the main control board 1310 can be displayed and notified in the display area of the game board side effect display device 1600, so that the system of the pachinko machine 1 is clumped, so-called freeze Thus, it is possible to prevent the player from being mistaken for the failure due to the appearance of the player. Therefore, it is possible to prevent the player from misunderstanding that the player has failed by quickly returning to the gaming state immediately before the momentary power failure or power failure after power recovery.

  In the main control board inspection process, which is an inspection process of the production line of the main control board 1310, when the main control board 1310 is first turned on after being manufactured for inspection, as described above, as shown in FIG. In step S38 in the main control side power-on process, the entire area of the main control built-in RAM is necessarily cleared. Thereby, in the reservation setting of the command to be transmitted at power-on in step S50 in the same process, when the reservation setting of the command to be transmitted at power-on is performed, the power-on state command classified into power-on shown in FIG. And a power-on main control return destination command and store them as transmission information in the transmission information storage area of the main control built-in RAM, thereby providing two commands: a power-on state command and a power-on main control return destination command Only the transmission information is stored in the transmission information storage area of the main control built-in RAM, and in the peripheral control board command transmission process of step S120 in this routine, the power-on state command is configured as the main peripheral serial data. Inspection of main control board inspection process in order of status, mode, and thumb value Send the location, followed by forming the main control return destination command at power-transmitting status, mode, and the inspection apparatus of the main control board inspection process in the order of thumb value. The inspection apparatus of the main control board inspection process configures information indicating the model code of the pachinko machine based on the information indicating the model code of the pachinko machine included in the power-on state command received from the main control board 1310, that is, information indicating the model code of the pachinko machine. The above-mentioned series type for specifying the model type, max type, middle type, and sweet digital type, the series code for specifying the type, the copyright code for specifying the copyright of the work, and the game specification (For example, in addition to a game specification in which when a probability change occurs, that state will continue until the next jackpot game state occurs, a game specification in which a probability change occurs with a limited number of special symbol changes (ST Detailed machine model information is displayed on the inspection monitor of the main control board inspection process based on the game specification code for identifying the machine) It has become.

[16-1. Various control processes of peripheral control unit]
[16-1-1. Peripheral control unit power-on processing]
First, the peripheral control unit power-on process will be described with reference to FIG. When the pachinko machine 1 is turned on, the peripheral control MPU 1511a of the peripheral control unit 1511 shown in FIG. When the peripheral control unit power-on process is started, the effect control program performs an initial setting process under the control of the peripheral control MPU 1511a (step S1000). In the initial setting process, the effect control program performs a process of initializing the peripheral control MPU 1511a itself, a hot start / cold start determination process, a process of setting a wait timer after reset, and the like. The peripheral control MPU 1511a first performs a process of initializing itself. The time required for the process of initializing the peripheral control MPU 1511a is on the order of microseconds (μs), and the peripheral control MPU 1511a is initialized in a very short time. be able to. As a result, the peripheral control MPU 1511a is output from the main control board 1310, for example, in the peripheral control unit command reception interrupt processing described later, as shown in FIG. 89 and FIG. Thus, various commands such as commands relating to control of game effects and commands relating to the state of the pachinko machine 1 can be received.

  In the hot start / cold start determination process, for the peripheral control RAM 1511c shown in FIG. 73, effect backup information (1fr) which is the contents backed up in Bank1 (1fr) and Bank2 (1fr) in the backup first area 1511cb. ) And the production backup information (1 ms), which is the contents backed up in Bank 1 (1 ms) and Bank 2 (1 ms), are compared, and Bank 3 (1 fr) and Bank 4 (1 fr) in the backup second area 1511 cc are compared. The production backup information (1fr), which is the content that is backed up at the same time, is compared, and the production backup information (the content that is backed up in Bank3 (1 ms) and Bank4 (1 ms)) ( ms) and when the compared contents match, the contents stored in Bank1 (1fr) with respect to Bank0 (1fr), which is a normally used storage area of the peripheral control RAM 1511c shown in FIG. The production backup information (1fr) and the production backup information (1ms) stored in Bank1 (1ms) with respect to Bank0 (1ms) are copied back to make a hot start, When the contents do not match (that is, when they do not match), the value 0 is forcibly written to Bank0 (1fr) and Bank0 (1 ms), which are normally used storage areas of the peripheral control RAM 1511c. And cold start.

  In the hot start / cold start determination processing, the effect backup information that is backed up in Bank 1 (SRAM) and Bank 2 (SRAM) in the backup first area 1511 db is also obtained for the peripheral control SRAM 1511d shown in FIG. (SRAM) and comparison of effect backup information (SRAM), which is the contents backed up in Bank 3 (SRAM) and Bank 4 (SRAM), in the backup second area 1511 dc. When the compared contents match, the production backup information (SRAM) which is the contents stored in Bank 0 (SRAM) with respect to Bank 0 (SRAM) which is the storage area normally used in the peripheral control SRAM 1511d shown in FIG. ) Is copied back to make a hot start, but when the compared contents do not match (that is, when they do not match), the value is relative to Bank0 (SRAM), which is a storage area normally used by the peripheral control SRAM 1511d. 0 is forcibly written and a cold start is made. Subsequent to such a hot start or cold start, the value 0 is forcibly written to the backup non-management target work area 1511cf of the peripheral control RAM 1511c shown in FIG. 73 and cleared to zero. The peripheral control MPU 1511a, after performing this initialization setting process, outputs a clear signal to the peripheral control built-in WDT 1511af shown in FIG. 73 and the peripheral control external WDT 1511e shown in FIG. 72 and resets to the peripheral control MPU 1511a. It is made so that it doesn't take.

  Subsequent to step S1000, the effect control program performs current time information acquisition processing (step S1002). In this current time information acquisition processing, calendar information specifying the date and time and time information specifying the hour, minute, and second are acquired from the RTC built-in RAM 4165aa of the RTC 41654a of the RTC control unit 4165 shown in FIG. In the RTC information acquisition storage area 1511cad of the peripheral control RAM 1511c shown in FIG. 4, the current calendar information is set in the calendar information storage unit and the current time information is set in the time information storage unit. In the current time information acquisition process, the brightness setting process of the liquid crystal display device is also performed. In this brightness setting process of the liquid crystal display device, the peripheral control MPU 1511a acquires brightness setting information from the RTC built-in RAM 4165aa of the RTC control unit 4165, and the game board is set to have the brightness of the LED included in the acquired brightness setting information. A process of turning on the backlight by adjusting the luminance of the backlight of the side effect display device 1600 is performed. As described above, the luminance setting information includes luminance adjustment information for adjusting the range of the luminance of the LED, which is the backlight of the game board side effect display device 1600, from 100% to 70% in increments of 5%, The brightness of the LED that is the backlight of the game board side effect display device 1600 that has been set is included.

  Specifically, in the luminance setting process of the liquid crystal display device, the luminance of the LED included in the luminance setting information stored in the RTC built-in RAM 4165aa of the RTC control unit 4165 is 75%, and the backlight of the game board side effect display device 1600 is displayed. Is turned on by adjusting the brightness of the backlight of the game board side effect display device 1600 based on the brightness adjustment information included in the brightness setting information, and the brightness stored in the RTC built-in RAM 4165aa of the RTC control unit 4165. When the backlight of the game board side effect display device 1600 is turned on when the luminance of the LED included in the setting information is 80%, the backlight of the game board side effect display device 1600 is turned on based on the luminance adjustment information included in the luminance setting information. Lights with the brightness adjusted. In the brightness setting process of the liquid crystal display device, the same correction as the above-described brightness correction program for correcting the brightness of the game board side effect display device 1600 according to the usage time of the game board side effect display device 1600 is performed. It is not done at all. This is because the brightness setting process of the liquid crystal display device incorporates a correction program similar to the brightness correction program, so that the brightness of the LED is corrected toward 100% each time the brightness setting process of the liquid crystal display device is executed. This is to prevent it from being done.

  In the present embodiment, the peripheral control MPU 1511a acquires calendar information and time information from the RTC built-in RAM 4165aa of the RTC 4165a only once when the power is turned on. In addition, the peripheral control MPU 1511a outputs a clear signal to the peripheral control built-in WDT 1511af and the peripheral control external WDT 1511e after performing this current time information acquisition process so that the peripheral control MPU 1511a is not reset.

  Subsequent to step S1002, the effect control program sets a value 0 to the V blank signal detection flag VB-FLG (step S1006). This V blank signal detection flag VB-FLG is a flag for determining whether or not to execute a peripheral control unit steady process to be described later, and has a value of 1 when the peripheral control unit steady process is executed. Is set to 0 when not executing. The V blank signal detection flag VB-FLG, which will be described later, is executed when a V blank signal indicating that the screen data from the peripheral control MPU 1511a can be received is input from the sound source built-in VDP 1512a. The value 1 is set in the part V blank signal interrupt processing. In step S1006, the V blank signal detection flag VB-FLG is initialized once by setting the value 0 to the V blank signal detection flag VB-FLG. The peripheral control MPU 1511a sets a value of 0 to the V blank signal detection flag VB-FLG, and then outputs a clear signal to the peripheral control built-in WDT 1511af and the peripheral control external WDT 1511e so that the peripheral control MPU 1511a is not reset. Yes.

  Subsequent to step S1006, the effect control program determines whether or not the V blank signal detection flag VB-FLG is 1 (step S1008). When the V blank signal detection flag VB-FLG is not 1 (value 0), the process returns to step S1008 and it is repeatedly determined whether or not the V blank signal detection flag VB-FLG is 1. By repeating such a determination, the process waits until the peripheral control unit steady process is executed. The peripheral control MPU 1511a determines whether or not the V blank signal detection flag VB-FLG is 1, and then outputs a clear signal to the peripheral control built-in WDT 1511af and the peripheral control external WDT 1511e to reset the peripheral control MPU 1511a. It is made so that it doesn't take.

  When the V blank signal detection flag VB-FLG has a value of 1 in step S1008, that is, when the peripheral control unit steady process is executed, a value 1 is first set to the steady process flag SP-FLG (step S1009). The steady processing flag SP-FLG is set to a value of 1 when the peripheral control unit steady processing is being executed, and to a value of 0 when the peripheral control unit steady processing is completed.

  Subsequent to step S1009, the effect control program performs 1 ms interrupt timer activation processing (step S1010). In this 1 ms interrupt timer starting process, a 1 ms interrupt timer for executing a later-described peripheral control unit 1 ms timer interrupt process is started, and the number of times this 1 ms interrupt timer is started and the peripheral control unit 1 ms timer interrupt process is executed. The value 1 is set in the 1 ms timer interrupt execution count STN for counting the 1 ms timer interrupt execution count STN. This 1 ms timer interrupt execution count STN is updated by the peripheral control unit 1 ms timer interrupt processing.

  Subsequent to step S1010, the effect control program performs lamp data output processing (step S1012). In this lamp data output process, the effect control program performs DMA serial continuous transmission to the lamp drive board 4170 shown in FIG. Here, the serial I / O port for the lamp driving board is continuously transmitted by using the peripheral control DMA controller 1511ac of the peripheral control MPU 1511a shown in FIG. When the serial I / O port continuous transmission for the lamp driving board is started, the lamp driving board side transmission data storage area 1511caa of the peripheral control RAM 1511c externally attached to the peripheral control MPU 1511a shown in FIG. 73 is shown in FIG. The game board side light emission data SL-DAT for outputting a lighting signal, a blinking signal, or a gradation lighting signal to a plurality of LEDs of various decorative boards provided in the game board 5 is created by a lamp data creation process described later. Is set.

  The peripheral control CPU core 1511aa of the peripheral control MPU 1511a shown in FIG. 73 designates the transmission of the lamp drive board serial I / O port as the request factor of the peripheral control DMA controller 1511ac, and stores the lamp drive board side transmission data storage area 1511caa. The first 1 byte of the game board side light emission data SL-DAT stored at the top address is transferred to the serial I / O port for the lamp driving board via the external bus 1511h, the peripheral control bus controller 1511ad, and the peripheral bus 1511ai. Transfer and write to the send buffer register. As a result, the serial I / O port for the lamp driving board transfers the written data in the transmission buffer register to the transmission shift register, and synchronizes with the light emission clock signal SL-CLK on the game board side to 1 byte of the transmission shift register. The data starts to be transmitted bit by bit.

  The peripheral control DMA controller 1511ac is triggered by the transmission interrupt request for the lamp drive board serial I / O port (in this embodiment, in the transmission buffer register of the lamp drive board serial I / O port). The written 1-byte data is transferred to the transmission shift register, and the transmission buffer register is empty because the 1-byte data is lost.), The peripheral control CPU core 1511aa is using the bus. If not, the remaining game board side light emission data SL-DAT stored in the lamp drive board side transmission data storage area 1511caa is byte by byte via the external bus 1511h, the peripheral control bus controller 1511ad, and the peripheral bus 1511ai. Transmit serial I / O port for lamp drive board By transferring and writing to the buffer register, the lamp drive board serial I / O port transfers the written data of the transmission buffer register to the transmission shift register, and synchronizes with the light emission clock signal SL-CLK on the game board side. Transmission of 1-byte data of the transmission shift register is started bit by bit, and continuous transmission is performed through the serial I / O port for the lamp driving board.

  In the lamp data output process, the effect control program performs a DMA serial continuous transmission process to the frame decoration drive amplifier board 194 shown in FIG. Also here, the frame I / O port LED serial I / O port continuous transmission is performed using the peripheral control DMA controller 1511ac of the peripheral control MPU 1511a. When this frame decoration drive amplifier board LED serial I / O port continuous transmission starts, the frame decoration drive amplifier board side LED transmission data storage area of the peripheral control RAM 1511c externally attached to the peripheral control MPU 1511a shown in FIG. In 1511cab, door-side light emission data STL-DAT for outputting lighting signals, blinking signals, or gradation lighting signals to a plurality of LEDs on various decorative boards provided on the door frame 3 is created by a lamp data creation process described later. Is set.

  The peripheral control CPU core 1511aa of the peripheral control MPU 1511a designates transmission of the frame decoration drive amplifier board LED serial I / O port as a request factor of the peripheral control DMA controller 1511ac, and transmits the frame decoration drive amplifier board side LED transmission data storage area. The first one byte of the door-side light emission data STL-DAT stored at the head address of 1511cab is serialized for the frame decoration drive amplifier board LED via the external bus 1511h, the peripheral control bus controller 1511ad, and the peripheral bus 1511ai. Transfer and write to the I / O port transmit buffer register. As a result, the frame decoration drive amplifier board LED serial I / O port transfers the written data of the transmission buffer register to the transmission shift register, and synchronizes with the door side light emission clock signal STL-CLK. Transmission of 1-byte data is started bit by bit.

  The peripheral control DMA controller 1511ac is triggered by this every time a transmission interrupt request for the frame decoration drive amplifier board LED serial I / O port is generated (in this embodiment, the frame decoration drive amplifier board LED serial I / O 1 byte data written in the transmission buffer register of the port is transferred to the transmission shift register, and the transmission buffer register runs out of 1 byte data and becomes empty.), Peripheral control CPU core 1511aa When the bus does not use the bus, the remaining door side light emission data STL-DAT stored in the frame decoration drive amplifier board side LED transmission data storage area 1511cab is stored byte by byte in the external bus 1511h and the peripheral control bus controller 1511ad. And frame decoration via peripheral bus 1511ai By transferring and writing to the transmission buffer register of the serial amplifier I / O port for the dynamic amplifier board LED, the serial I / O port for frame decoration drive amplifier board LED writes the data of the written transmission buffer register to the transmission shift register. Transfer and start transmitting 1-byte data of the transmission shift register bit by bit in synchronization with the door side light emission clock signal STL-CLK, and perform continuous transmission by the serial I / O port for frame decoration drive amplifier board LED Yes.

  Subsequent to step S1012, the effect control program performs effect operation unit monitoring processing (step S1014). In this effect operation unit monitoring process, the operation button 410 is operated based on detection signals from various detection switches provided in the effect operation unit 400 in the effect operation unit information acquisition process in the peripheral control unit 1 ms timer interrupt process described later. Based on the presentation operation unit information acquisition storage area 1511cai of the peripheral control RAM 1511c shown in FIG. 73 in which various types of information acquired are set, the presence / absence of operation of the operation button 410 is monitored, and the operation state of the operation button 410 is determined as a game effect. It is decided as appropriate whether or not to reflect the above.

  Subsequent to step S1014, the effect control program performs display data output processing (step S1016). In this display data output processing, the drawing data for one screen (one frame) generated on the built-in VRAM of the sound source built-in VDP 1512a in the display data creation processing described later is transmitted from the channels CH1 and 2 shown in FIG. Output to the game board side effect display device 1600 and the door frame side effect display device 460. Thereby, various screens are drawn on the game board side effect display device 1600 and the door frame side effect display device 460. In the display data output process, when the drawing exceeding the drawing capability of the sound source built-in VDP 1512a is performed, the generated drawing data for one screen (one frame) is used for the game board side effect display device 1600 and the door frame side effect. The output to the display device 460 is canceled. This can prevent the processing time from being delayed, but although a so-called frame drop occurs, the various decorative boards provided in the game board 5 shown in FIG. 8 by the ramp data output processing in step S1012. A plurality of LEDs and effects by a plurality of LEDs on various decorative boards provided on the door frame 3 and various effects from the speaker 921 shown in FIG. 5 and the upper speaker 573 shown in FIG. It is a mechanism that can give priority to the synchronization with the production of combined music and sound effects.

  Subsequent to step S1016, the effect control program performs sound data output processing (step S1018). In this sound data output process, the effect control program outputs to the audio data transmission IC 1512c as audio data obtained by serializing sound data such as music and sound effects set in the sound source built-in VDP 1512a in the sound data creation process described later, In addition to music and sound effects, sound data of notification sound and notification sound is output to the audio data transmission IC 1512c as serialized audio data. When the audio data transmission IC 1512c receives the serialized audio data from the sound source built-in VDP 1512a, the audio data transmission IC 1512c is directed toward the frame decoration drive amplifier board 194 as differential serial data using the right audio data as a plus signal and a minus signal. At the same time, the left audio data is transmitted toward the frame decoration drive amplifier board 194 as differential serial data having a plus signal and a minus signal. Thereby, in addition to the music, sound effects and the like adapted to various effects from the speaker 921 and the upper speaker 573, the notification sound and the notification sound are also reproduced in stereo.

  Subsequent to step S1018, the effect control program performs scheduler update processing (step S1020). In this scheduler update process, the effect control program updates various schedule data set in the schedule data storage area 1511cae of the peripheral control RAM 1511c shown in FIG. For example, in the scheduler update process, among the screen data arranged in chronological order constituting the screen generation schedule data set in the schedule data storage area 1511cae, what number screen data from the top screen data is stored in the sound source built-in VDP 1512a. The pointer is updated to indicate whether to output.

  Further, in the scheduler update process, among the light emission data arranged in time series constituting the light emission mode generation schedule data set in the schedule data storage area 1511cae, the number of the light emission data from the first light emission data is emitted from various LEDs. The pointer is updated to indicate whether the mode is set.

  In the scheduler update process, sound data such as music and sound effects, sound data of notification sounds and notification sounds, which are arranged in time series constituting the schedule data for sound generation set in the schedule data storage area 1511cae, are instructed. Of the sound command data, the pointer is updated in order to indicate what number of sound command data from the head sound command data is to be output to the sound source built-in VDP 1512a.

  In the scheduler update process, from the drive data of the electric drive source such as a motor or a solenoid arranged in time series constituting the electric drive source schedule data set in the schedule data storage area 1511cae, The pointer is updated to indicate what number of drive data is to be output. The drive data of the electric drive sources such as motors and solenoids arranged in time series constituting the electric drive source schedule data is a peripheral control unit 1 ms timer interrupt which is repeatedly executed every time a 1 ms timer interrupt described later occurs. It is updated by the motor and solenoid drive process in the process. In the motor and solenoid drive processing that is repeatedly executed each time this 1 ms timer interrupt occurs, an electric drive source such as a motor or solenoid is driven according to the drive data indicated by the pointer, and the next drive specified in time series is performed. The pointer is updated to the data, and the pointer is updated every time its own processing is executed. In other words, since the drive data indicated by the pointer updated in the motor and solenoid drive processing is forcibly updated in the scheduler update processing, the pointer is originally instructed for some reason in the motor and solenoid drive processing. Even if other drive data is instructed from the drive data that is supposed to be performed, it is forcibly updated to instruct the drive data that should be instructed originally in the scheduler update processing.

  Subsequent to step S1020, the effect control program performs a received command analysis process (step S1022). In this received command analysis process, the effect control program receives information transmitted from the effect display drive board 4450 via the peripheral door relay terminal board 882 and the frame peripheral relay terminal board 868, and various kinds of information transmitted from the main control board 1310. The command is analyzed for various commands received in the peripheral control unit command reception interrupt processing (command receiving means) described later (command analyzing means). The production control program is based on information transmitted from the production display drive board 4450 via the peripheral door relay terminal plate 882 and the frame peripheral relay terminal plate 868, screen generation schedule data, light emission mode generation schedule data, sound Generation schedule data, electrical drive source schedule data, and the like are extracted from the peripheral control ROM 1511b of the peripheral control unit 1511 or various control data copy areas 1511ce of the peripheral control RAM 1511c and set in the schedule data storage area of the peripheral control RAM 1511c in 1511cae. To do. In addition, in the effect control program, the command from the main control board 1310 received in the peripheral control unit command interrupt process is, for example, a start opening prize command for instructing the start of a start opening prize effect, the number of ordinary symbols held A normal symbol storage command for identifying (0 to 4), a symbol synchronization effect start command for instructing the start of a symbol synchronization effect, a symbol storage command that is output when the number of start suspension changes, A winning prize 1 count display command output every time a game ball is received (a winning prize count command), or a frame status 1 command (second error occurrence command) indicating a full state shown in FIG. It is analyzed whether or not it is a full error occurrence command (command analysis means), and it is recognized which gaming state is currently in effect. In addition, after the predetermined time has elapsed since the power was turned on, the effect control program is configured such that a command received by the peripheral control unit command reception interrupt process is a body frame opening command, a body frame closing command, a door opening command, or a door frame closing. Analyzes whether it is a command or not. Various commands from the main control board 1310 are received by the peripheral control unit command reception interrupt process and stored in the reception command storage area 1511cac of the peripheral control RAM 1511c shown in FIG. The effect control program analyzes various commands stored in the received command storage area 1511cac. The various commands shown in FIG. 89 are classified into various commands classified as related to special figure 1 synchronized production, various commands classified as related to special figure 2 synchronized production, various commands classified as related to jackpot, and power-on. , Various commands categorized as related to ordinary drawing effect, various commands categorized as related to ordinary electric role effect, various commands categorized as notification display shown in FIG. 90, door frame opening command described above , Door frame closing command, body frame opening command and body frame closing command, error release navigation command (corresponding to the second error canceling command) and frame state 1 command (corresponding to the second error occurrence command) There are various commands that are classified, various commands that are classified as related to the test, and various commands that are classified into others.

  Subsequent to step S1022, the effect control program performs warning processing (step S1024). In this warning process, when the command analyzed by the effect control program in the received command analysis process in step S1022 as described above includes various commands classified into the notification display shown in FIG. The screen generation schedule data, the light emission mode generation schedule data, the sound generation schedule data, the electrical drive source schedule data, and the like set in the abnormality display mode for executing the abnormality notification are stored in the peripheral control unit 1511. The data is extracted from the various control data copy areas 1511ce of the peripheral control ROM 1511b or the peripheral control RAM 1511c and set in the schedule data storage area of the peripheral control RAM 1511c in 1511cae. In the warning process, when multiple abnormalities occur simultaneously, the abnormality notification is performed in the order of the priority registered in advance, and the abnormality is automatically resolved and the remaining abnormality notifications are automatically transitioned to. It is supposed to be. This allows you to monitor multiple anomalies at the same time without losing the information that an anomaly has occurred due to the occurrence of another anomaly after the occurrence of the anomaly but before resolving the anomaly Can do.

  Furthermore, in this warning process, after a predetermined time has elapsed since the power was turned on, the command analyzed by the effect control program in the received command analysis process (step S1022) described above is classified into the status display shown in FIG. Various commands, for example, an error cancellation navigation command (second error cancellation command), by controlling the liquid crystal display control unit 1512 in a mode different from the normal performance mode accompanying the performance operation, for example, on the game board side Visually warn the outside using an effect display device 1600 (effect device), door frame side effect display device 460 (effect device), and a lamp (effect device), or audibly warn the outside using a speaker ( Error notification means). In this way, when a malicious player attempts to input an error canceling navigation command to the main control board 1310 by operating the operation switch 954 of the payout control board 951 despite being in a gaming state. Since the pachinko machine 1 is configured to warn the outside, fraudulent acts on the main control board 1310 that may affect the progress of the game are suppressed.

  Next, following step S1024 described above, the effect control program performs an RCT acquisition information update process (step S1026). In this RTC acquisition information update process, the effect control program stores the current time information acquisition process in step S1002 and stores it in the calendar information storage unit set in the RTC information acquisition storage area 1511cad of the peripheral control RAM 1511c shown in FIG. The updated calendar information and the time information stored in the time information storage unit are updated. By this RCT acquisition information update process, the hour, minute and second as time information stored in the time information storage unit are updated, and the year and month as calendar information stored in the calendar information storage unit based on the updated time information. The day is updated.

  Subsequent to step S1026, the effect control program performs lamp data creation processing (step S1028). In this lamp data creation process, the effect control program updates the pointer in the scheduler update process in step S1020, and the pointer indicates the light emission data arranged in time series constituting the light emission mode generation schedule data. Based on the light emission data, the game board side light emission data SL- for outputting a lighting signal, a flashing signal, or a gradation lighting signal to a plurality of LEDs of various decorative boards provided in the game board 5 shown in FIG. DAT is extracted and created from the peripheral control ROM 1511b of the peripheral control unit 1511 or various control data copy areas 1511ce of the peripheral control RAM 1511c, and set in the lamp drive board side transmission data storage area 1511caa of the peripheral control RAM 1511c shown in FIG. And various decorations on the door frame 3 The door side light emission data STL-DAT for outputting a lighting signal, a blinking signal, or a gradation lighting signal to a plurality of LEDs on the board, and various control data copy areas 1511ce of the peripheral control ROM 1511b or the peripheral control RAM 1511c of the peripheral control unit 1511. And is set in the frame decoration drive amplifier board side LED transmission data storage area 1511cab of the peripheral control RAM 1511c shown in FIG.

  Subsequent to step S1028, the effect control program performs display data creation processing (step S1030). In this display data creation process, the presentation control program updates the pointer in the scheduler update process in step S1020, and the screen data indicated by the pointer among the screen data arranged in time series constituting the schedule data for screen generation. Are extracted from the peripheral control ROM 1511b of the peripheral control unit 1511 or various control data copy areas 1511ce of the peripheral control RAM 1511c and output to the VDP 1512a with built-in sound source. When the screen data is input from the peripheral control MPU 1511a, the sound source built-in VDP 1512a extracts character data from the liquid crystal and sound control ROM 1512b based on the input screen data to create sprite data, thereby producing a game board side effect display device. 1600 and drawing data for one screen (one frame) displayed on the door frame side effect display device 460 are generated on the built-in VRAM.

  Subsequent to step S1030, the effect control program performs sound data creation processing (step S1032). In this sound data creation process, the effect control program updates the pointer in the scheduler update process in step S1020, and the pointer indicates the sound command data arranged in time series constituting the sound generation schedule data. The sound command data is extracted from the peripheral control ROM 1511b of the peripheral control unit 1511 or various control data copy areas 1511ce of the peripheral control RAM 1511c and is output to the sound source built-in VDP 1512a. When the sound command data is input from the peripheral control MPU 1511a, the sound source built-in VDP 1512a extracts sound data such as music and sound effects stored in the liquid crystal and sound control ROM 1512b and controls the sound source by controlling the sound source. In addition to incorporating sound data such as music and sound effects according to the track number defined in the data, an output channel to be used is set according to the output channel number.

  In the sound data creation process, every time this sound data creation process is performed (that is, every time the peripheral control unit steady process is performed), the peripheral control A / D converter 1511ak shown in FIG. The voltage divided by the resistance value at the rotation position of the knob portion 1510a is converted into a value of 1024 steps from 0 to 1023. In this embodiment, the value of 1024 steps is divided into seven and managed as substrate volumes 0 to 6, and the sound volume is set to the substrate volume 0, the maximum volume is set to the substrate volume 6, and the substrate volume 0 to the substrate volume are set. Each volume is set to increase toward the volume 6. Audio data is transmitted as audio data obtained by serializing the sound data in the sound data output process of step S1018 described above by controlling the VDP 1512a with built-in sound source of the liquid crystal display control unit 1512 so that the volume set to the substrate volume 0-6 is obtained. By outputting to the IC 1512c, music and sound effects can flow from the speaker 921 and the upper speaker 573.

  In addition, the notification sound and the notification sound flow without depending on the volume adjustment based on the turning operation of the knob part, and the sound volume of the liquid crystal display control unit 1512 is built in the program from the mute level to the maximum volume. The VDP 1512a can be controlled and adjusted. The volume adjusted by this program can be smoothly changed from the mute to the maximum volume, unlike the substrate volume divided into the above seven stages. For example, even when a hall clerk or the like turns the knob of the volume control volume 1510a to set the volume to a low level, the production sound such as music and sound effects flowing from the speaker 921 and the upper speaker 573 is reduced. However, when a malfunction occurs in the pachinko machine 1 or when the player is cheating, a notification sound set to a large volume (in this embodiment, the maximum volume) can be played. Therefore, even if the volume of the effect sound is reduced, it is possible to prevent the hall clerk or the like from becoming difficult to notice the occurrence of a malfunction or the player's cheating due to the notification sound. Also, based on the current board volume set by volume adjustment based on the turning operation of the knob part, the volume of the advertisement sound is reduced so as not to interfere with the music and sound effects. In addition to music and sound effects, the screen displayed on the game board side effect display device 1600 and the door frame side effect display device 460 is rendered more powerful, which is advantageous for the player. It is also possible to notify that there is a high possibility that the game state will be entered.

  Subsequent to step S1032, the effect control program performs a backup process (step S1034). In this backup processing, the effect control program stores the contents stored in the peripheral control RAM 1511c externally attached to the peripheral control MPU 1511a shown in FIG. 73 into the backup first area 1511cb and the backup second area 1511cc. The contents are copied and backed up, and the contents stored in the peripheral control SRAM 1511d attached to the peripheral control MPU 1511a are copied and backed up in the backup first area 1511db and the backup second area 1511dc, respectively.

  Specifically, in the backup process, the peripheral control RAM 1511c is backed up every frame (1 frame) in the backup target work area 1511ca shown in FIG. Included in Bank 0 (1fr), lamp driving board side transmission data storage area 1511caa, frame decoration driving amplifier board side LED transmission data storage area 1511cab, reception command storage area 1511cac, RTC information acquisition storage area 1511cad, and The production information (1fr), which is the content stored in the schedule data storage area 1511cae, is used as production backup information (1fr), and Bank1 (1fr) and Bank2 (1f) of the backup first area 1511cb. Peripheral control DMA controller 1511ac in) is copied at high speed, and backup Bank3 second area 1511cc (1fr) and peripheral control DMA controller 1511ac to Bank4 (1FR) is copied at high speed.

  The high-speed copy of the contents stored in Bank 0 (1fr) by the peripheral control DMA controller 1511ac will be briefly described. The peripheral control MPU core 1511aa of the peripheral control MPU 1511a shown in FIG. The content stored in Bank0 (1fr) is designated to be copied to Bank1 (1fr) in the backup first area 1511cb, and the content stored in the first address of Bank0 (1fr) is changed to the end address of Bank0 (1fr) The stored contents are all copied in sequence starting from the first address of Bank1 (1fr) in the backup first area 1511cb up to a predetermined byte (for example, 1 byte), and the peripheral control MPU core 1511aa performs peripheral control D. The content stored in Bank0 (1fr) is designated as a request factor of the A controller 1511ac, the copy to Bank2 (1fr) in the backup first area 1511cb is designated, and the content stored in the first address of Bank0 (1fr) is used as Bank0 The contents stored at the end address of (1fr) are all copied in order from the start address of Bank2 (1fr) in the backup first area 1511cb in succession by a predetermined number of bytes (for example, 1 byte).

  Subsequently, the peripheral control MPU core 1511aa designates the content stored in Bank0 (1fr) as the request factor of the peripheral control DMA controller 1511ac, specifies the copy to the bank3 (1fr) of the backup second area 1511cc, and Bank0 (1fr) ) To the content stored at the end address of Bank0 (1fr) to the content stored at the end address of Bank0 (1fr), the first address of Bank3 (1fr) in the backup second area 1511cc continuously by a predetermined byte (for example, 1 byte) The peripheral control MPU core 1511aa specifies the contents stored in Bank0 (1fr) as the request factor of the peripheral control DMA controller 1511ac, and specifies that the backup second area 1511cc is copied to Bank4 (1fr). Shi From the content stored at the beginning address of Bank0 (1fr) to the content stored at the end address of Bank0 (1fr), bank 4 (1fr) in the backup second area 1511cc is continuously provided by a predetermined number of bytes (for example, 1 byte). Copy everything starting from the first address.

  In the backup process, the peripheral control SRAM 1511d is a backup target every frame (1 frame) in the backup target work area 1511da shown in FIG. 73, that is, every time the peripheral control unit steady process is executed. The peripheral control DMA controller 1511ac operates at high speed in the bank 1 (SRAM) and the bank 2 (SRAM) of the backup first area 1511db using the production information (SRAM) stored in the Bank 0 (SRAM) as production backup information (SRAM). The peripheral control DMA controller 1511ac copies the data to the bank 3 (SRAM) and the bank 4 (SRAM) of the backup second area 1511dc at high speed.

  The high-speed copying of the contents stored in Bank 0 (SRAM) by the peripheral control DMA controller 1511ac will be briefly described. The peripheral control MPU core 1511aa of the peripheral control MPU 1511a shown in FIG. The content stored in Bank0 (SRAM) is designated to be copied to Bank1 (SRAM) in the backup first area 1511db, and the content stored at the beginning address of Bank0 (SRAM) is changed to the end address of Bank0 (SRAM). The stored contents are all copied in sequence starting from the first address of Bank 1 (SRAM) in the backup first area 1511db in order of predetermined bytes (for example, 1 byte), and the peripheral control MPU core 1511aa The content stored in Bank0 (SRAM) as the request factor of the peripheral control DMA controller 1511ac, the copy to the Bank2 (SRAM) of the backup first area 1511db is designated, and the content stored in the first address of Bank0 (SRAM) To the contents stored at the end address of Bank 0 (SRAM) are copied in order from the start address of Bank 2 (SRAM) in the backup first area 1511 db in succession by a predetermined number of bytes (for example, 1 byte).

  Subsequently, the peripheral control MPU core 1511aa designates the content stored in the Bank 0 (SRAM) as the request factor of the peripheral control DMA controller 1511ac, specifies the copy of the backup second area 1511dc to the Bank 3 (SRAM), and Bank 0 (SRAM). ) To the content stored at the end address of Bank 0 (SRAM) to the content stored at the end address of Bank 0 (SRAM) continuously by a predetermined number of bytes (for example, 1 byte) at the start address of Bank 3 (SRAM) in backup second area 1511 dc The peripheral control MPU core 1511aa copies the contents stored in the Bank 0 (SRAM) as the request factor of the peripheral control DMA controller 1511ac to the Bank 4 (SRAM) of the backup second area 1511dc. P2 is designated, and the backup second area 1511dc is continuously written by predetermined bytes (for example, 1 byte) from the content stored at the start address of Bank0 (SRAM) to the content stored at the end address of Bank0 (SRAM). Are all copied in order from the top address of Bank 4 (SRAM).

  Subsequent to step S1034, WDT clear processing is performed (step S1036). In this WDT clear process, a clear signal is output to the peripheral control built-in WDT 1511af and the peripheral control external WDT 1511e so that the peripheral control MPU 1511a is not reset.

  Subsequent to step S1036, the effect control program sets the value 0 in the steady processing flag SP-FLG as completion of execution of the peripheral control unit steady processing (step S1038), returns to step S1006 again, and V blank signal detection flag VB -FLG is initialized by setting value 0, and the determination in step S1008 is repeated until value 1 is set in V blank signal detection flag VB-FLG in the peripheral control unit V blank signal interrupt processing described later. That is, in step S1008, the process waits until a value 1 is set in the V blank signal detection flag VB-FLG. If it is determined in step S1008 that the V blank signal detection flag VB-FLG is 1, the process proceeds from step S1009 to step S1009. The process of S1038 is performed, and the process returns to step S1006 again. As described above, when it is determined in step S1008 that the V blank signal detection flag VB-FLG has a value of 1, processing in steps S1009 to S1038 is performed. The processing in steps S1009 to S1038 is referred to as “peripheral control unit steady processing”.

  The peripheral control unit steady process starts from the fact that the effect control program first sets the value 1 in the steady processing flag SP-FLG, assuming that the peripheral control unit steady process is being executed in step S1009, and 1 ms in step S1010. An interrupt timer activation process is performed, and each process of steps S1012, S1014,..., And step S1036 is performed. Set to to complete. The peripheral control unit steady process is executed when the V blank signal detection flag VB-FLG is 1 in step S1008. As described above, the V blank signal detection flag VB-FLG is executed when the V blank signal indicating that the screen data from the peripheral control MPU 1511a can be received is input from the sound source built-in VDP 1512a. The value 1 is set in the peripheral control unit V blank signal interrupt processing described later. In the present embodiment, as described above, the frame frequency (number of screen updates per second) of the game board side effect display device 1600 and the door frame side effect display device 460 is set to approximately 30 fps per second as described above. The interval at which the blank signal is input is approximately 33.3 ms (= 1000 ms ÷ 30 fps). That is, the peripheral control unit steady process is repeatedly executed about every 33.3 ms.

[16-1-2. Peripheral control unit V blank signal interrupt processing]
Next, the V blank signal indicating that the screen data from the peripheral control MPU 1511a of the peripheral control unit 1511 can be received as shown in FIG. 72 is input from the sound source built-in VDP 1512a of the liquid crystal display control unit 1512. The peripheral control unit V blank signal interrupt processing executed with the above as an opportunity will be described. When the peripheral control unit V blank signal interrupt processing is started, the peripheral control MPU 1511a of the peripheral control unit 1511 determines whether the steady processing flag SP-FLG is 0 as shown in FIG. S1045). As described above, the steady processing flag SP-FLG has a value of 1 when the peripheral control unit steady processing in steps S1009 to S1038 in the peripheral control unit power-on processing of FIG. It is set to a value of 0 when execution of the process is completed.

  If the steady process flag SP-FLG is not 0 (value 1) in step S1045, that is, if the peripheral control unit steady process is being executed, this routine is terminated. On the other hand, when the steady processing flag SP-FLG is 0 in step S1045, that is, when the execution of the peripheral control unit steady processing is completed, the value 1 is set to the V blank signal detection flag VB-FLG (step S1050). This routine ends. As described above, the V blank signal detection flag VB-FLG is a flag for determining whether or not to execute the peripheral control unit steady process. When the part steady process is not executed, the value is set to 0.

  In this embodiment, it is determined in step S1045 whether or not the steady processing flag SP-FLG is 0, that is, whether or not the peripheral control unit steady processing has been completed, and the peripheral control unit steady processing has been completed. Sometimes the value 1 is set to the V blank signal detection flag VB-FLG in step S1050. This is because the V blank signal is input and the V blank signal is input when the peripheral control unit steady processing is being executed. When the value 1 is set to the signal detection flag VB-FLG, it is assumed that the peripheral control unit steady process is executed in step S1008 in the peripheral control unit power-on process of FIG. Forcibly canceling in the middle and starting execution of the peripheral control unit steady process from the beginning. The peripheral control unit V blank signal, which is this routine, indicates that the peripheral control unit steady processing is being executed by setting the value 1 to the steady processing flag SP-FLG in step S1009 in the processing (peripheral control unit steady processing). In addition to notifying the interrupt processing, the peripheral control portion steady processing is completed by setting the steady processing flag SP-FLG to 0 in step S1038 in the peripheral control portion power-on processing (peripheral control portion steady processing) of FIG. This is communicated to the peripheral control unit V blank signal interrupt process, which is this routine, so that the steady processing flag SP-FLG is 0 in the determination of step S1045 in the peripheral control unit V blank signal interrupt process, which is this routine. It is determined whether or not there is, that is, whether or not the peripheral control unit steady process has been executed. In other words, this is a measure for the case where the peripheral control unit steady-state processing cannot be completed before the next V blank signal is input and the next V blank signal is input, so-called processing failure.

  As a result, in the current peripheral control unit steady process, if the process cannot be completed in about 33.3 ms and the process is dropped, the next determination is made in step S1008 in the peripheral control unit power-on process of FIG. It is in a state of waiting until the V blank signal is input. That is, the time required to execute the current peripheral control unit steady process that has been dropped is about 66.6 ms. Normally, a peripheral control unit 1 ms timer interrupt process, which will be described later, is repeatedly executed every time a 1 ms interrupt timer is generated by starting the 1 ms interrupt timer in step S1010 in the peripheral control unit power-on process (peripheral control unit steady process) in FIG. Is executed only 32 times for one peripheral control unit steady process. However, if there is a current peripheral control unit steady process that has been dropped as described above, the peripheral control unit 1 ms timer interrupt process is not performed 64 times. No, it is executed only 32 times. In other words, even if the peripheral control unit steady process has failed, the consistency between the presentation progress state by the peripheral control unit steady process and the presentation progress state by the peripheral control unit 1 ms timer interrupt process, which is timer interrupt control, is consistent. It is designed not to collapse. Therefore, even if the peripheral control unit steady process is lost, it is possible to reliably match the progress state of the performance.

[16-1-3. Peripheral control unit 1ms timer interrupt processing]
Next, the peripheral control unit 1 ms timer interrupt process that is repeatedly executed every time the 1 ms interrupt timer is generated by starting the 1 ms interrupt timer in step S1010 in the peripheral control unit steady process of the peripheral control unit power-on process of FIG. 95 will be described. . When the peripheral control unit 1 ms timer interrupt process is started, the peripheral control MPU 1511a of the peripheral control unit 1511 shown in FIG. 72 determines whether the 1 ms timer interrupt execution count STN is smaller than 33 times as shown in FIG. Is determined (step S1100). As described above, this 1 ms timer interrupt execution count STN is determined by this routine when the 1 ms interrupt timer is activated in the 1 ms interrupt timer activation process in step S1010 in the peripheral control unit steady process of the peripheral control unit power-on process of FIG. It is a counter that counts the number of times a peripheral control unit 1 ms timer interrupt process is executed. In the present embodiment, as described above, the frame frequency (number of screen updates per second) of the game board side effect display device 1600 and the door frame side effect display device 460 is set to approximately 30 fps per second as described above. The interval at which the blank signal is input is approximately 33.3 ms (= 1000 ms ÷ 30 fps). That is, since the peripheral control unit steady process is repeatedly executed about every 33.3 ms, after starting the 1 ms interrupt timer in step S1010 in the peripheral control unit steady process, the next peripheral control unit steady process is performed. The peripheral control unit 1 ms timer interrupt process is executed only 32 times until. Specifically, when the 1 ms interrupt timer is started in step S1010 in the peripheral control unit steady process, the first 1 ms timer interrupt is generated first, then the second,... Will occur.

  When the number of 1 ms timer interrupt executions STN is not smaller than 33 in step S1100, that is, when the 33rd 1 ms timer interrupt is generated and the peripheral control unit 1 ms timer interrupt processing is started, this routine is terminated as it is. In the present embodiment, when the 33rd 1 ms timer interrupt occurs accidentally before the next generation of the V blank signal, in the present embodiment, the peripheral control unit 1 ms timer interrupt process is the peripheral control unit V as the priority of interrupt processing. Although set higher than the blank interrupt process, the start of the peripheral control unit 1 ms timer interrupt process by the 33rd 1 ms timer interrupt is forcibly canceled. In other words, in the present embodiment, since the V blank signal dominates the entire system of the peripheral control board 1510, if the 33rd 1 ms timer interrupt occurs accidentally before the next V blank signal generation, In order to execute the peripheral control unit V blank interrupt process, the start of the peripheral control unit 1 ms timer interrupt process by the 33rd 1 ms timer interrupt is forcibly canceled. Then, after the 1 ms interrupt timer is started again in step S1010 in the peripheral control unit steady process due to the generation of the V blank signal, the peripheral control unit 1 ms timer interrupt process is newly started by the first 1 ms timer interrupt generation. ing.

  On the other hand, when the 1 ms timer interrupt execution count STN is smaller than 33 in step S1100, 1 is added to the 1 ms timer interrupt execution count STN (increment, step S1102). By adding 1 to the 1 ms timer interrupt execution count STN, the 1 ms interrupt timer is activated in the 1 ms interrupt timer activation process in step S1010 in the peripheral control unit steady process of the peripheral control unit power-on process in FIG. The number of times that the peripheral control unit 1 ms timer interrupt process, which is this routine, is executed is increased by one.

  Subsequent to step S1102, motor and solenoid drive processing is performed (step S1104). In this motor and solenoid drive processing, the electric drive source schedule data set in the schedule data storage area 1511cae of the peripheral control RAM 1511c and the peripheral control RAM 1511c externally arranged as shown in FIG. 73 are arranged in time series. 72. According to the drive data indicated by the pointer among the drive data of the electric drive sources such as the motor and the solenoid, the electric drive sources such as the motor and the solenoid of the frame decoration drive amplifier board 194 and the motor drive board 4180 shown in FIG. And the pointer is updated to the next drive data defined in time series, and the pointer is updated each time the motor and solenoid drive processing is executed.

  Specifically, in the motor and solenoid drive processing, DMA serial continuous transmission processing to the frame decoration drive amplifier board 194 is performed. Here, the frame decoration drive amplifier board motor serial I / O port continuous transmission is performed using the peripheral control DMA controller 1511ac of the peripheral control MPU 1511a shown in FIG. When this frame decoration drive amplifier board motor serial I / O port continuous transmission is started, first, the electrical drive source schedule data set in the schedule data storage area 1511cae of the peripheral control MPU 1511a and the peripheral control RAM 1511c to be externally attached. To output a drive signal to the dial drive motor 414 of the rendering operation unit 400 based on the drive data indicated by the pointer among the drive data of the electric drive sources such as the motors and solenoids arranged in time series. The door side motor drive data STM-DAT is extracted from the peripheral control ROM 1511b of the peripheral control unit 1511 or the various control data copy areas 1511ce of the peripheral control RAM 1511c, and the frame decoration drive of the peripheral control RAM 1511c shown in FIG. Ann Set in the transmission data storage area 1511caf substrate side motor. The peripheral control CPU core 1511aa of the peripheral control MPU 1511a designates transmission of the frame decoration drive amplifier board motor serial I / O port as a request factor of the peripheral control DMA controller 1511ac, and stores frame decoration drive amplifier board side motor transmission data. Frame decoration drive amplifier board motor via the external bus 1511h, the peripheral control bus controller 1511ad, and the peripheral bus 1511ai with the first byte of the door side motor drive data STM-DAT stored at the head address of the area 1511caf Transfer and write to the transmission buffer register of the serial I / O port. As a result, the frame decoration drive amplifier board motor serial I / O port transfers the written data of the transmission buffer register to the transmission shift register, and synchronizes with the door side motor drive clock signal STM-CLK. The 1-byte data starts to be transmitted bit by bit.

  The peripheral control DMA controller 1511ac is triggered by a transmission interrupt request for the frame decoration drive amplifier board motor serial I / O port (in this embodiment, the frame decoration drive amplifier board motor serial I / O 1 byte data written in the transmission buffer register of the port is transferred to the transmission shift register, and the transmission buffer register runs out of 1 byte data and becomes empty.), Peripheral control CPU core 1511aa When the bus does not use the bus, the remaining door side motor drive data STM-DAT stored in the frame decoration drive amplifier board side motor transmission data storage area 1511caf is byte by byte, the external bus 1511h, and the peripheral control bus controller. 1511ad and via the peripheral bus 1511ai By transferring and writing to the transmission buffer register of the decorative drive amplifier board motor serial I / O port, the frame decoration drive amplifier board motor serial I / O port transmits the data of the written transmission buffer register to the transmission shift register. 1 byte data of the transmission shift register is started bit by bit in synchronization with the door side motor drive clock signal STM-CLK, and the frame decoration drive amplifier board motor serial I / O port continuously transmits. Is going.

  In the motor and solenoid drive processing, DMA serial continuous transmission processing to the motor drive board 4180 is performed. Also here, the serial I / O port for motor drive board is continuously transmitted using the peripheral control DMA controller 1511ac of the peripheral control MPU 1511a shown in FIG. When the serial I / O port continuous transmission for the motor drive board is started, first, when the electrical drive source schedule data set in the schedule data storage area 1511cae of the peripheral control MPU 1511a and the peripheral control RAM 1511c is externally configured. A motor for moving various movable bodies provided in the game board 5 shown in FIG. 8 based on drive data indicated by a pointer among drive data of electric drive sources such as motors and solenoids arranged in series. The game board side motor drive data SM-DAT for outputting drive signals to the solenoid and the solenoid is extracted from the peripheral control ROM 1511b of the peripheral control unit 1511 or the various control data copy areas 1511ce of the peripheral control RAM 1511c, and created. Peripheral control RAM 151 shown in 73 Set to the motor drive board side transmission data storage area 1511cag of c. Then, the peripheral control CPU core 1511aa of the peripheral control MPU 1511a designates transmission of the serial I / O port for the motor drive board as a request factor of the peripheral control DMA controller 1511ac and stores it in the head address of the motor drive board side transmission data storage area 1511cag. The first 1 byte of the game board side motor drive data SM-DAT thus received is transmitted to the serial I / O port for the motor drive board via the external bus 1511h, the peripheral control bus controller 1511ad, and the peripheral bus 1511ai. Transfer and write to register. As a result, the serial I / O port for the motor drive board transfers the written data of the transmission buffer register to the transmission shift register, and 1 of the transmission shift register is synchronized with the game board side motor drive clock signal SM-CLK. Start transmitting byte data bit by bit.

  The peripheral control DMA controller 1511ac is triggered by the transmission interrupt request for the motor drive board serial I / O port (in this embodiment, the transmission buffer register of the motor drive board serial I / O port). The written 1-byte data is transferred to the transmission shift register, and the transmission buffer register is empty because the 1-byte data is lost.), The peripheral control CPU core 1511aa is using the bus. If not, the remaining game board side motor drive data SM-DAT stored in the motor drive board side transmission data storage area 1511cag is byte by byte via the external bus 1511h, peripheral control bus controller 1511ad, and peripheral bus 1511ai. , Serial I / O port for motor drive board By transferring and writing to the transmission buffer register, the motor drive board serial I / O port transfers the written data of the transmission buffer register to the transmission shift register, and the game board side motor drive clock signal SM-CLK and Synchronously, transmission of 1-byte data of the transmission shift register is started bit by bit, and continuous transmission is performed by the serial I / O port for the motor drive board.

  Following step S1104, movable body information acquisition processing is performed (step S1106). In this movable body information acquisition process, it is determined whether or not detection signals from various detection switches provided on the game board 5 are input, thereby detecting history information of detection signals from the various detection switches (for example, original position history information). , Movable position history information, etc.) are created and set in the movable body information acquisition storage area 1511cah of the peripheral control MP1511a and the peripheral control RAM 1511c externally attached as shown in FIG. From the history information of the detection signals from the various detection switches set in the movable body information acquisition storage area 1511cah, the original positions and the movable positions of the various movable bodies provided on the game board 5 can be acquired.

  Subsequent to step S1106, an effect operation unit information acquisition process is performed (step S1108). In the effect operation unit information acquisition process, it is determined whether or not detection signals from various detection switches provided in the effect operation unit 400 are input, thereby detecting history information (for example, operation signals) from the various detection switches. Operation history information of the button 410, etc.) is created and set in the effect operation unit information acquisition storage area 1511cai of the peripheral control MPU 1511a and the peripheral control RAM 1511c externally shown in FIG. The presence / absence of operation of the operation button 410 can be acquired from history information of detection signals from various detection switches set in the effect operation unit information acquisition storage area 1511cai.

  Following step S1108, drawing state information acquisition processing is performed (step S1110). In this drawing state information acquisition process, history information of the LOCKN signal output from the LOCKN terminal of the door frame side effect receiver ICSDIC0 provided in the effect display drive board 4450 shown in FIG. 87 is created, and the peripheral information shown in FIG. The control MPU 1511a and the externally attached peripheral control RAM 1511c are set in the drawing state information acquisition storage area 1511cak. As described above, the LOCKN signal indicates that the drawing data received from the door frame side effect transmitter IC 1512d included in the peripheral control board 1510 by the door frame side effect receiver ICSDIC0 included in the effect display drive board 4450 is abnormal data. If it is determined, it is a signal that is output in order to convey that fact, specifically, a door frame side effect transmitter IC 1512d provided in the peripheral control board 1510, and a door frame side effect receiver IC ICDIC0 provided in the effect display drive board 4450, , That is, a signal output to request transmission of a predetermined data pattern (SYNC pattern) for confirming (recovering) the connection between the transmitter and the receiver. The door frame side effect display device is obtained by acquiring the frequency of troubles and the state of occurrence of troubles between the connection between the peripheral control board 1510 and the effect display driving board 4450 from the history information of the LOCKN signal set in the drawing state information obtaining storage area 1511cak. The drawing state of 460 can be acquired.

  Subsequent to step S1110, backup processing is performed (step S1112), and this routine is terminated. In this backup processing, the contents stored in the peripheral control MPU 1511a and the externally attached peripheral control RAM 1511c shown in FIG. 73 are copied to the backup first area 1511cb and the backup second area 1511cc, respectively. At the same time, the contents stored in the peripheral control MPU 1511a and the peripheral control SRAM 1511d provided externally are copied to the backup first area 1511db and the backup second area 1511dc for backup.

  Specifically, in the backup process, the peripheral control RAM 1511c executes the 1ms timer interrupt process of the peripheral control unit, which is this routine, whenever the 1ms interrupt timer is generated in the backup target work area 1511ca shown in FIG. Each time, the frame decoration drive amplifier board side motor transmission data storage area 1511 caf, the motor drive board side transmission data storage area 1511 cag, and the movable body information acquisition storage area 1511 cah included in Bank 0 (1 ms) to be backed up. Further, the production information (1 ms), which is the content stored in the production operation unit information acquisition storage area 1511cai, is used as production backup information (1 ms), and Bank 1 (1 ms) and Bank 2 of the backup first area 1511cb. Peripheral control DMA controller 1511ac to 1 ms) is copied at high speed, and backup Bank3 second area 1511cc (1ms) and peripheral control DMA controller 1511ac to Bank4 (1 ms) is copied at high speed.

  The high-speed copy of the contents stored in Bank 0 (1 ms) by the peripheral control DMA controller 1511ac will be briefly described. The peripheral control MPU core 1511aa of the peripheral control MPU 1511a shown in FIG. The content stored in Bank0 (1 ms) is designated to be copied to Bank1 (1 ms) in backup first area 1511 cb, and the content stored at the beginning address of Bank0 (1 ms) is changed to the end address of Bank0 (1 ms) The stored contents are all copied in sequence starting from the first address of Bank 1 (1 ms) in the backup first area 1511cb in succession to a predetermined byte (for example, 1 byte), and the peripheral control MPU core 1511aa performs peripheral control D. The content stored in Bank 0 (1 ms) as the request factor of the A controller 1511ac is designated to be copied to Bank 2 (1 ms) in the backup first area 1511cb, and the content stored in the first address of Bank 0 (1 ms) is used as Bank 0 The contents stored at the end address of (1 ms) are all copied in order from the start address of Bank 2 (1 ms) of the backup first area 1511cb in succession by predetermined bytes (for example, 1 byte).

  Subsequently, the peripheral control MPU core 1511aa designates the content stored in Bank0 (1 ms) as the request factor of the peripheral control DMA controller 1511ac, specifies the copy of the backup second area 1511cc to Bank3 (1 ms), and Bank0 (1 ms) ) To the content stored at the end address of Bank 0 (1 ms) from the content stored at the top address of) in the backup second area 1511 cc, Bank 3 (1 ms) The peripheral control MPU core 1511aa specifies the contents stored in Bank0 (1 ms) as the request factor of the peripheral control DMA controller 1511ac, and specifies that the backup second area 1511cc is copied to Bank4 (1 ms). Shi From the content stored at the beginning address of Bank0 (1 ms) to the content stored at the end address of Bank0 (1 ms), bank 4 (1 ms) in the backup second area 1511 cc is continuously provided by predetermined bytes (for example, 1 byte). Copy everything starting from the first address.

  As described above, in the peripheral control unit 1 ms timer interruption process, various processes related to the effects in steps S1104 to S1108 are executed as the progress of the effects within a period of 1 ms. On the other hand, in the peripheral control unit steady-state processing in the peripheral control unit power-on process of FIG. 95, various processes related to the effects in steps S1012 to S1032 described above are executed as the progress of the effects within a period of about 33.3 ms. doing. In the peripheral control unit 1 ms timer interrupt process, when the 1 ms timer interrupt execution count STN is not smaller than the value 33 in step S1100, that is, when the first 1 ms timer interrupt is generated and the peripheral control unit 1 ms timer interrupt process is started. Since this routine is ended as it is, even if the occurrence of the 33rd 1 ms timer interrupt happens to occur before the next V blank signal, the peripheral control unit by this 33rd 1 ms timer interrupt. The start of the 1 ms timer interrupt process is forcibly canceled, and after the 1 ms interrupt timer is started again in step S1010 in the peripheral control unit steady process due to the generation of the V blank signal, the peripheral control is newly performed by the first 1 ms timer interrupt. 1ms timer division It is adapted to start the actual processing. That is, the consistency between the progress state of the effect by the peripheral control unit steady process and the progress state of the effect by the peripheral control unit 1 ms timer interrupt process which is the timer interrupt control is not lost. Therefore, it is possible to reliably match the progress of the production.

  In addition, as described above, the interval at which the V blank signal is output varies slightly depending on the liquid crystal sizes of the game board side effect display device 1600 and the door frame side effect display device 460, and the peripheral control MPU 1511a and the sound source built-in VDP 1512a Even in the manufacturing lot of the mounted peripheral control board 1510, the interval at which the V blank signal is output may change somewhat. In this embodiment, since the V blank signal is a signal that dominates the entire system of the peripheral control board 1510, if the occurrence of the 33rd 1 ms timer interrupt happens to precede the next V blank signal, the peripheral control is performed. In order to execute the part V blank interrupt process, the start of the peripheral control part 1 ms timer interrupt process by the 33rd 1 ms timer interrupt is forcibly canceled. In other words, in the present embodiment, even if the interval at which the V blank signal is output changes slightly, by forcibly canceling the start of the peripheral control unit 1 ms timer interrupt process by the 33rd 1 ms timer interrupt, A time shift due to a slight change in the interval at which the V blank signal is output can be absorbed.

[16-1-4. Peripheral control unit command reception interrupt processing]
Next, the peripheral control unit command reception interrupt processing for receiving various commands from the main control board 1310 will be described. The peripheral control MPU 1511a of the peripheral control unit 1511 shown in FIG. 72 starts main transmission of main peripheral serial data in the peripheral control MPU 1511a when various commands from the main control board 1310 are started to be transmitted as serial data. One byte (8 bits) of information is taken into the reception buffer at the board serial I / O port, and when this fetching is completed, an interrupt is generated as a trigger, and peripheral control unit command reception interrupt processing is performed. The main circumference serial data is composed of 3 bytes per packet, the status is assigned as the first byte, the mode is assigned as the second byte, and the status and mode are regarded as numerical values as the third byte and the total The sum value that is calculated is assigned.

  When the peripheral control unit command reception interrupt process is started, the peripheral control MPU 1511a of the peripheral control unit 1511 determines whether or not the 1-byte reception period timer has timed out as shown in FIG. 98 (step S1200). The 1-byte reception period timer sets a period during which 1-byte (8-bit) information can be received from the main peripheral serial data transmitted from the main control board 1310.

  When the 1-byte reception period timer has not timed out in step S1200, that is, within the period in which 1-byte (8-bit) information can be received from the main peripheral serial data transmitted from the main control board 1310, the peripheral The 1-byte information received from the reception buffer of the main I / O port for main control board built in the control MPU 1511a is fetched (step S1202), and a value 1 is added to the reception counter SRXC (increment, step S1204). The reception counter SRXC is a counter indicating the number of times the data has been extracted from the reception buffer. When the status, which is the first byte of the main circumference serial data, is extracted from the reception buffer, the value is 1, and the mode is the second byte of the main circumference serial data. The value is 2 when extracted from the reception buffer, and the value is 3 when the sum value, which is the third byte of the main serial data, is extracted from the reception buffer. The reception counter SRXC is set to an initial value 0 when the power is turned on.

  Subsequent to step S1204, it is determined whether or not the reception counter SRXC has a value of 3, that is, whether or not the sum value that is the third byte of the main peripheral serial data has been extracted from the reception buffer (step S1206). In this determination, the status that is the first byte of the main peripheral serial data, the mode that is the second byte of the main peripheral serial data, and the sum value that is the third byte of the main peripheral serial data are sequentially received from the reception buffer. It is determined whether or not it has been taken out.

  When the reception counter SRXC is not the value 3 in step S1206, that is, following the status that is the first byte of the main peripheral serial data, the mode that is still the second byte of the main peripheral serial data, and the third byte of the main peripheral serial data When the sum values are not sequentially taken out from the reception buffer, the 1-byte reception period timer is set (step S1208), and this routine is terminated. By setting the 1-byte reception period timer in step S1208, the mode that is the second byte of the main circumference serial data or the period during which the sum value that is the third byte of the main circumference serial data can be received is set.

  On the other hand, when the reception counter SRXC has a value of 3 in step S1206, that is, following the status that is the first byte of the main peripheral serial data, the mode that is the second byte of the main peripheral serial data, and the main peripheral serial data 3 When the sum value which is the byte is taken out from the reception buffer in order, the initial value 0 is set in the reception counter SRXC (step S1210), and the sum value is calculated (step S1212). In this calculation, the status that is the first byte of the main circumference serial data and the mode that is the second byte of the main circumference serial data, which have already been extracted from the reception buffer in step S1202, are regarded as numerical values and the sum (sum value). ) Is calculated.

  Subsequent to step S1212, it is determined whether or not the sum value, which is the third byte of the main serial data already extracted from the reception buffer in step S1202, matches the sum value calculated in step S1212 (step S1212). S1214). The sum value which is the third byte of the main circumference serial data already extracted from the reception buffer in step S1202 is the sum value allocated as the third byte of the main circumference serial data from the main circumference serial data from the main control board 1310. Therefore, it should match the sum value calculated in step S1212. However, the pachinko machine 1 is supplied with game balls from the pachinko island facility, and when the game balls rub against each other and are charged, electrostatic discharge generates noise, so the pachinko machine 1 is affected by noise. It is in a file environment. Therefore, in this embodiment, the peripheral controller 1511 side regards the status assigned as the first byte of the received main circumference serial data and the mode assigned as the second byte of the main circumference serial data as numerical values. The sum (sum value) is calculated, and the calculated sum value matches the sum value allocated as the third byte of the main circumference serial data among the main circumference serial data from the main control board 1310. It is determined whether or not. As a result, the peripheral control MPU 1511a determines whether or not the main peripheral serial data has been changed to main peripheral serial data different from the normal due to the influence of noise between the main control board 1310 and the peripheral control board 1510. be able to.

  In step S1214, if the sum value that is the third byte of the main circumference serial data already extracted from the reception buffer in step S1202 matches the sum value calculated in step S1212, the received main circumference serial data is received. The status assigned as the first byte and the mode assigned as the second byte of the main peripheral serial data are shown in FIG. 73, as shown in FIG. (Step S1216), and this routine is terminated. The reception command storage area 1511cac is used as a ring buffer, and the status assigned as the first byte of the main circumference serial data and the mode assigned as the second byte of the main circumference serial data are: It is stored in the peripheral ring reception ring buffer of 1511cac. This "peripheral control unit reception ring buffer" is a buffer that is used so that the end and the top of the buffer are connected. Remember. When the peripheral control MPU 1511a stores the received data in the peripheral control unit reception ring buffer in step S1216, the peripheral control MPU 1511a allocates the received status allocated as the first byte of the main peripheral serial data and the second byte of the main peripheral serial data. Are stored in association with each other, and the sum value allocated as the third byte is discarded.

  On the other hand, when the 1-byte reception period timer has not timed out in step S1200, that is, it exceeds the period in which 1-byte (8-bit) information can be received from the main peripheral serial data transmitted from the main control board 1310. Sometimes, or in step S1214, if the sum value that is the third byte of the main peripheral serial data already extracted from the reception buffer in step S1202 and the sum value calculated in step S1212 do not match, this routine is directly executed. finish.

[16-1-5. Peripheral control unit power failure warning signal interrupt processing]
Next, the peripheral control unit power failure warning signal executed when the power failure warning signal (peripheral power failure warning signal) from the power failure monitoring circuit 1310e of the main control board 1310 shown in FIG. The interrupt process will be described. When the peripheral control unit power failure warning signal interrupt process is started, the peripheral control MPU 1511a of the peripheral control unit 1511 shown in FIG. 72 first activates a 2 microsecond timer (step S1320), and a power failure notification signal (peripheral power failure notification). It is determined whether or not a signal is input (step S1302). If no power failure warning signal (peripheral power failure warning signal) is input in this determination, this routine is terminated as it is.

  On the other hand, when a power failure warning signal is input in step S1302, it is determined whether or not 2 microseconds have elapsed (step S1304). In this determination, it is determined whether or not the timer started in step S1320 has passed 2 microseconds. If it is determined in step S1304 that 2 macroseconds have not elapsed, the process returns to step S1302 to determine whether or not a power failure warning signal has been input. If a signal is input, it is determined again in step S1304 whether 2 microseconds have elapsed. That is, in the determination in step S1304, it is determined whether or not the power failure warning signal is continuously input for 2 microseconds after the peripheral control unit power failure warning signal interrupt processing, which is this routine, is started.

  When the peripheral control unit power failure warning signal interrupt processing, which is this routine, is started in step S1304 and the power failure warning signal is continuously input for 2 microseconds, power saving processing is performed (step S1306). In this power saving process, the backlights of the game board side effect display device 1600 and the door frame side effect display device 460 are sequentially turned off, the motors and solenoids provided in the game board 5 are turned off, and various LEDs are turned off sequentially. Thus, by suppressing the power consumption of the entire system of the pachinko machine 1, stable operation is ensured only for a period of 20 milliseconds, which is the time during which the peripheral control MPU 1511a can operate even when the power of the pachinko machine 1 is cut off.

  Subsequent to step S1306, command reception standby processing is performed (step S1308). In this command reception standby process, assuming that there are various commands being transmitted by the main control board 1310, at least a period of 17 milliseconds so that the peripheral control MPU 1511a can receive the command being transmitted. It is supposed to wait. When the command is received, the peripheral control unit command reception interrupt process described above is started, and the received command storage area 1511cac (peripheral control unit reception ring buffer of the peripheral control RAM 1511c externally attached to the peripheral control MPU 1511a shown in FIG. ) Stores the received command.

  Subsequent to step S1308, command backup processing is performed (step S1310). In this command backup processing, the contents stored in the received command storage area 1511cac included in Bank0 (1fr) in the backup target work area 1511ca shown in FIG. The peripheral control DMA controller 1511ac copies to Bank2 (1fr) at high speed, and the peripheral control DMA controller 1511ac copies to Bank3 (1fr) and Bank4 (1fr) in the backup second area 1511cc at high speed.

  The high-speed copy of the content stored in the received command storage area 1511cac included in Bank0 (1fr) by the peripheral control DMA controller 1511ac will be briefly described. The peripheral control MPU core 1511aa of the peripheral control MPU 1511a shown in FIG. Specify the contents stored in the received command storage area 1511cac included in Bank0 (1fr) as the request factor of the control DMA controller 1511ac, and copy to the received command storage area included in Bank1 (1fr) of the backup first area 1511cb Then, the content stored in the start address of the reception command storage area 1511cac included in Bank0 (1fr) is stored in the end address of the reception command storage area 1511cac included in Bank0 (1fr). Are copied in order from the start address of the received command storage area included in Bank1 (1fr) of the backup first area 1511cb, and the peripheral control MPU core. The content stored in the received command storage area 1511cac included in Bank0 (1fr) as a request factor of the peripheral control DMA controller 1511ac is transferred to the received command storage area included in Bank2 (1fr) of the backup first area 1511cb. From the content stored in the start address of the reception command storage area 1511cac included in Bank0 (1fr) to the content stored in the end address of the reception command storage area 1511cac included in Bank0 (1fr) by designating copy , A predetermined number of bytes (e.g., 1 byte) all copies sequentially from the start address of the received command storage area included in the Bank2 (1FR) of the backup successively by the first area 1511Cb.

  Subsequently, the peripheral control MPU core 1511aa includes the contents stored in the received command storage area 1511cac included in Bank0 (1fr) as the request factor of the peripheral control DMA controller 1511ac in Bank3 (1fr) of the backup second area 1511cc. To the received command storage area 1511cac included in Bank0 (1fr) from the contents stored in the start address of the received command storage area 1511cac included in Bank0 (1fr). Are copied in order starting from the start address of the received command storage area included in Bank3 (1fr) of the backup second area 1511cc in succession to a predetermined byte (for example, 1 byte) and peripheral control The PU core 1511aa stores the contents stored in the received command storage area 1511cac included in Bank0 (1fr) as a request factor of the peripheral control DMA controller 1511ac, and the received command storage area included in Bank4 (1fr) of the backup second area 1511cc. From the content stored at the start address of the reception command storage area 1511cac included in Bank0 (1fr) to the content stored at the end address of the reception command storage area 1511cac included in Bank0 (1fr) All of the data is copied in order starting from the start address of the received command storage area included in Bank 4 (1fr) of the backup second area 1511cc successively by predetermined bytes (for example, 1 byte).

  Subsequent to step S1310, it is determined whether a power failure warning signal (peripheral power failure warning signal) is input (step S1312). If a power failure warning signal is input in this determination, WDT clear processing is performed (step S1314). In this WDT clear process, the peripheral control MPU 1511a outputs a clear signal to the peripheral control built-in WDT 1511af shown in FIG. 73 and the peripheral control external WDT 1511e shown in FIG. 72 so that the peripheral control MPU 1511a is not reset. .

  On the other hand, when the power failure warning signal is not input in step S1312, or following step S1314, the process returns to step S1312, and it is determined whether the power failure warning signal is input. That is, it is determined indefinitely whether or not a power failure warning signal (peripheral power failure warning signal) is input. By continuing the determination infinitely in this way, when the power failure warning signal (peripheral power failure warning signal) is not input in step S1312, the peripheral control MPU 1511a clears the peripheral control built-in WDT 1511af and the peripheral control external WDT 1511e. Cannot be output and the peripheral control MPU 1511a is reset. On the other hand, when a power failure warning signal is input in step S1312, the WDT clear process is performed in step S1314, and the peripheral control MPU 1511a is not reset. When the peripheral control MPU 1511a is reset, the peripheral control unit power-on process shown in FIG. 95 is started again.

  As described above, when the power failure warning signal (peripheral power failure warning signal) continues to be input in the infinite loop as determined in step S1312, the peripheral control is performed immediately before the power failure state is established by executing the WDT clear process in step S1314. The MPU 1511a is not reset. On the other hand, if the input of the power failure warning signal is not continued in the infinite loop and is canceled in the determination in step S1312, the WDT clear process is not executed, so the peripheral control built-in WDT 1511af and the peripheral control external WDT 1511e The output of the clear signal is interrupted. As a result, even if the peripheral control unit power failure warning signal interrupt processing, which is this routine, is started erroneously due to noise or the like and the noise is generated beyond the period of 2 microseconds, the determination of step S1302 is passed. If the input of the power failure warning signal (peripheral power failure warning signal) is canceled without being continued in the infinite loop as determined in S1312, the peripheral control MPU 1511a is reset because the WDT clear process in step S1314 is not executed. Therefore, it is possible to cope with such noise by automatically resetting and returning.

[16-1-6. LOCKN signal history creation process]
Next, a LOCKN signal history creation process executed as one process of the drawing state information acquisition process in step S1110 in the peripheral control unit 1 ms timer interrupt process shown in FIG. 97 will be described. In this LOCKN signal history creation process, a history of the LOCKN signal output from the LOCKN terminal of the door frame side effect receiver ICSDIC0 provided in the effect display drive board 4450 shown in FIG. 87 is created. As described above, the LOCKN signal is generated by the drawing data received by the door frame side effect receiver ICSDIC0 provided in the effect display drive board 4450 from the door frame side effect transmitter IC 1512d provided in the peripheral control board 1510 shown in FIG. When it is determined that the data is abnormal, it is a signal that is output to convey that fact. Specifically, the door frame side effect transmitter IC 1512d provided in the peripheral control board 1510 and the door frame provided in the effect display drive board 4450 are provided. This signal is output to request transmission of a predetermined data pattern (SYNC pattern) for confirming (recovering) the connection between the side effect receiver ICSDIC0, that is, the connection between the transmitter and the receiver.

  When the LOCKN signal history creating process is started, the peripheral control MPU 1511a of the peripheral control unit 1511 shown in FIG. 72 is connected to the peripheral control MPU 1511a shown in FIG. The LOCKN signal detection history information LOCKN-HIST is read out from the drawing state information acquisition storage area 1511cak (step S1500). This LOCKN signal detection history information LOCKN-HIST is stored in 1 byte (8 bits: most significant bits B7, B6, B5, B4, B3, B2, B1, and least significant bit B0, "B" represents a bit). The history of the LOCKN signal output from the LOCKN terminal of the door frame side effect receiver ICSDIC0 provided on the effect display drive board 4450 is stored in the drawing state information acquisition storage area 1511cak as LOCKN signal detection history information LOCKN-HIST. It is remembered.

  Subsequent to step S1500, it is determined whether or not there is a LOCKN signal output from the LOCKN terminal of the door frame side effect receiver ICSDIC0 provided on the effect display drive board 4450 (step S1502). In this determination, when there is a LOCKN signal from the door frame side effect receiver ICSDIC0, the door frame side effect receiver ICSDIC0 determines that the drawing data received from the door frame side effect transmitter IC1512d is abnormal data. A transmission request is made for a predetermined data pattern (SYNC pattern) for confirming (recovering) the connection between the door frame side effect transmitter IC 1512d and the door frame side effect receiver IC SDIC0, that is, the connection between the transmitter and the receiver. On the other hand, when there is no LOCKN signal from the door frame side effect receiver ICSDIC0, the drawing data received by the door frame side effect receiver ICSDIC0 from the door frame side effect transmitter IC1512d is not abnormal data (normal). The data) No transmission request is made for a predetermined data pattern (SYNC pattern) for confirming (recovering) the connection between the frame side effect transmitter IC 1512d and the door frame effect receiver IC ICDIC0, that is, the connection between the transmitter and the receiver. Is determined.

  If there is a LOCKN signal from the door frame side effect receiver ICSDIC0 in step S1502, the LOCKN signal detection history information is shifted (step S1504). In this LOCKN signal detection history information shift process, when there is a LOCKN signal from the door frame side effect receiver ICSDIC0, the LOCKN signal detection history information LOCKN-HIST read in step S1500 is converted into the most significant bits B7 ← B6, B6 ←. B5, B5 ← B4, B4 ← B3, B3 ← B2, B2 ← B1, B1 ← the least significant bit B0 and so on are shifted bit by bit from the least significant bit B0 toward the most significant bit B7.

  When the LOCKN signal detection history information LOCKN-HIST is shifted in step S1504, the value 1 is set to the least significant bit B0 of the LOCKN signal detection history information LOCKN-HIST (step S1506), and this routine is ended.

  On the other hand, when there is no LOCKN signal from the door frame side effect receiver ICSDIC0 in step S1502, the LOCKN signal detection history information is shifted (step S1508). In this LOCKN signal detection history information shift processing, the same processing as the LOCKN signal detection history information shift processing in step S1504 is performed. When there is no LOCKN signal from the door frame side effect receiver ICSDDIC0, the LOCKN read in step S1500 The signal detection history information LOCKN-HIST includes the most significant bit B7 ← B6, B6 ← B5, B5 ← B4, B4 ← B3, B3 ← B2, B2 ← B1, B1 ← the least significant bit B0. 1 bit to the most significant bit B7.

  When the LOCKN signal detection history information LOCKN-HIST is shifted in step S1508, the value 0 is set to the least significant bit B0 of the LOCKN signal detection history information LOCKN-HIST (step S1510), and this routine is ended.

  Thus, each time this LOCKN signal history creation process is executed, the LOCKN signal detection history information LOCKN-HIST is shifted bit by bit from the least significant bit B0 toward the most significant bit B7, and then the least significant bit B0. Since the value 1 or the value 0 is set, the history of the LOCKN signal from the door frame side effect receiver ICSDIC0 can be created.

[16-1-7. Connection failure judgment process]
Next, a connection failure determination process executed as one process of the warning process in step S1024 in the peripheral control part steady process of the peripheral control part power-on process shown in FIG. 95 will be described. In this connection failure determination processing, the door frame side provided on the peripheral control board 1510 is based on the history of the LOCKN signal output from the LOCKN terminal of the door frame side effect receiver ICSDIC0 provided on the effect display drive board 4450 shown in FIG. It is determined whether or not there is a problem in the connection between the effect transmitter IC 1512d and the door frame effect receiver ICSDIC0 provided in the effect display drive board 4450, that is, the connection between the transmitter and the receiver.

  When the connection failure determination process is started, the peripheral control MPU 1511a of the peripheral control unit 1511 illustrated in FIG. 72 is connected to the peripheral control MPU 1511a illustrated in FIG. The LOCKN signal detection history information LOCKN-HIST is read from the drawing state information acquisition storage area 1511cak (step S1520). In the LOCKN signal detection history information LOCKN-HIST, as described above, the history of the LOCKN signal output from the LOCKN terminal of the door frame side effect receiver ICSDIC0 provided in the effect display drive board 4450 is stored. As described above, the LOCKN signal is data in which the drawing data received from the door frame side effect transmitter IC 1512d included in the peripheral control board 1510 by the door frame side effect receiver ICSDIC0 included in the effect display drive board 4450 is abnormal data. If it is determined, it is a signal that is output to convey that fact, specifically, a door frame side effect transmitter IC 1512d provided in the peripheral control board 1510 and a door frame side effect receiver IC ICDIC0 provided in the effect display drive board 4450. , That is, a signal output to request transmission of a predetermined data pattern (SYNC pattern) for confirming (recovering) the connection between the transmitter and the receiver.

  Following step S1520, it is determined whether there is a LOCKN signal from the door frame side effect receiver ICSDIC0 (step S1522). In this determination, it is determined whether or not the LOCKN signal detection history information LOCKN-HIST read in step S1520 matches the connection confirmation determination value. This connection confirmation determination value is stored in advance in the peripheral control ROM 1511b shown in FIG. 72, and is “00001111B (“ B ”represents a bit) in the present embodiment, and is the upper 4 bits B7 to B4. Is the value 0, and the lower 4 bits B3 to B0 are the value 1. In the determination in step S1522, it is determined whether or not the lower 4 bits B3 to B0 of the LOCKN signal detection history information LOCKN-HIST match the lower 4 bits B3 to B0 of the connection confirmation determination value.

  In step S1522, when the lower 4 bits B3 to B0 of the LOCKN signal detection history information LOCKN-HIST read in step S1520 do not match the lower 4 bits B3 to B0 of the connection confirmation determination value, the peripheral control board 1510 is prepared. It is determined that there is no problem in the connection between the door frame side effect transmitter IC 1512d and the door frame side effect receiver IC SDIC0 provided in the effect display drive board 4450, that is, in the connection between the transmitter and the receiver. Then, this routine is finished as it is.

  On the other hand, in step S1522, if the lower 4 bits B3 to B0 of the LOCKN signal detection history information LOCKN-HIST read in step S1520 match the lower 4 bits B3 to B0 of the connection confirmation determination value, the peripheral control board 1510 The door frame side effect transmitter IC 1512d included in the display and the door frame side effect receiver IC SDIC0 included in the effect display drive board 4450 are connected, that is, there is a problem in the connection between the transmitter and the receiver. And 1 is added to the communication check counter CC-CNT (increment, step S1524). Each time this routine is executed, the communication check counter CC-CNT counts up the number of times determined in step S1522 that the connection between the transmitter and the receiver is defective. (Counting the cumulative number of times). Note that the communication check counter CC-CNT is reset when the pachinko machine 1 is turned on and is reset with a value of 0. The communication check counter CC-CNT is restored to the value immediately before the moment or power failure.

  Subsequent to step S1524, it is determined whether the value of the communication check counter CC-CNT is smaller than the cumulative number upper limit CC-LMT (step S1526). In this determination, when the value of the communication check counter CC-CNT is smaller than the cumulative number upper limit value CC-LMT, the cumulative number determined that the connection between the transmitter and the receiver is defective is the cumulative number. While it is determined that the upper limit value CC-LMT has not been reached, if the value of the communication check counter CC-CNT is not smaller (larger) than the cumulative number upper limit value CC-LMT, a problem has occurred in the connection between the transmitter and the receiver. It is determined that the cumulative number of times determined to be in the state has reached the cumulative number upper limit CC-LMT.

  When the value of the communication check counter CC-CNT is smaller than the cumulative number upper limit value CC-LMT in step S1526, that is, the cumulative number determined that the connection between the transmitter and the receiver is defective is the cumulative number. When the upper limit value CC-LMT has not been reached, the communication abnormality flag CC-FLG is set to 0 (step S1528), and this routine is terminated. On the other hand, when the value of the communication check counter CC-CNT is not smaller (larger) than the cumulative number upper limit value CC-LMT in step S1526, that is, it is determined that there is a problem in the connection between the transmitter and the receiver. When the accumulated number of times reaches the accumulated number upper limit CC-LMT, a value of 1 is set in the communication abnormality flag CC-FLG (step S1530), and this routine is terminated. The communication abnormality flag CC-FLG indicates that the accumulated number of times determined that the connection between the transmitter and the receiver is in trouble has reached the accumulated number upper limit CC-LMT, and the connection between the transmitter and the receiver. This flag indicates whether or not a failure has occurred. Value 1 when the connection between the transmitter and the receiver is definitely defective. A failure has occurred in the connection between the transmitter and the receiver. When the accumulated number of times determined to be in the state is not reaching the accumulated number upper limit CC-LMT, the value is set to 0, respectively. Note that the communication error flag CC-FLG is reset when the pachinko machine 1 is turned on, with the value 0 being set, but is not reset due to a momentary power failure or a power failure. At this time, the communication abnormality flag CC-FLG immediately before the moment or power failure is restored.

[16-1-8. Connection recovery process]
Next, the connection recovery process executed as one process of the warning process in step S1024 in the peripheral control part steady process of the peripheral control part power-on process shown in FIG. 95 will be described. In this connection recovery process, it is executed following the connection failure determination process shown in FIG. 101, and the door frame side effect transmitter IC 1512d provided in the peripheral control board 1510 and the door frame side effect receiver IC SDIC0 provided in the effect display drive board 4450. Output a predetermined data pattern (SYNC pattern) to confirm (recover) the connection between the transmitter and the receiver, that is, when the connection between the transmitter and the receiver is abnormal. Notify that.

  When the connection recovery process is started, the peripheral control MPU 1511a of the peripheral control unit 1511 illustrated in FIG. 72 performs the peripheral control unit power-on process illustrated in FIG. 95 in the peripheral control unit steady process as illustrated in FIG. In the scheduler update process in step S1020, it is determined whether the schedule data for screen generation is being activated among the various schedule data set in the schedule data storage area 1511cae of the peripheral control RAM 1511c shown in FIG. S1540). In this determination, in the scheduler update process, among the screen data arranged in time series constituting the screen generation schedule data, the order of the screen data to be output from the top screen data to the built-in sound source VDP 1512a is instructed. Then, it is determined whether or not the pointer has been updated. In other words, in the scheduler update process, when the pointer is being updated, the presentation is progressing along the screen generation schedule data, so it is determined that the screen generation schedule data is being activated, while the screen generation schedule is When the presentation is completed along with the data and all the pointer updates are completed, it is determined that the screen generation schedule data is not activated. In this determination, a demonstration is performed by the game board side effect display device 1600 during a period when the start-up screen at the time of power-on of the pachinko machine 1 is displayed on the game board side effect display device 1600, or in a waiting state of the customer. It is possible to determine whether or not the current period is based on the schedule data for screen generation, and displays a startup screen when the power of the pachinko machine 1 is turned on on the game board side effect display device 1600. If the game board is in a waiting state or a period during which a demonstration is performed by the game board side effect display device 1600, the process proceeds to step S1542, which will be described later. The period displayed on the effect display device 1600 or the waiting state for the customer is displayed on the game board side effect display device 1600. That when it is not a period that is doing a demonstration in the (mere, is when in the standby state of the customer wait), which is as it is to terminate this routine.

  When the production is progressing along the screen generation schedule data in step S1540, that is, when the screen generation schedule data is being activated, this routine is finished as it is, while in step S1540, the screen generation schedule data is followed. When the presentation is completed and the updating of all the pointers is completed, that is, when the screen generation schedule data is not activated, it is determined whether or not the value of the communication check counter CC-CNT is not 0 (step) S1542). As described above, this communication check counter CC-CNT is used for the door frame side effect provided in the peripheral control board 1510 in the determination of step S1522 in the process every time the connection failure determination process shown in FIG. 101 is executed. Counts up the number of times it is determined that there is a problem between the connection between the transmitter IC 1512d and the door frame side effect receiver ICSDIC0 provided on the effect display drive board 4450, that is, the connection between the transmitter and the receiver. To do (count the cumulative number of times). In this determination, it is determined whether or not the number of times when it is determined that the connection between the transmitter and the receiver is in a state where a failure has occurred is even one.

  When the value of the communication check counter CC-CNT is 0 in step S 1542, that is, when the number of times determined that the connection between the transmitter and the receiver is in trouble is not once, this is left as it is. While the routine is finished, the number of times when it is determined in step S1542 that the value of the communication check counter CC-CNT is not 0, that is, the connection between the transmitter and the receiver is in trouble is even once. If there is, it is determined whether or not the value of the communication abnormality flag CC-FLG is 0 (step S1544). As described above, the communication abnormality flag CC-FLG indicates that the cumulative number of times determined that there is a problem in the connection between the transmitter and the receiver has reached the cumulative number upper limit CC-LMT, This flag indicates whether or not there is a problem with the connection between the receiver and the value 1 when the connection between the transmitter and the receiver is definitely defective. When the accumulated number of times determined to be in a state in which the connection has not reached the accumulated number upper limit CC-LMT, the value is set to 0.

  When the value of the communication abnormality flag CC-FLG is 0 in step S1544, that is, the accumulated number of times determined that the connection between the transmitter and the receiver is defective is the accumulated number upper limit value CC-LMT. If not, SYNC pattern output processing is performed (step S1546), and this routine is terminated. In this SYNC pattern output process, the peripheral control MPU 1511a outputs a connection confirmation signal to the INIT terminal of the door frame side effect transmitter IC 1512d provided on the peripheral control board 1510, thereby providing the door frame side effect provided on the peripheral control board 1510. The transmitter IC 1512d outputs a predetermined data pattern (SYNC pattern) to the door frame side effect receiver ICSDIC0 provided on the effect display drive board 4450. This predetermined data pattern (SYNC pattern) is stored in advance in the door frame side effect transmitter IC 1512d and is output to the door frame side effect receiver ICSDIC0. The connection between the transmitter IC 1512d and the door frame-side effect receiver ICSDIC0, that is, the connection between the transmitter and the receiver is recovered.

  On the other hand, if the value of the communication error flag CC-FLG is not 0 (value 1) in step S1544, that is, if there is a certain failure in the connection between the transmitter and the receiver, communication error display processing is performed. (Step S1548), and this routine is terminated. In this communication error display process, the display area of the game board side effect display device 1600 provided in the game board 5 shown in FIG. 8 is used to notify that the connection between the transmitter and the receiver is surely defective. Process to draw on. For example, in the display area of the game board side effect display device 1600, a message “A problem has occurred in the upper plate side liquid crystal display device. Please call a clerk” is displayed. Further, in the communication error display process, a period during which the start-up screen at the time of power-on of the pachinko machine 1 is displayed on the game board side effect display device 1600, or a demonstration by the game board side effect display device 1600 in a waiting state. During the period of time, the connection between the door frame side effect transmitter IC 1512d provided on the peripheral control board 1510 and the door frame side effect receiver IC SDIC0 provided on the effect display drive board 4450, that is, the connection between the transmitter and the receiver. In order to confirm whether or not a malfunction has occurred, the peripheral control MPU 1511a transmits LOCKN signal output request data from the peripheral control MPU 1511a as an operation confirmation request of the door frame side effect display device 460, and the door frame side effect receiver ICSDDIC0 is set to LOCKN. As a response signal for the transmission of signal output request data, When the LOCKN signal is output from the OCKN terminal to the peripheral control MPU 1511a and this LOCKN signal is not input, it is assumed that there is a problem in the connection between the transmitter and the receiver, and there is a problem in the door frame side effect display device 460. A notification image (for example, “There is a problem with the upper plate side liquid crystal display device. Please call the store clerk”) is displayed in the display area of the game board side effect display device 1600. In addition, a process in which a notification sound (for example, “a defect has occurred in the upper platen side liquid crystal display device”) repeatedly flows from a speaker or the like provided on the door frame 3 is performed. At this time, you may make it perform the process which lightes all the various LED mounted on the various decoration board | substrates with which the LED for light emission decoration provided in the door frame 3 and the game board 5 are equipped.

  Next, the timing at which the peripheral control MPU 1511a outputs the connection confirmation signal to the INIT terminal of the door frame side effect transmitter IC 1512d provided in the peripheral control board 1510 shown in FIG. 74 will be described using the timing chart of FIG.

  First, the decorative symbols variably displayed in the display area of the game board side effect display device 1600 provided in the game board 5 shown in FIG. 8 will be briefly described. Peripheral control of the peripheral control unit power-on process shown in FIG. The decorative symbol change display is executed by a part steady process or the like, and the main control side of the main control side power-on process shown in FIG. 93 by the main control MPU 1310a of the main control board 1310 shown in FIG. The first special lottery result drawn by receiving the game ball to the first start port 2002 shown in FIG. 8 by the main process or the main control timer interruption process shown in FIG. 94 or the second shown in FIG. When the result of the second special lottery drawn by accepting game balls at the start opening 2004 is “big hit”, the number of times of opening / closing the winning prize opening 2005 shown in FIG. 8 is 1 round. There are 16 rounds, up to 16 rounds. In each round, a game ball enters the winning prize opening 2005 within a predetermined time (for example, 30 seconds), and the number of balls is a predetermined number (for example, 9). Then, the round is digested, and every time one game ball enters the big prize opening 2005, a predetermined number of game balls (for example, 15 balls) are paid out.

  The first special lottery result drawn by accepting game balls to the first start port 2002 or the second special lottery result drawn by accepting game balls to the second start port 2004 is obtained from the main control board 1310. Based on the command, the peripheral control unit 1511 of the peripheral control board 1510 controls the liquid crystal display control unit 1512, so that the left decorative pattern is on the left side of the display area of the game board side effect display device 1600, and the central decorative graphic is in the center. On the right side, the change display of the right decorative design is started, and after the predetermined time has elapsed, the display of the left decorative design, the central decorative design, and the right decorative design is stopped and the first special lottery result or the second special lottery result Can be recognized by the player. At this time, the first special symbol indicator 1403 or the second special symbol indicator 1403 of the function display unit 1400 shown in FIG. Also in the first special symbol or the second special symbol displayed by pattern display 1405 so that the user can confirm the first special lottery result or the second special lottery result. When the left decorative symbol, the central decorative symbol, and the right decorative symbol are displayed variably, the left decorative symbol, the central decorative symbol, and the right decorative symbol are translucent so that the background image can be visually recognized. From the upper left to the lower left of the area, the central decorative symbol rotates from the upper center of the display area to the lower central, and the right decorative pattern rotates from the upper right to the lower right of the display area. When the left decorative symbol, the central decorative symbol, and the right decorative symbol are stopped, the left decorative symbol, the central decorative symbol, and the right decorative symbol correspond to the stopped decorative display. The left decorative design, the central decorative design, and the right decorative design are opaque so that the background image at the position is difficult to see. In this way, the first special symbol or the second special symbol that is displayed in a variable manner and stopped in the first special symbol indicator 1403 or the second special symbol indicator 1405 of the function display unit 1400 shown in FIG. The left decorative symbol, the central decorative symbol, and the right decorative symbol that are started and stopped in the display area of the game board side effect display device 1600 are synchronized.

  The peripheral control unit 1511 of the peripheral control board 1510 receives the first special lottery result drawn by receiving the game ball into the first start port 2002 or the second lot selected by receiving the game ball into the second start port 2004. Upon receiving a command from the main control board 1310 that conveys the result of the special lottery, the liquid crystal display control unit 1512 is controlled based on the received command, so that the game board side shown in FIG. When the variable display of the left decorative symbol, the central decorative symbol, and the right decorative symbol is started in the display area of the effect display device 1600 (timing K0), the peripheral control unit steady state of the power-on process of the peripheral control unit shown in FIG. In the scheduler update process of step S1020 in the process, the schedule data storage area 151 of the peripheral control RAM 1511c shown in FIG. Among the screen data arranged in chronological order constituting the screen generation schedule data set in cae, the pointer is used to indicate what number of screen data is output from the top screen data to the built-in sound source VDP 1512a. Because it is updated, that is, in the scheduler update process, when the pointer is updated, the production is progressing along the screen generation schedule data, so the screen generation schedule data is being activated, and the screen generation schedule While the data is being activated, that is, until the variable display of the left decorative symbol, the central decorative symbol, and the right decorative symbol is started and stopped, the peripheral control unit power-on process shown in FIG. 102 in the warning process of step S1024 in the peripheral control unit steady process of FIG. Be executed recovery process, it is determined in step S1540 in this connection restoration process, and it so as to end the routine forcibly.

  As a result, the communication check counter CC-CNT of the communication check counter CC-CNT is displayed in the display area of the game board side effect display device 1600 until the variable display of the left decorative symbol, the central decorative symbol, and the right decorative symbol is started and stopped. Even when the value is not 0, that is, between the connection between the door frame side effect transmitter IC 1512d provided in the peripheral control board 1510 and the door frame side effect receiver IC SDIC0 provided in the effect display drive board 4450 (that is, between the transmitter and the transmitter). Even if the number of times that it is determined that there is a problem with the connection) between the receiver and the receiver is not performed, the SYNC pattern output process of step S1546 in the connection recovery process is not performed, and the transmitter and the receiver The connection recovery process is not performed, and the connection recovery process The communication error display process in step S1548 is not performed, and for example, the message “A problem has occurred in the upper plate side liquid crystal display device. Please call the store clerk” is not displayed in the display area of the game board side effect display device 1600. Therefore, the LOCKN signal from the door frame side effect receiver ICSDIC0 that informs that the drawing data received from the door frame side effect transmitter IC 1512d is abnormal data is invalidated, and the door frame side effect display device Reference numeral 460 displays an image based on drawing data received from the door frame side effect transmitter IC ICDIC0 from the door frame side effect transmitter IC 1512d.

  When the left decorative symbol, the central decorative symbol, and the right decorative symbol change display is started and stopped in the display area of the game board side effect display device 1600 (timing K1), the peripheral control unit shown in FIG. 95 is turned on. In the scheduler update process in step S1020 in the peripheral control unit steady process of the time process, the presentation is completed along the screen generation schedule data set in the schedule data storage area 1511cae of the peripheral control RAM 1511c shown in FIG. Since all the updates have been completed, that is, in the scheduler update process, while the screen generation schedule data is not started and the screen generation schedule data is not started, the peripheral control unit shown in FIG. 95 is turned on. Warning in step S1024 in the peripheral processing unit steady process of time processing In the determination of step S1540 in the connection recovery process shown in FIG. 102 executed as one process of the process, the process proceeds to the process of step S1542 in the same process. When it is determined that there is no failure in the connection with the receiver, the routine is terminated as it is, but when the value of the communication check counter CC-CNT is not 0, that is, the transmitter If the number of times that the connection between the receiver and the receiver is determined to be in a state where there is a failure is one, the process proceeds to step S1544 in the same process, and the value of the communication abnormality flag CC-FLG is 0. When the connection between the transmitter and receiver is faulty. If the accumulated number of times determined to have not reached the accumulated number upper limit value CC-LMT, the process proceeds to step S1546 in the process, the above-described SYNC pattern output process is performed, and the routine is terminated, while the communication abnormality flag CC- When the value of FLG is not 0 (value 1), that is, when there is a certain failure in the connection between the transmitter and the receiver, the process proceeds to step S1548 in the process, and the communication error display described above is performed. Perform processing and end the routine. In other words, while the left decorative symbol, the central decorative symbol, and the right decorative symbol are stopped and displayed in the display area of the game board side effect display device 1600, the door frame side effect transmitter IC 1512d and the door frame side effect receiver are displayed. When there is a failure in the connection between ICSDIC0, that is, between the transmitter and the receiver, even when there is a failure in the connection between the transmitter and the receiver. When the accumulated number of times determined to have not reached the accumulated number upper limit CC-LMT, the SYNC pattern output process must be performed, so that the connection between the door frame-side effect transmitter IC 1512d and the door frame-side effect receiver ICSDIC0, This means that the connection between the transmitter and receiver is restored, while the transmitter is When the cumulative number of times determined that there is a problem in the connection between the receiver and the receiver has reached the cumulative number upper limit CC-LMT (that is, the connection between the transmitter and the receiver is definitely defective) For example, in the display area of the game board side effect display device 1600, “There is a problem with the upper plate side liquid crystal display device. Please call the store clerk. LOCKN signal from the door frame side effect receiver ICSDIC0 that informs that the drawing data received from the door frame side effect transmitter IC 1512d is abnormal data. Has been activated.

  In the display area of the game board side effect display device 1600, the left decorative symbol, the central decorative symbol, and the right decorative symbol are started and stopped, and the left decorative symbol, the central decorative symbol, and the right decorative symbol are displayed again. Since the left decorative pattern, the central decorative pattern, and the right decorative pattern are stopped and displayed in the display area of the game board side effect display device 1600 in the interval period until the game is started, as described above, The LOCKN signal from the door frame-side effect receiver ICSDIC0 that informs that the drawing data received from the door frame-side effect transmitter IC 1512d is abnormal data is activated, and the door frame-side effect transmitter IC 1512d and the door frame-side effect Trouble occurs between the connection with the receiver ICSDIC0, that is, the connection between the transmitter and the receiver. If the cumulative number of times determined that the connection between the transmitter and the receiver is defective has not reached the cumulative number upper limit CC-LMT. By performing the pattern output process without fail, the process of recovering the connection between the door frame side effect transmitter IC 1512d and the door frame side effect receiver IC ICDIC0, that is, the connection between the transmitter and the receiver is performed. When the cumulative number of times that it is determined that there is a fault in the connection between the two has reached the cumulative number upper limit CC-LMT (that is, the fault between the transmitter and the receiver has definitely occurred) For example, by performing the communication error display process, for example, the game board side effect display device 1600 The display region "problem with the upper tray side liquid crystal display device has occurred. Please call your clerk." Displays a message that to have so as to perform the process of informing.

  When the display of the left decorative design, the central decorative design, and the right decorative design is started again (timing K2), as described above, since the screen generation schedule data is being activated, the left decorative design and the central decorative design are activated. And until the right decorative symbol is stopped and displayed (timing K3), even when the value of the communication check counter CC-CNT is not 0, that is, for the door frame side effect provided in the peripheral control board 1510. The number of times that it is determined that there is a problem between the connection between the transmitter IC 1512d and the door frame side effect receiver ICSDIC0 provided on the effect display drive board 4450 (that is, the connection between the transmitter and the receiver) is 1. SYNC pattern output processing in step S1546 in connection recovery processing is performed The process for recovering the connection between the transmitter and the receiver is not performed, and the communication error display process of step S1548 in the connection recovery process is not performed. For example, the display area of the game board side effect display device 1600 Since the message “A problem has occurred in the upper plate LCD device. Please call the store clerk” is not displayed, the drawing data received from the door frame side transmitter transmitter IC1512d is abnormal data. The door frame side effect display device 460 invalidates the LOCKN signal from the door frame side effect receiver ICSDIC0 that conveys the fact that the door frame side effect receiver ICSDIC0 has received the drawing data received from the door frame side effect transmitter IC1512d. Display an image based on.

  As described above, the left decorative symbol, the central decorative symbol, and the right decorative symbol are started and stopped in the display area of the game board side effect display device 1600, and the left decorative symbol, the central decorative symbol, and the right decorative symbol are displayed again. In the interval period until the variable display of the symbol is started, the LOCKN signal from the door frame side effect receiver ICSDIC0 is informed that the drawing data received from the door frame side effect transmitter IC 1512d is abnormal data. On the other hand, in the display area of the game board side effect display device 1600, the door frame side effect transmitter is transmitted until the display of the left decorative symbol, the central decorative symbol, and the right decorative symbol is started and stopped. A receiver ICSD for door frame side presentation that informs that the drawing data received from the IC 1512d is abnormal data LOCKN signal from the C0 is adapted to be disabled. In the display area of the game board side effect display device 1600, the combination result in which the left decorative symbol, the central decorative symbol, and the right decorative symbol are stopped and displayed is the information most interesting to the player, which is beneficial to the player. Since the player can determine whether or not the jackpot gaming state to which the game is given occurs, the left decorative symbol, the central decorative symbol, and the right decorative symbol are displayed in a variable manner in the display area of the game board side effect display device 1600. Then, until the left decorative symbol, the central decorative symbol, and the right decorative symbol are stopped and displayed, the effect image drawn in the display area of the door frame side effect display device 460 is disturbed correctly due to the influence of noise or the like. Even if the drawing cannot be performed, the rendering is not interrupted and the process of recovering the drawing correctly is not performed, but the display area of the game board side rendering display device 1600 is left. Decorative symbol, central decorative pattern, and by stopping displaying the right decorative design, and the most interesting of information of the player to complete the drawing.

  In this respect, the peripheral control MPU 1511a of the peripheral control unit 1511 of the peripheral control board 1510 displays a startup screen when the pachinko machine 1 is turned on on the game board side effect display device 1600, and a waiting state. Thus, during the period of demonstration by the game board side effect display device 1600, it is greatly different from the case where the LOCKN signal output request data is transmitted to the differential circuit 1512e provided in the peripheral control board 1510. This LOCKN signal output request data is displayed during the period when the start-up screen at the time of power-on of the pachinko machine 1 is displayed on the game board side effect display device 1600, or in the state of waiting for the customer and the demonstration by the game board side effect display device 1600. In the period of time, the peripheral control MPU 1511a transmits the door frame side effect transmitter IC 1512d provided in the peripheral control board 1510 and the door frame side effect receiver IC SDIC0 provided in the effect display drive board 4450. This is transmitted as an operation confirmation request for the door frame side effect display device 460 in order to confirm whether or not there is a problem in the connection between the connections, that is, the connection between the transmitter and the receiver.

  When the LOCKN signal output request data, which is serial data output from the peripheral control MPU 1511a, is differentiated into a positive signal and a negative signal in the differential circuit 1512e provided in the peripheral control board 1510, as described above, differential Two signals differentiated into a plus signal and a minus signal in the merging circuit 1512e are input to a forced switching circuit 1512f provided in the peripheral control board 1510. The forcible switching circuit 1512f is connected to the circuit so as to transmit the two signals that are differentiated into a plus signal and a minus signal in the differentiation circuit 1512e, so that the two signals are transmitted. Two signals are transmitted from the peripheral control board 1510 to the effect display drive board 4450 housed in the dish unit 320 of the door frame 3. When the door frame side effect receiver ICSDIC0 of the liquid crystal module circuit 4450V provided in the effect display drive board 4450 determines that the two received signals are LOCKN signal output request data, the LOCKN signal output request data is As described above, since the data format is different from the signal output from the door frame side effect transmitter IC 1512d, it is determined that the data is abnormal, and the LOCKN signal is transmitted to the periphery of the peripheral control unit 1511 of the peripheral control board 1510. It outputs to control MPU1511a. As a result, the peripheral control MPU 1511a determines that there is no problem in the connection between the transmitter and the receiver when the LOCKN signal is input as a response signal to the transmission of the LOCKN signal output request data. While it can be determined that no malfunction has occurred, when the LOCKN signal is not input, it is determined that a malfunction has occurred in the connection between the transmitter and the receiver. A notification image (for example, “A problem has occurred in the upper plate side liquid crystal display device. Please call the store clerk”) is transmitted to the game board side effect display device by controlling the sound source built-in VDP 1512a. 1600, and a notification sound (for example, “upper plate side” Problems with crystal display device has occurred. "), And notification sound from the speaker or the like provided in the door frame 3 by outputting the audio data transmission IC1512c to control the sound source built VDP1512a flows. Thereby, notification can be performed by the notification image displayed in the display area of the game board side effect display device 1600 and the notification sound that repeatedly flows from the speaker or the like provided on the door frame 3. At this time, all of the LEDs for light emitting decoration provided in the door frame 3 and the various LEDs mounted on various decoration boards provided in the game board 5 may be lit.

  As described above, when the peripheral control MPU 1511a of the peripheral control unit 1511 transmits the LOCKN signal output request data which is serial data, the forcible switching circuit 1512f can receive the LOCKN signal output request data by the door frame side effect receiver ICSDDIC0. The door frame side receiver ICSDIC0 that receives the LOCKN signal output request data outputs the LOCKN signal from the LOCKN terminal of the door frame side receiver ICSDIC0 as a response signal to the peripheral control MPU 1511a. Therefore, when the LOCKN signal is input, it can be determined that there is no problem with the connection between the transmitter and the receiver, and it can be determined that there is no problem with the door frame side effect display device 460, while LOCKN The signal is input When not it can be determined that a malfunction in the door frame side effect display device 460 as a malfunction has occurred in the connection between the transmitter and receiver occurs. Then, the peripheral control MPU 1511a can execute the communication error display process in step S1548 in the connection recovery process of FIG. It has become. In other words, when the peripheral control MPU 1511a finds a defect in the door frame side effect display device 460, it can notify the store clerk or the like of the hall by executing the notification process. Hall clerk and the like can very easily check whether there is a problem in the door frame side effect display device 460 before the player plays a game, and the check does not take time. ing. Therefore, the trouble of the door frame side effect display device 460 can be found without taking time and effort.

  Further, as described above, the LOCKN signal is data in which the drawing data received from the door frame side effect transmitter IC 1512d provided on the peripheral control board 1510 by the door frame side effect receiver IC SDIC0 provided on the effect display drive board 4450 is abnormal data. If it is determined, it is a signal that is output to convey the fact, specifically, a door frame side effect transmitter IC 1512d provided in the peripheral control board 1510 and a door frame side effect receiver provided in the effect display drive board 4450. This is a signal that is output to request transmission of a predetermined data pattern (SYNC pattern) for confirming (recovering) the connection between ICSDIC0, that is, the connection between the transmitter and the receiver. The receiver ICSDIC0 is a door frame side effect transmitter IC1512d. When the image transmitted from the terminal cannot be normally received, a communication failure occurs between the image communication between the door frame side effect receiver ICSDIC0 and the door frame side effect transmitter IC 1512d, and the received drawing data becomes abnormal data. For this purpose, the LOCKN signal can be output to the peripheral control MPU 1511a of the peripheral control unit 1511. As a result, the peripheral control MPU 1511a to which the LOCKN signal is input doors the connection confirmation signal for informing that transmission of a predetermined data pattern (SYNC pattern) from the door frame side effect transmitter IC 1512d to the door frame side effect receiver ICSDIC0 is started. By outputting to the frame-side effect transmitter IC 1512d, it is possible to eliminate communication problems between image communications. In other words, the peripheral control MPU 1511a can detect the failure of the door frame side effect display device 460 due to the communication failure between the image communications at an early stage, and act on the door frame side effect transmitter IC 1512d so as to eliminate the failure. It is like that. Accordingly, it is possible to suppress a decrease in the player's gaming motivation by discovering and eliminating the problem of the door frame side effect display device 460.

  Further, the door frame side effect receiver ICSDIC0 that receives the image transmitted from the door frame side effect transmitter IC 1512d and outputs the image to the door frame side effect display device 460 receives the image transmitted from the door frame side effect transmitter IC 1512d. When the reception is impossible, the effect control microprocessor outputs a LOCKN signal, which is a communication failure occurrence signal indicating that a communication failure has occurred between the image communication between the door frame side effect receiver ICSDDIC0 and the door frame side effect transmitter IC 1512d. Since the peripheral control MPU 1511a of the peripheral control unit 1511 can output to the peripheral control MPU 1511a, the peripheral control MPU 1511a to which the LOCKN signal is input controls the VDP 1512a with built-in sound source of the liquid crystal display control unit 1512 to cause a communication failure. Telling you The message “A problem has occurred in the upper plate side liquid crystal display device. Please call the store clerk.” Is generated, and the generated image is displayed in the display area of the game board side effect display device 1600 for notification. Can be done. In other words, the peripheral control MPU 1511a discovers a failure of the door frame side effect display device 460 due to a communication failure between image communications at an early stage, and notifies the player sitting on the front surface of the pachinko machine 1 to that effect. Since the player can tell the hall clerk, etc., or directly notify the hall clerk who passed by the pachinko machine 1 by chance, the hall clerk etc. Work can be started at an early stage to resolve the problem. Therefore, it is possible to suppress a decrease in the player's gaming motivation by early finding and solving the problem of the door frame side effect display device 460.

  Furthermore, the peripheral control MPU 1511a of the peripheral control unit 1511 includes a door frame side effect transmitter IC 1512d provided in the peripheral control board 1510 and a door frame provided in the effect display drive board 4450 in the period (interval period) from the timing K1 to the timing K2. Even if there is a failure in the connection between the receiver ICSDIC0 for the side effect, that is, the connection between the transmitter and the receiver, there is a failure in the connection between the transmitter and the receiver. When the accumulated number of times determined to be in a state of being not reached the accumulated number upper limit CC-LMT, a predetermined data pattern (SYNC pattern) for activating the LOCKN signal and eliminating a communication failure between image communications From the door frame side effect transmitter IC1512d A connection confirmation signal indicating that transmission is to be started to the frame side effect receiver ICSDIC0 can be continuously output to the door frame side effect transmitter IC 1512d until the cumulative number reaches the cumulative number upper limit CC-LMT. It has become. Accordingly, the peripheral control MPU 1511a of the peripheral control unit 1511 causes the main control MPU 1310a of the main control board 1310 to change the first special symbol or the second special symbol game in the first special symbol display 1403 or the second special symbol display 1405. Since it is possible to continue outputting the connection confirmation signal only during the period in which the game is not started by displaying the start and stop, it is possible to move toward the direction in which the communication failure is eliminated.

  Then, the peripheral control MPU 1511a of the peripheral control unit 1511 has a door frame side effect transmitter IC 1512d provided in the peripheral control board 1510 and a door frame side provided in the effect display drive board 4450 in the period (interval period) from timing K1 to timing K2. This is a case where there is a failure in the connection between the production receiver IC SDIC0, that is, the connection between the transmitter and the receiver even once, and the connection between the transmitter and the receiver is defective. When the accumulated number of times determined to be in the state does not reach the accumulated number upper limit CC-LMT, a predetermined data pattern (SYNC pattern) for validating the LOCKN signal and eliminating a communication malfunction between image communications is displayed. Door frame side effect transmitter IC1512d to door When the connection confirmation signal informing the start of transmission to the side effect receiver ICSDIC0 is repeatedly output to the door frame effect transmitter IC 1512d until the accumulated number reaches the accumulated number upper limit CC-LMT. When the main control MPU 1310a of the control board 1310 starts changing the first special symbol or the second special symbol game in the first special symbol display 1403 or the second special symbol display 1405 and starts executing the game again, the connection confirmation When the signal output is stopped and the connection confirmation signal output from the peripheral control MPU 1511a is stopped and no connection confirmation signal is input, the door frame side effect transmitter IC 1512d outputs a predetermined data pattern (SYNC pattern) to the door frame. Controlling liquid crystal display by stopping transmission to the receiver ICSDIC0 for side effects The image the sound source built VDP1512a to the generation of 1512 has been to be able to output to the door frame side for effect receiver ICSDIC0. Accordingly, the peripheral control MPU 1511a of the peripheral control unit 1511 causes the main control MPU 1310a of the main control board 1310 to change the first special symbol or the second special symbol game in the first special symbol display 1403 or the second special symbol display 1405. By continuing to output the connection confirmation signal, which is a failure resolution signal, only during the period when the game is not started by displaying the start and stop, the communication failure can be resolved. Therefore, the main control MPU 1310a of the main control board 1310 starts changing the first special symbol or the second special symbol game in the first special symbol display unit 1403 or the second special symbol display unit 1405 and stops and displays it. When the connection confirmation signal is repeatedly output only during the period when the game is not progressing, the main control board 1 Even if ten main control MPUs 1310a start changing the first special symbol or the second special symbol game in the first special symbol display 1403 or the second special symbol display 1405 and start executing the game again, the door frame When the main control MPU 1310a of the main control board 1310 starts executing the game again and ends (period of timing K1 to timing K2), the distortion of the image (disturbance of the image) that progresses on the display screen of the side effect display device 460. Every time (interval period), it can be made to go away.

  According to the embodiment as described above, the pachinko machine 1 includes the main control board 1310 of FIG. 69 and the payout control board 951 of FIG. The main control board 1310 has a first start port 2002 or a second start which is a start area in which a game ball launched by the ball striking device 650 is directed toward the game area 5a defined in the game board 5 in the game area 5a. The main control MPU 1310a of FIG. 69, which is a game control microprocessor for controlling the progress of the game based on the ball 2004 entering the mouth 2004, is mounted. The payout control board 951 is a payout control microprocessor that controls the payout of the game balls by the payout device 830 based on the prize ball commands in FIGS. 88 (a) and 88 (b) which are payout commands from the main control board 1310. 70 payout control MPUs 952a are installed.

  The main control MPU 1310a which is a game control microprocessor includes at least a RAM (main control built-in RAM) built in the main control MPU 1310a. The main control built-in RAM can store information related to the game even after the power is shut off.

  The payout control MPU 952a, which is a payout control microprocessor, includes at least a RAM (payout control built-in RAM) built in the payout control MPU 952a. The payout control built-in RAM can store information related to payout even after the power is shut off.

  The pachinko machine 1 according to the present embodiment further includes an operation switch 954 shown in FIG. If the operation switch 954 is operated within the period in which the determination process of step S16 in the main control-side power-on process in FIG. 92 is performed from when the power is turned on, the information regarding the game stored in the main control built-in RAM is erased. 77 is output to the main control MPU 1310a, which is a game control microprocessor, and if the payout control unit is operated within the period during which the power-on process is performed, the payout control built-in RAM is stored in the payout control built-in RAM. A RAM clear function for outputting the RWMCLR signal of FIG. 82 to the payout control MPU 952a as a payout control microprocessor as a RAM clear signal for erasing the stored payout information, and the main control side power supply of FIG. Period (or power supply) in which the determination process of step S16 is performed in the on-time process 82 is used as an error canceling signal for canceling an error that has occurred with respect to the payout device 830 when it is operated after a period of time during which the payout control unit power-on process is performed from the time of entry. And an error canceling function for outputting to the payout control MPU 952a which is a payout control microprocessor without outputting to the main control MPU 1310a.

  As described above, when the operation switch 954 is operated within the period in which the determination process of step S16 in the main control side power on process of FIG. 92 is performed from when the power is turned on, the game stored in the main control built-in RAM. 77 is output to the main control MPU 1310a, which is a game control microprocessor, and is operated within a period during which the payout control unit power-on process is performed from when the power is turned on. The RAM clear function for outputting the RWMCLR signal of FIG. 82 to the payout control MPU 952a as the payout control microprocessor as a RAM clear signal for erasing information related to payout stored in the payout control built-in RAM, and FIG. The determination process of step S16 in the main control side power-on process is performed 82 (or a period during which the payout control unit power-on process is performed after power-on) has passed, the RWMCLR signal in FIG. 82 is used as an error cancel signal for canceling an error that has occurred with respect to the payout device 830. Since it also has an error canceling function that outputs to the payout control MPU 952a that is a payout control microprocessor without outputting to the main control MPU 1310a that is a game control microprocessor, the RAM clear function can be operated by one operation switch 954. The pachinko machine 1 can be provided with two different functions, ie, an error canceling function. Therefore, a RAM clear function and an error cancel function can be provided while contributing to cost reduction.

[Sensor signal input part of panel relay board 4161]
The sensor signal input unit of the panel relay board 4161 includes various detection sensors arranged on the game board, for example, a general winning port sensor 4020, a first starting port sensor 4002, a second starting port sensor 4004, a count sensor 4005, and a vibration detection sensor. , A circuit to which a detection signal from the magnetic detection sensor 4024 or the like is input. Since the circuit configuration to which the detection signal from each detection sensor is input is the same, here, the magnetic detection sensor 4024 is cited as an example of the detection sensor, and the circuit to which the detection signal from the magnetic detection sensor 4024 is input will be described. To do.

  In a gaming machine, try to obtain an unfair advantage by manipulating the flow-down state of a game ball as desired by bringing a magnet (for example, a permanent magnet or an electromagnet) closer to the game ball that is driven into the game area. There is no end to illegal gaming activities.

  A magnetic detection sensor 4024 capable of detecting magnetism is provided in correspondence with a predetermined position in the game area in order to detect such an illegal game action and suppress the illegal action by a light emitting means or an alarm by sound. Yes.

  Next, in the pachinko machine 1 according to this embodiment, examples of game progress and effects will be briefly described.

  As described above, the main control board 1310 executes various processes for controlling the entire pachinko machine 1 and outputs various control signals (control commands) according to the processing results. Also, the peripheral control board 1510 is based on the control signal (control command) output from the main control board 1310, the display mode of the effect display device 1600 (display images such as symbols, various background images, characters, characters, etc.) The display mode and operation mode of various members (production operation unit 400, movable members, etc.) contributing to the production are controlled.

  In particular, the main control board 1310 performs a special symbol and special electric accessory control process each time an interrupt process is performed. As will be described later, in the special symbol and special electric accessory control process, first and second start port passing processes are first performed. In the first and second start port passing processing, it is determined whether or not a game ball has won at the start port. Done.

  If the processing flag is 0 when the first and second start port passage processing is finished, the variation start processing is executed. In this fluctuation start process, after the jackpot determination in the hold state is digested and executed on condition that the number of holds is 1 or more, the result of this jackpot determination (winning, its type, etc.) is stored The processing flag is updated to “1”.

  On the other hand, if the processing flag is 1 when the first and second start port passage processing is completed, the variation pattern setting processing is executed. In this variation pattern setting process, the variation pattern of the special symbol (identification symbol) displayed on the first special symbol display or the second special symbol display based on the stored jackpot determination result or the current gaming state ( The processing flag is updated to “2” after determining and setting a stop symbol (such as a jackpot symbol or a lost symbol) after a special symbol variable display is started and stopped.

  On the other hand, if the process flag is 2 when the first and second start-port passing processes are completed, the changing process is executed. In this changing process, the change time determined and set in the change pattern setting process is monitored by the timer, and the change display of the special symbol on the first special symbol display or the second special symbol display based on the time-out. Stop. After that, when the big hit determination result stored in the fluctuation start process is a big hit, the process selection flag is updated to “3”, and when the big hit determination result stored in the fluctuation start process is not a big hit (losing) The processing selection flag is updated to “0”. That is, in this case, in the next interrupt process, the change start process is started again.

  On the other hand, if the process flag is 3 when the first and second start-port passing processes are completed, the big hit game process is executed. In this jackpot game process, a condition device which is one of the conditions for executing the jackpot game is operated, and the mode of the jackpot game (for example, the number of rounds) determined based on the type of winning jackpot is set. Based on this, the opening / closing operation applied to the opening / closing member 2106 is controlled. In addition, when the big hit game ends, processing to stop the operation of the condition device is performed, or when the winning big hit type is a special type, it is controlled to an advantageous state such as a short time state or a probable change state. As shown, after the game state flag is updated, the processing flag is updated to “0”. That is, in this case, in the next interrupt process, the change start process is started again.

  Note that a plurality of types of variation patterns are stored as variation patterns. The variation pattern determines the time from when the symbol variation of the special symbol starts to when it ends, and when the information is transmitted to the peripheral control board 1510, the effect appearing in the effect display device 1600 The type of pattern can be determined. In the present embodiment, the plurality of types of variation patterns can be classified into a jackpot variation variation pattern, a deviation reach variation variation pattern, and a variation variation variation pattern. The big hit fluctuation is a fluctuation that is performed when the result of the big hit determination is a big hit. In the effect display device 1600, after reaching the reach effect, the fluctuation display of the decorative symbol is expanded so that the big hit symbol is finally displayed in a fixed stop state. Production is performed. The loss reach variation is a variation performed when the result of the big hit determination is a loss and it is determined that the reach determination is performed based on the reach determination random number, and the effect display device 1600 performs the reach effect. Then, the effect is developed so that the variation display of the decorative symbol is finally deviated and the symbol is confirmed and stopped. The loss variation is a variation that is performed when the result of the big hit determination is a loss and the reach determination based on the reach determination random number is not determined to reach, and the effect display device 1600 performs the reach effect. Without being performed, an effect is developed in which the variation display of the decorative symbol is finally deviated and the symbol is displayed in a fixed stop state. The variation pattern is defined so that it can be specified which variation pattern is on the first special symbol side or the second special symbol side.

  That is, in the peripheral control board 1510, the game information such as the result of the big hit determination is obtained from the main control board 1310 and is referred to so that such a variation pattern of the decorative design can appear. In addition, on the peripheral control board 1510, based on the acquired game information, the effect display device 1600 causes the decorative pattern variation pattern to appear, and the effect display (background or reserved image) related to the degree of expectation is changed. Control is performed to change the mode (display and movement) of the operation unit 400 and to operate a movable member such as the after-behind movable effect unit 3100.

  In addition, the peripheral control board 1510 can acquire operation information for the operation button 410 and player operation information in the vicinity of the opening window, and can also perform control related to effects according to the information.

  Here, the principle of acquiring operation information in the vicinity of the opening window will be described. FIG. 106 is a schematic diagram for explaining the operation information acquisition principle in the vicinity of the opening window. In addition to omitting unrelated members in explaining the operation information acquisition principle, These are shown schematically. 107 is a cross-sectional view taken along line AA in FIG.

  That is, as described above, in the pachinko machine 1 according to this embodiment, the game board 5 in which the game area 5a in which the game ball flows down is formed and which is stored in the main body frame 4 and the game area 5a are visible. And a door frame 3 that has an open window and can be opened and closed with respect to the main body frame 4. As shown in FIGS. 106 and 107, the door frame 3 is provided with a reflective standing wall portion 33 that is erected along the outer periphery of the opening window so that light can be reflected at least on the inner surface thereof. It has been. The opening window is a portion on the front side (front side) of the glass plate 192 in the through-hole 111.

  Here, the reflection standing wall 33 is provided as a frame decoration. More specifically, the reflection standing wall 33 is formed by a lower reflection standing wall 338 formed by the lower dish unit base 323, a left reflection standing wall 538 formed by the left unit base 531, and a right unit base 551. The right reflective upright wall portion 568 is provided, and these members are arranged in a substantially U-shape along the outer peripheral edge of the open window (a mode in which no reflective upright wall portion is installed above the open window). It is configured by In the lower reflection standing wall portion 338, the left reflection standing wall portion 538, and the right reflection standing wall portion 568, the inner side surfaces thereof are substantially perpendicular to one specific virtual plane P (FIG. 107). The light reflecting surface is provided.

  According to such a configuration, none of the lower reflection standing wall portion 338, the left reflection standing wall portion 538, and the right reflection standing wall portion 568 is provided among the reflection standing wall portions 33 formed in a substantially U shape. The portion (the upper side of the opening window) is “light from a predetermined light source outside the outer periphery of the opening window travels on the one specific virtual plane P and is taken into the outer periphery of the opening window, and as a result, a reflecting vertical wall portion It functions as a first part that makes it possible to “reflect at 33”, and “the light reflected by the reflecting vertical wall portion 33 travels on the one specific virtual plane P and outside the outer periphery of the opening window”. It will also serve as a second part that makes it possible to “be detected”.

  Furthermore, in the reflection standing wall 33 according to this embodiment, one reflection is performed across the inner side surfaces of three separate members (the lower reflection standing wall 338, the left reflection standing wall 538, and the right reflection standing wall 568). A structure to which a member 36 (for example, a reflection seal) is attached is adopted, and thereby the reflection performance as the reflection standing wall portion 33 is suitably ensured including the joints of three separate members.

  In this regard, in the pachinko machine 1 according to this embodiment, as shown in FIG. 106, the left side base 572a provided on the upper left side outside the outer periphery of the opening window in the door frame 3 (see FIG. 23). The inner space 3435a includes a left outer periphery outer light emitting unit 34a and a left outer periphery outer light detecting unit 35a. Note that the left side base 572a itself is provided by a member having a very low light transmittance (or 0).

  Here, the internal space 3435a is a space including the one specific virtual plane P that intersects with the lower reflection standing wall 338, the left reflection standing wall 538, and the right reflection standing wall 568, respectively, and is provided with an opening window. It is provided as a space that is opened only toward the side, allows light to travel toward the opening window side, and receives light from the opening window side. However, in the pachinko machine 1 according to this embodiment, such an internal space 3435a is provided behind the left upper speaker 573, but in order to suppress fraud from the back of the speaker 573, it is between the opening window. A transmissive member 3436a designed so as to have extremely high transparency and extremely low influence on the traveling direction of light is arranged.

  The left outer periphery outer light emitting unit 34a is unitized with the left outer periphery outer light detecting unit 35a and emits light toward a wide range at least on the side where the opening window is provided on the one specific virtual plane P. Is provided so that it can proceed.

  The left outer periphery outer light detection unit 35a is unitized with the left outer periphery outer light emitting unit 34a, and can detect light from the side where the opening window is provided on at least the one specific virtual plane P. It is provided to be.

  According to such a configuration, the light from the left outer peripheral light emitting portion 34a travels to the opening window side and then is reflected by the reflective standing wall portion 33, and becomes reflected light from the reflective standing wall portion 33 to form the internal space 3435a. Incorporated. In this respect, in the internal space 3435a, only the light from the opening window side is taken in by the left side base 572a, so that the disturbance from the left outer peripheral outer light emitting unit 34a can be suppressed while the disturbance is suitably suppressed. The light emitted and reflected by the reflecting vertical wall portion 33 can be detected by the left outer peripheral outside light detector 35a.

  Furthermore, in the pachinko machine 1 according to this embodiment, as shown in FIG. 106, the right side base 572b provided on the upper right side outside the outer periphery of the opening window in the door frame 3 (see FIG. 23). In the internal space 3435b, a right outer periphery outer light emitting unit 34b and a right outer periphery outer light detecting unit 35b are provided. The right side base 572b itself is also provided by a member having a very low light transmittance (or 0).

  Here, like the internal space 3435a, the internal space 3435b includes the one specific virtual plane P at a position where it intersects with the lower reflective vertical wall 338, the left reflective vertical wall 538, and the right reflective vertical wall 568, respectively. And is opened as a space where only the opening window is provided so that light can travel toward the opening window, and light from the opening window can be taken in. However, in the pachinko machine 1 according to this embodiment, such an internal space 3435b is provided behind the right upper speaker 573, but in order to suppress fraud from the back of the speaker 573, it is between the opening window. A transmissive member 3436b designed to have a very high transmittance and a very low influence on the light traveling direction is arranged.

  In addition, the right outer peripheral light emitting unit 34b is unitized with the right outer peripheral light detecting unit 35b, and emits light toward a wide range at least on the side where the opening window is provided on the one specific virtual plane P. Is provided so that it can proceed.

  The right outer periphery outer light detection unit 35b is unitized with the right outer periphery outer light emitting unit 34b, and can detect light from the side on which the opening window is provided on at least the one specific virtual plane P. It is provided to be.

  According to such a configuration, the light from the right outer peripheral light emitting portion 34b travels to the opening window side and then is reflected by the reflecting vertical wall portion 33, and is reflected from the reflective vertical wall portion 33 to become the internal space 3435b. Incorporated. In this regard, in the internal space 3435b, only the light from the opening window side is taken in by the right side base 572b, so that the disturbance from the right outer peripheral outer light emitting unit 34b can be suppressed while disturbance is suitably suppressed. The light emitted and reflected by the reflecting vertical wall portion 33 can be detected by the right outside right outside light detecting portion 35b.

  That is, in the pachinko machine 1 according to this embodiment, the region (3) surrounded by the lower reflective upright wall portion 338, the left reflective upright wall portion 538, and the right reflective upright wall portion 568 from the three directions by their height widths ( 107 is a special operation receiving portion 3333 that can detect an operation by the player, and the player's operation mode for the special operation receiving portion 3333 is determined. Thus, the production control according to the determination can be executed.

  For example, when the player does not perform an operation on the special operation receiving portion 3333, the light irradiated in a wide angle range from the left outer peripheral light emitting portion 34a is not blocked by any physical object, and is reflected from the reflecting vertical wall portion 33. The reflected light from various angles at (a variety of angles on at least one specific virtual plane P) travels toward the left outer periphery outside light detection unit 35a. That is, in the left outer periphery outside light detection unit 35a, a plurality of light receiving elements (a plurality of light receiving elements arranged on at least one specific virtual plane P) that reflects light from various angles using an optical lens or the like. The special operation receiving unit 3333 outputs information indicating that no physical object is present to the peripheral control board 1510 based on the separate detection signal.

  At this time, the light emitted from the right outer peripheral light emitting unit 34b in a wide angle range is also not blocked by any physical object, and various angles (at least one specific virtual plane P on the specific virtual plane P) without being blocked by any physical object. Angle) to be reflected toward the right outer peripheral outside light detector 35b. That is, the right outer periphery outside light detection unit 35b also uses a plurality of light receiving elements (a plurality of light receiving elements arranged on at least one specific virtual plane P) to reflect light from various angles using an optical lens or the like. The special operation receiving unit 3333 outputs information indicating that no physical object is present to the peripheral control board 1510 based on the separate detection signal.

  On the other hand, when the player performs an operation on the special operation receiving portion 3333 in the manner shown in FIG. 106, a part of the light emitted from the left outer periphery light emitting portion 34a in a wide angle range is a player's finger ( Only the light other than the light directed in the blocked direction (angle range) becomes reflected light on the reflecting vertical wall portion 33 and travels toward the left outer peripheral outside light detection unit 35a. That is, in this case, the left outer periphery light emitting unit 35a is based on information from the plurality of light receiving elements (a plurality of light receiving elements arranged on at least one specific virtual plane P). By determining the direction (angle) and the size (angle range) of the light emitted from the light source, the size of the physics in which direction as viewed from the left outer peripheral light emitting unit 34a Information about whether the object exists is output to the peripheral control board 1510.

  At this time, a part of light emitted from the right outer peripheral light emitting part 34b in a wide angle range is also blocked by the player's finger (physical object), and light directed in the blocked direction (angle range). Only the other light becomes reflected light at the reflecting vertical wall portion 33 and travels toward the right outer peripheral outside light detection portion 35b. That is, in this case, the right outer periphery outside light detection unit 35b is based on information from the plurality of light receiving elements (a plurality of light receiving elements arranged on at least one specific virtual plane P), and the right outer periphery outside light emitting unit 34b. By determining the blocked direction (angle) and the size (angle range) of the light emitted from the light source, the physical quantity of which direction in which direction when viewed from the right outer peripheral light emitting unit 34b. Information about whether the object exists is output to the peripheral control board 1510.

  In the peripheral control board 1510, the information from the left outer periphery outside light detection unit 35a and the information from the right outer periphery outside light detection unit 35b are respectively acquired and analyzed, and the special operation receiving unit 3333 performs physical analysis. In addition to information on whether or not an object exists (whether an operation has been performed on the special operation receiving unit 3333), when a physical object exists in the special operation receiving unit 3333, its coordinate position (x, y) and size It becomes possible to acquire information related to the situation. As will be described later, in the peripheral control board 1510 according to this embodiment, such information is periodically acquired. This allows the movement of the physical object in the special operation receiving unit 3333 and the size of the physical object. An operation gesture such as a change can be determined, and an effect control corresponding to the determination is executed.

  Note that these analysis processes do not necessarily have to be performed on the peripheral control board 1510 side, but are performed by an external unit that acquires information from the left outer periphery outer light detection unit 35a and the right outer periphery outer light detection unit 35b. The peripheral control board 1510 may acquire the analysis result from the external means, or the external control means and the peripheral control board 1510 may share the analysis results.

  Further, the light emission from the left outer periphery light emitting unit 34a and the light emission from the right outer periphery light emitting unit 34b are respectively blinked, and the left outer periphery outer light emitting unit 34a is in a light emitting state and the right outer periphery outer light emitting unit 34b is in an extinguished state. A certain period and a period in which the left outer periphery light emitting unit 34a is in the off state and the right outer periphery light emitting unit 34b is in the light emitting state may be alternately generated. That is, in this case, the reflected light when the left outer peripheral light emitting unit 34a is in the light emitting state is detected on the left outer peripheral light detecting unit 35a side, and the reflected light when the right outer peripheral light emitting unit 35a is in the light emitting state is detected. If the light is detected on the side of the external light detection unit 35b and analyzed based on such information, the light from the left outer peripheral light emitting unit 34a and the light from the right outer peripheral light emitting unit 34b do not interfere with each other. Accordingly, it is expected to obtain detection information with higher accuracy.

  Further, the light emission from the left outer periphery light emitting portion 34a and the light emission from the right outer periphery light emitting portion 34b are respectively blinked, and the left outer periphery outer light emitting portion 34a is in the light emitting state and the right outer periphery outer light emitting portion 34b is in the off state. , A period in which the left outer periphery light emitting unit 34a is in the off state and a right outer periphery light emitting unit 34b is in a light emitting state, and a left outer periphery outer light emitting unit 34a is in an extinguished state and the right outer periphery outer light emitting unit 34b One cycle in which the periods in the extinguishing state occur sequentially may be repeated. That is, in this case, the reflected light when the left outer peripheral light emitting unit 34a is in the light emitting state is detected on the left outer peripheral light detecting unit 35a side, and the reflected light when the right outer peripheral light emitting unit 35a is in the light emitting state is detected. If the detection is performed on the side of the external light detection unit 35b, the offset amount when the left outer periphery outer light emitting unit 34a and the right outer periphery outer light emitting unit 35a are in the off state is also detected and analyzed based on these information, The light from the left outer peripheral light emitting unit 34a and the light from the right outer peripheral light emitting unit 34b do not interfere with each other, and the detected offset can be eliminated before determination can be made. It is expected to obtain high detection information.

  Further, visible light may be used as light from the left outer peripheral light emitting unit 34a and the right outer peripheral light emitting unit 34b. However, in the case of the pachinko machine 1, in view of the fact that the light is being produced in various places, it is possible to use invisible light rays such as infrared rays, the disturbance from the effect light and the effect light. It is more desirable to suitably suppress adverse effects on

  Further, in the pachinko machine 1 according to this embodiment, “light from a predetermined light source outside the outer periphery of the opening window travels on the one specific virtual plane P and is taken into the outer periphery of the opening window. A first portion that makes it possible to “reflect the reflection standing wall portion 33”, and “light reflected by the reflection standing wall portion 33 travels on the one specific virtual plane P and outside the outer periphery of the opening window”. The second portion that makes it possible to “be detected” is provided as the same portion of the reflection standing wall portion 33 formed in a substantially U-shape. However, a plurality of areas where the light is allowed to travel between the outer periphery and the outer periphery of the opening window are provided with respect to the reflection standing wall 33, and the outer periphery light emitting section and the outer periphery light detection section are separately provided for these areas. And may be arranged respectively.

  Further, in the pachinko machine 1 according to this embodiment, the reflecting vertical wall portion 33 is formed in a substantially U-shape with the upper part opened, but the inner space 3435a and the inner space 3435b of the upper part of the opening window are formed. You may make it form the reflection standing wall part 33 also in the periphery of between. However, it is desirable to provide a direction in which the internal space 3435a and the internal space 3435b are opened downward in order to suppress disturbance due to direct light from illumination or the like. .

  Further, in the pachinko machine 1 according to this embodiment, the left outer periphery light emitting unit 34a and the left outer periphery outer light detection unit 35a, the right outer periphery outer light emitting unit 34b, and the right outer periphery outer light detection unit 35b are used to specially Although the operation in the operation receiving unit 3333 can be detected, the present invention is not limited to this. That is, any structure that can detect an operation in the special operation receiving unit 3333 may be used. For example, the reflected light from the left outer periphery outer light emitting unit 34a and the reflected light from the right outer periphery outer light detecting unit 35b are reflected on one outer periphery. The detection may be performed by the light detection unit, and the coordinates (x, y) and size of the physical object may be determined from the detection result.

  As described above, in the pachinko machine 1 according to this embodiment, the light from the outer-periphery light emitting unit 34 (the left outer-periphery light-emitting unit 34a and the right outer-periphery light-emitting unit 34b) provided outside the outer periphery of the opening window As the reflected light from the reflection standing wall 33 which is erected along the outer periphery of the window and is formed so as to be able to reflect light at least on the inner surface thereof, the outer-peripheral light detection unit 35 (the outer periphery on the left side) is provided outside the outer periphery of the opening window. By detecting the external light detection unit 35a and the right outer peripheral external light detection unit 35b), the vicinity of the opening window functions as the special operation receiving unit 3333, and the special operation receiving unit 3333 produces an effect according to the operation mode of the player. It can be executed.

  Further, the outer periphery outside light detection unit 35 is not disposed in a dew state, but is disposed in the inner space 3435 of the side base 572 that is opened toward the side where the opening window is provided. It has also been described above that when the light is detected by the unit 35, the effect light that can be a disturbance can be suitably excluded.

  However, even if it is such a structure, the light from the outer periphery light emission part 34 was reflected by the reflection standing wall part 33 from the part opened toward the opening window side of the internal space 3435. Since the effect light can be taken in addition to the light, there is a concern that such effect light may become a disturbance and adversely affect the detection accuracy of the outer-periphery light detection unit 35.

  Therefore, in the pachinko machine 1 according to this embodiment, as shown in FIG. 107, the frame-side light emitting portion L1 provided on the right unit base 551 of the main body frame 4 is first on the one specific virtual plane P. It is made to arrange | position in the position which cannot irradiate the light which progresses. More specifically, the frame-side light emitting portion L1 is provided at a position on the front side of the special operation receiving portion 3333, and the light transmittance is extremely low (or 0) with respect to the base portion BL1. Is attached to the side. Since the base portion BL1 is wider than the frame side light emitting portion L1, it is difficult for the light from the frame side light emitting portion L1 to travel to the rear side (the side where the opening window is provided). As a result, light from the frame side light emitting portion L1 is not easily taken into the internal space 3435.

  Moreover, in the right unit base 551 according to this embodiment, the first right decoration base portion 551a provided by a material that allows light from the frame side light emitting portion L1 to travel with high transmittance, and the frame side And a second right decoration base portion 551b provided by a material (for example, metal) having a low transmittance (or a transmittance of 0) that hinders the light from the light emitting portion L1. The first right decoration base portion 551a is formed so as to surround the frame side light emitting portion L1 so that the light from the frame side light emitting portion L1 can contribute as effect light, whereas the second right decoration The base portion 551b is formed between the frame side light emitting portion L1 and the opening window so that light from the frame side light emitting portion L1 does not easily travel toward the side where the opening window is provided. This also makes it difficult for the light from the frame side light emitting portion L1 to be taken into the internal space 3435.

  In particular, the second right decorative base portion 551b according to this embodiment allows the light from the frame side light emitting portion L1 to travel to the player side through the first right decorative base portion 551a. The right decorative base portion 551a is provided so as to extend to a part of the front side thereof, thereby suitably suppressing the light from the frame side light emitting portion L1 from traveling to the opening window. .

  In the pachinko machine 1 according to this embodiment, the right unit base 551 is provided with both the base portion BL1 and the second right decoration base portion 551b. However, only one of them is provided. Even in this case, it is possible to make it difficult for the light from the frame side light emitting portion L1 to be taken into the internal space 3435.

  On the other hand, the frame side light emitting portion L2 provided on the left unit base 531 of the main body frame 4 is attached to the front side of the base portion BL2 having a very low light transmittance (or 0). It is in the position which can irradiate the light which advances on the specific virtual plane P. However, as is clear from FIG. 107, the reflection member 36 is provided between the frame-side light emitting portion L2 and the opening window, so that the light from the frame-side light emitting portion L2 is provided with the opening window. Therefore, it is difficult for the light from the frame side light emitting portion L2 to be taken into the internal space 3435.

  However, since the reflection member 36 has a low width, there is a concern that light from the frame-side light emitting portion L2 is reflected by another member and heads toward the opening window. Therefore, even in the left unit base 531 according to this embodiment, the first left decorative base portion 531a provided by a material that allows light from the frame side light emitting portion L2 to travel with high transmittance, and the frame side A second left decorative base portion 531b provided with a material (for example, metal) having a low transmittance (or a transmittance of 0) that hinders the light from the light emitting portion L2. The first left decorative base portion 531a is formed so as to surround the frame side light emitting portion L2 so that the light from the frame side light emitting portion L2 can contribute as effect light. The base portion 531b is formed between the frame side light emitting portion L2 and the opening window so that the light from the frame side light emitting portion L2 does not easily travel toward the side where the opening window is provided. This also makes it difficult for light from the frame side light emitting portion L2 to be taken into the internal space 3435.

  In particular, the second left decorative base portion 531b according to this embodiment allows the light from the frame side light emitting portion L2 to travel to the player side through the first left decorative base portion 531a. The left decorative base portion 531a is provided so as to extend to a part of the front side thereof, thereby suitably suppressing the light from the frame side light emitting portion L2 from traveling to the opening window. .

  In the pachinko machine 1 according to this embodiment, the left unit base 531 is provided with the second left decorative base portion 531b, and the right unit base 551 is provided with the second right decorative base portion 551b. These members do not necessarily have to be provided, and even in this case, the effect light is hardly taken into the internal space 3435 as described above. When the second left decorative base portion 531b and the second right decorative base portion 551b are not provided, the reflection member 36 is not provided with the first left decorative base portion 531a or the first right decorative base portion 551a. Rather than being attached to the outer surface (surface that can be contacted from the outside), if attached to the inner surface (surface that cannot be contacted from the outside) of the first left decorative base portion 531a or the first right decorative base portion 551a, from the outside It is expected to avoid the deterioration of the reflection performance due to the direct physical contact. In this case, the light from the outer peripheral light emitting part 34 (the left outer peripheral light emitting part 34a, the right outer peripheral light emitting part 34b) passes through the first left decorative base part 531a and the first right decorative base part 551a and then the above. The light is reflected by the reflecting member 36, passes through the first left decorative base portion 531 a and the first right decorative base portion 551 a again, and is taken into the internal space 3435.

  When the second left decorative base portion 531b is provided in the left unit base 531 and the second right decorative base portion 551b is provided in the right unit base 551, the reflecting member 36 is omitted, and the second The left decorative base portion 531b and the second right decorative base portion 551b themselves may function as a reflection member using a material such as metal. According to such a configuration, the effect light from the frame side light emitting portions L1 and L2 is disturbed only by including the reflecting member (the second left decorative base portion 531b and the second right decorative base portion 551b). While being suitably suppressed, the detection accuracy by the outside ambient light detection unit 35 can be suitably ensured by the reflected light from the reflecting member (the second left decorative base portion 531b and the second right decorative base portion 551b). Become.

  The peripheral control board 1510 according to this embodiment can obtain information such as the coordinates and size of a physical object located near the aperture window by using the operation information acquisition principle near the aperture window. As a result, a more dynamic and highly flexible operability using the entire area of the opening window (approximately the entire area visible in the front view of the glass plate 192) as the special operation receiving portion 3333. It is possible to realize a performance suitable for this.

  Hereinafter, operability and performance that can be realized by using such a special operation receiving portion 3333 will be described. 108 to 114 are schematic diagrams for explaining the operability and the rendering that can be realized by using the special operation receiving portion 3333, and are related in explaining the operability and the rendering. In addition to omitting members that are not present, these are also schematically shown for related members.

  FIG. 108 shows a special operation receiving portion 3333 when the pachinko machine 1 is viewed in front, and various effect members A to E arranged at positions overlapping the special operation receiving portion 3333 in front. Is schematically shown. In addition, the arrow in the figure simply shows the movable range of various movable bodies among effect members A to E.

  As shown in FIG. 108, when the special operation receiving portion 3333 according to this explanatory example is viewed from the front, the back side across the glass plate 192 can contribute to the effect according to the result of the big hit determination. As members, a movable body A1, A2, B, C, a display portion D, and a board surface light emitting portion E provided so as to be able to emit light at a portion where the game ball can flow down or at other portions are disposed. . The arrows in FIG. 108 schematically show the movable ranges of the movable bodies A1, A2, B, and C.

  Note that these members are shown as examples for explaining the technology of the present application, and do not necessarily match the embodiment described above with reference to FIG. Basically, however, the movable bodies A1, A2, B, and C are “movable effect unit 3100 after lower back, left movable effect unit 3200, upper left movable effect unit 3300, upper and lower movable effect unit 3400, The display portion D corresponds to the “effect display device 1600”, and the board surface light emitting portion E corresponds to “various decorations provided in the game board 5”. This corresponds to “various LEDs mounted on a substrate”. In addition, the board surface light emission part E does not necessarily need to be provided in the game board 5, For example, the member (light guide plate etc.) provided in the front side rather than the game board 5 may be sufficient.

  Here, in the peripheral control board 1510, first, the display unit D on which the effect display according to the result of the big hit determination is performed is positioned as the target of the operation effect. When the player performs an operation on the overlapping coordinate area and this is detected as a physical object, it can be controlled so that an effect change corresponding to the operation appears on the display unit D.

  Hereinafter, an example of effect control in the case where an effect change is caused on the display unit D by an operation on the special operation receiving unit 3333 will be described.

[First Operation Control Mode for Display Unit D]
For example, in the peripheral control board 1510 according to this embodiment, as shown in FIG. 108 and FIG. 109 (a), when the first performance condition is satisfied based on the result of the big hit determination, the special operation receiving unit Among all the coordinate areas (see FIG. 106) when 3333 is viewed from the front, the first coordinate area Z1 facing the first display area of the display unit D is set (controlled) so as to be able to receive an effect, and displayed. The specific operation instruction image S1 is displayed in the first display area of the part D. Then, during a predetermined period in which the specific operation instruction image S1 is displayed, an operation (for example, a touch operation (strictly on the glass plate 192) with respect to somewhere in the first coordinate area Z1 of the special operation receiving unit 3333 is performed. If a finger or the like is required in the special operation receiving portion 3333, it is not always necessary to touch it))), and when this is detected as a physical object, the specific operation instruction image S1 is hidden. The acceptance of the effect on the first coordinate area Z1 is terminated, an effect change is caused in the display unit D, and the control that can suggest the degree of expectation for the result of the big hit determination can be executed by the type of the effect change that has occurred.

  At this time, when producing an effect change based on an operation performed on somewhere in the first coordinate area Z1 in the special operation receiving unit 3333, the effect change is at least displayed on the display unit D. It is desirable to generate it in the first display area facing the first coordinate area Z1. That is, in this case, when the player makes it difficult to view the first display area in front view with his / her finger or the like, an effect change occurs at least in the first display area. In the first display area until the first display area is visually recognized from an oblique direction (using the space between the glass plate 192 and the display unit D) instead of shifting their fingers or from a front view. It becomes possible to make it difficult to recognize the change in production. Alternatively, the player keeps his finger on the first coordinate area Z1 and advances the game without confirming the effect change in the first display area, or is positioned in front of the pachinko machine 1 It is possible to select a way of enjoying such as having a third person who has not confirmed the effect change in the first display area, and it is expected to improve the game entertainment.

  Note that if no operation by the player is detected after the specific operation instruction image S1 appears and until a predetermined period elapses (specific timing comes), the specific operation instruction image S1 is not displayed. In addition, the reception of effects for the first coordinate area Z1 is terminated. At this time, an effect change that appears when an effect is received for the first coordinate area Z1 may be generated, or an effect change that appears when an effect is received for the first coordinate area Z1 is generated. You may make it complete | finish the production reception with respect to the 1st coordinate area | region Z1.

[Second Operation Control Mode for Display Unit D]
Further, in the peripheral control board 1510 according to this embodiment, as shown in FIGS. 108 and 109 (b), when the second effect condition is satisfied based on the result of the big hit determination, the special operation receiving portion Of all the coordinate areas (see FIG. 106) when 3333 is viewed in front, “second coordinate area Z2 facing the second display area of the display section D” and “third display of the display section D” In addition to setting (controlling) both the area and the third coordinate area Z3 facing the area, the second operation instruction image S2 is displayed in the second display area of the display unit D, and the third display area The third operation instruction image S3 is displayed. Then, in a predetermined period in which both the second operation instruction image S2 and the third operation instruction image S3 are displayed, the special operation receiver 3333 in the second coordinate area Z2 or the third coordinate area Z3. An operation (for example, a touch operation on the glass plate 192 (strictly, a finger or the like may be provided in the special operation receiving portion 3333 is not necessarily required)) is performed as a physical object. When detected, both the second operation instruction image S2 and the third operation instruction image S3 are hidden, and the reception of the effects in the second coordinate area Z2 and the third coordinate area Z3 is terminated, and the display unit D A specific effect (effect according to the selected side (coordinate region side where the physical object is detected)) is generated, and the expectation degree for the result of the jackpot determination in the generated specific effect is Thereby enabling executing the instigation that may be controlled.

  It should be noted that no operation by the player was detected until a predetermined period has elapsed (a specific timing has arrived) after both the second operation instruction image S2 and the third operation instruction image S3 appear. In this case, both the second operation instruction image S2 and the third operation instruction image S3 are hidden, and the effect reception for the second coordinate area Z2 and the third coordinate area Z3 is ended. ing. At this time, a specific effect that appears when an effect is received for the second coordinate area Z2 or the third coordinate area Z3 may be generated, or a specific effect may not be generated. However, when a specific effect that appears when an effect is received for the second coordinate area Z2 or the third coordinate area Z3, an operation for the second operation instruction image S2 is received prior to the execution of the specific effect. It is desirable that a display (such as an effect) that is generated when the operation is performed, or a display (such as an effect) that is generated when an operation on the third operation instruction image S3 is accepted. That is, in this case, it is possible to grasp that the effect on the side where the effect is generated is forcibly executed while neither the second coordinate area Z2 nor the third coordinate area Z3 is operated. As a result, it is possible to suppress a decrease in the entertainment interest without knowing what production is being executed.

  Further, in the first operation control mode and the second operation control mode for the display portion D, not only the reception of effects for the first coordinate region Z1, the second coordinate region Z2, and the third coordinate region Z3 is permitted, but the same. Within the period, the same effect reception may be permitted for other operation means such as the operation button 410.

  For example, in the first operation control mode for the display unit D, when the first production condition is satisfied, both the first coordinate region Z1 and the operation button 410 can be produced and the specific operation instruction image S1 is received. Even when a pressing operation (button switch detection) is performed on the operation button 410 instead of an operation (physical object detection) on the first coordinate area Z1 during the predetermined period in which is displayed The operation instruction image S1 is not displayed, the reception of the effects of the first coordinate area Z1 and the operation button 410 is ended, and an effect change is caused in the display unit D. It is possible to execute a control whose degree can be suggested.

  Even when an operation (physical object detection) is performed on the first coordinate area Z1, the specific operation instruction image S1 is not displayed, and the reception of the effects of the first coordinate area Z1 and the operation button 410 is terminated. An effect change is generated in the display unit D, and control that can suggest the degree of expectation for the result of the big hit determination is enabled by the type of the effect change that has occurred.

  Further, in the second operation control mode for the display unit D, when the second presentation condition is satisfied, the second coordinate area Z2, the third coordinate area Z3, and the operation button 410 can all be received. To do. Then, in a predetermined period in which the specific operation instruction image S2 and the specific operation instruction image S3 are displayed, the operation is not an operation (physical object detection) for either the second coordinate area Z2 or the third coordinate area Z3. When a pressing operation on the button 410 (detection of a button switch) is performed, the second selection image indicating that the specific operation instruction image S2 is selected and the specific operation instruction image S3 are selected. The display is switched to and from the third selected image indicating that the image is in the state of being. Then, when either of the second selection image and the third selection image is displayed, when a predetermined period has elapsed since the specific operation instruction image S2 and the specific operation instruction image S3 are displayed, the selection image A display (effect or the like) that can be grasped that the operation on the operation instruction images S2 and S3 on the side where the symbol appears is generated, and the second operation instruction image S2 and the third operation instruction image S3 are selected. All the images (second selection image and third selection image) are not displayed, and the reception of effects for the second coordinate area Z2, the third coordinate area Z3, and the operation button 410 is ended. After that, a specific effect (selected side effect) is generated in the display unit D, and the control that can suggest the degree of expectation for the result of the jackpot determination in the generated specific effect can be executed.

  It should be noted that, within the predetermined period, an operation for another operation means (operation for accepting any determination) can be accepted, and a selection image appears when there is an operation for the other operation means. In addition to generating a display (effect) that enables the user to grasp that the operation on the operation instruction images S2 and S3 on the side has been accepted, the second operation instruction image S2, the third operation instruction image S3, and the selection image (second selection) Both the image and the third selection image) may be hidden, and the reception of effects for the second coordinate area Z2 and the third coordinate area Z3, the operation button 410, and another operation means may be terminated. After that, a specific effect (selected side effect) is generated in the display unit D, and the control that can suggest the degree of expectation for the result of the jackpot determination in the generated specific effect can be executed.

  In addition, as long as it is within the predetermined period until the specific effect appears, the second coordinate region Z2 and the third coordinate can be used regardless of whether the second selection image or the third selection image appears. The region Z3 can accept an effect. When an operation on either the second coordinate area Z2 or the third coordinate area Z3 is detected, it does not matter which of the second selected image and the third selected image appears, The display (effect etc.) on the side where the reception is made appears, and the second operation instruction image S2, the third operation instruction image S3, and the selection image (second selection image, third selection image) are not displayed. Thus, the reception of effects for the second coordinate area Z2 and the third coordinate area Z3, the operation button 410, and further operation means is terminated. At this time, an operation is detected prior to hiding all of the second operation instruction image S2, the third operation instruction image S3, and the selection image (second selection image, third selection image). Switching display may be performed so that the selected image (second selection image, third selection image) on the other side appears. After that, a specific effect (selected side effect) is generated in the display unit D, and the control that can suggest the degree of expectation for the result of the jackpot determination in the generated specific effect can be executed.

  According to such a configuration, not only is it allowed to receive an effect on the first coordinate area Z1, the second coordinate area Z2, and the third coordinate area Z3, but also for other operation means such as the operation button 410, The same production reception is possible. In this regard, in the second operation control mode, when the same effect can be received but the operation on the second coordinate area Z2 or the third coordinate area Z3 is performed, the second coordinate area Z2 or the third coordinate By only accepting a single operation (physical object detection) for the area Z3, it is possible to generate an effect on the side according to the preference of the player. That is, when other operation means are used, “the side according to the preference by the player until a predetermined period after the specific operation instruction image S2 and the specific operation instruction image S3 are displayed. Can not be generated "or" perform at least two operations using a plurality of operation means ", but when a specific operation receiving portion 3333 is used, The display mode according to the player's preference can be made to appear with only a few operations (one time in this production example), so that more complicated performance can be realized with simple operability. Expected.

  In addition, while providing such an efficient operability, at the same time providing an operability that can achieve a desired operation by performing at least two operations using a plurality of operation means, The player can worry about which one should be selected as the desired operation while performing the operation in the process stage until reaching the desired operation. That is, in this case, while performing the operation in the process stage until reaching the desired operation, it becomes easy to imagine the production situation after the selection, and it is troubled which operation should be performed with a margin within a predetermined period. Will be able to. As described above, since the player can selectively use the operation means with different number of required operations depending on whether the player is ready to make a decision or is in trouble, the gaming interest can be maintained. It becomes like this.

  As described above, in the peripheral control board 1510, the display unit D is the target of the operation effect using the special operation receiving unit 3333, so that an unprecedented effect can be realized. However, as described above, in the peripheral control board 1510 according to this embodiment, the special operation receiving unit 3333 has a larger operation reception range in front view than the display unit D (the coordinate range to be detected is that of the glass plate 192). By providing an effect using such a special relationship, it is possible to realize a more dynamic and highly flexible operability and an appropriate performance. .

[Third Operation Control Mode for Display Unit D]
For example, in the peripheral control board 1510 according to this embodiment, as shown in FIG. 108 and FIG. 110 (a), when the third effect condition is satisfied based on the result of the big hit determination, the special operation receiving unit Among all the coordinate areas (see FIG. 106) when 3333 is viewed in front view, the fourth coordinate area Z4 opposite to the fourth display area of the display unit D is set (controlled) so as to be able to receive an effect and displayed. The specific operation target image S4 is displayed in the fourth display area of the part D, and the specific image that prompts the user to operate to move the specific operation target image S4 to the movable body B in the other display area of the display part D indicate.

  Then, during a predetermined period after the specific operation target image S4 is displayed, an operation (for example, a touch operation with respect to the glass plate 192) on the fourth coordinate region Z4 in the special operation receiving unit 3333 ( Strictly speaking, it is sufficient that there is a finger or the like in the special operation receiving unit 3333, and it is not always necessary to touch it))) and this is detected as a physical object, as shown in FIG. 110 (b). The coordinate area in which the production can be accepted is not the limited fourth coordinate area Z4 in the display unit D, but a large fifth coordinate area including at least the coordinate area facing the movable body B provided outside the display unit D. Change the setting to Z5. Note that the fifth coordinate area Z5 of this example is opposed to the movable body B provided outside the display unit D from the coordinate area facing the fourth display area (not necessarily coincident with the fourth coordinate area Z). Up to the coordinate region to be set, and is set in such a manner as to straddle the movable body B, the display unit D, and the panel light emitting unit E.

  At this time, the display mode of the specific operation target image S4 is changed (for example, the color is changed) based on the fact that an operation has been performed anywhere in the fourth coordinate area Z4 in the special operation receiving unit 3333. Or may be displayed in a vibration mode) so that the specific operation target image S4 can be recognized as being movable by an operation by the player.

  That is, in the third operation control mode, the coordinate position facing the movable body B in the fifth coordinate area Z5 with the physical object such as a finger held in the special operation receiving portion 3333 is retained. As a result, the specific operation target image S4 appearing in the display unit D acts on the movable body B provided outside the display unit D, and the production on the movable body B is started. Realization of directing.

  Therefore, when the physical object such as a finger is held in the special operation receiving unit 3333 and moved in the fifth coordinate area Z5, the peripheral control board 1510 detects the movement of the physical object, and the Control that moves the specific operation target image S4 in the display unit D so as to follow the detected movement of the physical object is enabled. As a result, the specific operation target image S4 is in the middle of the movement in which the physical object has not yet moved to the coordinate position facing the movable body B. The inside of the display part D is moved so as to follow the movement in the front view.

  More specifically, with a physical object such as a finger held in the special operation receiving unit 3333, the physical object is moved from the position shown in FIG. 110 (b) in the fifth coordinate area Z5 to FIG. 111 (a). In the peripheral control board 1510, the specific operation target image S4 is moved in the display unit D so as to follow such movement of the physical object. However, when a physical object such as a finger is located at the position shown in FIG. 111A, if an attempt is made to display a specific operation target image S4 in the display area facing the position, the specific operation target image S4 is displayed. A part of the display portion D protrudes from the display portion D, and the whole cannot be displayed. Therefore, in the peripheral control board 1510 according to this embodiment, the specific operation target image S4 is displayed only on a portion that can be displayed on the display portion D, and the portion that protrudes from the display portion D is present. Is controlled so that the corresponding part of the panel light emitting part E emits light. More specifically, as the physical object approaches the coordinate position facing the edge of the display unit D, the portion where the specific operation target image S4 is displayed on the display unit D is reduced, and the board surface light emitting unit E Thus, control is performed to increase the number of portions corresponding to the light emitting region.

  According to such a configuration, it is possible to express a state in which the specific operation target image S4 on the display unit D is about to jump out of the display unit D by an operation by the player. More dynamic and more flexible operability that does not fit in this single unit and performance suitable for this will be realized.

  In particular, in the peripheral control board 1510 according to this embodiment, as shown in FIG. 111A, a physical object such as a player's finger is positioned at a coordinate position facing the display unit D in the fifth coordinate area Z5. In spite of being placed, effect control is performed not only on the display unit D but also on a member (panel light emitting unit E) different from the display unit D. Therefore, even when the physical object is moved in the coordinate area facing the plurality of members in the special operation receiving portion 3333, it becomes easy to recognize that the effect corresponding to the movement has appeared. A performance suitable for dynamic operability can be suitably realized.

  When a physical object such as a player's finger is moved slightly upward from the position shown in FIG. 111 (a) in the fifth coordinate area Z5, the physical object is not the display unit D but the game board 5 (Here, it is in a state of being placed at a coordinate position facing the board light emitting portion E). However, in this case as well, not all of the specific operation target image S4 are suddenly hidden and only the panel light emitting unit E is caused to emit light, but the specific operation is performed as the physical object moves away from the coordinate position facing the display unit D. Control is performed so that the portion of the target image S4 displayed on the display portion D is reduced, and the portion corresponding to the light emitting area of the panel light emitting portion E is increased. That is, in this case, when the physical object is separated from the coordinate position facing the display unit D by a specific distance, an effect (here, light emission) is produced only on the panel light emitting unit E of the display unit D and the panel surface light emitting unit E. As a result, an effect as if the specific operation target image S4 has moved out of the display unit D can be expressed.

  When a physical object such as a player's finger moves further upward in the fifth coordinate area Z5 and reaches the position shown in FIG. 111 (b), the peripheral control board 1510 has a position facing the physical object. The board surface light emitting section E and the movable body B located in are controlled to emit light. That is, in the peripheral control board 1510 according to this embodiment, the same control as the above-described effect control performed between the display unit D and the panel light emitting unit E is performed between the panel surface light emitting unit E and the movable body B. Like to do. More specifically, when a physical object in the coordinate area facing the game board 5 (here, the board surface light emitting unit E) approaches a predetermined distance from the coordinate area facing the movable body B, the physical object In spite of being in the coordinate area facing the board light emitting part E, the effect control is performed not only on the board light emitting part E but also on a member (movable body B) different from the panel light emitting part E. I have to. Therefore, even when the physical object is moved within the coordinate area of the special operation receiving portion 3333 facing both the panel light emitting portion E and the movable body B, an effect corresponding to the movement (here, the display) It becomes easy to recognize that a specific operation target image S4) that has moved out of the part D has appeared (moved), and thereby it is possible to suitably realize a performance suitable for dynamic operability. .

  Then, when a physical object such as a player's finger moves further upward in the fifth coordinate area Z5 and reaches the position shown in FIG. 112, the peripheral control board 1510 displays the specific operation target image S4 as the movable body B. It is determined that the operation as if it has been moved to the appropriate position, and the condition reception in the third coordinate control mode is satisfied, and the acceptance of the effect on the fifth coordinate region Z5 is terminated. In addition, a display capable of recognizing that the condition in the third operation control mode (moving the specific operation target image S4 to the movable body B) is satisfied is displayed on the display unit D, and the movable body B is used. Control to start production is executed. The effect using the movable body B can be realized, for example, as an effect of causing the movable body B to emit light in a predetermined manner or an effect of operating the movable body B in a predetermined manner. So that the degree of expectation for the result of can be suggested.

  In addition, when the physical object moves out of the fifth coordinate area Z5 while the physical object is moving in the special operation receiving unit 3333 in the third operation control mode (with the finger from the special operation receiving unit 3333). It is desirable to start over from the state shown in FIG. 110 (a). That is, as will be described later, the peripheral control board 1510 basically acquires the position information of the physical object regularly regardless of the execution state of the performance, and thereby the physical object moves within the fifth coordinate area Z5. Information indicating that the user has moved, information indicating that the user has moved outside the fifth coordinate area Z5, and the like are obtained.

  Further, the specific operation target image S4 is moved so as to follow the movement of the physical object. However, the specific operation target image S4 is not limited to this. The operation target image S4 may be moved.

  Further, the fifth coordinate region Z5 may be the entire coordinate region of the special operation receiving unit 3333. Also, if there is no portion that can be rendered to suggest that the specific operation target image S4 exists on the side opposite to the coordinate position where the physical object is placed, it is close to the coordinate position where the physical object is placed. You may make it perform the production | presentation expression which suggests that specific operation target image S4 exists in a site | part.

  In this example, a board surface light emitting section E capable of effect expression (light emission) is placed between the display section D and the movable body B. Good. That is, in this case, after the specific operation target image S4 is no longer displayed on the display unit D, until the physical object is moved to the coordinate position (or a nearby coordinate position) facing the movable body B, the player Will continue the operation while holding in the head an image in which the specific operation target image S4 is moving.

  Further, on the display unit D, a map capable of grasping the positional relationship between the display unit D and the movable body B is displayed, and the position where the specific operation target image S4 exists according to the movement of the physical object is displayed in the map. You may make it perform the effect display suggested by.

  109 to 112, the coordinate areas Z1 to Z5 are shown, but in reality, the player cannot visually recognize them.

  On the other hand, in the peripheral control board 1510, among the various effect members shown in FIG. 108, the movable bodies A1, A2, and C in which the effect operation according to the result of the big hit determination is performed are also positioned as targets for the operation effect. When the player performs an operation on the coordinate area overlapping the movable bodies A1, A2, and C in the front view of the operation receiving portion 3333 and this is detected as a physical object, an effect operation corresponding to the operation appears. Control is possible. Therefore, the player can operate in an appropriate mode (speed, amount of movement) while selecting any one of the plurality of movable bodies.

[Fourth Operation Control Mode for Movable Body C]
For example, in the peripheral control board 1510 according to this embodiment, as shown in FIGS. 108 and 113A, when the fourth effect condition is satisfied based on the result of the big hit determination, the special operation receiving unit Of all the coordinate areas (see FIG. 106) when 3333 is viewed from the front, the sixth coordinate area Z6 facing a part of the movable body C is set (controlled) so as to be able to receive an effect. At this time, a specific display image is made to appear on the display unit D, or the movable body can be recognized so that the player can recognize that the sixth coordinate area Z6 can be accepted for production to operate the movable body C. It is desirable to cause C to emit light in the first mode (for example, flash mode) or vibrate.

  Then, in a predetermined period after the sixth coordinate area Z6 is set to be able to receive effects, an operation (for example, a touch operation on the glass plate 192 (specifically, a special operation) is performed on the sixth coordinate area Z6. If there is a finger or the like in the operation receiving portion 3333, and it is not always necessary to touch it))) and this is detected as a physical object, it is possible to receive an effect as shown in FIG. 113 (b). The coordinate area to be set is changed not to the sixth coordinate area Z6 but to a large seventh coordinate area Z7 including at least the movable range CT of the movable body C. Here, the seventh coordinate area Z7 is set as a coordinate area including all of the sixth coordinate area Z6.

  That is, in the fourth operation control mode, with the physical object such as a finger held in the special operation receiving portion 3333, the physical object is moved to the end of the movable range CT of the movable body C in the seventh coordinate area Z7. When moved to a coordinate position opposite to the part, an effect is realized in which the movable body C can be moved so as to follow the movement of the physical object.

  Therefore, when the state shown in FIG. 113B is reached, a physical object such as a finger is detected in the seventh coordinate region Z7, and the movable body C is in a state of being moved by the movement of the physical object. It is desirable to perform control that makes it possible to recognize. In the example shown in FIG. 113 (b), the movable body C emits light in the second mode (for example, light emission in the normal mode).

  However, from the player's side, the movable body C does not know what movable range CT is provided, and the physical object such as a finger is detected in the sixth coordinate area Z6 after the physical object is detected. There is a concern that even if the physical object is moved along the movable range CT of the movable body C, this cannot be properly performed. As a result, when a physical object such as a player's finger moves out of the seventh coordinate area Z7 even though there is an intention to perform an operation along the movable range CT of the movable body C (a special operation receiving portion) (Including the case where the finger is released from 3333), the state shown in FIG. 113 (a) is re-executed against the player's intention, and the game interest may be reduced.

  In this regard, in the peripheral control board 1510 according to this embodiment, as shown in FIGS. 113A and 113B, the seventh coordinate region Z7 in the fourth operation control mode is the control target. The sixth coordinate area Z6 is set in an enlarged range for at least the first distance in all directions in the front view, including the direction opposite to the upper side in which the movable range CT of the movable body C extends. I am going to do that.

  According to such a configuration, even if the player does not know what movable range CT is provided in the movable body C, the direction shifted from the movable range CT of the movable body C. When the finger (physical object) is moved to the side, the movable body C does not move even though the production is accepted (even though the state shown in FIG. 113 (a) is not redone). Since the phenomenon occurs, the operation can be performed by estimating the movable range CT of the movable body C through confirmation of such a phenomenon.

  Further, in the peripheral control board 1510, within the movable range CT set for the movable body C, the movable body C is moved to a plurality of predetermined positions (a first position shown in FIG. 113 (b) ( Original position), the second position shown in FIG. 113 (c), the third position shown in FIG. 114 (a), and the fourth position (terminal position) shown in FIG. 114 (b)) Control to be executed. On this, the seventh coordinate area Z7 is divided into a first drive coordinate area Z7-1 including a portion facing the first position (original position), and a second drive coordinate area including a portion facing the second position. Z7-2 can be classified into a third drive coordinate area Z7-3 including a portion facing the third position, and a fourth drive coordinate area Z7-4 including a portion facing the fourth position. By determining to which of the coordinate areas Z7-1 to Z7-4 the physical object detected in the sixth coordinate area Z6 has moved, the movable body C is moved to the drive coordinate area corresponding to the determination. Control can be executed.

  Here, as shown in FIGS. 113A and 113B, the first drive coordinate area Z7-1 including a portion facing the first position (original position) in the movable range CT is controlled. The range of the movable body C is set as a range extending at least a first distance from the sixth coordinate region Z6 in the left, right, and lower directions except the upper side in which the movable range CT extends.

  According to such a configuration, after a physical object such as a finger is detected in the sixth coordinate area Z6 (FIG. 113 (a)) and the setting is changed to the seventh coordinate area Z7 (FIG. 113 (b)), Even if the physical object is moved in a direction different from the direction in which the movable range CT of the movable body C extends (movement less than the first distance), the physical object remains within the single first drive coordinate area Z7-1. Since the movable body C does not move, the movable body C continues to stay at the first position (original position) corresponding to the first drive coordinate area Z7-1 where the physical object is detected. Become. In other words, in this case, the phenomenon in which the movable body C does not move occurs even though the player's operation has been accepted (even though the state shown in FIG. 113 (a) has not been redone). Therefore, the operation can be performed by estimating the direction in which the movable range CT of the movable body C extends through the confirmation of such a phenomenon.

  On the other hand, after a physical object such as a finger is detected in the sixth coordinate area Z6 (FIG. 113 (a)) and the setting is changed to the seventh coordinate area Z7 (FIG. 113 (b)), the physical object is moved. When the body C is moved in the direction in which the movable range CT extends (movement less than the first distance), the physical object only needs to move a second distance shorter than the first distance as shown in FIG. The second drive coordinate area Z7-2 shown in FIG. 113C is reached from the first drive coordinate area Z7-1 shown in FIG. That is, in this case, based on the detection of the physical object in the second drive coordinate area Z7-2, the movable body C moves to the first position corresponding to the first drive coordinate area Z7-1 (FIG. 113 ( From b)), it moves to the 2nd position (Drawing 113 (c)) corresponding to the 2nd drive coordinate field Z7-2.

  Here, as shown in FIG. 113 (c), the second drive coordinate region Z7-2 including the portion facing the second position in the movable range CT also has a vertical direction in which the movable range CT of the movable body C extends. As for the left and right directions orthogonal to each other, there is a range that extends by the same distance as the first drive coordinate area Z7-1. On the other hand, the up-down direction in which the movable range CT of the movable body C extends is set to be shorter than the length in the left-right direction.

  According to such a configuration, when the physical object detected in the second drive coordinate region Z7-2 is moved in a direction different from the vertical direction in which the movable range CT of the movable body C extends, the physical object is The movable body C does not move and corresponds to the second drive coordinate area Z7-2 in which the physical object is detected without being moved in the single second drive coordinate area Z7-2. Will continue to stay at the second position. In other words, in this case, the phenomenon in which the movable body C does not move occurs even though the player's operation has been accepted (even though the state shown in FIG. 113 (a) has not been redone). Therefore, the operation can be performed by estimating the direction in which the movable range CT of the movable body C extends through the confirmation of such a phenomenon.

  In addition, since the second drive coordinate area Z7-2 is set so as to extend to the left and right ranges shifted from the movable range CT of the movable body C in this way, the sixth coordinate area Z6 (FIG. 113 (a)). In this case, the reference that is determined to be appropriate as an operation for moving the physical object along the movable range CT of the movable body C after the physical object such as a finger is detected is relaxed. This makes it possible to alleviate the difficulty in moving the physical object while guessing this without knowing what movable range CT is provided in the movable body C. It will be possible to maintain interest.

  When the movable body C moves to the second position corresponding to the second drive coordinate area Z7-2, the movable body C is located at the first position corresponding to the first drive coordinate area Z7-1. You may make it light-emit by the aspect (for example, green) different from the light emission aspect (for example, blue). At this time, when a physical object is detected in the second drive coordinate area Z7-2 before the movable body C finishes moving to the second position corresponding to the second drive coordinate area Z7-2 (movable If the light emission mode is changed (for example, from blue to green) when the body C starts to move toward the second drive coordinate area Z7-2), the player's operation has been properly received. It becomes possible to recognize from an early stage, and it becomes possible to suppress an irritated feeling due to a behavioral delay of the movable body that cannot be avoided in response to a quick operation by a player's finger or the like.

  In addition, when a physical object moves at a speed exceeding the moving speed of the movable body, the movable body cannot be moved so as to follow the physical object, but in this case, at a predetermined moving speed, Control to move to the latest detection position is performed.

  Then, the physical object in the second drive coordinate area Z7-2 (FIG. 113 (c)) is moved upward by the player's finger operation or the like, and the third drive coordinate area Z7-3 (FIG. 114 (FIG. 114 (c)). When detected within a)), the movable body C corresponds to the third drive coordinate region Z7-3 from the second position (FIG. 113 (c)) corresponding to the second drive coordinate region Z7-2. It will move to the third position (FIG. 114 (a)).

  Here, as shown in FIG. 113 (c), the third drive coordinate region Z7-3 including the portion facing the third position in the movable range CT is the vertical direction in which the movable range CT of the movable body C extends. As for the left and right directions orthogonal to each other, there is a range that extends over a longer distance than the first drive coordinate area Z7-1 and the second drive coordinate area Z7-2. On the other hand, the vertical direction in the third drive coordinate area Z7-3 in which the movable range CT of the movable body C extends is set to be shorter than the length in the horizontal direction.

  In other words, as described above, when a movable body that does not have a technique capable of instructing the operation direction is used as an operation target, unlike the display means, this is performed without knowing what movable range is provided. You must move the physics object while guessing. Therefore, in the peripheral control board 1510 according to this embodiment, the production reception is performed in the first drive coordinate area Z7-1 and the second drive coordinate area Z7-2 to the left and right ranges shifted from the movable range CT of the movable body C. It has also been described above that by expanding the range, the criterion that is determined to be appropriate as an operation when moving the movable body C along the movable range CT is relaxed.

  However, when a physical object such as a finger is detected in the sixth coordinate area Z6 (FIG. 113 (a)) and the physical object is moved along the movable range CT of the movable body C, the sixth coordinate area Z6. The deviation from the movable range CT tends to increase as the distance from the distance increases. Accordingly, in the third drive coordinate region Z7-3 (FIG. 114 (a)), the first drive coordinate region Z7-1 and the second drive region are arranged in the left and right directions orthogonal to the vertical direction in which the movable range CT of the movable body C extends. By having a range that extends over a longer distance than the drive coordinate area Z7-2, the movement distance of the physical object from the sixth coordinate area Z6 is increased, and the deviation from the movable range CT is gradually increased. However, this can be accepted as an appropriate production operation. This makes it possible to alleviate the difficulty in moving the physical object over a long distance while guessing this while not knowing what movable range CT is provided in the movable body C. It will be possible to maintain the game entertainment. For example, even when the physical object moves upward in a coordinate range that does not oppose the movable range CT of the movable body C, the movable body C moves upward.

  When the movable body C moves to the third position corresponding to the third drive coordinate area Z7-3, the light emission mode (for example, blue) or the second position when the movable body C is located at the first position. You may make it light-emit by the light emission mode (for example, red) different from any of the light emission mode (for example, green) when it was located in. Further, when a physical object is detected in the third drive coordinate area Z7-3 before the movable body C finishes moving to the third position corresponding to the third drive coordinate area Z7-3 (movable body C (When starting to move toward the third drive coordinate area Z7-3), the light emission mode may be changed (for example, from blue to green).

  And, for the same reason, the fourth drive coordinate region Z7-4 is further leftward and rightward orthogonal to the up-down direction in which the movable range CT of the movable body C extends further than the third drive coordinate region Z7-3. It has a range that extends over a long distance. However, in the peripheral control board 1510 according to this embodiment, the physical object in the third drive coordinate area Z7-3 is moved upward by the player's operation of a finger or the like, and the fourth drive coordinate area Z7- 4, the movable body C is moved from the third position corresponding to the third drive coordinate area Z7-3 (FIG. 114 (a)) to the fourth position corresponding to the fourth drive coordinate area Z7-4. It is not necessarily moved to the position (FIG. 114 (b)). In addition, if a physical object in the third drive coordinate area Z7-3 is moved upward by a player's finger operation or the like and is detected in the fourth drive coordinate area Z7-4, it is movable. The body C is moved from the third position (FIG. 114 (a)) corresponding to the third drive coordinate region Z7-3 to the first position (FIG. 114 (c)) corresponding to the first drive coordinate region Z7-1. It can be moved.

  That is, in the peripheral control board 1510 according to this embodiment, whether or not the movable body C can be moved to the fourth position corresponding to the fourth drive coordinate area Z7-4 based on the result of the big hit determination. In such a case, such an effect using the movable body C is provided to the player. When the physical object detected in the sixth coordinate area Z6 is detected in the fourth drive coordinate area Z7-4 by the player's operation with a finger or the like, the movable body C moves to the fourth position (FIG. 114 ( b)) Expectation (specific result is obtained) depending on whether an effect that moves to the first position (FIG. 114 (c)) appears without moving to the fourth position. (It may be a definite one).

  In the peripheral control board 1510, a physical object in the third drive coordinate area Z7-3 is moved upward by the player's finger operation or the like and detected in the fourth drive coordinate area Z7-4. In such a case, it is determined that the condition in the fourth operation control mode is satisfied, and the effect reception for the seventh coordinate region Z7 is ended. When it is determined that the movable body C is movable to the fourth position, as shown in FIG. 114 (b), the movable body C is set in a region where the effect can be accepted. Will be controlled to move to the fourth position. On the other hand, when it is determined that the movable body C is not movable to the fourth position, as shown in FIG. 114 (c), the movable body is set in a region where the effect can be accepted. Control to move C to the first position is performed.

  However, at this time, even if it is determined that the movable body C can move to the fourth position, the movable body C temporarily moves downward (the movable body C moves to the fourth position (FIG. 114). (B)) even if it is determined that the movable body C cannot be moved to the fourth position, or the movable body C is temporarily moved upward. It is desirable to show the moving movement (the effect of whether or not the movable body C moves to the fourth position (FIG. 114 (b))) in order to improve the game entertainment.

  When the movable body C moves to the fourth position corresponding to the fourth drive coordinate area Z7-4, the light emission mode (for example, blue) or the second position when the movable body C is located at the first position. The light emission mode (for example, green) and the light emission mode (for example, red) at the third position are different from the light emission mode (for example, red). However, unlike the case of the first to third positions, the timing is not when the physical object is detected in the fourth drive coordinate area Z7-4, but at a later timing (movable body C). It is desirable to make it appear after the timing at which it is possible to definitely grasp the movement from the first movement to the fourth position. Similarly, when the movable body C moves to the first position corresponding to the first drive coordinate area Z7-1, it is not when the physical object is detected in the fourth drive coordinate area Z7-4. It is desirable that the light emission is terminated after a later timing (a timing at which it is definitely possible to grasp that the movable body C does not move to the fourth position).

  The peripheral control board 1510 performs control to move the movable body C to the first position (original position) after a predetermined time has elapsed after moving the movable body C to the fourth position corresponding to the fourth drive coordinate area Z7-4. By doing so, the fourth operation control mode is ended.

  By the way, in the fourth operation control mode, the movable body is movable from the first position (FIG. 113 (b)) to the third position (FIG. 114 (a)) of the movable range CT regardless of the degree of expectation of the big hit. C can be moved freely. For example, when the physical object is moved back to the first drive coordinate area Z7-1 side after moving the movable body C to the second position (FIG. 113 (c)), the peripheral control board 1510 performs the first drive. Based on the physical object being detected again in the coordinate area Z7-1, control is performed to move the movable body C from the second position (FIG. 113 (c)) to the first position (FIG. 113 (b)). . In addition, when the physical object is moved back to the second drive coordinate area Z7-2 after the movable body C is moved to the third position (FIG. 114 (a)), the peripheral control board 1510 performs the second drive. Based on the physical object detected again in the coordinate area Z7-2, control is performed to move the movable body C from the third position (FIG. 114 (a)) to the second position (FIG. 113 (c)). It will be.

  According to such a configuration, as an effect of whether or not the movable body C moves to the fourth position (FIG. 114 (b)), a driving mode in which the movable body C is moved up and down in small increments is selected by the player. It will be possible to make it appear according to the player's preference, and it will be possible to perform only for the time that suits the player's preference, so that it will be possible to manipulate the “between” until the final result appears in the production, improving the gaming interest It is expected to plan. In addition, after the physical object is detected in the fourth drive coordinate area Z7-4, the effect reception for the fourth operation control mode is ended, and the movable body C cannot be freely operated.

  It should be noted that the fourth drive coordinate area Z7-4 is set after the sixth coordinate area Z6 (FIG. 113 (a)) is set (controlled) so as to be able to receive effects until a predetermined period elapses (a specific timing comes). When the physical object is not properly detected, the effect reception for the sixth coordinate area Z6 or the seventh coordinate area Z7 is terminated. At this time, the behavior of the movable body C that appears when the physical object is properly detected in the fourth drive coordinate area Z7-4 may be generated, or the movable body C may be generated without causing such behavior. Control may be performed so as to be positioned at a plurality of predetermined positions (a first position (original position) shown in FIG. 113B).

  Further, in the fourth operation control mode according to this illustrative example, regardless of the degree of expectation of the big hit, the first position (FIG. 113 (b)) to the third position (FIG. 114 (a)) of the movable range CT. In the meantime, the movable body C can be moved freely, but instead, within the range of the first position (FIG. 113 (b)) to the fourth position (FIG. 114 (b)) of the movable range CT. You may make it the expectation degree of the big hit suggested so that it is located in the upper side become high. That is, in this case, the peripheral control board 1510 selects one of a plurality of effect patterns having different jackpot expectations based on the result of the jackpot determination, and positions (first position to fourth position) defined by the selected effect pattern. The movable body C is controlled to be operable. At this time, the physical object moves from the first drive coordinate area Z7-1 to the second drive coordinate area Z7-2, or from the second drive coordinate area Z7-2 to the third drive coordinate area Z7-3. Sometimes, an effect of whether or not the movable body C moves to the next position (a behavior to come and go) may appear.

  Moreover, in the 1st-3rd operation control aspect with respect to the display part D, when making image S1-S4 receivable production | presentation, in order to generate coordinate area Z1-4 larger than these images S1-S4 by front view. On the other hand, in the fourth operation control mode for the movable body C, the sixth coordinate region Z6 smaller than the movable body C in front view is generated when the movable body C can receive an effect. In other words, the movable body often includes a part having a relatively large movement amount and a part having a relatively small movement amount, for example, producing a part having a relatively small movement amount. It is desirable to remove from the object of reception in order to suppress a decrease in the entertainment interest. On the other hand, in the display unit, when trying to set the coordinate area in accordance with the size of the image that can be accepted for production, it is required to make a large image in order to favorably maintain the operability. Since there is a concern that the balance with the display image may be deteriorated, it is desirable that the size of the image that can be accepted for presentation be set independently from the set range of the coordinate area.

  However, when control is performed to detect the movement of the physical object in a specific coordinate area (here, the first drive coordinate area Z7-1 to the fourth drive coordinate area Z7-4) and to produce an effect corresponding thereto. For example, the physical object detected in the first drive coordinate area Z7-1 moves and the fourth drive coordinate area does not pass through the second drive coordinate area Z7-2 or the third drive coordinate area Z7-3. It is also assumed that a situation in which a sudden detection occurs at Z7-4 occurs. Such a situation may occur, for example, when the right hand is set as the detection target in the first drive coordinate area Z7-1 and then the left hand is set as the detection target in the fourth drive coordinate area Z7-4 without moving the right hand. Therefore, it should be determined that the physical object has not moved, and an effect (such as movement of the movable body C) corresponding to the movement should not be executed.

In this respect, the peripheral control board 1510 according to this embodiment generates an interrupt timer process every 4 ms while the peripheral control unit steady process (every 33.3 ms) is being executed. Within the timer process, the information from the left outer periphery outside light detection unit 35a and the information from the right outer periphery outside light detection unit 35b are respectively acquired and stored as coordinate information indicating the coordinate position where the physical object is detected. A specific coordinate region is analyzed by analyzing a plurality of (8, 9) pieces of coordinate information stored every 4 ms after the previous peripheral control unit steady processing is completed in the peripheral control unit steady processing described above. It is determined whether or not the physical object is properly moving in (for example, the first drive coordinate region Z7-1 to the fourth drive coordinate region Z7-4), and control data for the actuator is determined according to the determination result. Set. Then, in the interrupt process every 1 ms, the control for driving the movable body C based on the control data set in this way is performed, so that the movable body C moves from the physical object to the fourth drive coordinate area Z7-4. From the time when the movement has not been completed, the movement of the physical object follows the movement of the physical object in the sixth coordinate area Z6 in front view. Note that the coordinate information is stored in chronological order in which the coordinate positions are acquired.

  For example, even if a physical object is detected in the fourth drive coordinate area Z7-4 after the physical object is detected in the first drive coordinate area Z7-1, the inside of the fourth drive coordinate area Z7-4 The coordinate information indicating that the physical object has been detected in the second drive coordinate area Z7-2 at the timing before the physical object is detected in step S3, and the physical object in the third drive coordinate area Z7-3. If there is no coordinate information indicating that it has been detected, it is determined that the physical object has not moved properly, and control is performed so that the movable body C is not operated.

  That is, in the fourth operation control mode, the movable body C moves from the first position corresponding to the first drive coordinate area Z7-1 to the fourth position corresponding to the fourth drive coordinate area Z7-4. The physical object detected in the first drive coordinate area Z7-1 is in the second drive coordinate area Z7-2, in the third drive coordinate area Z7-3, and in the fourth drive coordinate area Z7-. 4 is detected in chronological order, for example, if there is no detection in the third drive coordinate area Z7-3, only up to the second position corresponding to the second drive coordinate area Z7-2. The movable body C does not move. Thereby, only when there is an appropriate operation on the special operation receiving portion 3333, an appropriate effect can be made to appear.

  In the fourth operation control mode, control is performed to move the movable body C depending on whether a physical object is detected in each of the coordinate areas Z7-1 to Z7-4. In the movable range CT of the movable body C, control is performed to move the movable body C depending on whether movement of a physical object having a vector component in the direction toward the fourth drive coordinate area Z7-4 is detected. It may be. That is, in this case, the vector component of the physical object is analyzed based on the acquired coordinate positions stored in chronological order.

  Note that the coordinate area setting control, the physical object movement detection, and the effect control of the movable body C used in the fourth operation control mode, for example, It may be applied to the image S4.

  Further, in the third operation control mode and the fourth operation control mode, the detection (production reception) regarding the movement after the movement of the physical object is started in the special operation receiving unit 3333 has not ended yet. While being performed, control is performed to move the production target (display image or movable body) in a manner corresponding to at least the movement direction and the movement amount of the physical object that has already been detected. With such a configuration, it is possible to produce a performance as if the player himself has created a production, so that it is possible to suppress a decrease in the gaming interest.

  By the way, in the 1st operation control mode, the 2nd operation control mode, the 3rd operation control mode, and the 4th operation control mode, production reception to special operation receiving part 3333 is coordinates set at that time Limited to area. However, the detection of the physical object in the special operation receiving unit 3333 itself is always performed (every 4 ms), and the detected coordinate information is stored in association with the acquired time series. Then, the peripheral control board 1510 analyzes the position and movement of the physical object based on the coordinate information stored in association with the time series in the peripheral control unit steady process (every 33.3 ms). In this regard, in the peripheral control board 1510 according to this embodiment, when a physical object is detected in the special operation receiving unit 3333, one of a plurality of analysis processes having different analysis contents can be executed, Even if the same movement is detected as the movement of the physical object in the unit 3333, different control can be performed according to the analysis result.

  FIG. 115 is a flowchart illustrating a control example of the physical object detection information analysis process executed in the peripheral control unit steady process.

  That is, the peripheral control board 1510 first determines whether or not it is in the operation effect reception period that occurs based on the fact that the specific effect condition according to the result of the big hit determination is satisfied (step S3301). As a result, when it is in the operation effect reception period, as described above, based on the coordinate information stored in association with the time series, the physical object is detected in the coordinate area where the effect can be received. And if a physical object is detected in the coordinate area where the effect can be accepted, the movement mode and size of the physical object are further analyzed (step S3302). Then, based on the analysis results for such effects, control (re-setting or termination) regarding the coordinate area where the effects can be accepted, control for causing effect changes to the effect objects such as display images and movable bodies, Control to maintain the effect state is performed (step S3303). As a result of the processing in step S3302, even if no physical object is detected in the coordinate area where the effect can be received, control (re-setting, (End), control for returning a production target such as a display image or a movable body to the original position (for example, control for moving the movable body C to the first position shown in FIG. 113A), and the like may be performed.

  On the other hand, if it is determined in the process of step S3301 that there is no operation effect reception period in which a coordinate area that can receive an effect is set for the special operation receiving unit 3333, the analysis content for the effect Analysis is performed with contents different from (step S3312). That is, the special operation receiving portion 3333 according to this embodiment is provided so as to face the entire area of the game board 5. Accordingly, in order to illegally facilitate the winning of the game ball, an act of placing a magnet at a coordinate position facing the various winning openings in the special operation receiving portion 3333, a wire or the like from the gap between the door frame 3 and the glass plate 192 It may be assumed that an act of destroying a speaker that makes an intrusion and emits an alarm sound at the time of fraud is performed.

  Therefore, in the process of step S3312, an analysis is performed as to whether there is a possibility that an illegal act is performed in the special operation receiving unit 3333 based on the coordinate information stored in association with the time series. I am doing so. For example, it is determined whether or not a physical object is detected in the special operation receiving unit 3333. When a physical object is detected in the special operation receiving unit 3333, the movement mode and size of the physical object are detected. Analyzes whether or not it matches the movement mode or size that can appear when a fraudulent act is performed. If it is determined that there is a possibility that fraud is being conducted as a result of the analysis for fraud countermeasures, an external output indicating that the fraud is being performed is performed, an alarm sound or a warning light is output. Control is performed such that fraud countermeasures are performed (step S3313). If it is not determined that there is a possibility that fraud is being performed, control is performed so that such fraud countermeasures are not performed (step S3313). ).

  As such an analysis procedure for fraud countermeasures (step S3312), for example, when a physical object is first detected in the special operation receiving unit 3333, the detected coordinate position is set as an analysis reference position ( Remember. Next, an analysis coordinate range including the analysis reference position and extending from the analysis reference position by a predetermined distance is set, and the detected physical object is within the analysis coordinate range for a predetermined time (for example, 30 seconds). ) To stay on (physical objects hardly move). As a result, if the detected physical object continues to stay in the analysis coordinate range for a predetermined time (for example, 30 seconds), there is a possibility that some illegal act has been performed in the analysis coordinate range. It is possible to adopt a method for determining that there is. At this time, if the size of the physical object is a size that cannot be cheated (such as a very thin shape), the cheating is performed even if such a movement mode is detected. It may not be determined that there is a possibility of being. As a result, it is possible to suppress false notifications when dirt or the like adheres to the glass plate 192.

  According to such a configuration, when it is in the operation effect reception period, even if any action is performed, it is not determined as an illegal action, and the analysis is performed only as the effect and the result of the analysis In contrast, if the operation control is not in the operation effect reception period, any action is determined as an analysis target of fraud, and control for fraud countermeasures according to the result of the analysis may be performed. become. Therefore, even if one event (for example, an event in which a physical object is detected in a specific coordinate area for 30 seconds) occurs and is detected in the special operation receiving unit 3333, depending on the production situation, It can be regarded as a staging act and cause a specific staging change, or it can be regarded as a fraudulent act and be misreported. In this way, by using one detection information for different purposes (in this case, production purpose and fraud countermeasure purpose) according to the situation of the game or production, more detection can be achieved with less detection information. Can be achieved, and an efficient control structure can be realized.

  In this explanation example, when there is no operation effect reception period that occurs based on the fact that a specific effect condition according to the result of the jackpot determination is satisfied, no effect change is caused by an operation on the special operation receiving unit 3333. Although described as a thing, even when it is not in the operation effect reception period (always), the display image is changed by detecting the physical object in the special operation receiving unit 3333, or the movable body is caused to emit light and move. Also good. However, in this case, when it is not in the operation effect reception period, in addition to determining any act as an analysis target of fraudulent activity, it is also determined as an analysis target for effect acts, and performing control according to the results of these determinations, respectively Become. Therefore, when one event occurs in the special operation receiving unit 3333, both the production change and the fraud notification can appear.

  In addition, in the middle of monitoring whether the physical object remains within the analysis coordinate range for a predetermined time (for example, 30 seconds), a specific performance condition according to the result of the jackpot determination is satisfied. If the operation effect acceptance period occurs based on this, monitoring whether the physical object continues to stay within the analysis coordinate range for a predetermined time (for example, 30 seconds) without ending the fraud countermeasure analysis process. It is desirable to continue the operation after the operation effect reception period occurs. In other words, in this case, during the operation effect reception period, in addition to performing the analysis processing for the effect and the control according to the result, whether the physical object remains in the analysis coordinate range for a predetermined time (for example, 30 seconds). Monitoring is continued, and fraudulent notification is performed depending on the result of the monitoring.

  By the way, when the special operation receiving unit 3333 is in the first production period in which the production reception regarding the first production event (for example, the production of moving the movable body) is allowed, an operation means (different from the special operation receiving unit 3333). For example, you may make it perform control which further produces | generates the 2nd effect period in which the acceptance of the effect regarding the 2nd effect event (for example, the effect which changes a display image) is accept | permitted in the operation button 410).

  For example, as shown in FIG. 116 (a), at time t1, special operation receiving portion 3333 is allowed to accept an effect (panel operation reception) related to a first effect event (for example, an effect of moving a movable body). Assume that the first performance period has occurred. Note that in this first effect period, until the timing t2 when the first reception time elapses after the occurrence of the period, the special operation receiving unit 3333 starts moving the physical object. Control that moves the movable body in a manner corresponding to at least the moving direction and the moving amount of the physical object that has already been detected (analyzed) while detection (analysis) related to movement has not been completed and is still being continued. (For example, control for moving a specific movable body so as to follow the movement of the physical object) can be executed.

  In this regard, in the peripheral control board 1510, when it is determined that the specific effect condition is satisfied based on the result of the big hit determination, the first effect period is generated and this is continued without being ended yet. In addition, the second effect in which the effect reception (button operation reception) related to the second effect event (for example, the effect of changing the display image) is allowed in the operation means (for example, the operation button 410) different from the special operation receiving unit 3333. It is possible to execute control for setting an effect pattern or a notice effect that is determined to generate a period.

  That is, in this case, when the timing t11 arrives while the first effect period is occurring, the operation button 410 accepts the effect reception (button operation reception) related to the second effect event (for example, the effect of changing the display image). The control for generating the second production period is performed. And when operation with respect to the operation button 410 is received before timing t12 when the 2nd reception time passed after the 2nd production period generate | occur | produces in this way, the said 2nd production period will be complete | finished at that time. Let Alternatively, when the operation on the operation button 410 is not accepted before the timing t12 arrives, the second effect period ends when the timing t12 arrives.

  According to such a configuration, the first reception period in which the first operation part (here, the special operation receiving unit 3333) is allowed to receive the production related to the first production event, and the production reception related to the second production event. However, both the second production period allowed by the second operation part (in this case, the operation button 410) occurs simultaneously (timing t11 to t12 shown in FIG. 116 (a)). In addition, in the above-described configuration, the end timings of the first effect period and the second effect period are different, and the second effect period that occurs later than the first effect period is ended earlier. That is, in this case, if the second effect period occurs after the first effect period, whether the operation is interrupted and the second operation part is operated even if the first operation part is being operated? Therefore, it is required to operate the first operation portion and the second operation portion in different modes at the same time, and it is possible to provide an unprecedented presentation performance operability and suppress a decrease in the game entertainment interest. Expected.

  In order to suitably realize such performance operability, as shown in FIG. 116 (b), the production reception related to the second production event (the production on the side that is terminated in a relatively short period of time). The reception is performed when it is detected that a predetermined number of operations (preferably once) or a predetermined amount of operation (finite amount of operation) is performed with the second operation part (here, the operation button 410). Assuming that the execution condition is satisfied, it is desirable to perform control to generate a second effect event (for example, an effect operation that changes the display image) without requiring an operation thereafter. For example, when a single pressing operation is detected with respect to the operation button 410, the second effect period ends before the timing t12 arrives, and after that, no operation is required and the effect changes to the display image. This is the case for the control that causes

  On the other hand, with respect to the production reception related to the first production event (the production reception on the side that is ended after a relatively long time), at least until the second production period ends, and further thereafter. Regardless of the number of operations or the amount of operation for one operation part, the production reception regarding the first production event is continued without ending, and each time the operation on the first operation part is performed It is desirable to perform control that reflects the change in performance according to the operation. For example, the movement of the physical object detected in the special operation receiving unit 3333 is analyzed, and this is continued without terminating the effect reception according to the movement mode (movement amount, etc.) of the physical object. This corresponds to control that repeatedly executes the process of moving the movable body to the latest coordinate position analyzed each time the movement is analyzed periodically (every 33.3 ms).

  According to such a configuration, even when the operation for the first operation part is interrupted when the second effect period occurs behind the first effect period, the operation opportunity for the first operation part is lost. Since it can be suitably ensured that the game is not interrupted, a decrease in the gaming interests due to the interruption is suppressed. In addition, if the second operation part is operated after the operation on the first operation part is interrupted, the second effect period can be terminated at a relatively early stage, and thereafter the operation on the second operation part is performed. Since the production change (second production event) corresponding to the operation occurs without requiring the operation, the operation on the first operation part can be resumed at a relatively early stage. This is suitably ensured for an operation opportunity for one operation site.

  In this case, in the situation where the operation on the first operation part is resumed, an effect change (second effect event) corresponding to the operation on the second operation part is just started, and the first operation It is possible to generate a special production situation in which the second production event can be enjoyed while the operation opportunity for the part is provided. In this regard, “a production event in which the size of the specific display image changes when an operation is performed on the second operation part is generated, and when the operation on the first operation part is performed, the specific display image reaches the specific position. If it is set to affect (change) the aspect of the production target of the second production event as the first production event, such as “to make a moving production event occur” In a special production situation, it becomes possible to enjoy the second production event while changing the aspect of the production target of the second production event by an operation on the first operation part. High operability and performance suitable for this are realized.

  Here, as an example of influencing (changing) the aspect of the effect target of the second effect event when an operation is performed on the first operation part, for example, the effect of the second effect event To change at least one of the moving amount, moving direction, moving speed, light emission mode (light color, traveling direction, light amount, etc.), size, or shape of a target (display image, movable body, etc.) However, the present invention is not limited to these, and any object that can affect the effects of the second effect event (display image, sound effect, movable object, etc.) may be used. That is, while the target of the operation effect for the first operation part and the target of the operation effect for the second operation part are the same effect target, the aspect of the effect (for example, the first operation part, for example) The size may be changed in the operation effect for, and the display position may be changed in the operation effect for the second operation part). Moreover, about the 1st production period, it does not necessarily need to be set as finite time, and after the 2nd production period is complete | finished, operation with respect to the 1st operation site | part is received, and 2nd production What is necessary is just to be able to perform an operation on the first operation part when an event occurs.

  Moreover, in the period when both the 1st production period and the 2nd production period occur simultaneously, it is related with the 2nd production event among the production reception regarding the 1st production event, and the production reception concerning the 2nd production event. Only for the production reception, the display for prompting the operation instruction and the display for suggesting the maximum remaining time as the second production period are preferably encouraged to interrupt the operation on the first operation part. Desirable above.

  In addition, in the peripheral control board 1510 according to this embodiment, in order to suitably realize such a relationship of effects, there is a case where control is performed to generate the second effect period after the first effect period. Control is performed such that the first production period is not generated behind the second production period.

  In the example described above, both the first effect period and the second effect period occur simultaneously. However, when the second effect period occurs after the first effect period, the first effect period is changed to the first effect period. The first production period may be generated again when the second production period ends. Even in this case, it is possible to realize the above-described operability and performance so as to affect the aspect of the production target of the second production event when an operation is performed on the first operation part. Is possible.

  In the example described above, each time an operation is performed on the first operation part, the control is performed to reflect an effect change according to the operation. If there is, control for reflecting the change in performance according to the operation may be performed.

  In the peripheral control board 1510 according to this embodiment, various operation reception effects as described below can be realized by appropriately using the control methods according to the above-described examples.

[Example 1 using special operation receiver 3333]
For example, as shown in FIG. 117 (a), the effect pattern of effect example 1 (the variation pattern of effect example 1) is set based on the result of the big hit determination, and the effect of effect example 1 is displayed on display unit D. It is assumed that the decoration pattern SZ is changed by the pattern. Then, in the peripheral control board 1510, within the period in which the effect pattern of the effect example 1 appears, the coordinate area (not shown) facing the movable bodies A1 and A2 in the special operation receiving portion 3333 is set to be able to receive the effect. An operation effect period to be controlled is generated.

  Here, as the effect pattern of the effect example 1, at least the effect pattern A1 of the effect example 1 determined to operate the movable body A1 and the effect example 1 determined to operate the movable body A2. Production pattern A2. However, the movable body A1 is provided so as to be visible from the player side on the front side of the game board 5, whereas the movable body A2 is difficult to view from the player side behind the game board 5. And provided at a position overlapping the movable body A1 in front view. Therefore, in the peripheral control board 1510, even if any production pattern A1, A2 is performed as the production pattern of the production example 1, the coordinate area (not shown) facing the movable body A1 is displayed on the display unit D. In FIG. 5, a suggestion image HG1 suggesting that an operation of sliding the movable body A1 in the movable direction (here, the left direction) is to be performed is displayed. Similarly, even if any of the production patterns A1 and A2 is performed, the movable body A1 is caused to emit light and suggest that a coordinate area (not shown) opposite to this should be operated. ing.

  Then, when such a slide operation is properly accepted while the production pattern A1 is being performed, the peripheral control board 1510 is configured to follow the slide operation by the player as shown in FIG. 117 (b). Control is performed so as to start the leftward movement of the movable body A1. Even in this situation, in the display unit D, the suggestion image HG1 suggesting that a sliding operation should be performed in the movable direction (here, the left direction) of the movable body A1 in the coordinate area (not shown) facing the movable body A1. Is displayed and the movable body A1 is in a light emitting state.

  Then, when such a slide operation reaches a specific location while the effect pattern A1 is being performed, the peripheral control board 1510 is movable in a manner to follow the slide operation by the player as shown in FIG. 118 (a). After the body A1 is moved to a specific effect position, control is performed so as to end the operation effect period in which the effect acceptance for the movable body A1 is allowed. In this situation, the display unit D displays a display indicating that the movable body A1 has been successfully moved to a specific performance position and is expected to have a high degree of expectation for the big hit determination, and the movable body A1 emits light. It is desirable that an effect such as a change in the form or shape is performed.

  However, even when the slide operation by the player reaches a specific place while the effect pattern A1 is being performed, if the predetermined effect condition is not satisfied, the peripheral control board 1510 is shown in FIG. As shown in b), the operation effect period in which the reception of the effect on the movable body A1 is allowed so that the follow-up movement of the movable body A1 with respect to the slide operation of the player is interrupted is ended, and the movable body A1 is returned to the original position. Control to move it back. In this case, on the display unit D, a display appears indicating that the failure to move the movable body A1 to the specific performance position and the expectation level for the big hit determination is low, and the light emission ends in the movable body A1. Will be controlled.

  On the other hand, when the player's slide operation is properly accepted while the performance pattern A2 is being performed, the peripheral control board 1510 performs the slide operation by the player as shown in FIG. 117 (c). Control is performed so as to start the leftward movement of the movable body A2 in the form of following. Even in this situation, in the display unit D, the suggestion image HG1 suggesting that a sliding operation should be performed in the movable direction (here, the left direction) of the movable body A1 in the coordinate area (not shown) facing the movable body A1. Is displayed and the movable body A1 is in a light emitting state. However, in addition to this, the movable body A2 is also controlled to be in a light emitting state.

  Then, when such a slide operation reaches a specific location while the effect pattern A2 is being performed, the peripheral control board 1510 is movable in a manner to follow the slide operation by the player as shown in FIG. 118 (c). After the body A2 is moved to a specific effect position, control is performed so as to end the operation effect period in which the effect acceptance for the movable body A2 is allowed. In this situation, on the display unit D, a display appears indicating that the movable body A2 has been successfully moved to a specific performance position and the expectation level for the big hit determination is extremely high. It is desirable to produce effects such as changes in the form and shape of light emission.

  However, even if the slide operation by the player has reached a specific location while the effect pattern A2 is being performed, if the predetermined effect condition is not satisfied, the peripheral control board 1510 is shown in FIG. As shown in b), the operation effect period in which the reception of the effect on the movable body A2 is allowed so that the follow-up movement of the movable body A2 with respect to the slide operation of the player is interrupted is ended, and the movable body A2 is returned to the original position. Control to move it back. In this case, on the display unit D, a display appears indicating that the failure to move the movable body A2 to the specific production position and the expectation level for the big hit determination is low, and the movable bodies A1 and A2 emit light. Is controlled to be terminated.

  According to such an effect example 1, when the player performs a slide operation while the situation shown in FIG. 117 (a) showing the movable body A1 as if it is operating appears, the movable body A1. However, since the movable body A2, which has been difficult to see, will move in the form of sudden appearance, it is possible to suppress the fall of the game entertainment by a surprised movable effect as if such a production target has been replaced. Can be done.

  Although illustration is omitted, according to such production example 1, the player performs a slide operation within a period from when the situation of FIG. 117 (a) appears until the situation of FIG. 117 (c) appears. Although the movable body A2 has started to move, this is still in a position where it is still difficult to see (behind the game board 5), and when viewed from the player side, there appears to be a situation where no production change has occurred. It can appear. In other words, in this case, the movable body A2 moves to the front side of the display unit D after causing a disappointment that no effect change has occurred even though the slide operation by the player is properly performed. Therefore, the fall of the game entertainment can be more preferably suppressed by such a surprised movable effect.

  Further, in the production example 1, as shown in FIGS. 118A and 118C, the movable bodies A1 and A2 are advanced to the position overlapping the decorative symbol SZ in the changing state. Thus, it is prompted to shift the gaze by the player from the decorative design SZ to the movable bodies A1 and A2, so that it is difficult to overlook which of the movable bodies A1 and A2 has appeared.

  In addition, in the above configuration, the manner of overlapping the decorative design SZ is different between when the movable body A1 appears and when the movable body A2 appears, so that the decorative design SZ changes to the movable bodies A1 and A2. Even if it is a failure to shift the gaze by the player, it is predicted which of the movable bodies A1 and A2 has appeared by confirming the size and position of the part in which the decorative symbol SZ is difficult to see As a result, it is possible to suppress a decrease in the game entertainment at the time of overlooking which of the movable bodies A1 and A2 has appeared.

  In the production example 1, the movable body A1 is disposed on the front side of the game board 5 and the movable body A2 is disposed on the rear side of the game board 5, but the front side of the game board 5 is provided. Both of the movable bodies A1 and A2 may be arranged, or both of the movable bodies A1 and A2 may be arranged behind the game board 5.

  Here, when both the movable bodies A1 and A2 are disposed in front of the game board 5, the movable body A1 is disposed in front of the movable body A2 so that it is difficult to visually recognize the movable body A2. It is desirable to maintain difficulty in visually recognizing the movable body A2 by keeping the movable base portion (the non-moving portion) and the like continuously located on the front side of the movable body A2 even when A1 moves.

  On the other hand, when both of the movable bodies A1 and A2 are arranged behind the game board 5, it is possible to give pleasure about which of the movable bodies A1 and A2 appears by the operation of the player. It becomes like this. In this case, the part located on the front side of the movable bodies A1, A2 in the game board 5 is caused to emit light, and the operation to the coordinate area (special operation receiving part 3333) facing the part is encouraged. It is desirable.

  In the production example 1, the movable bodies A1 and A2 are set to have the same movable direction (left direction). However, the present invention is not limited to this. For example, when the movable direction of the movable body A1 is set to the left direction and the movable direction of the movable body A2 is set to the upward direction, the game is directed to the left by being prompted by an operation instruction (suggestion image HG1) suggesting the left direction. The movable body A2 moves upwards regardless of the slide operation performed by the person, and the fall of the game entertainment can be more preferably suppressed by such a surprised movable effect. Or, even though the operation on the movable body A1 in which the movable direction is set to the left direction is urged, an operation instruction suggesting the upward direction is made to appear, and the player performs a slide operation in the upward direction. If performed, the movable body A2 that has been made difficult to visually recognize may move upward and appear.

  Moreover, in the said production example 1, when movable body A2 appeared by operation by a player, movable body A1 did not operate | move, However, It is not restricted to this. For example, when the movable body A2 is moved by an operation by the player, the movable body A1 is also moved following the slide operation by the player. Then, even if only the movable body A1 is moved back to the original position after the movable bodies A1 and A2 have moved by a predetermined distance, the fall of the game entertainment is more preferably suppressed by the surprised movable effect. Become moist. Alternatively, when moving the movable body A2 by an operation by the player, first, only the movable body A1 is moved following the slide operation by the player. Then, after the movable body A1 moves by a predetermined distance, the movable body A1 is moved back to the original position, and the movable body A2 is moved following the slide operation by the player. A certain mobile effect can more suitably suppress the decrease in gaming interest. However, when the operation target by the player is exchanged between the movable bodies A1 and A2, the operation by the player is kept at a predetermined location for a predetermined time (time required for the movable body A2 to move to the predetermined location). It is desirable to perform the production.

  Further, in the production example 1, while the movable body A2 is moving (see FIGS. 117 (c) and 118 (c)), the movable body A1 and the movable body A2 are caused to emit light. In this situation, the movable body A1 does not necessarily emit light. That is, in this case, the timing when the physical object is detected in the coordinate area (special operation receiving portion 3333) facing the movable body A1, or the movable body A2 starts to advance to the front side of the display portion D and returns to the original position. Control to end the light emission of the movable body A1 is performed at a timing (a timing at which the movable body A1 has been moved to a predetermined position) that is easier to visually recognize than at a certain time.

  Further, in the production example 1 and other examples thereof, the movable body A2 is disposed on the rear side overlapping the movable body A1 in a front view, but the board surface light emitting unit E is disposed instead of the movable body A1. You may do it. That is, in this case, when the movable body A2 is moved (in the situation shown in FIG. 117 (a)), the movable body that is in a state that is difficult to visually recognize by causing the panel light emitting portion E located on the front side of the movable body A2 to emit light. An operation to the coordinate area (special operation receiving portion 3333) facing A2 is prompted.

  Further, in the display unit D according to the above-described effect example 1, in each situation shown in FIGS. 117A to 117C, the effect image HG1 has one effect regardless of the position where the movable bodies A1 and A2 are located. The situation (the initial situation where none of the movable bodies are operating) was shown. However, instead of this, the display state of the suggestion image HG1 is changed according to the position where the movable bodies A1 and A2 are located, and the movement state of the movable bodies A1 and A2 can be recognized only by looking at the suggestion image HG1. It may be.

[Example 2 using special operation receiver 3333]
For example, as shown in FIG. 119 (a), the effect pattern of the effect example 2 (the variation pattern of the effect example 2) is set based on the result of the big hit determination, and the effect of the effect example 2 is displayed on the display unit D. It is assumed that the decoration pattern SZ is changed by the pattern. Then, the peripheral control board 1510 sets (controls) the coordinate area (not shown) facing the movable body A1 in the special operation receiving portion 3333 so that the effect can be received during the period in which the effect pattern of the effect example 2 appears. ) To generate an operation effect period.

  Here, as the effect pattern of the effect example 2, at least the effect pattern A1 of the effect example 2 that is determined to operate the movable body A1, and the movable object A1 and the movable object B are respectively operated. The production pattern AB of production example 2 is included. And in the production pattern A1 of the production example 2, as in the case of the production pattern A1 of the production example 1 described above, FIGS. 117 (a), (b) and FIG. 118 (a) (or FIG. 118 (b)). An opportunity for accepting an operation effect on the movable body A1 is provided in the manner shown in FIG. 2, and the movable body A1 moves. On the other hand, in the production pattern AB of the production example 2, after the opportunity for accepting the operation effect for the movable body A1 is provided, the opportunity for acceptance of the operation effect for the movable body B is provided. Accordingly, in the peripheral control board 1510, even if any of the effect patterns A1 and AB is performed as the effect pattern of the effect example 2, the coordinate area (not shown) facing the movable body A1 is displayed on the display unit D. In FIG. 5, a suggestion image HG1 suggesting that an operation of sliding the movable body A1 in the movable direction (here, the left direction) is to be performed is displayed. Similarly, even if any of the production patterns A1 and AB are performed, the movable body A1 is caused to emit light and suggest that a coordinate area (not shown) opposite to this should be operated. ing.

  However, in the production pattern AB of the production example 2, when an operation on a coordinate area (not shown) facing the movable body A1 is accepted (when a physical object is detected), a specific production event is performed on the movable body A1. First, as shown in FIG. 119 (b), control is performed to hide the suggestion image HG1 on the display unit D and interrupt the effect reception in the coordinate area facing the movable body A1. At this time, it is desirable that the decorative design SZ on the display unit D is displayed in a manner that is visible but difficult to view (such as semi-transparent display), and the light emission state of the movable body A1 is also interrupted. It is desirable to make it.

  Then, as shown in FIG. 119 (c), in the display unit D in which the suggestion image HG1 is hidden in this way, an operation is performed on an operation means (such as the operation button 410) different from the special operation receiving unit 3333. The prompting operation instruction image SG is displayed, and an operation reception period for a specific effect using the other operation means (such as the operation button 410) is generated. Then, when an operation on another operation means (such as the operation button 410) is received during the operation reception period of the specific effect, the operation instruction image SG on the display unit D is hidden as shown in FIG. 120 (a). At the same time, control is performed so that the movable body B different from the movable body A1 initially shown as the production target is operated. In this production example 2, the movable body B is advanced to the front side of the display unit D for a predetermined time.

  Then, in the production pattern AB of production example 2, after the movable body B operates in this way, as shown in FIG. 120B, the display unit D is movable in a coordinate area (not shown) facing the movable body A1. A suggestion image HG2 suggesting that an operation of sliding the body A1 in the movable direction (here, the left direction) is displayed, and a coordinate area (not shown) of the special operation receiving portion 3333 facing the movable body A1. The operation effect period for setting (controlling) to be receivable is generated again. At this time, the opportunity for the presentation operation of the movable body A1 is given again, but after the situation shown in FIG. 119 (a) appears, the movable body A1 operates without operating the movable body B. It is desirable to set the expectation level higher in the production pattern AB of the production example 2 in which the movable body A1 operates after the movable body B is operated than in the production pattern A1 of the production example 2. In this case, as shown in FIG. 120B, the display mode of the suggestion image HG2 is different from the suggestion image HG1 shown in FIG. It is desirable to make the light emission mode of the movable body A1 different from the light emission mode of the movable body A1 shown in FIG. 119 (a) so as to suggest that the production pattern is highly expected. .

  In the effect pattern AB of the effect example 2, after the situation shown in FIG. 120B appears, as in the case of the effect pattern A1 of the effect example 1 described above, FIG. 117 (b) and FIG. a) (or FIG. 118 (b)) shows an opportunity for accepting an operation effect for the movable body A1 in the manner shown in FIG. 118, so that the movable body A1 moves. In addition, after the situation shown in FIG. 120 (b) appears, as in the case of the production pattern A2 of the production example 1 described above, FIG. 117 (c) and FIG. 118 (c) (or FIG. 118 (b)). ), An opportunity for accepting an operation effect on the movable body A1 is provided, and an effect pattern in which the movable body A1 moves may appear.

  In particular, in the production pattern AB of the production example 2, as shown in FIG. 120B, the suggestion image HG2 suggesting that the production pattern has a high expectation appears, or the light emission mode of the movable body A1 is changed. Since it is made different, this is also a movable effect that appears when an operation of sliding the movable body A1 in the movable direction (here, the left direction) is performed in a coordinate area (not shown) facing the movable body A1. Is preferably performed in a special execution manner different from the case of the production pattern A1 of the production example 2.

  According to the production pattern AB of the production example 2 as described above, the first production opportunity using the first operation part (here, the special operation receiving unit 3333) is first granted (in this situation, the second operation is performed). Regardless of the part (for example, the second production opportunity for the operation button 410), if the first operation part is operated and the production is accepted, it differs from the first operation part. The second presentation opportunity for the second operation part (for example, the operation button 410) is given, and the first presentation opportunity is once lost. When the first operation opportunity is operated by operating the second operation part (for example, the operation button 410) in a situation where the first production opportunity is once lost, the second production event (in response to the production reception) ( Here, the operation of the movable body B occurs. That is, in this case, it is possible to produce a presentation as to whether or not the second presentation opportunity for the second operation part is given when the presentation is received for the first operation part. A novel operability using the operation part is provided.

  In order to suitably realize such a novel operability using a plurality of operation parts, it is desirable that the second operation part is always provided in a form that is difficult to physically operate. And when it is judged that the 2nd production opportunity with respect to the 2nd operation part is given, it is difficult to physically operate the 2nd operation part based on having received the production reception with respect to the 1st operation part. It is desirable to control the mode from the mode to the mode that is easy to operate, and allow the reception of the effect to the second operation site when the mode is easy to operate. Here, the “mode that is physically difficult to operate” is, for example, a mode in which the second operation site (for example, the operation button 410) is covered with another member and is difficult to operate, or the second operation site. Is a state that is positioned in a state when it has already been operated, and “control from a physically difficult mode to an easily operable mode” means, for example, that the second operation site itself is Control to operate to a position not covered by other members, control to operate another member covering the second operation part to a position not to cover the second operation part, and operation to the second operation part It can be realized as a control for operating to a position different from the state when it is performed. Also, in this case, the trigger for controlling the second operation part from the physically difficult operation to the easy operation aspect is not necessarily the time when the presentation is accepted for the first operation part. It may be when a specific time elapses after the production pattern is executed. In any case, the second operation part itself or a member provided in the vicinity thereof is operated to give the second presentation opportunity for the second operation part when the presentation for the first operation part is received. This is desirable in order to suggest that the operation target has been changed from the first operation part to the second operation part and that the expectation is increased by the change.

  Further, in the production pattern AB of the production example 2, the first operation site (here, the special operation receiving unit 3333) is given a first production opportunity, and then the first operation site is operated. Based on the reception of the production, the second production opportunity is given. However, after giving the 1st production opportunity using the 1st operation part (here special operation receiving part 3333) (or displaying suggestion picture HG1), after the 1st progress, the 1st A second presentation opportunity for a second operation part (for example, the operation button 410) different from the operation part may be given and the first presentation opportunity may be temporarily lost. In this case, until the predetermined time elapses, the first effect event is generated by the operation on the first operation part, but the first effect event is ended based on the elapse of the predetermined time. (When the production target is a movable body, the movable body is controlled to return to the original position). Alternatively, the first operation part using the first operation part is not given, and a second operation part (for example, different from the first operation part after elapse of a predetermined time after the suggestion image HG1 is displayed) You may make it give the 2nd production opportunity with respect to the operation button 410). In other words, in this case, it is possible to improve the game entertainment when the presentation is not accepted by the operation on the first operation part even though the suggestion image HG1 is displayed.

  Further, in the effect pattern AB of the effect example 2, the suggestion image HG1 is displayed and then the suggestion image HG1 is not displayed. However, the present invention is not limited to this. For example, the suggestion image HG1 is displayed while the suggestion image HG1 is displayed. The operation instruction image SG shown in FIG. According to such a configuration, it is possible to depict a state in which the suggestion image HG1 changes to the suggestion image HG2 having a higher expectation level, and thus it is possible to suppress a decrease in the gaming interest. However, at this time, in the case where the suggestion image HG1 is displayed in a state in which no effect is received for the first operation part, the display mode of the suggestion image HG1 is changed (for example, from color display to black and white display, translucent, etc. It is desirable to make the display mode relatively difficult to visually recognize. Furthermore, a timekeeping image showing the remaining display time of the suggestion image HG1 (remaining time for which the effect is received for the first operation part) is displayed together, and the effect is not received for the first operation part. If the state image shows that the remaining time does not decrease in the state, it is possible to make the player recognize that the remaining period during which the effect reception for the first operation part is performed does not decrease. As a result, a game using another operation means (for example, the operation button 410) can be enjoyed with peace of mind. In this case, the remaining time does not decrease after the remaining time during which the reception of the effect is received is reduced by a predetermined amount even though the reception of the effect for the first operation part is not performed. If it is shown by the said time-measurement image, more interesting performance can be provided.

  In addition, in the production pattern AB of the production example 2, after the suggestion image HG1 is displayed, the production reception for the first operation part is not performed based on the production reception for the first operation part. A period is generated, and the display mode of the suggestion image HG1 is changed during the predetermined period (for example, from a color display to a black-and-white display or a display mode that is relatively difficult to visually recognize, such as translucent). You may make it show that a remaining time does not reduce with an image (a display meter does not reduce, but will be in a stationary state etc.). At this time, it is desirable that the display mode of the image different from the suggestion image HG1 on the display unit D is also changed. In this case, when the predetermined period ends after the second presentation opportunity is provided, the display mode of the suggestion image HG1 is changed to a mode with higher expectation, and the stage reception for the first operation part is performed again. You may do it.

  Further, in the effect pattern of the effect example 2 described above, after the suggestion image HG1 that prompts the operation for the movable body A1 as an effect target is displayed (or in a state where the suggestion image HG1 is displayed), the movable body B is operated. Although the movable body B does not have to be operated by an operation by the player, for example, based on the fact that a special result is obtained by determining whether a predetermined operating condition is satisfied. It may be a non-operating movable body that operates. When such a non-operation movable body is adopted, even if it is decided to operate (a special result is obtained), an operation instruction for the non-operation movable body is not performed and an operation is accepted. Nor. In this regard, if the determination as to whether the predetermined operation condition for the non-operation movable body is satisfied is appropriately generated regardless of the execution state of the production pattern, other production targets (movable body and display image) Etc.), it is possible to secretly make a decision to operate the non-operation movable body in the state where the suggestion image HG1 is displayed. It is possible to have the possibility that a non-operating movable body unrelated to this suddenly operates and the possibility that a special movable body and other production targets may operate simultaneously. Therefore, it can be expected that the game entertainment will be improved by such unexpected operation effects.

  Further, when the suggestion images HG1, HG2 and the operation instruction image SG appear in the display unit D, the target operation region (a specific coordinate region in the special operation receiving unit 3333, the operation button 410, etc.) ) Is not allowed to be rendered, but can also be rendered in the coordinate area (special operation receiving portion 3333) facing the suggestion images HG1 and HG2 and the portion where the operation instruction image SG appears. Also good. According to such a configuration, even when the operation site cannot be recognized, it is only necessary to operate the specific images (the suggestion images HG1, HG2 and the operation instruction image S) that appear in the display unit D. A similar effect can be generated, and a decrease in the gaming interest can be suppressed.

  In the above-described embodiment, at least one of the physical objects that have already been detected while the detection related to the movement since the movement of the physical object was started in the special operation receiving unit 3333 has not been completed yet. Although it is possible to execute control to move the production target (display image or movable body) in a manner according to the movement direction and movement amount, the movement speed of the physical object is detected when performing control related to the movement of the production target. Then, the level of the moving speed may be reflected in the movement of the movable body.

  Further, in the pachinko machine 1 according to the above-described embodiment, when realizing the operation effect using the special operation receiving unit 3333, the special operation receiving unit 3333 produces an effect in a coordinate area facing the portion to be operated. Although the reception is made, it does not necessarily have to be the coordinate region facing the part to be operated, and the production reception may be made in a specific coordinate region of the special operation receiving unit 3333. Good.

  Further, in the pachinko machine 1 according to the above-described embodiment, a change in light caused by an operation (physical object such as a finger) on the special operation receiving unit 3333 is detected by the outer peripheral light detection unit 35, and this is detected by the peripheral control board 1510. By analyzing, it is decided to determine the operation mode (movement information of a physical object such as a finger) for the special operation receiving unit 3333. For example, the special operation reception is performed using a touch panel installed on the glass plate 192. The operation mode for the portion 3333 (in this case, the mode of the touch operation for the glass plate 192) may be determined. However, in this case, there is a concern that the visibility of the game area and the display area through the glass plate 192 is adversely affected.

  Next, the game control of the pachinko machine 1 in the present embodiment will be described in detail. FIG. 121 is a flowchart showing the procedure for the special symbol and special electric accessory control process (FIG. 94: step S114).

  Now, assuming that the main control program is shifted to the special symbol and special electric accessory control process (FIG. 94: step S114), the main control MPU 1310a of the main control board 1310 is first configured as shown in FIG. On the condition that the detection signal from one start port sensor 4002 is in an ON state (the ball enters the first start port 2002) (YES in step S231), the first big hit determination random number is acquired from the random number counter. A first start port passage process such as storing this in the first special symbol holding storage area of the main control built-in RAM is executed (step S232). In addition, on condition that the detection signal from the second start port sensor 4004 is in an ON state (the ball enters the second start port 2004) (YES in step S233), the second special random number (second special symbol) A second start-port passing process such as acquiring the second big hit determination random number) from the random number counter and storing it in the second special symbol holding storage area of the main control built-in RAM is executed (step S234).

  Next, it is determined whether or not a big hit execution flag indicating that the big hit gaming state is being controlled is set (step S235). If the big hit execution flag is set, the big hit gaming state is controlled. The big hit control process (step S240a) is executed.

In the jackpot control process according to this embodiment, as shown in FIG.
-When the result of the determination process for the display mode when the variable display of the first special symbol is stopped is a mode that suggests either "8R probability variation big hit A" or "8R normal big hit", the big prize opening 2005 Opening / closing pattern (round game) which is closed when the game is opened for a long time (for example, 28.5 seconds) or when the count sensor 4005 detects that nine game balls have been won in the big prize opening 2005 is repeated eight times. Control to 8R jackpot gaming state,
-When the result of the determination process regarding the display mode when the variable display of the second special symbol is stopped is a mode that suggests "16R probability variation big hit", the special winning opening 2005 is opened for a long time (for example, 28.5 seconds). Or an open / close pattern (round game) that is closed when the count sensor 4005 detects that nine game balls have been won in the big prize opening 2005 or not, and is controlled to a 16R big hit game state that repeats 16 times.
-When the result of the determination process for the display mode when the variable display of the second special symbol is stopped is a mode that suggests "8R probability variation big hit B", the special winning opening 2005 is opened for a long time (for example, 28.5 seconds). ) Or an open / close pattern (round game) that is closed when the game is received by the count sensor 4005 after 9 game balls have been won in the grand prize opening 2005 is controlled to an 8R big hit game state that is repeated eight times.
-When the result of the determination process for the display mode when the variable display of the second special symbol is stopped becomes a mode that suggests "2R normal big hit", the special winning opening 2005 is opened for a short time (for example, 0.6 seconds). After that, the opening / closing pattern (round game) to be closed is controlled to a 2R big hit game state that repeats twice.

  That is, in the pachinko machine 1 according to this embodiment, in the situation where the time-shortening control is executed, the right-handed strike is more advantageous to the player than in the left-handed manner, and in the situation where the time-shortening control is not executed, the right-handedness is preferred. As described above, the left hand is advantageous for the player. In this regard, in the left-handed state, even if a big win is won as a result of the lottery for the first special symbol corresponding to the acceptance of the game ball to the first starting port 2002, a maximum of 8 rounds of long-open big hit game Only the state (approximately 1000 game balls can be acquired) occurs.

  On the other hand, in the right-handed state, in the lottery for the second special symbol corresponding to the acceptance of the game ball to the second starting port 2004, when the big hit is won, the probability (allocation rate of the winning species) is approximately 50%. ) Is a 16-round long-open big hit game state (approximately 2000 game balls can be obtained), etc., and the expected value of the winning ball that can be obtained when winning a big hit Therefore, when the shift control is performed to the right-handed state, a larger amount of prize balls can be expected than when the player is left-handed.

  In the big hit control process, in order to start the opening control of the big prize opening 2005, first, a process for starting the operation of the condition device, a process for resetting a later-described variation number counter, and the like are performed.

  Also, in the jackpot control process, after performing the opening control of such a big winning opening 2005, as shown in FIG. Each set process of a flag and a time reduction flag is executed.

  The high probability flag is a flag indicating a high probability state, and is used in the big hit determination process shown in FIG. 126, which will be described later, and is a big hit (8R probability variable big hit A, 16R) for which the probability change control is performed after the big hit gaming state ends. 131. A first special symbol stop process shown in FIG. 131 or a second special symbol stop process (not shown), which will be described later, when the big hit game state based on the probability variable big hit, 8R probability variable big hit B) is terminated. To reset.

  The time reduction flag is a flag indicating that the time reduction control is being executed (low probability time reduction state, high probability time reduction state). As shown in FIG. 127, the time reduction control (high probability time reduction state) after the end of the big hit gaming state. Is set when the big hit gaming state based on the big hit (8R probability variation big hit A, 16R probability variation big hit, 8R probability variation big hit B), and when the next big hit is reached, the first special symbol stop processing shown in FIG. Or it resets by the 2nd special symbol stop process which is not illustrated. Alternatively, when a special symbol (first special symbol, second special symbol) is digested 100 times without winning a big hit after a low probability time-short state occurs, the first special symbol stop process shown in FIG. Or it resets by the 2nd special symbol stop process which is not illustrated.

  The fluctuation counter is a counter indicating the number of fluctuations of a special symbol since the fluctuation counter is reset, and is used in a first fluctuation pattern setting process (second fluctuation pattern setting process) shown in FIG. 129 described later. It is updated when a special symbol (first special symbol, second special symbol) changes (for example, counts up) and at least a specific type of big hit (16R probability variable big hit, 8R probability variable big hit B) It is reset when the big hit gaming state based on is started.

  If the big hit execution flag is not set (NO in step S235), then as a process of step S236, whether or not the big hit execution flag indicating that the small hit gaming state is controlled is set. Is determined. As a result, if the small hit execution flag is set, a small hit control process (step S240b) for controlling the small hit gaming state is executed. In the small hit control process, a process of opening the special winning opening 2005 for a specific opening time (for example, 1.8 seconds) is performed.

  Here, in the small hit control process (step S240b), unlike the big hit control process (step S240a), after such opening control of the big winning opening 2005 is performed, the high probability flag, the short time flag, the short time Each set process such as a count counter is not performed. However, in the pachinko machine 1 according to this embodiment, as shown in FIG. 127 (a), the big hit determination does not win a small hit.

  If the small hit execution flag is not set (NO in step S236), the value of the second special hold number counter indicating the number of second big hit determination random numbers stored in the second special symbol hold storage area is On condition that it is “0” (step S237), a first special symbol process process including a lottery process relating to the display mode when the variable display of the first special symbol is stopped is executed (step S238).

  On the other hand, if the value of the second special reserved number counter indicating the number of second big hit determination random numbers stored in the second special symbol reserved storage area is not “0” (step S237), A second special symbol process process including a lottery process relating to the display mode when the variable display is stopped is executed (step S239). As a result, as long as the game is performed so that the lottery for the second special symbol placed on hold is not lost (unless the value of the second special pending number counter is “0”), the first special symbol Regardless of the lottery hold status, only the lottery for the second jackpot determination random number is continuously performed without interruption (priority execution).

  Therefore, in the pachinko machine 1 according to this embodiment, the player can maintain the driving ball (right strike) to the right side of the center accessory 2500 in the short time state (high probability short time state). Only the lottery (determination process) for the big hit determination random number can be performed continuously without interruption.

  The special game (design variation) using the second special symbol (second special symbol) is limited to a game executed in preference to the special game using the first special diagram (first special symbol). Instead, for example, the execution of the special game may be started in the order in which the game balls enter (pass) through the first start port 2002 and the second start port 2004 and start winnings are generated. In this case, a table for storing data capable of specifying the order in which the start winnings are generated is provided, and the execution of the special game using either the first special figure or the second special figure is started from the stored data. It only has to be able to decide.

  FIG. 122 is a flowchart showing a procedure for the first start port passage processing (step S232).

  If it is determined in the process of step S231 that the first start port sensor 4002 is on and a game ball has entered the first start port 2002, as shown in FIG. In addition, the main control MPU 1310a of the main control board 1310, as the process of step S241, first, each random number on the first special symbol side (random hit determination random number, reach determination random number, jackpot symbol random number, variation display pattern random number ) Is obtained from the random number counter.

  Next, the main control MPU 1310a of the main control board 1310 obtains the counter value by the first special reservation number counter from the main control built-in RAM, and the number of reservations of the first special symbol is the maximum value based on the counter value. It is determined whether or not it is “4” which is (upper limit value) (step S242). If it is determined in step S242 that the number of the first special symbol hold is not the maximum value, the first special symbol change display (determination process for the first special symbol) is newly held. In order to achieve this state, the following steps S243 to S245 are performed.

  That is, first, as the process of step S243, the first special reservation number counter is incremented (added by 1). Next, as the processing of step S244, the first special symbol holding storage area corresponding to the counter value by the first special holding number counter in the storage area of the main control built-in RAM as the random number acquired in step S241. To store.

  Next, the first special figure prefetch process for executing the prefetch effect on the first special figure side is executed, and the process is terminated (step S245). As will be described later, the prefetching effect on the first special symbol side is an effect that suggests in advance the determination result (or the degree of expectation) of the first special symbol before the variable display of the first special symbol is started. In the first special figure prefetching process, information required for determining whether or not the prefetching effect is executed and the contents of the effecting on the peripheral control board 1510 side (information relating to the winning for prefetching determination, symbol type for prefetching judgment) Information, information related to the variation pattern number for prefetch determination) is generated and stored in the corresponding storage area as transmission information for the peripheral control board 1510. At this time, instead of the determination result itself of the first special symbol, information regarding the stop symbol of the special symbol may be included in the command as information suggesting the type of jackpot game. For example, information at a stage before final determination such as an SP reach group, a normal reach group in the variation pattern, and a latent hit group or a small hit group in the symbol type may be transmitted as a prefetch command.

  On the other hand, if it is determined in step S242 that the number of the first special symbol hold is the maximum value, the variable display of the first special symbol is not newly held. That is, by ending the process without executing the processes of steps S243 to S245, the first special symbol variation display is not newly put on hold.

  FIG. 123 is a flowchart showing the procedure of the second start port passage process (step S234).

  If it is determined in the process of step S233 that the second start port sensor 4004 is in an ON state and a game ball has entered the second start port 2004, as shown in FIG. In addition, the main control MPU 1310a of the main control board 1310, as the processing of step S251, first, each random number on the second special symbol side (second big hit determination random number, second reach determination random number, second big hit symbol for A random number and a random number for the second variation display pattern) are obtained from the random number counter.

  Next, the main control MPU 1310a of the main control board 1310 obtains the counter value by the second special reservation number counter from the main control built-in RAM, and the number of reservations of the second special symbol is the maximum value based on the counter value. It is determined whether or not “4” (step S252). In the process of step S252, if it is determined that the second special symbol hold number is not the maximum value, the variable display control of the second special symbol (lottery for the second special symbol) is newly held. In order to achieve this state, the following steps S253 to S255 are performed.

  That is, first, as the process of step S253, the second special hold number counter is counted up (added by 1). Next, as the processing of step S254, the second special symbol holding storage area corresponding to the counter value by the second special holding number counter in the storage area of the main control built-in RAM as the random number acquired in step S251. To store.

  Next, the second special figure prefetch process for executing the prefetch effect on the second special figure side is executed, and the process is terminated (step S255). As will be described later, the pre-reading effect on the second special symbol side is an effect that suggests in advance the determination result (or the degree of expectation) of the second special symbol before the variable display of the second special symbol is started. In the second special figure prefetching process, information (winning information, symbol type, variation pattern number, etc.) necessary for determining the presence / absence of prefetching and the contents of the presentation on the peripheral control board 1510 side is generated, The information is stored in the corresponding storage area as transmission information for the peripheral control board 1510. At this time, instead of the determination result itself of the second special symbol, information related to the stop symbol of the special symbol may be included in the command as information suggesting the type of jackpot game. For example, information at a stage before final determination such as an SP reach group, a normal reach group in the variation pattern, and a latent hit group or a small hit group in the symbol type may be transmitted as a prefetch command. Further, in the process of step S255, a process (FIG. 163) for realizing a change effect described later can be performed.

  On the other hand, if it is determined in step S252 that the number of the second special symbol hold is the maximum value, the variable display control of the second special symbol is not newly held. That is, by ending the process without executing the processes of steps S253 to S255, the second special symbol variable display control is not newly put on hold.

  A command for instructing the number of first special symbols to be retained in the peripheral control board command transmission process (step S120) when the number of retained first special symbols is changed based on the game ball entering the first starting port 2002. (First hold number designation command 0 to 4) is set and transmitted to the peripheral control board 1510. Further, when the number of second special symbols held changes based on the game ball entering the second starting port 2004, the peripheral control board command transmission process (step S120) indicates the number of second special symbols held. A command to be performed (second hold number designation command 0 to 4) is set and transmitted to the peripheral control board 1510.

  FIG. 124 is a flowchart showing the procedure for the first special symbol process (step S238). The first special symbol process executed in step S238 of the special symbol and special electric accessory control process and the second special symbol process executed in step S239 of the special symbol and special electric accessory control process are the same. Since only the random numbers and tables used for determination are different, only the first special symbol process executed in step S238 of the special symbol and special electric accessory control processing will be described here. In the first special symbol process, one of the following five process processes is selectively executed according to the first special symbol process flag.

  1. The big hit determination random number corresponding to the first special symbol stored in the main control built-in RAM is read, and the lottery process for the display mode when the variation control of the first special symbol is stopped based on the read big hit determination random number, etc. First special symbol normal processing (step S280)

  2. The first special symbol stop symbol setting process (step S281) in which the determination process of the first special symbol variable control stop mode is performed based on the result of the determination process for the display mode when the first special symbol variable control is stopped )

  3. The first special symbol displayed on the first special symbol display 1403 on the basis of the random number for the variable display pattern 1403 and the above-mentioned effect display device (game board side effect display device) 1600 corresponding to the special symbol The first variation pattern setting process (step S282) in which the lottery process for the variation mode of the effect display to be performed is performed

  4). The first special symbol variation process which waits until the first special symbol variation display on the first special symbol display 1403 is stopped (step S283).

  5. The first special symbol display unit 1403 displays the first special symbol variation control stop mode determined based on the result of the determination process for the display mode when the first special symbol variable control mode is stopped. First special symbol stop process for stopping the variable display of the first special symbol (step S284)

  The initial value of the first special symbol process flag is operated to indicate that the first special symbol normal process (step S280) should be performed.

  FIG. 125 is a flowchart showing the procedure of the first special symbol normal process (step S280).

  When the first special symbol process flag indicates that the first special symbol normal process should be performed, as shown in FIG. 125, the main control MPU 1310a of the main control board 1310 first performs step S301. As a process of (1), it is determined whether or not there is a variable display of the first special symbol that is in the hold state based on the counter value by the first special hold number counter. As a result, if it is determined that there is a change display of the first special symbol that is in the hold state, it is stored in the first special symbol hold storage area of the main control built-in RAM as the process of step S302. First random number related to the display mode of the first special symbol (for example, first jackpot determination random number, first reach determination random number, first jackpot symbol random number, first variation display pattern random number) The random number stored in the area is read from the main control built-in RAM. Next, as the processing of steps S303 and S304, the first special reserved number counter is counted down and the first special reserved number stored in each storage area of the first special design reserved RAM of the main control built-in RAM. First-in first-out (First-In, First-In) random numbers (for example, first jackpot determination random number, first reach determination random number, first jackpot symbol random number, first variation display pattern random number) related to the display mode when the symbol variation display is stopped The shift operation is performed in the First-Out) mode.

  Specifically, the first special symbol reserved storage area has four storage areas (first special symbol reserved storage area a to first special symbol reserved storage area d), and a start winning prize to the first start opening 2002 is shown. The random numbers extracted according to the generation are stored in order from the first (first) area. Then, if a starting prize occurs when random numbers are stored in the nth (n = 1 to 3) storage area, the extracted random numbers are stored in the n + 1th (n = 1 to 3) storage area. When the variable display start condition based on the random number stored in the storage area is satisfied, various random numbers stored in the first storage area are read out and stored in the Nth (N = 2 to 4) storage area. Various random numbers are moved to the (N−1) th (N = 2 to 4) th storage area. As a result, the order in which the suspension of the variable display of the first special symbol occurs can be stored in an identifiable manner, and the suspension of the variable display is released in order from the earliest suspension (the suspension that occurred first). . Similarly, the second special symbol holding storage area has four storage areas (second special symbol holding storage area a to second special symbol holding storage area d), and according to the occurrence of the start winning at the second starting port 2004. The random numbers extracted in this manner are stored in order from the first (first) area. Then, if a starting prize occurs when random numbers are stored in the nth (n = 1 to 3) storage area, the extracted random numbers are stored in the n + 1th (n = 1 to 3) storage area. When the variable display start condition based on the random number stored in the storage area is satisfied, various random numbers stored in the first storage area are read out and stored in the Nth (N = 2 to 4) storage area. Various random numbers are moved to the (N−1) th (N = 2 to 4) th storage area. As a result, the order in which the suspension of the variable display of the second special symbol has occurred is stored in an identifiable manner, and the suspension of the variable display is released in order from the earliest suspension (the suspension that occurred first). .

  After that, as a process of step S305, a big hit determination process which is a determination process for the big hit is based on the read first big hit determination random number. Thereafter, when the first special symbol process flag is updated so that the process shifts to the first special symbol stop symbol setting process (step S281) (step S306), the process is terminated.

  FIG. 126 is a flowchart showing the procedure for the jackpot determination process (step S305).

  If the current gaming state is a high probability state (high probability short-time state, high probability non-short-time state) (step S311), the main control MPU 1310a of the main control board 1310 has a high probability state shown in FIG. 127 (A). A jackpot determination table is selected (step S312), and if the current gaming state is a low probability state (step S311), the jackpot determination table at the low probability shown in FIG. 127 (A) is selected (step S313) and selected. The jackpot determination table and the jackpot determination random number read in step S302 of the first special symbol normal process are compared (step S314).

  As shown in FIG. 127 (A), the jackpot determination table is stored in the main control built-in ROM, and the game state is low in probability for each type of special random numbers (first jackpot determination random number, second jackpot determination random number). (Low probability non-short time state, low probability short time state) and low probability jackpot judgment table and high used when the gaming state is high probability (high probability non-time short state, high probability short time state) And a jackpot determination table at the time of probability. In the jackpot determination table at low probability that is referred to for comparison with the first jackpot determination random number, it matches with the jackpot determination value indicating that the 204 types of first jackpot determination random numbers have won the jackpot, 65332 The first big hit determination random numbers (65536 types) are associated with each other so that the first big hit determination random number of the type matches the loss determination value indicating that it is the loss (a big hit probability at a low probability; “1/321”). On the other hand, in order to compare with the big special determination random number (second big hit determination random number) of the second special symbol in the second special symbol process processing executed in step S239 of the special symbol and special electric utility control process In the jackpot determination table at the time of the low probability to be referenced, the 204 types of second jackpot determination random numbers coincide with the jackpot determination value indicating that the jackpot has been won, and the 65332 types of second jackpot determination random numbers are the above-mentioned losses. The second jackpot determination random numbers are associated with each other so as to coincide with the loss determination value indicating that (the jackpot probability at the time of low probability; approximately “1/321”).

  In addition, in the jackpot determination table at high probability referred to for comparison with the first jackpot determination random number, 2040 types of first jackpot determination random numbers coincide with the jackpot determination value and 63634 types of first jackpot determination The first jackpot determination random numbers are associated with each other so that the random numbers match the loss determination value (the jackpot probability at the time of high probability; approximately “1/32”). On the other hand, in the jackpot determination table at the time of high probability referred to for comparison with the second jackpot determination random number in the second special symbol process processing executed in step S239 of the special symbol and special electric accessory control process , 2040 types of second jackpot determination random numbers coincide with the jackpot determination value indicating that the jackpot has been won, and 63396 types of second jackpot determination random numbers match the loss determination value indicating that the above-mentioned loss has occurred. The second jackpot determination random numbers are associated with each other (the jackpot probability at the time of high probability; approximately “1/32”). It should be noted that the jackpot determination value set in the jackpot determination table referenced for comparison with the first jackpot determination random number and the jackpot determination table referenced for comparison with the second jackpot determination random number (the jackpot determination value of the jackpot determination value) The number of jackpot judgment values may be different with the same number (the jackpot probability is the same), or the number of jackpot judgment values may be different (the jackpot probability is different)). In this case, at least one of the jackpot determination values of the jackpot determination table at the low probability and the jackpot determination table at the high probability may be different (both may be different). .

  When the main control MPU 1310a of the main control board 1310 compares the selected jackpot determination table with the jackpot determination random number read in step S302 of the first special symbol normal process and determines that it is a jackpot (step S315). ), A jackpot flag indicating that the change is won by the jackpot is set (step S316), and the jackpot determination process is terminated.

  If it is determined in step S315 that the jackpot has been lost, the jackpot determination random number that has been read matches the jackpot determination value indicating that the jackpot determination has been won based on the selected jackpot determination table. Whether or not is determined (step S317). However, as described above, in step S302 of the first special symbol normal process (second special symbol process) of this example, the big hit determination random number that matches the small hit determination value is not read (small hit probability; In this step S317, it is determined that the small hit is not won (judgment is determined).

  On the other hand, if it is determined in step S317 that a loss has occurred, the reach determination table is compared with the reach determination random number read in step S302 (step S319).

  A reach determination table (not shown) is stored in the main control built-in ROM, and is used when the gaming state is in a high probability non-short-time state, and when the gaming state is in a high-probability short-time state. And a reach determination table for a low probability state used when the gaming state is a low probability state (low probability non-short state state).

  Here, in the reach determination table in the high-probability short-time state, a reach determination value indicating that one type of reach determination random number is reachable and 71 types of reach determination random numbers are not reachable. The reach determination random numbers are associated with each other so as to match. However, the reach determination table in the high probability short-time state matches the reach determination value indicating that all 72 types of reach determination random numbers do not reach in order to maximize the game progress speed in the short-time state. Thus, the reach determination value indicating the reach may not be matched.

  In the reach determination table in the low probability state, five types of reach determination random numbers including the same reach determination random number as the reach determination random number set in the reach determination table in the high probability short state reach. The reach determination random numbers are associated with each other so as to match the reach determination values indicating that the 67 reach reach determination random numbers do not reach. As described above, in this embodiment, in the low probability state, the reach determination value indicating the reach is higher than that in the high probability short time state, and is obtained with a predetermined probability.

  Further, in the reach determination table in the high probability non-short-time state, five types of reach determination including the same reach determination random number as the reach determination random number set in the reach determination table in the high-probability short-time state and the low-probability state The reach determination random numbers are associated with the reach determination values indicating that the random numbers for reach coincide with the reach determination values indicating that the 67 types of reach determination random numbers do not reach. As described above, in this embodiment, the reach determination value indicating the reach in the high probability non-time-short state is the same as the low probability non-time-short state.

  The main control MPU 1310a of the main control board 1310 compares the selected reach determination table with the reach determination random number read in step S302 (step S319), and determines that the reach is lost (YES in step S120). Then, a reach flag indicating that the change becomes reach is set, and the process is terminated (step S121).

  FIG. 128 is a flowchart showing the procedure of the first special symbol stop symbol setting process (step S281).

  When the first special symbol process flag indicates that the first special symbol stop symbol setting process should be performed, as shown in FIG. 128, the main control MPU 1310a of the main control board 1310 first The result of the lottery process of the display mode when the variable display of the first special symbol is stopped, that is, the result of the jackpot determination process (step S305) is determined. The lottery processing result is determined by determining whether or not the big hit flag is set (step S331).

  If the big hit flag is set in step S331, the main control MPU 1310a selects the symbol determination table shown in FIG. 127 (B) and reads the first big hit symbol random number read in step S302 of the first special symbol normal process. Is compared with the selected symbol determination table to determine the big hit symbol as the mode when the variable control of the first special symbol is stopped (stop symbol of the first special symbol) (step S332).

  As shown in FIG. 127 (B), in the symbol determination table on the first special symbol side, the random number for the first big hit symbol (here, a total of 200) for the determination result (8R probability variation big hit A, 8R normal big hit) Of the first jackpot symbol) is stored in an associated manner. As shown in FIG. 127 (C), the symbol determination table on the second special symbol side includes a random number for the second big hit symbol for the determination result (16R probability variation big hit, 8R probability variation big hit B, 2R normal big hit). Here, a total of 200 second big hit symbol random numbers) are stored in association with each other.

  The main control MPU 1310a of the main control board 1310 determines the type of jackpot by specifying the determination result associated with the acquired jackpot symbol random number. In the symbol determination table of this example, the jackpot type determined based on the first jackpot symbol random number is set different from the jackpot type determined based on the second jackpot symbol random number. . More specifically, the allocation rate (allocation) between the probable jackpot that triggers the transition to the high probability state and the regular jackpot that does not trigger the transition to the high probability state are the same, but for the first jackpot symbol The expected value of the game ball that can be acquired by the jackpot determined based on the second jackpot design random number is larger than the expected value of the game ball that can be acquired by the jackpot determined based on the random number. ing.

The following is a concise summary of the specific game and performance contents for each type of jackpot.
1. The count sensor 4005 indicates that nine game balls have been won after the grand prize opening 2103 is opened for a long time (for example, 28.5 seconds) after the jackpot symbol combination appears in the effect display device 1600. Opening and closing patterns (round games) that are closed when detected in 8 are repeated 8 times to control the game ball to enter the big winning opening 2103 (easy) 8R big hit gaming state, and after this 8R big hit gaming state Is controlled to the high probability short-time state until the next big hit gaming state occurs, and during the execution period of the 8R big hit gaming state, a battle effect (battle victory effect) is won for a specific character, Are controlled to the effect mode indicated in the effect display device 1600 to be in a relatively advantageous state.

  2. The count sensor 4005 indicates that nine game balls have been won after the grand prize opening 2103 is opened for a long time (for example, 28.5 seconds) after the jackpot symbol combination appears in the effect display device 1600. Opening and closing patterns (round games) that are closed when detected in 8 are repeated 8 times to control the game ball to enter the big winning opening 2103 (easy) 8R big hit gaming state, and after this 8R big hit gaming state Is controlled to a low-probability short-time state until the special symbol fluctuation display is digested 100 times (or wins a big hit within the period until it is digested 100 times), and during the execution period of the 8R jackpot gaming state An effect display device that performs a battle effect (battle defeat effect) in which a specific character is defeated and is in a relatively unfavorable state in a low probability short-time state 8R usually big hit controlled in the effect mode as shown in 600

  3. The count sensor 4005 indicates that nine game balls have been won after the grand prize opening 2103 is opened for a long time (for example, 28.5 seconds) after the jackpot symbol combination appears in the effect display device 1600. Opening and closing patterns (round game) that are closed when detected in 16 are repeated 16 times to control the game ball to enter the big winning opening 2103 (easy) to the 16R big hit gaming state, and after this 16R big hit gaming state Is controlled to a high-probability short-time state until the next big hit gaming state occurs, and an effect on whether the number of rounds exceeds 8 rounds (whether it will be 16 rounds) during the execution period of the 16R big hit gaming state (successful production) ) Will be added, and a relatively advantageous state will be given after a predetermined period of time has passed since it was controlled to a high probability short-time state. 16R sometimes is controlled to effect mode shown in the effect display device 1600 probability variation jackpot

  4). The count sensor 4005 indicates that nine game balls have been won after the grand prize opening 2103 is opened for a long time (for example, 28.5 seconds) after the jackpot symbol combination appears in the effect display device 1600. Opening and closing patterns (round games) that are closed when detected in 8 are repeated 8 times to control the game ball to enter the big winning opening 2103 (easy) 8R big hit gaming state, and after this 8R big hit gaming state Is controlled to a high-probability short-time state until the next jackpot gaming state occurs, and an effect on whether the number of rounds exceeds eight (16 rounds) during the execution period of the 8R jackpot gaming state (failure effect) ) Is performed, and after a predetermined period of time has passed since it was controlled to a high-probability time-short state, this is a relatively advantageous state. 8R probability variation big hit B but which is controlled in the effect mode as shown in the effect display device 1600

  5. The count sensor 4005 indicates that nine game balls have been won after the big winning opening 2103 is opened for a short time (for example, 0.6 seconds) after the jackpot symbol combination appears in the effect display device 1600 or for a long time. The opening / closing pattern (round game) that is closed when it is detected at 2 is repeated twice to control the game ball to a 2R big hit game state that is difficult to enter the big prize opening 2103. After this 2R big hit game state, Controls the low probability short-time state until the symbol change display is digested 100 times (or wins a big hit within the period until 100 times it is consumed), and a specific character during the execution period of the 2R jackpot gaming state In the production display device 1600, a battle production (battle defeat production) is defeated, and in a low probability short-time state, the state is relatively disadvantageous. 2R usually big hit controlled in the effect mode indicated Oite

  In the left-handed state, the game ball does not pass through the gate portion 2003, and the movable piece (not shown) that opens the second starting port 2004 is not driven. Therefore, in the left-handed state, the winning of the game ball to the second starting port 2004 does not occur, only the winning of the game ball to the first starting port 2002 occurs, and there is a holding ball of the second special symbol Except for the case, only the variation display of the first special symbol is executed in the first special symbol display 1403, and the big hit (8R probability variable big hit A, 8R normal big hit) related to the first special symbol is generated. Similarly, in the right-handed state, the game ball is not won at the first start port 2002. Therefore, in the right-handed state, only the winning of the game ball to the second starting port 2004 occurs, and the second special symbol display 1186 in the second special symbol display 1186 except for the case where there is a holding ball of the first special symbol. Only the fluctuation display is executed, and big hits (16R probability change big hit, 8R probability change big hit B, 2R normal big hit) related to the second special symbol are generated.

  In addition, in the jackpot related to the first special symbol, the maximum winning opening 2103 is opened for a long time (for example, 28.5 seconds), and the opening / closing pattern is repeated 8 times, whereas only about 1000 game balls are paid out. With a big hit related to the second special symbol, a maximum of 2000 game balls can be paid out by repeating an open / close pattern that opens the grand prize winning opening 2103 for a long time (for example, 28.5 seconds) 16 times.

  In the first special symbol stop symbol setting process, when the 8R probability variable big hit A is determined, the 8R probability variable big hit A symbol is determined as the big hit symbol, and when the 8R normal big hit is determined, the 8R normal big hit symbol is changed to the 8R normal big hit symbol. decide. Although not shown, when the 16R probability variation big hit is determined in the second special symbol stop symbol setting process, the 16R probability variation big hit symbol is decided as the big hit symbol, and when the 8R probability variation big hit B is decided, the 8R probability variation big hit is decided as the big hit symbol. When the symbol B is determined and the 2R normal jackpot is determined, the 2R normal jackpot symbol is determined as the jackpot symbol.

  In addition, if the big hit flag is not set in step S331, the main control MPU 1310a of the main control board 1310 next determines whether or not the small hit flag is set as processing in step S333. As a result, if the small hit flag is set in the process corresponding to step S333 in the second special symbol process (step S239), the small hit symbol ( After the specific symbol stop mode is determined (step S334), the process proceeds to step S337.

  Furthermore, if the small hit flag is not set in step S333, the main control MPU 1310a of the main control board 1310 determines that it is a lost symbol as a special symbol variation stop mode (step S336), and then proceeds to step S337. To do.

  After the stop symbol determination process is performed in this manner, the main control MPU 1310a of the main control board 1310 performs either of the lottery results (big hit type, small hit, reach out of position, or out of position) as the process of step S337. A determination result notification command corresponding to each lottery result is set so that an instruction (which may instruct a stop symbol form of the first special symbol) is transmitted to the peripheral control board 1510. After that, when the first special symbol process flag is updated so that the process shifts to the first variation pattern setting process (step S282) as the process of step S338, this process is terminated.

  The peripheral control MPU 1511a controls the display of the effect display device 1600 based on the received determination result notification command and the variation pattern command (left, middle, and right decorative symbols are displayed in a variable manner and left decorative symbols → right decorative symbols → The display is stopped in the order of the middle decorative symbols (the left, middle, and right decorative symbols may be displayed in a synchronized manner with the same symbol in a variable manner and may be stopped at the same time). For example, the peripheral control MPU 1511a determines a combination of three left, middle, and right decorative symbols when a type other than 2R normal big hit is won as the big hit. On the other hand, when 2R normal jackpot is obtained, it is determined to be a specific symbol combination (a combination in which at least one of the left, middle, and right decorative symbols is not the same as other symbols). In addition, when a reach loss is specified, a design with a reach (a combination of symbols having the same left and right decorative designs of “0” to “9” but having a different middle decorative design; reach lose In the case where the symbol is determined to be out of order, the symbol is determined to be a symbol without reach (a combination in which at least the left and right decorative symbols are different from the left, middle, and right decorative symbols). The stop symbol determined in this way is displayed on the effect display device 1600 when the change time specified from the change pattern command has elapsed (when the game effect ends).

  In any case, when the winning is obtained as a result of the progress of the game, the peripheral control MPU 1511a causes the winning effect display (special display mode) to appear before the big hit game is started, and the big hit game After the game is started, an effect display during the big hit game is made to appear.

  FIG. 129 is a flowchart showing the procedure of the first variation pattern setting process (step S282).

  When the first special symbol process flag indicates that the first variation pattern setting process should be performed, as shown in FIG. 129, the main control MPU 1310a of the main control board 1310 sets the big hit flag. If so (step S341), a big hit variation pattern table (not shown) corresponding to the type of jackpot determined in step S332 of the first special symbol stop symbol setting process is selected (step S342), and the small hit flag Is set (step S343), a fluctuation pattern table (not shown) at the time of small hit is selected (step S344), and if the reach flag is set (step S345), the fluctuation pattern table at the time of reach ( (Not shown) is selected (step S346), and the big hit flag, the small hit flag, and the reach flag are selected. If none of the grayed not set, that is, when the normal off (off is not executed reach demonstration) selects the off time of the fluctuation pattern table (not shown) (step S347).

  Then, the variation pattern to be executed is determined by comparing the selected variation pattern table with the variation display pattern random number read in step S302 of the first special symbol normal process (step S348), and the determined variation pattern is started. The variation pattern command for notifying the peripheral control board 1510 of this fact is set, and the variation display of the first special symbol displayed on the first special symbol display 1403 is started (step S349). Further, the main control MPU 1310a sets the variation time set corresponding to the variation pattern determined to determine the variation pattern in the variation timer (step S350). Then, when the first special symbol process flag is updated so that the process is shifted to the first special symbol variation processing (step S283) (step S355), the processing is terminated. As a result, the first special symbol display unit 1403 performs the variable display control of the first special symbol for the variation time determined in this way, and the effect display device 1600 controls the effect in synchronization with the variation display of the special symbol. Will be done.

  In addition, the variation pattern table of this example is a big hit determination random number (first big hit determination random number, second big hit determination random number) and a big hit symbol random number (first big hit symbol random number, second big hit symbol random number) A plurality of types are provided for each determination result. The variation patterns set in each variation pattern table include a plurality of variation time information indicating predetermined times (variation times) required for variation display control of the special symbols (first special symbol, second special symbol). The first variation display pattern random numbers are stored in association with each other. Accordingly, the main control MPU 1310a reads out the selected variation pattern table and the first special symbol normal process in step S302 from among a plurality of types of variation pattern tables according to the determination result based on the jackpot determination random number and the jackpot symbol random number. The above-mentioned special symbol (first special symbol, second special symbol) is obtained by comparing the variable display pattern random number with the random number for variable display pattern read out and obtaining the fluctuation time information associated with the read random number for variable display pattern from this table. Determine the variation pattern. Thereby, the determination process about the variation pattern of the special symbol (first special symbol, second special symbol) is performed. The variation pattern table is stored in the main control built-in ROM.

  However, as described above, in this example, since the small hit is not won, the variation pattern table at the time of the small hit is not used. In this example, the small win is not won, but the small win may be won.

  Further, in the variation pattern table at the time of reach in this example, the type of reach effect to be executed is determined by comparing the determination value indicating which reach effect is executed with the random number for the variable display pattern. Has been. For example, in the non-short-time state, 164 types of random display pattern random numbers among the 241 types of random display pattern random numbers are set as determination values (0 to 163) indicating that any one of the normal reach effects is executed. It is set as a determination value (164 to 222) indicating that one of the random numbers for the variable display pattern is to execute any one of the super-reaching effects having a low jackpot expectation level, and the 18 random display pattern random numbers have a high jackpot expectation level. It is set as a determination value (223 to 240) indicating that any one of the super reach effects is executed.

  The super reach production (SP production) has a higher expectation degree of big hit than the normal reach production, and the player who wants to generate the big hit gaming state is the player who is in the big hit gaming state when the super reach production is executed. The expectation of is becoming higher. In other words, such a super reach production has the highest selection rate in the fluctuation pattern table at the time of big hit, and even if a losing is eventually displayed, the player's expectation level for the big hit gaming state Can be increased. However, in fact, in order to sufficiently increase the player's expectation level for the big hit gaming state, a highly anticipated notice effect that is a lottery separate from the variation pattern appears during the period when the super reach effect is being executed It is required to do (combine).

  In addition, in the fluctuation pattern table at the time of loss, which is provided corresponding to the first jackpot determination random number and the first jackpot symbol random number and used to determine the fluctuation time of the first special symbol, the non-short-time state and the short-time state And 12 seconds of fluctuation time are set in common. On the other hand, in the variation pattern table at the time of loss, which is provided in correspondence with the second jackpot determination random number and the second symbol random number and is used when determining the variation time of the second special symbol, the time reduction state is 0.1 seconds to The variation time of 12 seconds can be set, and the variation time of 12 seconds is set as the non-short-time state. Thus, the variation time of the first special symbol is the same in the short-time state and in the non-short-time state, and the winning of the game ball to the second starting port 2004 is made during the variation of the first special symbol in the short-time state. In addition to prompting, a time for the player to win a game ball at the second starting port 2004 is secured.

  In addition, when 0.1 second is selected from the variation time at the time of the second special symbol loss, each game ball that is driven into the game area 5a at intervals of 0.6 seconds in the short time state (high probability short time state, etc.) It is possible to suppress the discharge without being subjected to the lottery process.

  In other words, the game ball that has been hit right is supplied to an area directly above the gate portion 2003. When the game ball is received from this area to the gate unit 2003 when in a short time state (such as a high probability short time state), a win as a normal symbol is obtained (for example, the winning probability is 100%), The movable piece related to the opening and closing of the second starting port 2004 is maintained in the open state for a long period (5.5 seconds in this example). As a result, in a situation where it can be successively received one after another at the second starting port 2004 (a short time state in which almost all of the game balls thrown to the right side of the center accessory 2500 can be received by the second starting port 2004). Even if these game balls are accepted, a control is performed so that the lottery on the second special symbol side can be digested one after another with a high jackpot probability (probability in a high probability state) of “approximately 1/32”. Become possible.

  In this example, when the player operates the handle 302, the game ball is fired at intervals of 0.6 seconds. Therefore, in the short time state (high probability short time state, etc.) Game balls are often received at the start port 2004 at intervals of 0.6 seconds. In this respect, in this example, as described above, the fluctuation pattern table at the time of the second special symbol losing based on the winning of the game ball to the second starting port 2004 is extremely as a fluctuation time of the short time state (high probability short time state etc.). It can be set to a short 0.1 second. In other words, in this case, when the losing is obtained, the symbol variation will be completed only in the time (0.1 seconds) less than the game ball firing interval (0.6 seconds). Even in a situation where game balls launched at intervals are successively received by the second start port 2004, it is possible to prevent such game balls from being discharged without being subjected to the lottery process. .

  FIG. 130 is a flowchart showing a procedure for the first special symbol variation process (step S283).

  When the first special symbol process flag indicates that the first special symbol variation process should be performed, as shown in FIG. 130, the main control MPU 1310a of the main control board 1310 first performs step S371. As the process, 1 is subtracted from the variation timer in which the variation time corresponding to the variation pattern determined in the lottery process (step S282) for the variation pattern is set. As a result, when it is determined that the variation time timer is 0, that is, the lottery variation time has elapsed (step S372), the process proceeds to step S373. That is, in the process of step S373, when the first special symbol process flag is updated so that the process shifts to the first special symbol stop process (step S284), this process is terminated.

  When the variation timer is not 0 even though 1 is subtracted from the variation timer (step S371), until the variation time timer becomes 0 (until the time when the symbol should be fixed and stopped), Each time the timer interrupt process is performed, the processes of steps S371 and S372 are performed.

  FIG. 131 is a flowchart showing a procedure for the first special symbol stop process (step S284).

  When the first special symbol process flag indicates that the first special symbol stop process should be performed, as shown in FIG. 131, the main control MPU 1310a of the main control board 1310 first performs step S381. As the process, the display control for causing the first special symbol indicator 1403 to display the stop symbol determined in the first special symbol stop symbol setting process is performed, and the first special symbol is displayed on the effect display device 1600. A stop display command for instructing the derivation display of the display result of the decorative symbol corresponding to the stop symbol is set as a command to the peripheral control board 1510 (step S382).

  Further, when the big hit flag is set (YES in step S386), the main control MPU 1310a of the main control board 1310 sets a big hit start command indicating that the big hit gaming state is started (step S387), The waiting time until the start of the big hit gaming state (the time for displaying to the effect of starting the big hit gaming state) is set in the interval timer (step S388). Then, a big hit running flag indicating that the big hit gaming state is being executed is set, and if the high probability flag is set, the high probability flag is reset, and if the short time flag is set, When the time-short flag is reset (step S389), the variation counter is further reset, and the first special symbol process flag is updated so that the process shifts to the first special symbol normal process which is the initial value (step S389). S394), this process is terminated. That is, in this case, when the next interrupt control is performed, it is determined that the big hit execution flag is set in the process of step S235, and the big hit game is executed in the above big hit control process (step S240a). The state will be executed.

  The jackpot start command is a command transmitted to the peripheral control board 1510, and is prepared individually according to the type of jackpot. In step S387, a big hit start command (8R positive change big hit A command, 8R normal big hit command, 8R normal big hit command, 16R normal big hit command, 8R normal big hit command, 8R normal big hit B, 2R normal big hit B, 2R normal big hit B) Jackpot command, 8R probability variable jackpot B command, 2R normal jackpot command). Thereby, the jackpot gaming state effect (battle effect or extra challenge effect) according to the type of jackpot instructed by the jackpot start command is executed by the effect display device 1600, each lamp / LED, each speaker, and the like.

  On the other hand, when it is determined in step S386 that the big hit flag has not been set (NO in step S386), it is first determined whether or not the low probability time-short state is present (step S390). And when it is in the low probability short time state, it is determined whether or not the number of fluctuations of the special symbol digested after being controlled to the low probability short time state has reached a predetermined upper limit value (here, 100 times) ( Step S391). That is, when the number of fluctuations of the special symbol digested after being controlled to the low-probability short-time state reaches a predetermined upper limit (100 times), it is determined that the condition for ending the low-probability short-time state is satisfied. The function is stopped to shift to the normal gaming state (low probability non-temporal gaming state) (step S392).

  Then, after the processing related to the time-shortening function is performed in this way, it is determined whether or not the small hit flag is set (step S393). As a result, when it is determined that the small hit flag is set (YES in step S393), a small hit start command indicating that the small hit gaming state is started is set (step S394), and the small hit game is set. The waiting time until the start of the state (the time for displaying the effect of starting the small hit gaming state) is set in the interval timer (step S395). Then, a small hitting execution flag indicating that the small hitting gaming state is being executed is set (step S396), and the process is shifted to the first special symbol normal process which is the initial value of the first special symbol process flag. When updated to (step S394), this processing is terminated. That is, in this case, when the next interrupt control is performed, it is determined that the small hitting execution flag is set in the process of step S236, and in the above-described small hit control process (step S40b). The small hit gaming state is executed. Incidentally, unlike the case where the big hit is won, the gaming state is not changed when the small hit gaming state is executed.

  On the other hand, when it is determined that neither the big hit flag nor the small hit flag is set (NO in step S393), the first special symbol process is performed without performing the processing relating to the big hit or the small hit as being lost. When the flag is updated so that the process is shifted to the first special symbol normal process which is the initial value (step S394), this process is terminated. That is, in this case, when the next interrupt control is performed, it is determined that the big hit execution flag or the small hit execution flag is not set (steps S235 and S236), and a new game is determined according to the pending status. Processing related to the progress of (lottery and symbol control) is performed (steps S237 to S239).

  FIG. 132 is a flowchart showing the procedure of the normal symbol and normal electric accessory control process (step S116).

  If it is determined in step S401 that the detection signal from the gate sensor 4003 is on and it is determined that a game ball has passed to the gate unit 2003, as shown in FIG. In step S402, the main control MPU 1310a of the control board 1310 first performs a gate section passing process such as obtaining a normal random number of a normal symbol from the random number counter and storing it in the normal symbol holding storage area of the RAM. To do.

  Next, in the normal symbol process, one of the following five process processes is selectively executed according to the normal symbol process flag.

1. Normal symbol normal processing (step S403) in which a normal random number stored in the RAM of the main control MPU 1310a is read out, and a lottery process is performed on the display mode when the normal symbol variation control is stopped based on the read normal random number.
2. Normal symbol variation time determination process (step S404) in which a lottery process or the like is performed on the variation pattern (variation time) of the ordinary symbol displayed on the ordinary symbol display unit 1402 based on the ordinary symbol random number.
3. Normal symbol variation processing that waits until the normal symbol variation display on the ordinary symbol display unit 1402 is stopped (step S405).
4). The normal symbol variation display so that the normal symbol variation control stop mode determined based on the result of the lottery process for the normal symbol variation control stop mode is displayed on the normal symbol display unit 1402. Normal symbol stop processing to stop the process (step S406)
5. When the result of the lottery process regarding the mode when the variable control of the normal symbol is stopped is a mode that suggests “per-common”, the movable piece is opened and the game ball is received at the second starting port 2004. Ordinary electric accessory release process for executing the process to control the process (step S407)

  The normal symbol process flag is operated so that its initial value indicates that the normal symbol normal process (step S403) should be performed.

  FIG. 133 is a flowchart showing the procedure of the gate section passage processing (step S402).

  Now, in the process of step S401, if it is determined that the detection signal from the gate sensor 4003 is in the on state and the game ball has passed to the gate unit 2003, as shown in FIG. In step S411, the main control MPU 1310a of the main control board 1310 first obtains the counter value by the normal hold number counter from the RAM of the main control MPU 1310a. Then, based on this counter value, it is determined whether or not the number of ordinary symbols held is “4” which is the maximum value.

  In the process of step S411, if it is determined that the number of normal symbols held is not the maximum value, the following steps S412 to S414 are performed to newly put the normal symbol variable display control on hold. Processing will be performed. That is, first, as the processing of step S412, the normal holding number counter is incremented (added by 1). Next, as the processing in step S413, the ordinary random number and the usual variable random number are acquired from the random number counter. Then, in step S414, each random number obtained in this way is stored in the normal symbol holding storage area corresponding to the counter value by the normal holding number counter in the RAM storage area of the main control MPU 1310a.

  However, if it is determined in step S411 that the number of normal symbols held is the maximum value, the normal symbol variation display control is not newly held. That is, by not executing the processes of steps S412 to S414, the normal symbol variation display control is not newly put on hold.

  FIG. 134 is a flowchart showing the procedure for the normal symbol normal process (step S403).

  When the normal symbol process flag indicates that the normal symbol normal process should be performed, as shown in FIG. 134, the main control MPU 1310a of the main control board 1310 first performs the process of step S421. It is determined whether or not there is a variable display control of the normal symbol in the hold state based on the counter value by the normal hold number counter. As a result, if it is determined that there is a variable display control of the normal symbol in the hold state, the normal symbol stored in the normal symbol hold storage area of the RAM of the main control MPU 1310a is then processed in step S422. The random number stored in the earliest storage area among the random numbers related to the symbol display mode (for example, ordinary random numbers, ordinary variable random numbers) is read from the RAM. Then, as the processing of steps S423 and S424, the normal reserved number counter is counted down, and the normal symbol variation display stored in each storage area of the RAM of the main control MPU 1310a is stopped. The random number (ordinary random number, ordinary variable random number) related to the display mode is shifted in a first-in first-out mode.

  Specifically, the normal symbol holding storage area has four storage areas 1 to 4, and the random numbers extracted according to the passage of the game ball to the gate unit 2003 are sequentially from the first (first) area. Remember. When random numbers are stored in the nth (n = 1 to 3) storage area and the game ball passes through the gate unit 2003, the extracted random numbers are stored in the n + 1th (n = 1 to 3) storage area. When the start condition of the variable display based on the random number stored in the first storage area is satisfied, various random numbers stored in the first storage area are read and the Nth (N = 2 to 4) storage area Are moved to the (N-1) th (N = 2 to 4) th storage area. Thereby, the order in which the suspension of the variable symbol display control of the normal symbol occurs can be stored in an identifiable manner, and the suspension of the variable symbol control can be released in order from the earliest suspension (the first occurrence). .

  Next, the main control MPU 1310a of the main control board 1310 selects a normal time hit table determination table (not shown) if the current gaming state is a short time state (high probability short time state) (step S426) ( In step S426), if the current gaming state is a non-time-short state (low probability non-time-short state, high probability non-time-short state) (step S425), a non-time-short normal figure determination table (not shown) is selected ( In step S427, the selected normal symbol determination table is compared with the normal random number read in step S422 of the normal symbol normal process (step S428).

  It should be noted that the common figure determination table is stored in the ROM of the main control MPU 1310a, and the normal figure determination table used when the gaming state is short time (high probability short time state) and the gaming state is non-short time. And a non-time / short-time normal figure determination table used in the case of time (low probability non-time short state, high probability non-time short state). Then, in the hourly common figure judgment table that is referred to for comparison with the ordinary random number, all the 255 kinds of ordinary random numbers coincide with the common figure judgment value indicating that the common figure is won. The ordinary random numbers are associated with each other so that they do not coincide with the usual deviation judgment value indicating that they are off. As described above, when the game ball is passed to the gate portion 2003, the winning ball is always won by the usual time, and the movable piece is opened and the game ball to the second starting port 2004 is opened. Controls acceptance. Instead of all 255 types, a larger number of ordinary random numbers than in the non-time-saving state may be matched with the determination value per universal figure indicating that it is won per universal figure.

  In addition, in the non-time-saving ordinary figure determination table referred to for comparison with the ordinary random number, all 255 types of ordinary random numbers may coincide with the ordinary figure determination value indicating that each ordinary figure is won. The normal random numbers are associated with each other so as to coincide with the misplacement determination value indicating the misplacement. As described above, in the non-time saving time, even if a game ball passes through the gate portion 2003, it is not won per hit, so the movable piece 2106 is opened and the second start port is opened. It is not possible to control the acceptance of game balls to 2004. However, as described above, the normal symbol hit may be obtained even in the non-short-time state. In this case, the winning probability (for example, 50%) is lower than that in the short-time state, and the normal symbol lottery result is the win. When the movable piece of the second start port 2004 is opened for a time shorter than the time-shortening state, for example, for 2 seconds to allow the game ball to be received in the second start port 2004, the movable piece is moved forward again. You may make it impossible to accept the game ball in the second starting port 2004.

When the main control MPU 1310a of the main control board 1310 compares the selected normal symbol determination table with the normal random number read in step S422 of the normal symbol normal process, and determines that the normal symbol hit is detected (step S429). ) After setting the flag for the normal symbol indicating that the change is won per normal symbol (step S430), the normal symbol per symbol as the mode when the fluctuation control of the normal symbol is stopped (ordinary symbol stop symbol) The symbol is determined (step S431). On the other hand, if the result of the comparison between the selected normal symbol determination table and the normal random number read in step S422 of the normal symbol normal processing is determined to be out of place, the variation of the normal symbol is determined. A non-standard symbol as a mode at the time of control stop (ordinary symbol stop symbol) is determined (step S432). After that, when the above-described normal symbol process flag is updated so that the process shifts to the normal symbol variation time determination process (step S404) (step S433), this process is terminated.

  While the control by the main control MPU 1310a is performed, the peripheral control MPU 1511a acquires the above-described various commands transmitted from the main control MPU 1310a, thereby obtaining the peripheral control unit steady process (received command analysis process ( In step S1022)), the game situation is grasped each time, and an effect corresponding to the game situation can be executed.

  More specifically, the peripheral control MPU 1511a first determines whether or not there is a situation in which a start winning has occurred, and performs control related to a hold display and a pre-reading effect according to the start winning in the situation. After that, by updating the process flag based on the grasped game situation, the following variation pattern designation command reception waiting process, effect symbol variation start process, effect symbol variation in process, effect symbol variation stop process, jackpot display process , One of the big hit game processing and the big hit end effect processing is executed.

  Fluctuation pattern designation command reception waiting process: It takes effect (demonstration effect, etc.) when the symbol is not in a fluctuation state and control related to big hit is not performed until the fluctuation pattern command related to the fluctuation pattern is received from the main control MPU 1310a. When the control is performed and the variation pattern command related to the variation pattern is received from the main control MPU 1310a, the process flag is changed to a value corresponding to the effect symbol variation start process.

  Effect symbol variation start processing: Various effect contents (effect pattern, notice effect, etc.) in the symbol change period are determined based on the change pattern command, etc., and the decoration symbol change is started based on the determined effect contents. To control. Thereafter, the value of the process flag is updated to a value corresponding to the effect symbol changing process.

Effect symbol variation processing: Various effects determined in the effect symbol variation start process are controlled at each timing during the symbol variation period, and the process flag value is determined when the variation time ends. Update to a value corresponding to the change stop process.
Production symbol variation stop processing: Control of deriving and displaying the display result (stop symbol) by stopping the variation of the decorative symbol based on the reception of the command (design determination command) for instructing all symbols to be stopped. If the decorative symbol is stopped at the jackpot symbol, the value of the process flag is updated to a value corresponding to the jackpot display processing, and if the decorative symbol is stopped at the loss symbol symbol, the process flag value is changed to a waiting process for receiving the variation pattern designation command. Update to a value corresponding to.

  Big hit display process: Controls an effect (such as a display effect that informs the effect display device 1600 of the occurrence of a big hit) during a period from when the decorative symbol stops at the big win symbol until the big hit game is started. Thereafter, the value of the process flag is updated to a value corresponding to the big hit game processing.

  Big hit game processing: Control related to various effects during the occurrence of the big hit game state. When the big hit gaming state ends, the value of the process flag is updated to a value corresponding to the big hit end effect process.

  Big-hit end effect processing: In the effect display device 1600, an effect (such as a display effect that informs the player that the big-hit gaming state has ended) is controlled in a period from the end of the big-hit gaming state to the variation-allowed state. . Then, the process flag value is updated to a value corresponding to the variation pattern designation command reception waiting process.

FIG. 135 is a diagram showing an effect pattern (variation effect) determination table T1 referred to in the effect symbol variation start process when in the normal gaming state.
As shown in FIG. 135, in the determination table T1, effect patterns (variation effects) are associated with each of the variation numbers 1 to 22 indicated by the variation pattern commands. Therefore, when the peripheral control MPU 1511a obtains the variation pattern command from the main control MPU 1310a, the effect pattern (variation effect) associated with the variation pattern command is determined based on the determination table T1, and the determined effect pattern Based on (variation effect), control is performed so that the variation of the decorative design is started.

  Note that the effect pattern (variation effect) does not necessarily correspond one-to-one with the change number indicated by the change pattern command. For example, a plurality of effect patterns (variation effects) are associated with one variation number indicated by the variation pattern command, and one of these effect patterns (variation effects) is determined based on an effect lottery or a game situation. You may make it do. As will be described later, the peripheral control MPU 1511a according to this embodiment is also configured such that a plurality of effect patterns are associated with some of the variation numbers 1 to 22.

  In addition, as will be described later, the peripheral control MPU 1511a, after determining the effect pattern (variation effect) in this way, performs a lottery (notice effect determination process) based on the result of the big hit determination, the symbol type, and the variation pattern. By performing the control (process during effect symbol variation) for causing the notice effect won in the notice lottery to appear at a predetermined timing while the determined effect pattern (variable effect) is performed, a plurality of effect contents can be obtained. The expectation degree that the jackpot symbol appears is suggested by the appearance mode etc. as those that can be combined.

  And conventionally, in such a combined effect, there are cases where a plurality of appearances are executed while one effect pattern (variable effect) is being executed while the same specific notice effect (for example, a timer effect), As a result, it is expected to maintain amusement interests. However, since the announcement effect can be combined only when the degree of expectation that the jackpot symbol appears is high, the frequency with which multiple timer effects are executed while one effect pattern (variable effect) is being executed is naturally low. Therefore, it was considered difficult to sufficiently improve the game entertainment.

  As will be described later, the “timer effect” refers to a predetermined effect that appears during execution of an effect pattern (variable effect), and a first predetermined numerical value is displayed for the timing at which the predetermined effect is performed. (E.g., "60 seconds") to a second predetermined numerical value (e.g., "0 second") or a count effect display, or a standby display (such as in preparation) before starting the count display It is. In other words, in this case, when a count display (for example, countdown) from the first predetermined value is started as a timer effect, it is guaranteed that some effect is always generated when the second predetermined value is reached. Become. Alternatively, an effect (for example, a conversation notice or cut-in A) that causes either a relatively unfavorable effect mode (a low-expectation effect mode) or an advantageous effect mode (a high expectation effect mode) to appear to the player. , B, etc.) are targeted for timer production, it is guaranteed that an advantageous production result will surely occur when the second predetermined value is reached. However, in the timer effect (especially the notice timer effect performed as a result of the notice lottery), it is kept secret as to which effect is the effect at least when the count display is started. It is desirable to do so. The “timer effect target” is an effect that appears when the count display (for example, countdown) from the first predetermined value becomes the second predetermined value (for example, “0 seconds”) as the timer effect. Therefore, in the timer effect, the count display is performed toward the timing when the effect object is generated.

  Therefore, in the peripheral control MPU 1511a according to this embodiment, in addition to the timer effect (notice side timer effect) as the effect content that appears only when winning in the notice lottery, the effect pattern (based on the determination table T1) ( It is possible to execute a timer effect (variable side timer effect) incorporated in advance as the effect content of the change effect. In other words, in this case, only the notice timer effect that executes the count effect display as “the effect content of the notice effect that functions so that the expected degree of jackpot is added to the effect pattern determined based on the variation pattern command”. First, it is also executed as “the production contents of the production pattern itself determined based on the variation pattern command”, so that the expectation degree from the jackpot expectation level indicated by the production pattern determined based on the variation pattern command Count effect display (timer effect) can be made to appear without wastefully accumulating (accumulating the expectation by satisfying the condition of “winning in advance notice lottery”). For example, when the jackpot expectation level when a specific performance pattern determined based on the variation pattern command appears is “20%”, if the notice side timer effect is further executed, the jackpot expectation level is increased by the function of the composite performance. For example, when it becomes “40%” and the appearance frequency is inevitably lowered, it is expected to be a big hit when the variable side timer effect is executed as the effect content of the specific effect pattern itself. The timer effect can be executed with the degree kept at “20%” (it can appear only by selecting a specific variation pattern), and the appearance frequency can be suitably maintained.

  Note that the degree of jackpot expectation when an effect pattern (variation effect) appears in the determination table T1 varies depending on the variation number (and also the effect pattern), and basically the jackpot expectation as the variation number increases. There is a tendency to become higher. For example, in the production pattern corresponding to the variation numbers 5 (6), 9 (10), and 17 (18), the variation-side timer production in which “conversation notice” is produced as the production content is executed. The appearance ratio is variation number 5 (6)> variation number 9 (10)> variation number 17 (18), while the jackpot expectation at the time of appearance is variation number 5 (6) <variation number 9 ( 10) <variation number 17 (18). Also, here, for convenience of explanation, only the determination table that is referred to in the normal gaming state will be described in detail. As described above, an effect pattern (count fluctuation pattern) in which the variable timer effect can be executed is included, and can appear with a probability different from that in the normal gaming state.

  Further, in the determination table T1, the variation numbers 3 to 6 are the same in that the same normal reach effect is performed, but the variation numbers 5 and 6 can be performed on the variable side timer effect for the effect of the conversation notice. This is different from the variation numbers 3 and 4. The variable numbers 7 to 14 are the same in that the same character reach effect is performed. However, the variable numbers 9 and 10 execute the variable timer effect for the effect of the conversation notice, 12, the variable side timer effect with cut-in A as the production target is executed, and the variable numbers 13 and 14 execute the conversation notice and the cut-in A and the variable side timer effect with these as the production target is executed. It is different in that it can be done. Further, the variation numbers 15 to 22 are the same in that the same SP reach production is performed, but the variation numbers 17 and 18 are performed on the variation side timer production with the conversation notice as the production target. 20, the variable timer effect for cut-in B is executed, and the variable numbers 21 and 22 execute the conversation notice and the cut-in B, and the variable timer effect for them is executed. It is different in that it can be done. It should be noted that the big hit expectation is higher when the variable side timer effect with the cut-in A and B as the effect target is executed than when the variable timer effect with the conversation notice as the effect target is executed. Is set so that the expectation degree of jackpot is higher when the variable timer effect for both the conversation notice and the cut-ins A and B is executed.

  Note that “conversation notice” is an effect that can appear at a relatively early stage after an effect pattern (decorative effect of decoration pattern) is executed, and often has a relatively low level of expectation. On the other hand, the cut-in A and B are allowed to appear at a relatively late stage after the production pattern (decorative production of the decorative design) is executed, and the expectation level is relatively high. This is often an effect (or an effect in which a relatively high expectation is always added). Therefore, the “conversation notice” is set so that the appearance ratio (execution probability) is higher than other productions with higher expectations than this (cut-in A, B, and later-described accessory drop A, B, etc.). It is supposed to be. In addition, “cut-in” that appears as the content of the fluctuating effect is executed so as to correspond to cut-in A that appears as the content of the notice effect in the character reach, whereas in the SP reach, the notice is given. It is executed so as to correspond to cut-in B instead of cut-in A that appears as production contents of the production.

  In addition, in the determination table T1 according to this embodiment, as shown in FIG. 135, the content of the effect (effect pattern) for a plurality of change patterns (change numbers 5, 6, 9-14, 17-22). ) Is assigned as the variable timer production. On this basis, if the variation pattern is “a predetermined type (such as variation numbers 1 to 6) such as a shortened variation or a low-expected normal reach effect”, a count effect display as a notice timer effect is displayed. While the effect is not won (by increasing the premium level) and the expected level UP when the notice timer effect appears, the change pattern is “change pattern (execution of change side timer effect ( Variation number 5, 6, 9-14, 17-22, etc.) ”, the variation pattern is the above-described predetermined type (for example, variation) compared to the case where the variation number is not such a count variation pattern. The ratio corresponding to the numbers 1 to 6) is made low.

  Here, 14 variation patterns (variation numbers 5, 6, 9-14, 17-22) are prepared as the count variation patterns in which the variation timer effect is executed. Since only the variation pattern (variation numbers 5 and 6) which may be set to the number corresponds to the predetermined type (variation numbers 1 to 6 and the like), the corresponding ratio is “2/14”. In contrast, eight variation patterns (variation numbers 1 to 4, 7, 8, 15, 16) are prepared as variation patterns in which the variation timer presentation is not executed, and four variation patterns (variations) Since the numbers 1 to 4) correspond to the predetermined type (variable numbers 1 to 6 and the like), the corresponding ratio is “4/8”.

  In such a configuration, when the effect of the variation pattern is a count effect display (variation side timer effect) that can be performed (count variation pattern effect), it is more noticeable than when the variation pattern does not perform the variation side timer effect. The ratio at which it is determined that the count effect display (notice timer effect) cannot be executed as the effect contents of the effect is low. Therefore, it is possible to prompt the appearance of a plurality of count displays within one production pattern (variation production) without unnecessarily accumulating expectations and lowering the appearance frequency.

  As will be described later, in the peripheral control MPU 1511a according to this embodiment, the effect pattern (variation effect) determined in the effect symbol variation start process is a count variation pattern (variation numbers 5, 6, 9-14, 17-22). ), The proportion of occurrence of the notice side timer effect varies depending on which count variation pattern the count variation pattern is. For example, as shown in FIG. 135, when the effect pattern corresponding to the variable numbers 5 and 6 is executed, the notice timer effect is not displayed at all, and the effect patterns corresponding to the variable numbers 9 to 14 are executed. The notice side timer effect is allowed to appear with a medium lottery probability, and when the effect pattern corresponding to the variable numbers 17 to 22 is executed, the notice side timer effect is allowed to appear with a high lottery probability. ing.

  Note that when the effect pattern corresponding to the variation numbers 5 and 6 is executed, the notice timer effect may appear with a low probability. Further, even if any of the effect patterns corresponding to the variation numbers 15 to 22 in which the notice timer effect is allowed to appear with a high lottery probability, the big hit is actually larger than the case of the loss. The notice pattern timer effect is allowed to appear with a higher lottery probability in the effect pattern that is won, and the variable number 22 is allowed to appear with a higher lottery probability than the variable number 16. ing.

  In such a configuration, the count effect display is displayed in advance according to whether the variation pattern is the first count variation pattern (for example, variation number 10) or the second count variation pattern (for example, variation number 22). The ratio to be executed as the production contents (notice timer production) is different. Therefore, among the above-described count variation patterns (variation numbers 5, 6, 9-14, 17-22) in which the ratio of appearance of a plurality of count displays within one production pattern (variation production) is high, the type thereof Depending on the situation, it is possible to further increase the rate at which a plurality of count displays appear, so that it is expected that the game entertainment will be suitably maintained.

  In particular, as will be described later, in the peripheral control MPU 1511a according to this embodiment, even if the production pattern in which the production content of the same reach type appears (for example, character reach, SP reach), the variable timer production is included as the production content. In the effect pattern (for example, variation numbers 17 to 22), the notice-side timer is within the execution period of the effect pattern compared to the effect pattern (for example, variation numbers 15 and 16) in which the variable timer effect is not included as the effect content. The ratio of the appearance of the effect (the ratio determined to execute the notice side timer effect in the notice lottery) is increased. In other words, in this case, two timer effects (fluctuating timer effect and notice timer effect) appear in one effect pattern just by expecting a big hit expectation enough to win the one notice timer effect in the notice lottery. As a result, the opportunity to produce a double timer can be realized without wasteful accumulation of the big hit expectation.

  In the peripheral control MPU 1511a according to this embodiment, the effect pattern (variation effect) determined in the effect symbol variation start process is a count variation pattern (variation numbers 5, 6, 9-14, 17-22). Even in such a case, the variable side timer effect (variable side count effect display) for which “conversation notice” is the effect target and the variable side timer effect (variable side count effect display) for which “cut-in” is the effect target Then, the mode of count display (the form and color of count numbers) is made different. That is, in this case, even when an effect pattern (for example, variation numbers 9 and 11) having the same reach effect as the effect content is executed, the count display mode of the variable side timer effect (variable side count effect display) is confirmed. In combination with the fact that “the rate of occurrence of the notice timer effect is different depending on which count variation pattern is present”, the ease of appearance of the notice timer effect is recognized. You can expect.

  In addition, about the aspect of the count display that appears in the notice side timer effect (notice side count effect display), regardless of whether or not the effect target is the same (conversation notice, cut-in), the variable side timer effect (variable side) It may be different from (or at least different from) any of the count display modes (conversation notice, cut-in) appearing in (count effect display), or the same (or at least the same as) the same mode. .

  However, it is relatively expected that the count display executed as the notice timer effect (notice side count effect display) is executed in a common manner regardless of the type of the effect to be produced. This is useful for improving the sense of expectation by allowing the player to recognize that the notice timer effect that is set to a high degree appears. In this sense, it is more preferable that the notice side timer effect is different from any of the count display modes (conversation notice, cut-in) appearing in the variable side timer effect (variable side count effect display). About the common aspect as the notice side timer effect (notice side count effect display), a plurality of aspects (for example, a blue count and a red count) having different degrees of expectation are prepared, and one of them is executed. You may do it.

  Moreover, in order to make it possible to more appropriately recognize that the timer side timer effect is being executed, a count display when the timer side timer effect is executed, and a count display when the variable side timer effect is executed, It is desirable that the counting speed (for example, the speed at which the number changes in counting up or counting down) is made different. In such a configuration, after the timer effect is started, the timer display is kept in focus even during the period in which the count display is in progress, and the relative timer effect is relatively low. It becomes possible to give interest about which of the high-expectation notice-side timer effects is being executed, and to keep the game entertainment during the timer digestion period suitably.

  At this time, in the variation timer production, the count display is performed at a speed (or the same speed) relatively close to the count speed of the notice timer production according to the production target (conversation notice, cut-in). If the count display is performed in the form (cut-in) and the mode in which the count display is performed at a speed that is not relatively close to the count speed of the notice timer presentation (conversation notice), whether or not the notice timer presentation is being executed. It is possible to add interest by varying the difficulty of the determination. In addition, in the variable timer effect (or notice side timer effect), the count number is displayed by repeating appearance and deletion of the count number, whereas in the notice side timer effect (or variable side timer effect), the count number is continuously displayed. The count display may be performed by displaying.

  According to such a configuration, when a situation occurs in which the count display of the variable timer effect and the count display of the notice timer effect occur simultaneously, it is easy to grasp whether the notice timer effect is being executed. It is expected that the game entertainment will be improved.

  In this regard, the peripheral control MPU 1511a according to this embodiment counts the change patterns corresponding to the change-side timer effect (count change patterns such as change numbers 5, 6, 9-14, 17-22, etc.). A plurality of effect patterns having different start timings or end timings (total number of counts or time required for all counts) are set as selectable effect patterns. When the variation pattern corresponding to the variation timer effect is acquired, the variable side timer effect count display and the notice timer are determined so as to determine one of the plurality of effect patterns based on a random number for the effect. By making the ease of simultaneous execution with the count display of the performance different (for example, the larger the total number of counts, the easier it is to overlap), the ease of determining whether or not the notice timer performance is being performed is different. Let ’s give it some fun

  In this embodiment, the count display start timing or end timing (total count, or time required for all counts) differing from one variation pattern, a plurality of effect patterns (timer effect targets and reach) The content of the production is the same), but multiple production patterns with different count display start timing or end timing (total number of counts or time required for all counts) (however, they are subject to production of timer production) A plurality of different variation patterns may be prepared and corresponded one-on-one with the type of reach effect executed as the effect content of the variation pattern.

  In addition, even if the count display number (total number of counts) when appearing in the variable timer effect and the notice timer effect is different, or even if the same specific count display number can be selected, the variable timer effect and the notice If the selection rate of the specific count display number is made different for the side timer effect, it becomes possible to add interest by making it difficult to determine whether or not the notice timer effect is being executed. .

  Also, if the notice timer performance is executed in the countdown display, the variable timer effect is executed in the count up display. It is expected that it will be possible to greatly improve the fun of gaming. In addition, the timer side timer effect is executed in a countdown display, while the variable side timer effect for a specific effect (for example, a conversation notice) is executed in a count-up display, and an effect different from the specific effect (for example, If the variable timer effect for cut-in) is executed with a countdown display, the difficulty of determining whether or not the notice timer effect is being executed will vary depending on the effect, making it interesting. Can be granted.

  In addition, as will be described later, in the peripheral control MPU 1511a according to this embodiment, there are cases where the same effect is made to be the effect target in the variable timer effect and the notice timer effect, and there are cases where different effects are made to be effected. To control. And, when the same production (for example, conversation notice) is targeted for production in the variable timer production and the notice timer production, compared with the case where the production different in the variation timer production and the notice timer production is targeted. Even if it is set so that the rate at which the big hit expectation is lowered is high, and the same effect (for example, conversation notice) is used for the effect on the variable side timer effect and the notice side timer effect, each count display The end timing is made different.

  That is, in this case, even if the same effect (for example, conversation notice) is set as the effect target in the variable timer effect and the notice timer effect, one of the variable timer effect and the notice timer effect is the first predetermined value. However, at this point in time, a different effect is targeted (the timer effect is executed in a mode with a relatively high degree of expectation). Looks like). After that, since the other count display that has been continued reaches a predetermined value in a manner that it is clear that the same effect (for example, conversation notice) is targeted for the effect, it is ended first. Even if it is made clear that a conversation notice with a relatively low expectation is targeted for production by the timer production on the end side, a different production that can appear afterwards is targeted for production ( It is expected that the game entertainment will be improved while maintaining a sense of expectation that the timer effect is being executed in a mode with relatively high expectations.

  In addition, when the same effect (for example, conversation notice) is set as the effect target in the variable timer effect and the notice timer effect, the timing when the variable timer effect reaches a predetermined value and the notice timer effect is determined in advance. It is desirable to cause separate count end correspondence displays (for example, “Count Success!”, “Chance UP!”, Etc.) to appear at the timing when the numerical value is reached.

  More specifically, a variable side timer effect and a notice side timer effect with “conversation notice” executed as an effect on the variable side or the notice side appearing in one effect pattern, respectively. In this case, the count display of the variable timer effect and the count display of the notice timer effect are simultaneously performed. In the variable timer effect, the variable side effect is related to the “conversation notice”. While the count display progresses according to the fluctuation side specific production that occurs (such as “count success!” And effects that match the appearance of the conversation notice), the notice timer production is related to the “conversation notice”. A count display is displayed according to the notice side specific effect ("chance UP!") That occurs as the notice side effect, or the timer end display that appears at the start timing of the conversation notice (or a predetermined number of seconds before the start of the effect). By proceeding, separate count end corresponding displays appear at different timings.

  By the way, it is required that the conversation announcement and the cut-in effects are always executed when they are targeted for the effect of the variation timer effect (when the count variation pattern is determined). In particular, since the conversation notice and cut-in are effects that can be executed in a plurality of modes with different degrees of expectation, when the count display reaches a predetermined value relative to the effect on the variable timer effect, Therefore, it is required to appear in a highly expected manner. Therefore, the effects to be produced for the variation timer production are incorporated in advance as the production contents of the production pattern (fluctuation production), and only the production pattern is executed, It is desirable that each of the produced effects (a mode with relatively high expectation) can appear. However, instead of this, when the variable timer effect is executed, it is also possible to control so that the effect (a mode with a relatively high degree of expectation) targeted for the effect is selected in the notice lottery. .

  In addition, each notice of the conversation notice and cut-in is not subject to the effect of the variable timer effect, it is determined whether or not to appear as the notice contents of the notice side in the notice lottery described later. A determination is made as to what aspect (a relatively high-expectation aspect or a low-expectation aspect) to appear as the side effect content, and control related to the appearance is performed based on the result of the determination .

Hereinafter, the effect pattern determination process using FIG. 135 will be summarized.
That is, when the peripheral control MPU 1511a obtains a variation pattern command, a symbol type command, and the like from the main control MPU 1310a, first, based on the variation number indicated by the variation pattern command, the symbol type indicated by the symbol type command, etc. Refer to the determination table according to the state. For example, if the effect pattern is determined based on the symbol type, it is possible to give a bias (expectation) to the probability variation expectation degree when a specific effect pattern appears or the number of rounds in the big hit gaming state. become.

  Next, as the production pattern associated with the variation number, a plurality of production patterns (a plurality of production patterns with different start timing or end timing of the count display appearing in the variation timer production) are prepared so as to be selectable. If it is determined, one of a plurality of effect patterns having different count display start timing or end timing is selected based on the success of the big hit determination. At this time, if the big hit determination is won, the production pattern is set so that the rate at which the start timing or end timing of the count display is delayed becomes high, and thereby the start timing or end timing of the count display The slower the is, the higher the probability that a jackpot symbol will appear.

  As will be described later, in the peripheral control MPU 1511a according to this embodiment, the count variation pattern (variation numbers 5, 6, 9-14, 17-22) is acquired when a special performance condition is established. Even in this case, an effect pattern that is set so that the variable-side timer effect does not appear is selected from the plurality of effect patterns.

  Then, in the peripheral control MPU 1511a, after the effect pattern that appears during the symbol variation (the effect from the start of the variation of the decorative symbol to the variation stop) is selected in this way, what kind of notice effect is performed within the execution period of the effect pattern. In this manner, it is determined whether to execute additionally (composite) (notice lottery).

  FIG. 136 is a flowchart showing an example of a processing procedure for a lottery (notice lottery performed in the effect symbol variation start process) regarding the notice effect that appears within the execution period of the effect pattern (the symbol variation time). Note that the notice lottery processing procedure described below is merely an example, and the notice lottery process procedure is not limited to this as long as the intended purpose as the notice effect is achieved.

  As shown in FIG. 136, at the time of preliminary lottery, first, it is determined whether or not the change that is waiting to be started (holding to be digested) is a target of a timer prefetching effect described later (step S501). ). As a result, when the timer pre-reading effect is targeted, the first timer notice lottery is performed (step S502), whereas when the timer pre-reading effect is not targeted, the second timer notice lottery is performed (step S502). S521).

  That is, when the timer pre-reading effect is applied (first timer notice lottery), the notice side timer effect is executed as compared with the case where the timer pre-read effect is not provided (second timer notice lottery). The rate at which decisions are made is set to be high. Note that the ratio may include a ratio determined at 100%. Also, in both the first timer advance notice lottery and the second timer advance notice lottery, different decision tables are prepared for different game states, thereby making a decision to execute the notice side timer effect according to the game state. The percentages made (for example, in the high-probability short-time gaming state, the decision to execute the notice timer effect is made at a lower rate (including the percentage determined at 0%) than in the normal gaming state) is different. It has become.

  FIG. 137 is a diagram showing an example of the timer notice determination table T2 that is referred to when the change (digested on hold) is not the target of the timer prefetching effect (second timer notice lottery) in the normal gaming state. .

  As shown in FIG. 137, in the second timer notice lottery according to this embodiment, when a predetermined type of change pattern command (here, change numbers 1 to 6) is acquired, the notice side timer effect is shown. The decision to execute is not made. The same applies to the first timer notice lottery and other game states.

  In addition, as shown in FIG. 135, in the second timer notice lottery, even in the production pattern in which the production contents of the same reach type appear (for example, SP reach corresponding to the fluctuation numbers 15 to 22), the fluctuation side In the effect pattern in which the timer effect is included as the effect content (for example, variation numbers 17 to 22), compared to the effect pattern in which the variation-side timer effect is not included as the effect content (for example, SP reach corresponding to the variation numbers 15 and 16). Thus, the ratio of the decision to execute the notice side timer effect is set to be high. That is, in this case, two timer effects (fluctuation-side timer effect, notice-side timer effect) can appear in one effect pattern without winning the double timer effect described later in the notice lottery, As a result, the opportunity to produce a double timer can be realized without wasteful accumulation of winning expectations (winning the double timer production). The same applies to the first timer notice lottery and other game states.

  However, in the first timer notice lottery, the proportion of the decision to execute the notice side timer effect is generally higher than the timer notice determination table T2 referred to in the second timer notice lottery. More specifically, in the first timer notice lottery, even if any of the variable numbers 7 to 22 is selected, the notice side is compared with the timer notice determination table T2 referred to in the second timer notice lottery. The rate at which the timer effect is determined is high.

  In addition, as will be described later, in the timer prefetching effect according to this embodiment, a plurality of modes (low expectation mode, high expectation mode, and confirmation mode) in which the ratio of execution of the notice side timer effect is different in the variation to be prefetched. (Aspect) is executed. In the first timer notice lottery, first, it is determined in which mode the timer prefetching effect is being executed, and even if the prefetching is being executed in the low expectation form, the second timer notice lottery is performed. As compared with the timer notice determination table T2 referred to in (1), the ratio of the decision to execute the notice side timer effect is set to be generally higher. In addition, when the timer prefetching effect is executed in the high expectation mode, the ratio of the decision to execute the notice side timer effect is generally higher than that in the low expectation mode, and the timer prefetching effect is increased. When executed in the fixed mode, it is set so that a determination to execute the notice side timer effect is always made regardless of the variation pattern (variation numbers 1 to 22).

  If it is determined that the timer side timer effect is to be executed as a result of such timer notice lottery (first timer notice lottery, second timer notice lottery) (YES in step S503), the process of step S504 is If the decision to execute the notice timer effect is not made (NO in step S503), the second mission effect lottery is performed as the processing in step S551.

  In other words, as described above, in the timer effect, the larger the count display number (total number of counts) displayed when the count display is started (the longer the time it takes for the timer to spend), the higher the expectation of jackpot expectation. Is set to have However, in this case, when the count display number (total number of counts) displayed when the count display is started is small, the big hit expectation degree tends to be low. There was concern about a decline in interest.

  Therefore, as will be described later, the peripheral control MPU 1511a according to this embodiment displays a “specific display related to the first effect” such as “Make the first effect appear” on the effect display device 1600, and the specific display. When the first effect occurs (appears) during the display of, a special display such as “Mission Success” appears, thereby making it possible to execute a mission effect that confirms that you have won the big hit.

  In this regard, in the peripheral control MPU 1511a according to this embodiment, an effect type (here, a conversation notice) that appears at a relatively early stage among the effect types to be effected by the timer effect is set as the first effect. We are going to adopt it. That is, in this case, when the timer effect is executed while the specific display such as “Let the conversation notice (first effect) appear” appears (when the mission effect appears), the count display Even if the count display number (the total number of counts) displayed at the start of the timer is small, the target of the timer notice is to be “conversation notice that appears at a relatively early stage”. It is possible to expect that the winner has been confirmed), and the count display will continue even after the end of the conversation notice because the count display count (total count) displayed when the count display starts is large. Even if it is a case, it can be expected that the big hit expectation will be high, so that it is possible to stably enhance the entertainment fun when the timer effect is executed Kill as to become.

  In addition, in the peripheral control MPU 1511a according to this embodiment, in order to achieve a synergistic effect caused by such a timer effect and a mission effect more appropriately, a specific display related to the first effect (a conversation notice should appear) ) Is displayed, the notice lottery (each process shown in FIG. 136) is such that the appearance ratio of the timer effect is higher than when the specific display related to the first effect (make the conversation notice appear) is not displayed. Is going to do. As a result, it is possible to have a sense of expectation that the timer effect will be executed simply by displaying the specific display related to the first effect (make the conversation notice appear). Will be able to. The first effect targeted for mission display may not be “conversation notice”, and may be executed instead of any of the effects shown in FIG. 147, for example.

Note that when the specific display related to the first effect (make the conversation notice appear) is displayed, the appearance ratio of the timer effect is higher than when the specific display related to the first effect (make the conversation notice appear) is not displayed. Any method may be adopted as a method of increasing the value, but for example, it can be realized by adopting any of the following methods.
a. First, determine whether to perform the mission effect. When it is determined to perform the mission effect, the timer effect is set so that the appearance rate of the timer effect is higher than when the mission effect is not determined. Method for determining whether to appear b. First of all, it is determined whether to perform the timer effect, and when it is determined that the timer effect is performed, the mission effect is set so that the appearance rate of the mission effect is higher than when the timer effect is not determined. A method to determine whether to appear

  In this respect, the peripheral control MPU 1511a according to this embodiment employs the above-described method b. Therefore, in the first mission effect lottery (step S504) in the case where it is determined that the notice timer effect is won in the process of step S503, it is not determined that the notice timer effect is won in the process of step S503. As compared with the second mission effect lottery (step S551) in this case, the proportion of the decision to display (mission display) a specific display related to the first effect (make the conversation notice appear) is increased. It is determined whether or not the mission is displayed within the variation (effect pattern).

  It should be noted that a specific display related to the first effect (make the conversation notice appear) and a timer pre-reading effect (first preceding mode, second preceding mode, and third preceding mode) that suggest that the timer side timer effect is executed. (Mode) can be displayed at the same time. In addition, under a predetermined condition, a predetermined display (mission suggestion display) may be displayed in which a specific display related to the first effect (make a conversation notice appear) appears higher when it appears.

  In addition, regarding the specific display related to the first effect (make the conversation notice appear), for example, when the hold information that is the target of the mission effect (hold information that generates the mission effect) is obtained, You may enable it to display over a plurality of fluctuation displays until digested. At this time, if the hold information that is the target of the mission effect (the hold information that generates the mission effect) is a big hit hold information, the change that is executed before the big hit hold information is digested A special notice (successful mission) may be displayed by causing a conversation notice to appear in the display. However, when the special display (successful mission) is displayed in advance as described above (when the successful mission is displayed when the hold information for generating the mission effect is not yet digested), the loss variation display is executed. It is desirable to be limited to when you are. That is, in this case, although the special display (successful mission) is displayed, in the variable display where the special display appears, the losing pattern (lost effect) appears, but in this way, the special display (mission successful) is displayed. In this state, the hold information that is the target of the mission effect is digested and the jackpot symbol (the jackpot effect) is displayed in the variation display, so that it is possible to improve the game entertainment.

  According to such a configuration, even if the mission success is performed before the count display of the timer effect is started while the mission effect and the timer look-ahead effect are performed over a plurality of variations, It is possible to realize an effect as if the variation display in which the jackpot symbol appears is carried over until the variation display in which the count display of the timer effect starts is displayed.

  FIG. 138 (a) is a diagram showing an example of a first mission effect determination table T3a (first mission effect lottery) that is referred to when the notice timer effect is performed in the normal gaming state, and FIG. 138 (b). These are figures which show an example of 2nd mission effect determination table T3b (2nd mission effect lottery) referred when a notice side timer effect is not performed in a normal game state.

  As is clear from FIGS. 138 (a) and 138 (b), first, in the first mission effect determination table T3a referred to when the notice timer effect is performed, when the notice timer effect is not performed. Compared to the second mission effect determination table T3b to be referred to, the ratio of the decision to display (mission display) the specific display related to the first effect (make the conversation notice appear) is set higher. Yes. This also applies to each table that is referred to when in another gaming state.

  In addition, as shown in FIG. 135, the variation numbers 5 and 6 are acquired even though the variation numbers 5 and 6 correspond to the variation pattern in which the “conversation notice” appears as the variation effect. Is set so as not to execute the mission effect in which the specific display related to the first effect (make the conversation notice appear) is displayed in both the first mission effect determination table T3a and the second mission effect determination table T3b. Has been. That is, since the variable numbers 5 and 6 are so-called normal reach production (reach type with low expectation), both the timer production and the mission production occur in such a low expectation reach production, and the mission is successful. Then, there is a concern that the amusement interest of the game will be lowered because the desire “I wanted to see such a production with a type of reach production with a higher expectation” was not satisfied. For this reason, in the variation numbers 5 and 6, in the first mission effect determination table T3b and the second mission effect determination table T3b, although it is a reach effect in which the variable side timer effect with “conversation notice” as the effect target is performed. Also, it is desirable to set so as not to execute the effect in which the specific display related to the first effect (make the conversation notice appear) is displayed. This also applies to each table that is referred to when in another gaming state.

  In addition, as shown in FIG. 135, variation numbers 9, 13, 17, and 21 also correspond to variation patterns that cause “conversation notice” to appear as a variation effect. However, these variation numbers are acquired. Even when the first mission effect determination table T3a and the second mission effect determination table T3b are set, the mission effect in which the specific display related to the first effect (make the conversation notice appear) is not executed. Has been. This is because change numbers 9, 13, 17, and 21 are change patterns at the time of losing, and it is not possible to display the success of the mission (determining that you have won the jackpot) for production. This also applies to each table that is referred to when in another gaming state.

  Also, as shown in FIG. 135, the variation numbers 10, 14, 18, and 22 correspond to the hit variation pattern that causes the “conversation notice” to appear as the variation effect, and these variation numbers 10, 14, When a specific display related to the first performance (make the conversation notice appear) is displayed when 18 and 22 are acquired, a message indicating that the mission has been successful (confirmed that the jackpot has been won) is displayed. The Rukoto. Therefore, in the first mission effect lottery (step S504) referred to when the notice-side timer effect is performed, the hit variation pattern (variation numbers 10, 14, 18,. 22) is acquired, the execution probability is set (three times) so as to be significantly higher than the second mission effect lottery (step S551) that is referred to when the timer side timer effect is not performed. Yes. Through such control, when the timer effect appears, it is possible to give an impression that the mission effect is likely to appear. This also applies to each table that is referred to when in another gaming state.

  On the other hand, during the execution of the hit variation pattern (variation numbers 8, 12, 16, and 20) in which “conversation notice” does not appear as the contents of the effect of the fluctuation effect, the specific display related to the first effect (make the conversation notice appear) When the message is displayed, there may be a production situation with a sense of incongruity such as “The conversation notice cannot be displayed despite the mission being displayed, and the jackpot symbol is displayed after the mission fails.” Absent. Therefore, even in the first mission effect lottery (step S504) referred to when the notice timer effect is performed, the hit variation pattern (variation numbers 8, 12, 20, etc.) that does not cause the “conversation notice” to appear as a variation effect. ) Is set (doubled) so that the execution probability is not so high as compared to the second mission effect lottery (step S551) referred to when the notice timer effect is not performed. Yes. This also applies to each table that is referred to when in another gaming state.

  However, as will be described later, when it is determined that a hit variation pattern (variation numbers 8, 12, 20, etc.) that does not cause “conversation notice” to appear as a variation effect is acquired and the mission effect is executed, a relatively high probability. Thus, the control is performed so that the probability that “conversation notice” is executed as the content of the notice effect is increased (steps S509 and S534 described later). In view of the fact that such control is performed, the “conversation notice” is used as the effect of the fluctuation effect even for the hit fluctuation patterns (variation numbers 8, 12, 20, etc.) that do not appear as the contents of the effect of the fluctuation effect. You may make it perform mission effect with the execution probability comparable as compared with the hit fluctuation pattern (variation numbers 8, 12, 20, etc.) made to appear as contents.

  On the other hand, variation numbers 7, 11, 15, and 19 are reach effects at the time of losing that “conversation notice” does not appear as the effect contents of the change effect. Such reach production can be executed in the form of a missed mission production without causing a “conversation notice” to appear. In the first mission effect lottery, the execution probability is set (three times) so as to be significantly higher than the second mission effect lottery (step S551) referred to when the notice timer effect is not performed. Yes. Through such control, when the timer effect appears, it is possible to give an impression that the mission effect is likely to appear. This also applies to each table that is referred to when in another gaming state.

  As will be described later, it is determined that the mission effect is executed by acquiring the reach effect (variation numbers 7, 11, 15, 19, etc.) at the time of losing that does not cause “conversation notice” to appear as the effect content of the change effect. In some cases, control is performed such that the probability that “conversation notice” is executed as the content of the notice effect is zero. This is because in the reach production at the time of losing, it is not possible to display the mission success (definite suggestion that you have won the big hit) for the production.

  According to such a configuration related to the mission effect, the production target of the timer effect (count effect display) is always the second effect (conversation notice) than the first effect (conversation notice) when the mission effect does not appear. It is more desirable to obtain a sense of anticipation than a production with a higher expectation level (for example, cut-in or an after-mentioned item drop). When it is (conversation notice), the expectation cannot be obtained suitably. However, when the timer effect (count effect display) is executed when the specific display (display the conversation notice appears) related to the first effect (conversation notice) is displayed, the effect of the timer effect is the first effect. Since either the (conversation notice) or the second effect (cut-in) can be at least expected more than the expectation obtained by the second effect (cut-in), the timer effect You can enjoy with confidence.

  In addition, when such a specific display related to the first effect (conversation notice) is displayed, the specific display related to the first effect (conversation notice) in the design effect (make the conversation notice appear). Since the appearance ratio of the timer effect (count effect display) is higher than when no icon is displayed, the game is simply displayed with the specific display related to the first effect (conversation notice). A decrease in interest can be suitably suppressed. It should be noted that in realizing such effect control, the variable-side timer effect is not necessarily prepared so as to be executable, and may be realized only by the notice-side timer effect.

  Further, in this embodiment, both the conversation notice and the cut-in (or a later-described role drop) can be executed within one production pattern, and the conversation notice is a cut-in (or a later-described role). Appears at a timing before (falling object). Therefore, if the mission display (make the conversation notice appear) is executed, the mission may be successful even if the count display number (total count) displayed when the timer effect count display is started is small. A reduction in expectation is suppressed from being conscious. Also, when the count display number (total number of counts) displayed when the count display of the timer effect is started, the expectation can be suitably maintained only by that, so that the game entertainment when the timer effect appears can be improved. It is expected to be maintained stably.

  In addition, as will be described later, the timing for displaying (mission display) the specific display related to the first effect (make the conversation notice appear) is the period during which the symbol change targeted for the specific display is being performed. It is possible to appear not only in the middle but also in the period in which the symbol variation that is the target of the specific display is still in a suspended state. In addition, in the situation where the specific indication related to the first effect (make the conversation notice appear) is displayed during the period when the symbol variation that is the target of the mission effect is still on hold, It will be described later that a special display such as “Mission Success” may appear when it occurs (appears).

  Then, as shown in FIG. 136, when the first mission effect lottery (step S504) is performed in this way, a notice-side timer type lottery is performed to determine the execution mode of the notice-side timer effect as a process of step S505. .

FIG. 139 is a diagram showing an example of the notice timer type determination table T4 referred to in the notice timer type lottery (step S505).
As shown in FIG. 139, in this notice side timer type determination table T4, it is acquired whether the notice side timer effect is executed in the single timer mode or the notice side timer effect is executed in the double timer mode. Random numbers are assigned with different distributions for each variable number. In this regard, the peripheral control MPU 1511a according to this embodiment refers to the notice timer type determination table T4 based on the variation number indicated by the variation pattern command, and the obtained effect random number value is the single timer mode and double timer. The notice timer type lottery (step S505) is executed by determining to which of the modes is assigned.

  The “single timer” to be determined in the notice timer type lottery corresponds to “a mode in which one notice side timer effect is executed in one effect pattern”, and “double timer”. Is equivalent to “a mode in which two notice-side timer effects with different effects are executed within one effect pattern”. In this notice side timer type determination table T4, effect random numbers are assigned for each variable number so that the big hit expectation is higher when the “double timer” appears than the “single timer”.

  Further, as described above, the peripheral control MPU 1511a according to this embodiment can execute the above-described variation timer effect depending on the type (variation number) of the variation pattern. Therefore, if it is determined that the notice timer presentation is to be executed in a single timer mode when such a count fluctuation pattern is selected, the fluctuation timer presentation and the notice timer presentation appear in one production pattern. As a result, the timer effect is executed in a double timer (or triple timer) manner. Similarly, if it is determined that the notice side timer effect is to be executed in a double timer mode when the count variation pattern is selected, the change side timer effect and the notice side timer effect are included in one effect pattern. By appearing, the timer effect is executed in a triple timer (or quadruple timer) mode.

  In other words, in this case, if the number of appearances of the notice timer effect (single, double) is determined regardless of whether the count variation pattern is selected, “appearance of timer effect appearing in one effect pattern” The relationship that “the larger the number, the higher the expectation of jackpot” may collapse, and this makes it impossible to understand the meaning of the effect when the timer effect is executed (which aspect is the higher expectation) There is a concern about the decline of the game entertainment interest.

  Therefore, in the notice side timer type lottery (step S505) according to this embodiment, as shown in FIG. 135, among the variation patterns (variation numbers 7 to 22) in which the notice side timer effect can appear. When a variation pattern (variation numbers 7, 8, 15, 16) that does not execute the variation-side timer effect is selected, the reach type (character reach with relatively low expectation, SP reach with relatively high expectation) Accordingly, the SP reach having a relatively high expectation is more likely to select the double timer mode.

  On the other hand, among the variation patterns (variation numbers 7 to 22) in which the notice timer effect can appear, variation patterns (variation numbers 13, 14, 21, and 22) for executing two variation-side timer effects with different production targets. Is selected, only in the case of the SP reach with a relatively high expectation according to the reach type (a character reach with a relatively low expectation, a SP reach with a relatively high expectation). Is selected. That is, in this case, if two quadrature timer effects and two notice-side timer effects with different effects appear in one effect pattern, the type of SP reach that has a relatively high expectation will appear. In this way, it is definitely suggested that the production pattern is executed, and it is possible to improve the game entertainment. However, instead of this, if a quadruple timer mode appears due to the appearance of two variable-side timer effects and two notice-side timer effects with different effects in one effect pattern, it is definitely determined that a jackpot symbol appears. It may be suggested.

  When a variation pattern (variation numbers 13, 14, 21, and 22) for executing two variation-side timer representations with different representation targets is selected, the single timer mode is selected in the notice-side timer type lottery (step S505). Even when is selected, the appearance of a triple timer appears when two variable-side timer effects and one notice-side timer effect with different effects appear in one effect pattern. In order to maintain the degree of expectation when such a triple timer mode appears, the above-described timer notice lottery (first timer notice lottery, second timer notice lottery) corresponds to a fluctuation pattern with a relatively low expectation. When the change numbers 13 and 14 to be selected are selected, the notification that the notice side timer effect is executed only with a relatively low probability compared to the change numbers 7 to 12 of the same character reach (decision to make a triple timer) (See the distribution mode of variation number 13 in FIG. 137).

  On the other hand, a variation pattern (variation numbers 9-12, 17-20) for executing one variation-side timer effect is selected from among the variation patterns (variation numbers 7-22) in which the notice-side timer effect can appear. In the case of the character reach (variation numbers 9 to 12) having a relatively low expectation, the selection probability of the mode of the double timer is set to be significantly low, and the SP reach (variation number) having a relatively high expectation is set. 17-20) is set such that the selection probability of the double timer mode is significantly higher. In other words, in this case, coupled with the distribution mode of the variation number 13 in FIG. 137 described above, a triple timer mode (one variation side timer representation and two notice side timer representations or two variation side timers in one production pattern). When a production and one notice timer production) appear, the rate of appearance of SP reach with a relatively high expectation rather than a character expectation with a relatively low expectation will increase. Will be able to.

  In the notice timer type lottery (step S505) according to this embodiment, only the process of selecting either the single timer or the double timer is performed as the notice timer presentation type. However, for the notice side timer type lottery (step S505), the lottery process may be performed so that the notice side timer effect more than triple timer can be executed, and the count display mode of the notice side timer effect is expected. You may make it perform as a lottery process about whether it performs by which of two or more different modes (for example, color difference etc.).

  Then, as shown in FIG. 136, after the notice-side timer type lottery (step S505) is performed in this way, as a result of the notice-side timer type lottery (step S505), the single timer mode and the double timer mode are Which of the above is determined to perform the notice timer performance (step S506), and further is determined to perform the mission effect as a result of the first mission effect lottery (step S504) (steps S507 and S532). Production lottery (steps S508, S509, S523, S524, S533, S534, and S543) targeted for timer target candidate productions (preliminary productions that can be the production target of the preliminary timer production) with the contents (table) according to each result of , S544).

More specifically, one of the following processes is executed.
If it is in the first processing state that is a single timer mode (YES in step S506) and that the mission effect (make the conversation notice appear) is determined (YES in step S507), First, based on the number-of-notice determination table that is referred to when in the first processing status, how many timer target candidate effects appear as the effect contents of the notice effect during the execution of one effect pattern. Judgment processing is performed for the above (step S508). Next, a determination process as to which type of notice effect appears as the above-mentioned timer target candidate effects by the number determined in the determination process, and which of the notice effects is to be the effect object of the timer effect. Is performed (step S509).

If it is in the second processing state that is a single timer mode (YES in step S506) and that the mission effect (make the conversation notice appear) is determined not to be executed (NO in step S507), First, based on the notice number determination table that is referred to in the second processing situation, how many timer target candidate effects appear as the effect contents of the notice effect during execution of one effect pattern. Judgment processing is performed for (or step S523). Next, a determination process as to which type of notice effect appears as the above-mentioned timer target candidate effects by the number determined in the determination process, and which of the notice effects is to be the effect object of the timer effect. Is performed (step S524).

If it is in the third processing state that is a mode of a double timer (NO in step S506) and has been determined to execute a mission effect (make a conversation notice appear) (YES in step S532) First, based on the notice number determination table referred to when in the third processing status, how many timer target candidate effects appear as the effect contents of the notice effect during execution of one effect pattern. Judgment processing is carried out (step S533). Next, a determination process as to which type of notice effect appears as the above-mentioned timer target candidate effects by the number determined in the determination process, and which of the notice effects is to be the effect object of the timer effect. Is performed (step S534).

When it is in the fourth processing state that is a double timer mode (NO in step S506) and has been determined to not execute the mission effect (make the conversation notice appear) (NO in step S532) First, based on the number-of-notice determination table that is referred to in the fourth processing status, how many timer target candidate effects appear as the contents of the effect of the notice effect during the execution of one effect pattern. Judgment processing is performed (step S543). Next, a determination process as to which type of notice effect appears as the above-mentioned timer target candidate effects by the number determined in the determination process, and which of the notice effects is to be the effect object of the timer effect. Is performed (step S544).

  FIG. 140 shows the reach type when the decision to execute the mission effect (make the conversation notice appear) and when the decision to execute the mission effect (make the conversation notice appear) has not been made. FIG. 7 is a diagram showing a comparison of upper limit numbers of appearances of timer target candidate effects determined according to the processing status (in addition to the first to fourth processing statuses, a fifth processing status and a sixth processing status, which will be described later). is there.

  As shown in FIG. 140, in the peripheral control MPU 1511a according to this embodiment, when it is determined to execute the mission effect (make the conversation notice appear), make the mission effect (make the conversation notice appear). ) Is controlled so as to increase the upper limit number of appearance (average number of appearances) of the timer target candidate effects as compared with the case where it is not determined to execute.

  That is, whether or not to perform the notice side timer effect, whether or not the notice side timer effect is executed in the form of a single timer, whether or not the reach type is a relatively high expectation reach effect, Whatever the result of the determination, etc., if the decision to execute the mission effect (make the conversation notice appear) is made, the decision to execute the mission effect (make the conversation notice appear) The upper limit number of appearances (average number of appearances) of the timer target candidate effects is increased as compared with the case where no is performed.

  In addition, such a process setting is the effect lottery (steps S508, S509, S523, S524, S533, S534, S543, and S544) at the time of execution of the above-mentioned notice side timer effect, and when the notice side timer effect described later is not executed. This is realized through the setting of each table referred to in the effect lottery (steps S553, S554, S563, S564).

  According to such a configuration, when a mission effect (make a conversation notice appear) is executed, it is expected that the appearance ratio of the notice effect will increase and the average number of appearances will increase, thereby improving the game entertainment. Not only that, but if there are so many notice effects, it is possible to give a sense of expectation that a conversation notice with a relatively low expectation may appear in these notice effects and the mission will be successful. become able to. As described above, the mission display target is required to have a relatively low expectation, such as a conversation notice, but it may not necessarily have the lowest expectation. When the types of effects that can be the effects of the timer effect are classified into two groups according to the degree of expectation, the type may be such that it is classified into a group with a relatively low degree of expectation. Or, it is a notice effect that appears at a timing earlier than the start of the reach effect because the expectation is lower than this and a relatively high expectation specific effect that appears after the reach effect is started. Also good.

  FIG. 141 shows an aspect of a single timer (YES in step S506) and is in the first processing state in which a decision to execute a mission effect (make a conversation notice appear) (YES in step S507) is made. It is a figure which shows an example of table T5a referred in the process of step S508 in that case.

  First, as shown in FIG. 141, the table T5a is referred to when a notice timer effect or a mission effect is executed, and therefore corresponds to a variation pattern in which the notice timer effect cannot be executed. When variation numbers 9, 13, 17, and 21 corresponding to loss variation patterns (variation patterns that cannot be mission-successful) that cause conversation notices to appear as the contents of variation effects are obtained, T5a is never referenced.

  In addition, since the table T5a is referred to when the notice-side timer effect is executed in the form of a single timer, an effect random number is assigned to each variable number so that at least one timer target candidate effect is selected. Allocated. However, for the variation number in which the timer target candidate effect (conversation notice or cut-in) appears as the effect content of the change effect, the timer target candidate effect may not necessarily be selected as the effect content of the notice effect.

  Also, in the table T5a, among the variation numbers 7, 8, 10-12, and 14 corresponding to the character reach effects, a maximum of four timer target candidate effects are assigned to the winning effects of the variable numbers 7 and 8. On the other hand, a maximum of three timer target candidate effects are allocated to the winning effects among the variable numbers 10 to 12, and only a maximum of two timer target candidate effects are allocated to the variable number 14. Not. However, in the variation numbers 7 and 8, the timer target candidate effect (conversation notice or cut-in A) does not appear as the effect content of the change effect, whereas in the change numbers 10 to 12, as the effect content of the change effect. One timer target candidate effect (conversation notice or cut-in A) appears. When the variable number 14 is reached, two timer target candidate effects (conversation notice and cut-in A) appear as the effect contents of the change effect. It is like that. Accordingly, in the case of the variable numbers 10 to 12, it is synonymous with the fact that one more notice effect is assigned respectively. In the variable number 14, substantially two notice effects are provided. It is synonymous with each being assigned.

  Then, for example, in the variable number 14, an effect random number of “400” is actually assigned to the number of notices 3, and an effect random number of “600” is assigned to the number of notices 4. Therefore, it can be said that among the variation numbers 7, 8, 10-12, and 14 corresponding to the character reach production, the most notice productions are assigned most easily.

  By the way, the effect pattern (Character Reach + Conversation Notice) that appears when the variable number is 10 has a lower jackpot expectation than the effect pattern (Character Reach + Cut-in A) that appears when the variable number is 11 and 12. As described above. However, in the table T5a that is referred to in the first processing status, the variable number 10 is “the mission success (special display)” is displayed as an effect pattern that is then stopped with the big hit symbol. In view of the fact that it is “executed”, the number of appearances and the appearance probability of the notice effect are higher than in the case of the variable numbers 11 and 12 (when the mission success (special display) is not displayed). Is used to improve the game entertainment when the mission success (special indication) is displayed.

  On the other hand, in the SP reach (variation numbers 15, 16, 18 to 20, 22) having a relatively high degree of expectation, the same relationship as that of each variation number in such a character reach is set. . However, in the SP reach, the variation number 18 corresponds to the variation number 10 and the variation numbers 19 and 20 correspond to the variation numbers 11 and 12, but unlike the case of the character reach, The variation number 20 at the time of hitting has a higher number of appearances and the probability of appearance of the notice effect than the variation number 18 (the number of notifications is more likely to increase as the variation number has a higher jackpot expectation). In SP reach, the appearance ratio (average appearance number) of the number of notices is higher than that of character reach.

  As will be described later, in the character reach in the first processing state, a maximum of five timer target candidate effects (conversation notice, hold change, cut-in A, accessory drop A) until the symbol fluctuation is stopped. , A special timer) can appear. However, one of up to five timer target candidate effects is a big hit finalizing effect (special timer), and even when a conversation notice is selected, it will function as a big hit effect due to mission success. When four or more candidate effects appear, a notice effect that confirms the big hit will appear. Therefore, in the table T5a, in the variation number 7 that is the character reach at the time of losing, only up to three timer target candidate effects can appear, and the variation number that is the character reach at the time of losing (cut-in A). 11, only a maximum of two timer target candidate effects can appear (in reality, a maximum of three).

  On the other hand, in the SP reach when in the first processing status, up to six timer target candidate effects (conversation notice, hold change, cut-in A, accessory fall A, The timing at which the cut-in B and the accessory drop B) can appear is reached. However, when the conversation advance notice is selected, it functions as a jackpot effect due to the success of the mission. Therefore, when six timer target candidate effects appear, a jackpot confirmed notice effect appears. Therefore, in the table T5a, in the variation number 15 that is SP reach at the time of loss, only up to five timer target candidate effects can appear, and the variation number that is the character reach (cut-in B) at the time of loss. In No. 19, only up to four timer target candidate effects can appear (in reality, a maximum of five).

In addition, the example is described below about each effect prepared as said timer object candidate effect.
-Conversation notice: A line of a predetermined character is displayed on the effect display device 1600, and the jackpot expectation may vary depending on the contents of the line, but when the conversation notice appears, It is set lower than the effects (holding change, cut-in A, accessory fall A, cut-in B, accessory fall B).
・ Hold change: Display corresponding to the hold display that has been subject to digestion even during symbol fluctuations performed in response to hold-up (display that corresponds to the hold display when in the hold state, although not already in the hold state) Is displayed, it changes the display mode (color, etc.) of the hold display that is the subject of digestion, and the jackpot expectation degree according to the display mode after the change (including the display mode for determining the big hit) However, the expected degree of jackpot when the reserved change appears is set lower than cut-in A, accessory fall A, cut-in B, and accessory fall B.
Cut-in A: A specific image A is displayed in a form that is preferentially displayed with respect to the effects performed during symbol fluctuation. The expected hit rate when the cut-in A appears is the fall of an accessory It is set lower than A, cut-in B, and accessory drop B.
-The accessory fall A: One of the above-described production movable bodies is operated, and the big hit expectation degree when the accessory fall A appears is set lower than that of the accessory fall B.
Cut-in B: The specific image B is displayed in a form that is preferentially displayed with respect to the effects performed during symbol fluctuation. The expected hit rate when the cut-in B appears is the fall of a feature It is set lower than A and the accessory drop B.
-An accessory fall B: Operates one of the movable bodies for production described above, and the big hit expectation degree when the feature fall B appears is another production (conversation notice, hold change, cut-in A , It is set higher than the combination of falling object A and cut-in B). The effect movable body that is operated by the accessory fall B may be the same as or different from the effect movable body that is used in the accessory drop A, but the operation is performed when the same effect movable body is used. The aspect will be different.

  FIG. 142 shows an aspect of a single timer (YES in step S506), and is in the second processing state in which a decision is made not to execute a mission effect (make a conversation notice appear) (NO in step S507). It is a figure which shows an example of table T5b referred in the process of step S523 in that case.

  First, as shown in FIG. 142, since the table T5b is referred to when the notice timer presentation is executed, the change number 1 corresponding to the change pattern in which the notice timer presentation cannot be executed. When .about.6 is acquired, the table T5b is not referred to. However, since the reference is made when the mission effect is not executed, the change numbers 9, 13, and 17 corresponding to the loss change pattern (the change pattern in which the mission cannot be successful) causing the conversation notice to appear as the effect contents of the change effect. , 21 is acquired, the table T5b is also referred to. Therefore, in the table T5b, effect random numbers are assigned to the variable numbers 9, 13, 17, and 21 separately for each notice number.

  Similarly, the table T5b is also referred to when the notice-side timer effect is executed in the form of a single timer, so that at least one timer target candidate effect is selected for each variable number so as to be selected. Is allocated. However, for the variation number in which the timer target candidate effect (conversation notice or cut-in) appears as the effect content of the change effect, the timer target candidate effect may not necessarily be selected as the effect content of the notice effect.

  Similarly, in the table T5b, among the variable numbers 7 to 14 corresponding to the character reach effects, a maximum of two timer target candidate effects are assigned to the variable numbers 7 to 12, whereas Only a maximum of one timer target candidate effect is assigned to the variation numbers 13 and 14 with relatively high expectations. However, in variation numbers 7 and 8, a timer target candidate effect (conversation notice or cut-in) does not appear as the effect content of the change effect, whereas in change numbers 9 to 12, 1 as the effect content of the change effect. Two timer target candidate effects (conversation notice or cut-in) appear, and when the variable numbers 13 and 14 are reached, two timer object candidate effects (conversation notice and cut-in) appear as effect contents of the variable effect. It has become. Therefore, in the case of the variable numbers 9 to 12, it is synonymous with the fact that one more notice effect is assigned respectively. In the case of the variable numbers 13 and 14, substantially two notices are provided. It is synonymous with the production being assigned to each.

  Then, for example, since the change number 14 is substantially synonymous with the fact that the production random number of “1000” is assigned to the number of notices 3, the change numbers 7 to 7 corresponding to the character reach production. It can be said that among the fourteen, the most noticeable effects are assigned so as to appear most easily.

  Note that, in SP reach (variation numbers 15 to 22) having a relatively high degree of expectation, the same relationship as that of each variation number in such a character reach is set. However, in SP reach, the appearance ratio (average number of appearances) of the number of notices is higher than in character reach.

  In addition, in table T5b, the production random numbers are distributed in substantially the same manner as table T5a. However, since the table is referred to when the mission effect is not executed, the table is referred to when the mission effect is not executed. The upper limit number of appearances (average number of appearances) of the timer target candidate effects is smaller than T5a.

  FIG. 143 shows an aspect of a double timer (NO in step S506) and is in the third processing situation in which a decision to execute a mission effect (make a conversation notice appear) is made (YES in step S532). It is a figure which shows an example of table T5c referred in the process of step S533 in that case.

  First, as shown in FIG. 143, since the table T5c is also referred to when the notice timer effect or mission effect is executed, it corresponds to a variation pattern in which the notice timer effect cannot be executed. When variation numbers 9, 13, 17, and 21 corresponding to loss variation patterns (variation patterns that cannot be mission-successful) that cause conversation notices to appear as the contents of variation effects are obtained, T5c is never referenced.

  However, since the table T5c is referred to when the notice-side timer effect is executed in the double timer mode, an effect random number is assigned to each variable number so that at least two timer target candidate effects are selected. Allocated. However, for the variation number in which the timer target candidate effect (conversation notice or cut-in) appears as the effect content of the variation effect, it is not always necessary to assign two timer object candidate effects as the effect content of the notice effect. One timer target candidate effect (variation numbers 9, 17) may be allocated as the effect content of the notice effect according to the effect content, or the timer target candidate effect may not be allocated (variation numbers 13, 21).

  Also, in the table T5c, among the variation numbers 7, 8, 10-12, and 14 corresponding to the character reach effects, a maximum of five timer target candidate effects are assigned to the hit effects of the variable numbers 7 and 8. On the other hand, up to four timer target candidate effects are allocated to the winning effects among the variation numbers 10 to 12, and only up to three timer target candidate effects are allocated to the variation number 14. Not. However, in the variation numbers 7 and 8, the timer target candidate effect (conversation notice or cut-in) does not appear as the effect content of the change effect, whereas in the change numbers 10 to 12, the effect content of the change effect is 1 Two timer target candidate effects (conversation notice or cut-in) appear, and when the variable number 14 is reached, two timer target candidate effects (conversation notice and cut-in) appear as effect contents of the variable effect. ing. Accordingly, in the case of the variable numbers 10 to 12, it is synonymous with the fact that one more notice effect is assigned respectively. In the variable number 14, substantially two notice effects are provided. It is synonymous with each being assigned.

  Then, for example, in the variable number 14, an effect random number of “400” is assigned to the number of notices 4, and an effect random number of “600” is assigned to the number of notices 5. Therefore, it can be said that among the variation numbers 7, 8, 10-12, and 14 corresponding to the character reach production, the most notice productions are assigned most easily.

  In addition, in the character reach when in the third processing status, up to five timer target candidate effects (conversation notice, hold change, cut-in A, accessory drop A, special timer) until the symbol fluctuation is stopped. ) Has come to appear. However, one of the maximum five timer target candidate effects is a big hit finalizing effect (special timer), and when a conversation advance notice is selected, it functions as a big hit effect due to a successful mission. When 4 or more appear, a notice effect of confirming the big hit (mission success or special timer) will appear. Therefore, in the table T5c, the maximum number of variation at the time of losing is up to three (the total of the number of timer target candidate effects on the variable side and the number of timer target candidate effects on the notice side is limited to three). Is not allowed to appear.

  Moreover, one of the maximum five timer target candidate effects is a jackpot finalizing effect (special timer). When the number 4 is selected and the notice number 3 is selected when the variable number is 14, the execution of the jackpot finalizing effect (special timer) is determined. As described above, when the notice timer presentation is executed in the double timer mode, the rate of appearance of the special timer described later is higher than when the notice timer presentation is executed in the single timer mode. In addition to winning the jackpot, it is possible to have a sense of expectation that the game will shift to a high-probability short-time state and that a 16-round jackpot game will be executed. In particular, it is a double timer mode, and when a mission effect is executed, it is possible to have such a sense of expectation. It will be possible to create a directing situation.

  By the way, the effect pattern (character reach + conversation notice) that appears when the variable number is 10 is set to have a lower jackpot expectation than the effect pattern (character reach + cut-in) that appears when the variable numbers are 11 and 12. This is as described above. However, in the table T5c referred to when in the third processing status, the variation number 10 is “the mission success (special display) is displayed, and then the effect pattern is stopped with the big hit symbol” In view of the fact that it is “executed”, the number of appearances and the appearance probability of the notice effect are higher than in the case of the variable numbers 11 and 12 (when the mission success (special display) is not displayed). Is used to improve the game entertainment when the mission success (special indication) is displayed.

  On the other hand, in the SP reach (variation numbers 15, 16, 18 to 20, 22) having a relatively high degree of expectation, the same relationship as that of each variation number in such a character reach is set. . However, in the SP reach, the variation number 18 corresponds to the variation number 10 and the variation numbers 19 and 20 correspond to the variation numbers 11 and 12, but unlike the case of the character reach, The variation number 20 at the time of hitting has a higher number of appearances and the probability of appearance of the notice effect than the variation number 18 (the number of notifications is more likely to increase as the variation number has a higher jackpot expectation). In SP reach, the appearance ratio (average appearance number) of the number of notices is higher than that of character reach.

  As will be described later, in SP reach when in the third processing status, up to six timer target candidate effects (conversation notice, hold change, cut-in A, accessory drop A) until the symbol fluctuation is stopped. The timing at which the cut-in B and the accessory drop B) can appear has come. However, when the conversation advance notice is selected, it functions as a jackpot effect due to the success of the mission. Therefore, when six timer target candidate effects appear, a jackpot confirmed notice effect appears. Therefore, in the table T5c, the number of variation corresponding to the SP reach at the time of losing is at most 5 (the total of the number of timer target candidate effects on the variable side and the number of timer target candidate effects on the notice side is up to 5). However, the timer target candidate effect is not allowed to appear.

  FIG. 144 shows an aspect of a double timer (NO in step S506), and is in a fourth processing situation in which a decision is made not to execute a mission effect (make a conversation notice appear) (NO in step S532). It is a figure which shows an example of table T5d referred in the process of step S543 in that case.

  First, as shown in FIG. 144, since the table T5d is referred to when the notice timer presentation is executed, the change number 1 corresponding to the change pattern in which the notice timer presentation cannot be executed. When .about.6 is acquired, the table T5d is not referred to. However, since the reference is made when the mission effect is not executed, the change numbers 9, 13, and 17 corresponding to the loss change pattern (the change pattern in which the mission cannot be successful) causing the conversation notice to appear as the effect contents of the change effect. , 21 is acquired, the table T5b is also referred to. Therefore, in the table T5d, production random numbers are assigned to the variable numbers 9, 13, 17, and 21 separately for each number of notices.

  Similarly, the table T5d is also referred to when the notice-side timer effect is executed in the form of a double timer, so that at least two timer target candidate effects are selected for each variable number so as to be selected. Is allocated. However, for the variation number in which the timer target candidate effect (conversation notice or cut-in) appears as the effect content of the variation effect, it is not always necessary to assign two timer object candidate effects as the effect content of the notice effect. One timer target candidate effect (variation numbers 9, 17) may be allocated as the effect content of the notice effect according to the effect content, or the timer target candidate effect may not be allocated (variation numbers 13, 21).

  Similarly, in the table T5d, among the variable numbers 7 to 14 corresponding to the character reach effects, a maximum of four timer target candidate effects are assigned to the hit effects of the variable numbers 7 and 8. On the other hand, a maximum of three timer target candidate effects are assigned to the winning effects among the variation numbers 10 to 12, and a maximum of two timer target candidate effects are reached for the winning effects of the variable numbers 13 and 14. Only allocated. However, in variation numbers 7 and 8, a timer target candidate effect (conversation notice or cut-in) does not appear as the effect content of the change effect, whereas in change numbers 9 to 12, 1 as the effect content of the change effect. Two timer target candidate effects (conversation notice or cut-in) appear, and when the variable numbers 13 and 14 are reached, two timer object candidate effects (conversation notice and cut-in) appear as effect contents of the variable effect. It has become. Therefore, in the case of the variable numbers 9 to 12, it is synonymous with the fact that one more notice effect is assigned respectively. In the case of the variable numbers 13 and 14, substantially two notices are provided. It is synonymous with the production being assigned to each.

  Then, for example, since the change number 14 is substantially synonymous with the fact that a production random number of “1000” is assigned to the number of notices 4, the change numbers 7 to 6 corresponding to the character reach production. It can be said that among the fourteen, the most noticeable effects are assigned so as to appear most easily.

  Note that, in SP reach (variation numbers 15 to 22) having a relatively high degree of expectation, the same relationship as that of each variation number in such a character reach is set. However, in SP reach, the appearance ratio (average number of appearances) of the number of notices is higher than in character reach.

  In addition, in the table T5d, the production random numbers are distributed in substantially the same manner as the table T5c, but since the mission production is not executed, the table is referred to when the mission production is not executed. The upper limit number of appearances (average appearance number) of the timer candidate candidate effects is smaller than T5c.

  Then, as shown in FIG. 136, as a result of the notice side timer type lottery (step S505), it is determined whether the notice side timer effect is performed in either the single timer mode or the double timer mode (step S505). S506), and further candidate for timer with contents (tables T5a to d) corresponding to each result of whether or not the mission effect is determined as a result of the first mission effect lottery (step S504) (steps S507 and S532) After determining the number of appearances of the effect (notice effect that can be the effect of the notice side timer effect) (steps S508, S523, S533, and S543), the determined number of notices of any type as the timer target candidate effect Appearance of the production, or any of the notice productions of the production of the timer production Or the determination process will be performed (step S509, S524, S534, S544).

  FIG. 145 is an aspect of a single timer (YES in step S506), and in the first processing situation where a decision to execute a mission effect (make a conversation notice appear) (YES in step S507) is made. It is a figure which shows an example of table T6a-1 referred when it is determined that the number of notices is set to 1 as a result of performing the process of step S508 (step S509).

  For example, as shown in FIG. 145, the table T6a-1 (step S509: number of notices 1) is referred to when it is determined to execute the notice side timer effect in the form of a single timer. Therefore, one notice effect that is determined to be executed as a timer object candidate effect is automatically set as an effect object of the notice timer effect (in the figure, the ○ mark indicates the notice timer effect effect). It is executed as a production target). On the other hand, although illustration is omitted, when it is required to determine N (two or more) notice effects as timer object candidate effects (step S509: number of notices N), N timer object candidate effects are determined. A notice effect is determined and one of them is determined as a notice object of the notice timer effect.

  In addition, it is a case where it is required to determine N (two or more) notice effects as timer target candidate effects, and N-1 of them (1 in the single mode, 2 in the double mode) ) When the following number of effects are targeted for the timer timer effect (steps S509, S524, S534, S544), even when N effects of the same effect combination are selected as the timer target candidate effects: It is desirable that the degree of jackpot expectation varies depending on which of these effects is determined as the notice timer effect. For example, a first effect that appears at a relatively early timing in one effect pattern (for example, a conversation notice), and a later effect that appears at a relatively late timing in one effect pattern (for example, an object fall) When A) is selected as a timer target candidate effect, a later effect (for example, an object fall A) is performed on the notice side effect than when the previous effect (for example, conversation notice) is selected as the effect object of the notice side effect timer. The ratio of appearance of the big hit symbol (special display mode) is set to be higher when the timer is to be produced (steps S509, S524, S534, S544).

  Further, in the peripheral control MPU 1511a according to this embodiment, even when a variation number for executing “conversation notice” or “cut-in A, B” is acquired as the contents of the effect of the change effect, As the production contents, “conversation notice” and “cut-in A, B” can be determined. However, as a result, if it is determined that the same effect appears in both the effect content of the variable effect and the effect content of the notice effect, the control is not performed so that it appears separately as the effect content of the notice effect. A process of setting an effect (conversation notice, cut-in A, B) appearing as the effect contents of the effect as an effect target of the notice side timer effect is performed (steps S509, S524, S534, S544).

  For example, in the example of the table T6a-1 (the number of notices 1), when the “conversation notice” is determined as the production content of the notice effect with the variable numbers 10, 14, 18, and 22, or “cut” with the variable numbers 11 to 14. When “In A” is determined as the content of the notice effect, or when “Cut-in B” is determined as the effect content of the notice effect with the variation numbers 19 to 22, the effect content of the change effect and the effect of the notice effect It is determined that the same production appears in both the contents. However, here, the control for causing the notice effect to appear separately is not performed, and the effect (conversation notice, cut-in A or cut-in B) appearing as the effect contents of the variable effect is set as the effect object of the notice timer effect. Processing is performed.

  In addition, when it is determined that a specific effect (conversation notice, cut-in A or cut-in B) appears in both the effect content of the variable effect and the effect content of the notice effect, this is separately provided as the effect content of the notice effect. The specific effect on the side that appears separately (the content of the effect of the notice effect) may be set as the effect object of the notice side timer effect.

  In addition, this table T6a-1 (number of notices 1) is referred to when it is determined to execute a mission effect (make a conversation notice appear), and is also shown in FIG. As described above, when the variation numbers 10, 14, 18, and 22 for executing the “conversation notice” are acquired as the contents of the variation effect, or “conversation notice” is selected as the timer target candidate effect (the contents of the notice effect). In the case (PTN1), a special display (successful mission) is displayed and it is definitely suggested that a jackpot symbol appears.

  In this regard, in the variation numbers 10, 14, 18, and 22 when the “conversation notice” is executed as the content of the variation effect, the variation numbers 8, 12, and when the “conversation notification” is not performed as the content of the variation effect. Compared to 16 and 20, the ratio of determining “conversation notice” as the production content of the notice effect is set to be lower. That is, as described above, when “conversation notice” is determined as the content of the notice effect in the variation numbers 10, 14, 18, and 22, both the variable timer effect and the notice timer effect are subject to the “conversation notice”. In this way, when two timer effects target the same effect, the big hit expectation is basically compared to the case where the two timer effects target different effects. This is because the degree is set to be low. This makes it possible to relatively reduce the appearance ratio of the special display (mission success) in the case where both the variable timer presentation and the notice timer presentation are directed to “conversation notice”.

  This is also the case with the production contents of the fluctuation effects other than the “conversation notice”. For example, among the fluctuation numbers 15 to 22 corresponding to the SP reach, the fluctuation numbers that do not execute “cut-in B” as the production contents of the fluctuation effects. Among 15 and 16, 150 production random numbers are assigned to the fluctuation number 15 at the time of losing, whereas 250 production random numbers are assigned to the fluctuation number 16 at the time of winning. On the other hand, among the variation numbers 19 and 20 in which “cut-in B” is executed among the variation numbers 15 to 22 corresponding to the SP reach, the variation number 19 at the time of losing includes 250 production random numbers. On the other hand, only 200 production random numbers are assigned to the variation number 20 at the time of hitting.

  In other words, in this case, when “Cut-in B” is targeted only for the fluctuation timer presentation at the fluctuation numbers 15 and 16, both the fluctuation timer presentation and the notice timer presentation appear at the fluctuation numbers 19 and 20. Thus, compared to the case where both of them are “cut-in B” as a production target, the ratio of appearance of the big hit symbol becomes higher. As a result, in a situation where two timer effects are counted and displayed at the same time, whether or not those timer effects reach the predetermined numerical value for the same effect target functions as an important effect element. Amusement entertainment can be suitably maintained.

  In the variation numbers 8, 10, 12, and 14 of the variation numbers 7 to 14 corresponding to the character reach, until the big hit symbol (special display mode) is stopped in the effect pattern (during symbol variation) In the mode of the special timer that targets the effects that appear after the jackpot symbol (special display mode) is stopped in the performance pattern instead of the effect that appears in the game It can be decided to execute the notice side timer effect. Although this special timer will be described later, in this embodiment, even if it is decided to generate a special timer in the processing of step S509, the special timer may not appear, and its execution The execution mode of the special timer including the presence / absence of is determined in the processing of the subsequent step S514.

  Here, the notice-side timer effect may have a relatively high jackpot expectation even if the total number of counts from when the count display is started to when it is small (such as when it is started from the middle of the variable display). On the other hand, in the variable side timer effect, control is performed so that the expected level suggested by the timer effect is always lower than when the total number of counts from the start to the end of the count display is small, compared to when it is large. May be.

  As will be described later, such a special timer not only provides a definite suggestion that a jackpot symbol (special display mode) will appear in the performance pattern, but when it appears, it has a high probability short-time gaming state and a 16-round jackpot. It can be said that it is more beneficial for the player than a timer effect that is directed to other effects in that the rate at which the game is executed is relatively high. Note that the ratio may include 100%.

  In this regard, in the peripheral control MPU 1511a according to this embodiment, when the special display (mission success) appears in the mission effect, the appearance ratio of the special timer is higher than when the special display (mission success) does not appear. By controlling, a sense of expectation when a special display (when the mission is successful) appears more suitably (steps S509 and S534). For example, in the table T6a-1 (the number of notices 1), among the variable numbers 7 to 14 corresponding to the character reach where a special timer can appear, the variable timer effect (mission success) for the effect of the conversation notice appears. 100 random numbers are assigned to the special timers for the fluctuation numbers 10 and 14 at the time of hitting, while the variable timer effect (successful mission) for which the conversation notice is directed is not appearing. In the variable numbers 8 and 12, only 50 production random numbers are allocated to the special timer.

  Furthermore, in the peripheral control MPU 1511a according to this embodiment, even if the special display (mission success) does not appear, when the mission effect (make the conversation notice appear) is performed (steps S509 and S534), the mission effect (conversation) The expectation when a mission effect (make the conversation notice appear) appears by controlling the appearance rate of the special timer to be higher than when the notice is not made (step S524, S544). Is more suitably played.

  In addition, when the timer effect is performed in a double manner with the variable timer effect and the notice timer effect, the appearance rate of the special timer is smaller than when the timer effect is performed in the double manner with only the notice timer effect. It is set to be low. Also, even if the timer effect is performed in a triple manner with one variable timer effect and two notice timer effects, one of the notice timer effects is the same effect as the variable timer effect. In this case, the appearance ratio of the special timer is set to be lower than that in the case where the same effect is not set as the effect target in the notice side timer effect and the variable side timer effect.

  FIG. 146 shows an aspect of a single timer (YES in step S506), and in the second processing situation in which it is determined that a mission effect (make a conversation notice appear) is not executed (NO in step S507). It is a figure which shows an example of table T6b-1 referred when the number of notices is determined to be 1 as a result of performing the process of step S523 (step S524).

  As shown in FIG. 146, in this table T6b-1 (step S524: number of notices 1), among the variable numbers 7 to 14 corresponding to the character reach where the special timer may appear, 50 effect random numbers are assigned, and 20 effect random numbers are assigned to the variable numbers 8 and 12. Thus, when the mission effect (make the conversation notice appear) is not performed (table T6b-1), a special timer is used compared to when the mission effect (make the conversation notice appear) (table T6b-1). It is clear that the appearance ratio of is set to be low.

  Further, since this table T6b-1 (step S524: number of notices 1) is referred to when the mission effect (make the conversation notice appear) is not executed, the conversation notice appears as the effect contents of the variable effect. The table T6b-1 (the number of notices 1) is also referred to when the variation numbers 9, 13, 17, and 21 corresponding to the loss variation pattern (the variation pattern in which the mission cannot be successful) are acquired. Therefore, in table T6b-1 (step S524: number of notices 1), effect random numbers are assigned to the variable numbers 9, 13, 17, and 21 separately for each number of notices.

  In addition, in the variation numbers 9, 10, 13, 14, 17, 18, 21, and 22, the variation timer production with the “conversation notice” as the production target appears as the production content of the fluctuation production. When “conversation notice” is selected as the production content, both the variable timer presentation and the notice timer presentation are executed with “conversation notice” as the production target. Therefore, in the table T6b-1 (step S524: number of notices 1), when “conversation notice” is selected in the variable numbers 9, 10, 13, 14, 17, 18, 21, 22, the variable numbers “ The production random numbers are distributed so that the expectation of jackpot is lower than when “conversation notice” is selected.

  The contents of the effect of the fluctuating effect other than such “conversation notice” are the same. For example, “cut-in B” that both the fluctuating timer effect and the notice timer effect can be effected in SP reach, Allocation is performed in the same manner as in the case of the above-described table T6a-1 (number of notices 1).

  Similarly, this table T6b-1 (step S524: number of notices 1) is also referred to when it is decided to execute the notice side timer effect in the form of a single timer. One notice effect that is determined to be executed as a timer target candidate effect is naturally set as an effect object of the notice timer effect. On the other hand, although illustration is omitted, when it is required to determine N (two or more) notice effects as timer object candidate effects (step S524: the number N of notices), N timer object candidate effects are determined. The same applies to the determination of the notice effect and the determination of one of them as the effect subject of the notice timer effect.

  Timer target notice lottery (step S534, when the notice side effect timer is performed in the double mode, in contrast to the timer object notice lottery (step S509, S524) when the notice side effect timer is performed in such a single mode. Also in S544), when both the variable timer effect and the notice timer effect are the same effect, it is a big hit compared to the case where the effect of the variable timer effect and the notice timer effect is different. The production random numbers are basically distributed in the same manner such that the degree of expectation is set low.

  FIG. 147 shows an aspect of a double timer (NO in step S506), and in the fourth processing situation in which a decision is made not to execute a mission effect (make a conversation notice appear) (NO in step S532). It is a figure which shows an example of table T6d-2 referred when the number of notices is determined to be 2 as a result of performing the process of step S543 (step S544).

  As shown in FIG. 147, this table T6d-2f (step S544: number of notices 2) is referred to when it is determined to execute the notice side timer effect in the double timer mode. For this reason, both of the two notice effects that are determined to be executed as the timer object candidate effects are set as the effect objects of the notice timer effect. On the other hand, although illustration is omitted, when it is required to determine N (3 or more) notice effects as timer object candidate effects (step S544: number of notices N), N timer object candidate effects are determined. At the same time, the notice effect is determined and two of them are determined as the effects of the notice timer effect. Such processing is also executed in the timer target advance notice lottery in other production situations.

  In addition, as shown in FIG. 147, also in this table T6d-2f, when both the variable side timer effect and the notice timer effect are the same effect, the variable side timer effect and the notice timer effect It is set so that the big hit expectation is lower than the case where an effect that is different from is targeted for the effect.

  If one of the two notice effects selected as the notice side effect timer is the same effect as the effect side effect timer, one of the two notice effects selected as the special notice side effect timer is on the variable side. The selection ratio of the special timer is lower than that in the case where the production target is not the same as the production timer.

  In particular, in the case of the variation numbers 13, 14, 21, and 22, when both of the two notice effects that are selected as the notice side effect timer are the same effect target as the two variable side effect timers that appear in one effect pattern. The expectation level for jackpots is significantly lower.

  Then, as shown in FIG. 136, as a result of such timer target advance notice lottery (steps S509, S524, S534, S544), which of the timer target candidate effects will appear, the notice timer effect effects When the target is determined, a count display lottery is performed as the processing of step 510 next.

  In this count display lottery (step 510), each effect determined to appear as a timer target candidate effect is caused to appear at any timing within one effect pattern (fluctuation pattern), and further to the effect object. A determination is made as to which timing within the effect pattern (fluctuation pattern) to execute the notice-side timer effect that is counted and displayed. In this determination, when the appearance timing of the effect that is the subject of the notice timer effect is late, the jackpot symbol (special display mode) is compared to when the appearance timing of the effect that is the subject of the notice timer effect is early. ) Is preferably performed so that the appearance ratio is high.

  FIG. 148 is a single timer mode (YES in step S506), and in the second processing situation in which a decision is made not to execute the mission effect (make the conversation notice appear) (NO in step S507), It is a time chart for demonstrating the specific content of the count display lottery (step 510) performed when the variable number equivalent to a character reach is selected.

For example, when the variation numbers 7 to 14 corresponding to the character reach are selected in the second processing situation as described above, as shown in FIG. 148, first, as the effect on the variation effect (effect pattern) side,
・ Normal production period during which regular production is performed,
-Normal reach production period after the decorative pattern has reached the reach form under the background of the normal production,
・ Characteristic production period in which the production progresses by switching to a different background from the normal production, and ・ Design suspension period in which the decorative symbol is fixedly stopped (hit and jackpot symbol) so that the winning of the jackpot is indicated However, it is in the processing state that it has been determined that it will appear sequentially within the fluctuation time of 50 seconds (period in which the symbol fluctuation is performed) reference).

  Also, in this processing situation, for example, when the variation number 14 is acquired, after the variable side timer effect is started as the effect pattern at the start of the symbol change and displayed for 10 seconds, the “conversation notice” is displayed. ”And the fact that the variable timer presentation is started again after a predetermined time has elapsed and displayed for 10 seconds, and then“ cut-in A ”is made to appear.

  As described above, even if it is one variation pattern (variation number), the production pattern is not limited to this, and the variation timer production is started after a predetermined time from the start of the symbol variation, and this is displayed for 5 seconds. It is also possible to select other performance patterns that cause a “conversation notice” to appear after. Moreover, although this was also mentioned above, selection of such an effect pattern has already been performed before the lottery (each process shown by FIG. 136) regarding the said notice effect.

  Then, in the count display lottery (step 510), it is determined in the timer subject advance notice lottery (here, step S524) while such production periods appear in sequence and the production contents on the variable side are already decided. A determination is made as to at what timing each of the effect target of the notice side effect timer that has been made and the notice side effect timer that counts and displays the effect object. In addition, in addition to the timer target candidate effects that are the target of the notice side effect timer in the timer target notice lottery, the timer target candidate effects that are not the target of the effect when the timer target candidate effects that are not the target of the effect are further determined. The appearance timing is also determined by the count display lottery (step 510).

  For example, when “conversation notice” is determined as the effect of the notice effect in the timer object notice lottery (here, step S524), as shown in FIG. In this manner, it is determined whether to execute the conversation notice and the notice timer presentation. In this embodiment, among the conversation notices 1 to 4 in the figure, the aspect of the conversation notice 1 has the lowest expectation degree of the big hit, and the big hit expectation degree is selected as the number increases. Probability is set. Therefore, in this count display lottery (step 510), one of the conversation notices 1 to 4 is selected based on the jackpot winning or fluctuation pattern (fluctuation numbers 7 to 14). It is desirable to perform the count display lottery based on different selection tables.

  However, at this time, when the variation numbers 9, 10, 13, and 14 in which the conversation notice appears as the contents of the effect of the change effect are acquired, the notification effect of the notice effect is also obtained in the timer target notice lottery (here, step S524). When “conversation notice” is determined as the production content, the mode of conversation notice 1 is always selected. In this case, apart from the conversation announcement performed as the content effect of the variation effect, the count notification of the timer effect is displayed for the conversation preview performed as the effect content of the variation effect without causing the conversation notice to appear as the effect content of the variation effect. The control to be performed is executed (mode of conversation notice 1 in the figure).

  Further, as shown in FIG. 148, when the variable numbers 7 to 14 corresponding to the character reach are acquired, in the timer target notice lottery (in this case, step S524), the content of the notice effect is “hold”. If “change” is determined, it is determined in either of the changes 1 to 5 that the hold change is to be executed and the timer side timer effect is executed, and “cut-in A” is determined as the effect content of the notice effect. If it has been determined, it is determined which cut-in A and notice side timer effect are to be executed in any of cut-in A1 to A3, and “actual object fall A” is determined as the effect content of the notice effect. If it is determined whether to perform the actor fall A and the notice timer production in each of the features fall A1 to A4, the contents of the notice production are “special tie”. If the "is determined so that the determining whether to perform the announcement side timer effect in any aspect of special timers 1 and 2.

  In addition, in this embodiment, in any production selection of reservation changes 1-5 in the figure, cut-in A productions 1-3, and accessory drop A1-4, the mode with the smallest number has the highest jackpot expectation. Each of the selection probabilities is set such that the degree of jackpot expectation increases as the number increases. On the other hand, the special timers 1 and 2 are effects that indicate that the big hit symbol (special display mode) always appears.

  Further, as shown in FIG. 148, the peripheral control MPU 1511a according to this embodiment has three timings at which the notice timer effect can appear while one effect pattern (here, character reach) is performed. Although it is prepared (at the start of fluctuation, slightly before the appearance timing of the notice E2, slightly before the appearance timing of the notice F), the appearance timings of them are a plurality of types of timer object notices (conversation notice, pending change, cut-in) (A, bonus item A, special timer). Then, at such a plurality of appearance timings (at the start of fluctuation, a little before the appearance timing of the notice E2, a little before the appearance timing of the notice F), a plurality of count display totals are prepared as the notice side timer effect appears ( 10 seconds, 20 seconds, 30 seconds, 40 seconds, 50 seconds, 70 seconds, etc.), and which of the count display total number is displayed, it is predicted which production is the production target. The structure is difficult.

  For example, as shown in FIG. 148, when the variation numbers 7 to 14 corresponding to the character reach are acquired, 10 seconds at a timing that comes slightly before the appearance timing of the notice E2 among the plurality of appearance timings. , 20 seconds, 30 seconds, the notice side timer effect with the total count display total can appear. However, when a notice timer effect with a total count display of 10 seconds appears, it is difficult to predict which of the conversation notice 3 and the hold change 3 is being executed only in the character reach effect pattern. Even when the notice timer effect with the total count display of 20 seconds appears, either the hold change 4 or the cut-in A2 mode is executed only in the effect pattern of the character reach. It is difficult to predict.

  In this regard, when a notice-side timer effect having a total count display of 30 seconds appears at a timing that arrives slightly before the appearance timing of the notice E2 among the plurality of appearance timings, only the character reach effect pattern is displayed. If it sees, only the aspect of the accessory fall A2 can be performed. However, when the SP reach effect pattern (see FIG. 149) described later is viewed, the appearance of the accessory drop A2 can be executed at the same timing from the start of the fluctuation, so that a little before the appearance timing of the notice E2 Even if a timer-side timer effect with a total count display of 30 seconds appears at the time of arrival, the timer-side timer effect is executed in any manner, including whether it is a character reach or an SP reach. It is difficult to predict what will happen.

  According to such a configuration, when the notice timer production appears, it is unknown which production is the production target (the big hit expectation varies depending on the type of the production to be produced). Therefore, the game entertainment can be suitably maintained until the count display of the timer effect becomes a specific numerical value (0 in this case). In this embodiment, when a notice timer effect with the same count display total number appears at the same timing, the effect target is basically a conversation notice (unless there is a balance with a mission effect or the like). When the jackpot expectation is the lowest, the jackpot expectation is set to gradually increase in the order of change in hold, cut-in A, accessory fall A, cut-in B, and accessory fall B.

  In addition, according to the above configuration, when the notice side timer effect appears, a plurality of count display totals (the big hit expectation varies depending on the length of the number of seconds) are prepared at any appearance timing. When the notice timer effect appears, it becomes possible to give an interest about which count display total number is, and it is possible to improve the game entertainment when the notice timer effect appears. .

  In this embodiment, even if it is a notice side timer effect that appears at any timing, the effect target is made difficult to predict at the time of appearance, but one effect target for the total count display count It is also possible to include a mode in which the production target is set to be predictable by associating only (for example, a special timer). Further, the appearance timing at which the notice timer effect may appear may include an appearance timing at which only one count display total appears.

  Further, in the example shown in FIG. 148 (character reach: number of notices 1), for convenience of explanation, when the same effect is made to the effect of the change side timer effect and the notice side timer effect, The side timer effect and the notice timer effect are counted for the same number of seconds, or as if the count display is terminated at the same timing. However, as described above, the end timing of each count display is actually made different even if the same effect (for example, conversation notice) is used for the effect on the variable timer effect and the notice timer effect. One of the variable side timer effect and the notice side timer effect reaches the specific numerical value (0 in this case) first and is terminated, whereas the other count display is continued.

  In the example shown in FIG. 148 (character reach: number of notices 1), it is described as if the timer effect count display is made in seconds, but the unit of the number appearing in the count display is “seconds”. Is not limited to. Therefore, for example, the time required for the change in the number on the count display may be different between the change-side timer effect and the notice-side timer effect, or the time required for the change in each number in the count display that appears in the change-side timer effect is constant. It does not have to be.

  Further, in the example shown in FIG. 148 (character reach: number of notices 1), when “special timer” is determined as the effect contents of the notice effect, the notice timer effect in either of the special timers 1 and 2 is used. Is going to decide what to do. In other words, in this case, after the jackpot symbol (special display mode) appears in the effect pattern (character reach), when 20 seconds have passed (during the jackpot game execution period), the count display is set to a specific numerical value (here, 0). Will be reached. Then, after this, an effect (for example, a hit type for shifting to a high-probability short-time state or a hit type in which a 16-round jackpot game is played) is started, which suggests that it is a type advantageous to the player as a jackpot type. However, such a special timer mode is set in step S514 described later.

  In this embodiment, it is determined which of the modes of the special timers 1 and 2 is selected in the count display lottery (step S511). You may make it set in step S514.

  In addition, when the count display is started after the lapse of a predetermined time from the start of the variable display, not the timing at which the variable display according to the hold information is started, the timer pre-reading effect described later is not executed. Alternatively, an aspect (for example, during timer preparation) that is displayed in a timer pre-reading effect described later may appear (for example, appear at a predetermined probability) over a predetermined time until the count display is started.

  FIG. 149 is an aspect of a single timer (YES in step S506), and in the second processing situation in which a decision is made not to execute a mission effect (make a conversation notice appear) (NO in step S507) It is a time chart for demonstrating the specific content of the count display lottery (step 510) performed when the fluctuation number equivalent to SP reach is selected.

For example, when variation numbers 15 to 22 corresponding to SP reach are selected in such a second processing situation, as shown in FIG. 149, first, as an effect on the variation effect (effect pattern) side,
・ Normal production period during which regular production is performed,
-Normal reach production period after the decorative pattern has reached the reach form under the background of the normal production,
・ Characteristic production period in which the production progresses by switching to a different background from the normal production,
・ The SP reach production period that appears in the form of the progress of the production, and the decoration design stops to show the winning of the jackpot (the jackpot symbol, the lost symbol) Each period such as the symbol stop period is determined to appear in order within a fluctuation time of 90 seconds (period in which symbol fluctuation is performed) ("fluctuation time" in the figure), (See “Variable PTN Production” line).

  Further, in this processing situation, for example, when the variation number 22 is acquired, after the variable side timer effect is started as the effect pattern at the start of the symbol change and displayed for 10 seconds, the “conversation notice” is displayed. ”, And after the predetermined time has elapsed, the variable side timer effect is restarted and displayed for 10 seconds, and then“ cut-in B ”appears.

  In this example (SP reach: number of notices 1), as in the example shown in FIG. 148 (character reach: number of notices 1), even if the variation pattern (variation number) is one, Is not limited to this, but it is also possible to select other effect patterns such as starting the fluctuating timer effect after a predetermined time from the start of the symbol change, and displaying the “conversation notice” after counting it for 5 seconds. ing.

  In this example (SP reach: number of notices 1), for example, when “conversation notice” is determined as the production contents of the notice effect in the timer object notice lottery (here, step S524), As shown in FIG. 149, it is determined which of the conversation notices 1 to 6 is to execute the conversation notice and the notice timer presentation. In this embodiment, among the conversation notices 1 to 6 in the figure, the aspect of the conversation notice 1 is the aspect with the lowest expectation degree of the big hit, and the selection is made so that the big hit expectation degree becomes higher as the number increases. Probability is set. Accordingly, in this count display lottery (step 510), one of the conversation notices 1 to 6 is selected based on the jackpot win or fluctuation pattern (fluctuation numbers 15 to 22). It is desirable to perform the count display lottery based on different selection tables.

  However, in the same way, when the change numbers 17, 18, 21, and 22 where the conversation notice appears as the effect contents of the change effect are acquired, the notice is also given in the timer target notice lottery (here, step S524). When “conversation notice” is determined as the production content of the production, the mode of conversation notice 1 is always selected. In this case, apart from the conversation announcement performed as the content effect of the variation effect, the count notification of the timer effect is displayed for the conversation preview performed as the effect content of the variation effect without causing the conversation notice to appear as the effect content of the variation effect. The control to be performed is executed (mode of conversation notice 1 in the figure).

  In addition, as shown in FIG. 149, when the variable numbers 15 to 22 corresponding to the character reach are acquired, in the timer target notice lottery (in this case, step S524), the content of the notice effect is “hold”. When “change” is determined, it is determined which of the change changes 1 to 7 to execute the hold change and the notice timer production, and “cut-in A” is decided as the notice contents of the notice effect. In the case of being cut, it is determined which of cut-in A1 to cut-in A and the notice-side timer effect is to be executed, and “actual object fall A” is determined as the effect content of the notice effect. If it is determined, it is determined which of the actor fall A1-4 the actor fall A and the notice timer production are performed, and the contents of the notice effect are “Cut” In the case of “B”, it is determined in which of cut-in B1 to 5 the cut-in B and the notice timer production are to be executed. ”Is determined, it is determined in any of the accessory fall B1-4 whether the accessory fall B and the notice timer performance are executed.

  Even in this SP reach example, in any of the production selections of holding changes 1 to 7, cut-in A1 to 5, cut-in A1 to 4, cut-in B1 to 5, and drop B1 to 4 in the figure. The mode with the smallest number is the mode with the lowest expected degree of jackpot, and the selection probabilities are set such that the degree of jackpot expectation increases as the number increases.

  Further, in the example shown in FIG. 149, six timings at which the notice side timer effect can appear while one effect pattern (here, SP reach) is performed are prepared (at the start of change, notice E2). A little before the appearance timing of the notice F, a little before the appearance timing of the notice F, a little before the end of the normal reach production period, a timing at which the SP reach production period starts within the character reach production period), and a notice timer at these timings It is the same as in the example shown in FIG. 148 that, when an effect appears, it is difficult to predict which effect is the target of the effect.

  However, in the example shown in FIG. 149, a mode (for example, a timer of 40 seconds for cut-in B) in which only one production target is associated with the total count display count and the production target is set to be predictable, or a notice is given. The appearance timing at which the side timer effect may appear includes an appearance timing at which only one count display total appears (for example, 10 seconds at the timing when the SP reach effect period starts).

  As described above, in the count display lottery (step S510), the appearance time of the notice effect or the notice timer effect produced in the timer object notice lottery is determined. In this regard, when the number of notice effects produced in the timer object notice lottery is two or more, in addition to the effect that is designated as the notice object of the notice timer effect, the appearance time of the effect that is not the object of the notice timer effect Etc. are also determined. In addition, when the notice timer effect is executed in the double timer mode, at what timing each of the two notice timer effects and the effects to be produced appear (two notice timer effects) (Including whether or not the count display is executed at the time of overlap) is further determined.

  However, in this count display lottery (step S510), the number of notice effects produced in the timer object notice lottery, whether or not it is a double timer mode, and a mission effect (make a conversation notice appear) are executed. Depending on the processing status such as whether or not, it is desirable that the notice effect determined in the timer target notice lottery, the appearance time of the notice timer effect, etc. be determined in different modes. For example, in a processing situation in which a mission effect (make a conversation notice appear) is executed, if a conversation notice appears at a relatively early stage after the start of fluctuation, there will be a lack of dramatic excitement. It is desirable to make it easier to select a conversation notice that appears at a later stage. In addition, in the double timer mode, two timer effects are executed when a situation in which the count displays proceed simultaneously is performed, rather than when each count display is executed in a period in which each count display does not overlap within one effect pattern. The selection ratio is higher when the situation where each count display progresses simultaneously than when the situation where each count display progresses simultaneously does not appear. It is desirable to do. Further, when the number of the notice effects produced by the timer object notice lottery is two or more, the appearance times of the notice effects are determined so that the notice effects do not appear at the same time.

  It should be noted that the timing at which the notice-side timer effect may appear (for example, at the start of fluctuation, slightly before the appearance timing of the notice E2, slightly before the appearance timing of the notice F, slightly before the end of the normal reach effect period, the character reach effect period Among them, the timing for starting the SP reach production period) is within the period during which each notice production (conversation notice, hold change, cut-in A, accessory fall A, cut-in B, accessory fall B) can be performed It is desirable to set. In other words, in this case, the notice timer production is started even if the notice effect does not appear at a specific timing, or the notice effect is performed even if the notice timer presentation is not started at a particular timing. It can be expected that the decrease in the entertainment interest will be suppressed. Further, since a notice effect appears at a specific timing, and an effect situation in which a notice side timer effect is started may also occur, it is expected to improve the game entertainment. In this case, when the predetermined time has elapsed since the start of the change (at a specific timing), the notification effect is not executed when the predetermined time has elapsed since the start of the change. It is desirable to set so that the rate at which the notice side timer effect is started is higher than the time.

  Then, as shown in FIG. 136, when the count display lottery (step S510) is performed in this way, as a process of step S511, the notice timer side effect mode determined in the count display lottery becomes a special timer. It is determined whether it is possible.

  That is, in the peripheral control MPU 1511a according to this embodiment, as shown in FIG. 148 and FIG. 149, separately from the timer target candidate effect (notice effect that can be an effect object of the notice side timer effect) The non-target notices E1, E2, E3 and the non-target notice F can be executed as the notice effects (notice effects that cannot be the subject of the notice timer effect). Of these, the non-target notice E2 is set so that the big hit expectation is lower than the non-target notice F in a situation where the count display of the notice side timer effect is not performed, whereas the notice side timer effect In the situation where the count display is performed, the expectation of jackpot is set to be higher than that of the non-target notice F.

  In such a configuration, when the non-target notice E2 (first effect) is executed while the count display is not performed, the non-target notice F (second effect) is executed while the count display is not performed. While there is a relationship in which the degree of expectation that a jackpot symbol (a specific symbol aspect) appears is lower than when the non-target notice E2 (first effect) is executed while the count display is being performed, it is counted A notice-side timer effect (count effect) so that the degree of expectation that a jackpot symbol (a specific symbol aspect) appears is higher than when the non-target notice F (second effect) is executed while the display is being performed. Display) can be executed. Therefore, the timer-side notice effect (not subject notice E2 (during the count display execution period) in which count display is performed in a manner that greatly increases the degree of expectation when the non-target notice E2 (first effect) appears in this way. The timer effect) at which the first effect) is started and ended is referred to as a “special timer”.

  That is, in this case, while the count display is not performed, the non-target notice E2 (first effect) functions as an effect with a lower expectation than the non-target notice F (second effect), whereas the count display is While being performed, the non-target notice E2 (first effect) functions as an effect with a higher expectation than the non-target notice F (second effect). Accordingly, although it is a non-target notice E2 (first effect) that is not originally related to the effect of the timer side timer effect (count effect display), the non-target notice E2 (the first effect) before the count display is exhausted. It will be possible to have an interest in whether or not a single production) will appear, thereby maintaining the game entertainment in the period until the count display is digested and a predetermined production (timer target candidate production) is performed. It is expected to be planned.

  In addition, when the count display is started with a small number of counts with a notice side timer effect, the big hit expectation is set to be lower than when the count display is started with a large number of counts with a notice side timer effect, By realizing such control related to the special timer, even if the count display is started with a small total number of counts with a notice timer effect, the non-target notice E2 is being executed while the count display is being executed. It becomes possible to be aware of the possibility of appearing, and it becomes possible to suppress a decrease in the entertainment interest of the game. In this sense, if the non-target notice E2 appears while the count display is being executed, the premier mode in which the jackpot is confirmed with the effects (conversation notice, cut-in, fall of a feature, etc.) that are the targets of the subsequent timer effects. It is desirable to control so that the rate of occurrence of becomes high. Note that the ratio may include 100%.

  In this embodiment, the non-target notices E1 to E3 are executed as so-called step effects, and the non-target notice E2 (first effect) is a condition that the non-target notice E1 appears. It is supposed to appear in In addition, the non-target notice E3 can appear on the condition that the non-target notices E1 and E2 appear, and in this embodiment, a jackpot symbol always appears when the non-target notice E3 appears. I am doing so. According to such a configuration, when the non-target notice E1 (specific effect) appears while the count display of the notice-side timer effect is being performed, the user is interested in whether the non-target notice E2 appears. Thus, it is possible to favorably maintain the gaming interest during the count digestion period.

  However, the non-target notices E1 to E3 do not necessarily have to be executed as so-called step effects, and are not necessary for realizing the above-described effect relationship between the non-target notice E2 and the non-target notice F. The target notices E1 and E3 are not necessarily prepared. Further, the order of appearance of the non-target notice F after the non-target notice E2 (first effect) appears is not limited to this. For example, the non-target notice F (second effect) appears after the non-target notice F (second effect) appears. The target notice E2 (first effect) may appear. In short, the non-target notice E2 may appear first among all the notice effects, or may appear last among all the notice effects. May be set appropriately. Further, the non-target notice E2 may be an image related to (implying) the type of reach effect executed in the variable display.

  In addition, when the non-target notice E2 is not realized as a so-called step effect, it is desirable that the non-target notice E2 is performed in any of a plurality of modes with different jackpot expectations. At this time, when the non-target notice E2 appears in a mode with the highest expected degree of jackpot, even if the count display is not performed, the big hit expectation degree may be higher than that of the non-target notice F. . However, when comparing the jackpot expectation degree (expected degree including all aspects) expected when the non-target notice E2 appears in the situation where the count display is not performed with the jackpot expectation degree expected when the non-target notice F appears, It is required that the big hit expectation is higher when the non-target notice F appears.

  In this regard, when the non-target notice E2 appears in the state where the count display is performed (in the case of a special timer), the non-target notice E2 appears in any of a plurality of modes including a mode with low expectation of big hit In addition, it is desirable that the big hit expectation is higher than the non-target notice F regardless of which mode appears. That is, in this case, since the non-target notice E2 is executed in a mode with a low degree of expectation of jackpot, an effect situation in which the degree of expectation of jackpot is dramatically increased is created. Even if it appears disappointing for a moment, it is expected that the game entertainment will be improved in a surprise manner by confirming that the count display is executed. In this sense, the non-target notice E2 can be executed in a mode with a low expectation of jackpot even in such a special timer situation, and the non-target notice E2 can be executed in any mode including the low mode. It is desirable that the expected degree of appearance of the jackpot symbol be the same even if the above is executed (further, whether or not another notice effect is generated). Note that the degree of expectation may include 100%. However, even in this case, when the non-target notice E2 is caused to appear in the situation where the count display is performed, it is desirable to set so that a highly expected aspect among the plurality of aspects is likely to appear.

  In addition, when the count display across the non-target notice E2 is executed, for example, even when the count display starts with any of the different total counts (for example, “10” and “5”), the same number (for example, It is desirable to control so that the non-target notice E2 appears when “1”). Also, at this time, among the candidates as the total number of counts that appear at the start of the count display (for example, “20”, “10”, “5”), less than half of the candidates with the smallest total number of counts (for example, “5”) It is desirable to control so that the non-target notice E2 appears when the number (number less than 2.5) is reached. In this way, by preventing the non-target notice E2 from appearing until the count display finishes being exhausted, it is possible to favorably maintain the game entertainment during the period until the count display is exhausted.

  Note that the non-target notice F may be executed in any of a plurality of modes having different jackpot expectations, but in a special timer situation, the non-target notice F has the highest jackpot expectation. Even if it appears in the form, it is required that the non-target notice F is set so that the big hit expectation is not higher than the non-target notice E2 (for example, the aspect with the lowest big hit expectation).

  Further, the non-target notice E2 may be allowed to appear at any of a plurality of timings from the start of the variable display. That is, in this case, even when the count display appears at the same timing and the same total number of counts, when the non-target notice E2 is straddled and when it does not straddle, the game entertainment when the count display is executed It is expected to maintain.

  Further, in the peripheral control MPU 1511a according to this embodiment, regarding the variable timer effect, the non-target notice E2 appears within the count display execution period among candidates that can be selected as the execution mode (effect pattern). Such a mode is not included.

  As shown in FIG. 136, when it is determined in step S511 that the notice timer presentation effect determined in the count display lottery (step S510) can be a special timer, step S512 is performed. When the first timer non-target notice lottery is performed as the process of step S525, and when it is determined that the notice timer presentation effect determined in the count display lottery (step S510) cannot be a special timer, the process of step S525 is performed. The second timer non-target notice lottery will be performed.

  The case where it is determined that the timer can be a special timer is, for example, in the example shown in FIGS. 148 and 149, an effect mode (for example, FIG. 148, the conversation notice 2, 3, hold changes 2-4, cut-in A1, 2, and object drop 1, 2, etc.) are selected, and whether or not it is an effect mode that can be a special timer. Are classified in advance.

  FIG. 150 is a diagram illustrating an example of the table T7a referred to in the first timer non-target notice lottery (step S512), and FIG. 151 is referred to in the second timer non-target notice lottery (step S525). It is a figure which shows an example of table T7b.

  As shown in FIG. 150 and FIG. 151, in the timer non-target notice lottery (steps S512 and S525), the notice-side timer effect cannot be rendered on the basis of the big hit result or the variation pattern (variation number). A determination process is performed as to which of the non-target effects E1 to E3, F prepared as effects is to be executed.

  Among these, the table T7a (first timer non-target notice lottery) referred to at the time of the special timer has the notice E2 compared to the table T7b (second timer non-target notice lottery) referred to when not the special timer. The big hit expectation degree when the mode (PTN3, 4, 8) to perform is selected is significantly high. More specifically, when the mode for executing the notice E2 (PTN3, 4, 8) is selected, the big hit expectation is higher than when the mode for executing the notice F (PTN5, 6) is selected. ing.

  On the other hand, in the table T7b (second timer non-target notice lottery) that is referred to when the timer is not a special timer, the notice F is executed when the mode for executing the notice E2 (PTN3, 4, 8) is selected. The jackpot expectation is lower than when the mode (PTN5, 6) is selected.

  In this embodiment, when the table T7a that is referred to at the time of the special timer is compared with the table T7b that is referred to when the timer is not the special timer, the mode (PTN3, 4, 8) for executing the notice E2 is selected. There is a change in the distribution of the production random numbers, and there is a change in the jackpot expectation level. However, when the notice F is executed (PTN5, 6), there is no change in the big hit expectation level, and even the production random number distribution changes. It is not the same.

  When the timer non-target notice lottery (the first timer non-target notice lottery or the second timer non-target notice lottery) is performed and it is determined which non-target notice is to be executed, step S513 is performed. It is determined whether or not it is determined that the above-mentioned special timer is to be executed.

  That is, as described above, in the peripheral control MPU 1511a according to this embodiment, in a situation where a specific type of reach effect (character reach) is selected, the notice timer is based on the result of the big hit determination (winning or fluctuation pattern, etc.). An effect (count effect display) is started, and the count display can be controlled to continue even after a big hit symbol (special display mode) appears in the effect pattern (effect display). That is, in this case, the count display will continue even after the effect pattern (effect display) corresponding to the result of the big hit determination is finished and the display is made non-display. It becomes difficult to predict the fluctuation time (reach type) of the game, for example, an effect in which the count display started during the symbol change is related to the effect in the big hit game state after the symbol stops It becomes possible, and it becomes possible to make the production development after that interesting.

  More specifically, in the peripheral control MPU 1511a according to this embodiment, first, after a big hit symbol (special display mode) appears (for example, a big hit game start interval period or a big hit game after the symbol is fixedly stopped) Period), the number of rounds (16 rounds) that have a large expected value of the amount that can be obtained as a prize when appearing, or the first special effect in which the ratio of winning the type to shift to the high-probability short-time gaming state increases. It is possible to execute the second special effect that increases the ratio of execution. Note that these ratios may include 100%. Then, the timer-side notice effect on the notice side for the effect that is started after the appearance of such a jackpot symbol (special display mode) starts before the jackpot symbol (special display mode) appears and counts it. The display is controlled to be continuously executed even after a big hit symbol (special display mode) appears.

  That is, in this case, the count display of the notice side timer effect started before the appearance of the jackpot symbol (special display mode) is not terminated when the jackpot symbol (special display mode) appears, but the jackpot symbol (special display mode) When the specific numerical value (0 in this case) is reached after continuously being executed even after appears, the first special effect or the second special effect appears. Therefore, when such a special timer appears, not only does it definitely suggest that a jackpot symbol (special display mode) will appear in the performance pattern, but when it appears, a high-probability short-time gaming state or a 16-round jackpot game Since the rate at which is executed is relatively high, it is possible to suppress a decrease in the gaming interest.

  However, in order to realize such a special timer, first, in addition to winning the big hit in the big hit determination, the big hit is a specific type (a type that generates a short game state with a high probability or a 16 round big hit game) And when it is determined that it is the specific type, the special timer may be controlled to appear with a higher execution probability than when it is determined that it is not the specific type. Desired.

  Therefore, in the peripheral control MPU 1511a according to this embodiment, when execution of the above-mentioned special timer is determined in the process of step S513, execution of whether or not to make the special timer appear next as the process of step S514. The execution mode of the special timer is determined including the presence or absence.

  For example, in the process of step S514, first, it is determined whether or not the big hit is a specific type (a type that generates a high probability short-time gaming state or a type that generates a 16 round big hit game). As a result, by determining that the special timer does not appear with a predetermined probability when the big hit is not a specific type, when the special timer appears, the degree of expectation that the big hit is the specific type is increased. Will be able to. The expectation may be 100%. Further, when it is determined that the special timer does not appear, other notice effects (timer target candidate effects, non-target notice) and notice timer effects may appear instead of the special timer.

  In this embodiment, in the process of step S514 after the decision to execute the special timer in the timer target notice lottery is performed, the big hit type is determined and the special timer is executed based on the result. Whether to execute a special timer in the process of step S514 by performing a timer target notice lottery based on the type of jackpot, in addition to the jackpot win, is determined again It may not be determined again whether or not.

  In addition, for the first special effect or the second special effect after the jackpot symbol (special display mode) appears (for example, the start interval period or jackpot game period after the symbol is fixed and stopped) You may make it perform in either of the some aspect from which the expectation degree which is a special classification differs. That is, in this case, when the special timer appears, when the count display reaches a specific numerical value (here, 0), the first special effect or the second special effect is executed in a highly expected manner among a plurality of aspects. It will be.

  Further, in this embodiment, for the effects (first special effect or second special effect) after the jackpot symbol (special display mode) appears, a predetermined time has elapsed after the jackpot symbol (special display mode) appears. 148 (in the example shown in FIG. 148, at the timing when 20 seconds have passed), but a plurality of timings after the jackpot symbol (special display mode) appears (for example, the first after 15 seconds have passed) You may make it appear at a timing and the 2nd timing 30 seconds passed. That is, in this case, as the special timer, the first mode that reaches a specific numerical value (0 in this case) when 15 seconds elapse (or shortly before) after the jackpot symbol (special display mode) appears, and the jackpot symbol When 30 seconds have passed since the (special display mode) appears (or just before that), either the second mode that reaches a specific numerical value (0 in this case) is selected and made to appear.

  At this time, it is set so that the ratio of the special type jackpot is higher when the stage appears at the second timing than when the stage appears at the first timing, and the jackpot is the specific type. Sometimes, if it is executed so that the ratio of causing the special timer to appear in the second mode is higher than that in the first mode, how long the count display after the big hit symbol (special display mode) appears will continue. It becomes possible to have an additional interest. Note that these ratios may include 100%. By the way, when the production does not appear at either the first timing or the second timing, the ratio of the special type jackpot is set lower than when the production appears at the first timing. .

  For the special timer, in the execution period of the variable display prior to the appearance of the jackpot symbol (special display mode), for example, it is displayed as “Preparing timer”, and “Preparing timer” is displayed. The count display may be started after the jackpot symbol (special display mode) has appeared. In other words, during the big hit game, the time required for digestion of each round game varies according to the progress of the game, so in the execution period of the variable display before the big hit symbol (special display mode) appears. If the count display is started, it is difficult to set the count display of the special timer to reach a predetermined value during a specific round game, and further to set the effect to be produced. In this regard, if the count display is started after the jackpot symbol (special display mode) appears, for example, the state of “timer preparation” is maintained until a specific round game in the jackpot game is started. In addition, by causing the count display to start in accordance with the start of the specific round game, the count display reaches a predetermined value during the specific round game so that an effect to be rendered is executed. It becomes possible to set to. At this time, the display such as “Preparing timer” may not be performed until the count display is started after the jackpot symbol (special display mode) appears.

  Also, when the count display is started after the jackpot symbol (special display mode) is made to appear in this way, it is different even during the execution of the variable display before the jackpot symbol (special display mode) is made to appear. You may make it start the count display of the notice side timer effect. As for the other notice side timer effect, the effect that the count display is consumed and the effect to be rendered appears before the jackpot symbol (special display mode) appears, or the jackpot symbol ( It may be one (double special timer) in which an effect to be produced appears after the count display is exhausted after the special display mode) appears.

  It should be noted that the production contents that are different from the production during the variable display and the production during the jackpot game appear, and usually the production at the time of production switching different from any production (for example, opening production etc.) is executed between them. Often done. In this respect, the timer display is set so that the count display does not reach a predetermined value within the switching period in which the effect at the time of such effect switching is executed, and the count display is not displayed within the switching period. It is desirable to make the player recognize that the two effects (in this case, the effect during the variable display and the effect during the big hit game) are not connected to each other. However, in this case, while the count display of the timer effect is hidden, the count display is digested for the elapsed time, and when the count display is displayed again, the count display is hidden. It is desirable to control so that the value is smaller than the numerical value (not countdown, but more when counting up).

  Then, if the execution mode of the special timer is determined in this way (step S514), or if the execution of the special timer is not determined (NO in step S513), then the timer object notice lottery or count is performed as the process of step S515. After the notice effect determined by the display lottery or the like is set in a predetermined storage area, the process related to the notice lottery is terminated. Thereby, drawing data corresponding to the effect determined in the notice lottery is created, and control is performed to start each effect in the effect symbol variation process.

  On the other hand, after the second mission effect lottery (step S551) when it is determined that the notice timer effect is not won (NO in step S503), various lotteries (notices for the notice timer effect) are performed. A timer target candidate effect (notice) with a content (table) according to whether the mission effect is determined as a result of the second mission effect lottery without performing a timer type lottery or a single lottery (step S552). An effect lottery (steps S553, S554, S563, and S564) is performed with respect to a notice effect that can be an effect of the side timer effect.

More specifically, one of the following processes is executed.
When the notification processing is not executed (NO in step S503) and the decision to execute the mission effect (make the conversation notice appear) (YES in step S552) is in the fifth processing state. First, based on the number-of-notice determination table that is referred to when the processing state is the fifth, the number of timer target candidate effects during the execution of one effect pattern is set as the effect contents of the notice effect. A process for determining whether to appear is performed (step S553). Next, a determination process is performed as to which type of notice effect appears as the timer target candidate effect by the number determined in the determination process (step S554).

When the notification processing is not executed (NO in step S503) and the decision is made that the mission effect (make the conversation notice appear) is not executed (NO in step S552). First, based on the number-of-notice determination table that is referred to when the sixth processing status is in effect, the number of the above-mentioned timer target candidate effects during the execution of one effect pattern as the effect contents of the notice effect A process for determining whether or not to appear is performed (step S563). Next, a determination process is performed as to which type of notice effect appears as the above-described timer target candidate effects by the number determined in the determination process (step S564).

  Then, as described above with reference to FIG. 140, even in the fifth and sixth processing situations in which the notice timer effect is not executed (NO in step S503), the mission effect (make the conversation notice appear) is executed. When the effect is determined, the upper limit number of appearances (average appearance number) of the timer target candidate effect is larger than when the decision to execute the mission effect (make the conversation notice appear) is not made. I try to control it.

  FIG. 152 shows the fifth processing state in which the notice-side timer effect is not executed (NO in step S503) and the decision to execute the mission effect (make the conversation notice appear) is made (YES in step S552). It is a figure which shows an example of table T5e referred in the process of step S553 when it exists in. Further, FIG. 153 shows the sixth in which the notice timer operation is not executed (NO in step S503) and the decision is made not to execute the mission effect (make the conversation notice appear) (NO in step S552). It is a figure which shows an example of table T5f referred in the process of step S563 when it exists in a process condition.

  First, as shown in FIG. 152, since the table T5e is referred to when the mission effect is executed, the loss variation pattern that makes the conversation notice appear as the effect content of the variation effect (the mission cannot be successful). When the variation numbers 9, 13, 17, and 21 corresponding to the variation pattern) are acquired, the table T5e is not referred to. On the other hand, as shown in FIG. 153, since the table T5f is referred to when the mission effect is not executed, the loss variation pattern that causes the conversation notice to appear as the effect content of the variation effect (the mission can be successful). The table T5f is also referred to when the variation numbers 9, 13, 17, and 21 corresponding to (no variation pattern) are acquired. Therefore, in the table T5f, effect random numbers are assigned to the variable numbers 9, 13, 17, and 21 separately for each notice number.

  Further, both the table T5e and the table T5f are referred to in the fifth and sixth processing situations in which the notice timer presentation is not executed, and in these process situations, the notice timer presentation is produced. It is not essential to select any one of the timer candidate candidate effects that can be targeted. Therefore, in both the table T5e and the table T5f, an effect random number is assigned to each variable number so that the timer target candidate effect does not necessarily have to be selected (the number of notices is 0).

  In addition, among the contents of the same reach production (character reach and SP reach) in the table T5e and the table T5f, the variation number where the timer target candidate production (conversation notice or cut-in A) does not appear as the production content of the fluctuation production varies. There is a higher percentage of timer candidate candidate effects being selected compared to variable numbers that do not show timer candidate candidate effects (conversation notice or cut-in A) as the effects of the effect, In the variation number 7 that is the reach, only up to three timer object candidate effects can appear, and in the variation number 15 that is the SP reach at the time of loss, only up to five timer object candidate effects can appear. The points that are not performed are the same as the table T5a described above.

  Then, as shown in FIG. 136, how many timer target candidate effects appear as the effect contents of the notice effect when in the fifth and sixth processing situations where the notice timer effect is not executed. After the determination process (steps S553, S563) is performed, the determination process (steps S554, S564) as to which type of notice effect appears as the timer target candidate effect by the determined number is performed. . However, when it is determined that none of the timer target candidate effects will appear as a result of the notice number determination process (steps S553, S563) (notice number 0), in the timer object notice lottery (steps S554, S564), One processing result that does not select any of the timer target candidate effects regardless of the variation number is always selected.

  FIG. 154 shows the fifth processing situation in which the notice effect is not executed (NO in step S503) and the mission effect (make the conversation notice appear) is determined (YES in step S552). FIG. 5 is a diagram showing an example of a table T6e-1 that is referred to when it is determined that the number of notices is set to 1 as a result of executing the process of step S553 (step S554). Further, FIG. 155 shows a fifth case in which the notification effect is not executed (NO in step S503) and the mission effect (make the conversation notice appear) is determined (YES in step S552). It is a figure which shows an example of table T6e-2 referred when the number of notices is decided to be 2 as a result of performing the process of step S553 in a process condition (step S554).

  Further, FIG. 156 shows a sixth state in which the notice side timer effect is not executed (NO in step S503) and the decision is made not to execute the mission effect (make the conversation notice appear) (NO in step S552). It is a figure showing an example of table T6f-1 referred to when it is decided to set the number of notices to 1 as a result of performing processing of Step S563 in a processing situation (Step S564). FIG. 157 shows a sixth state in which the notice timer operation is not executed (NO in step S503) and the decision is made not to execute the mission effect (make the conversation notice appear) (NO in step S552). It is a figure showing an example of table T6f-2 referred to when the number of notices is decided to be 2 as a result of performing processing of Step S563 in a processing situation (Step S564).

  For example, as shown in FIGS. 154 to 157, the tables T6e and T6f referred to in the fifth and sixth processing situations are determined not to execute the notice timer presentation. Since all of the N notice effects that are determined to be executed as timer target candidate effects are not set as effect objects for the notice timer effect, all of them are normal. This is executed as a mode of the notice effect (in the figure, the x mark indicates that it is executed as a mode of the normal notice effect).

  Further, as shown in FIGS. 154 to 157, in the tables T6e and T6f that are referred to in the fifth and sixth processing situations, the same effect is produced by the variable side timer effect and the notice side timer effect. Since the change numbers 9, 10, 13, 14, 17, 18, 21, 22, and 22 corresponding to the change pattern that causes the conversation notice to appear as the effect contents of the change effect are acquired, it is executed. A production random number is assigned to each variable number so that a conversation announcement is not selected as a notice production to be performed. Similarly, in the tables T6e and T6f, variation numbers 11 to 14 and 19 to 19 correspond to loss variation patterns (variation patterns in which the mission cannot be successful) in which cut-ins A and B appear as the contents of the effect of the variation effect. When 22 is acquired, an effect random number is assigned to each variable number so that cut-in A and B are not selected as a notice effect to be executed.

  Further, as shown in FIGS. 154 to 157, the tables T6e and T6f that are referred to in the fifth and sixth processing situations are referred to when the notice timer effect is not executed. Therefore, the announcement (here, a special timer) based on the premise that the announcement timer production is performed is not included in the announcement production to be selected.

  In addition, the table T6e that is referred to when in the fifth processing status is referred to when it is determined to execute the mission effect (make the conversation notice appear). As also shown, when the variation numbers 10, 14, 18, and 22 for executing the “conversation notice” are acquired as the contents of the fluctuation effect, or “the conversation notice is indicated as the timer target candidate effect (content of the notice effect)” When “” is selected (PTN1), a special display (mission success) is displayed and it is definitely suggested that a jackpot symbol appears.

  Also, in the table T6f that is referred to when in the sixth processing status, it is referred when the mission effect (make the conversation notice appear) is not executed, so the conversation notice appears as the effect content of the variable effect. The fact that production random numbers are assigned to each of the numbers 9, 13, 17, and 21 corresponding to the loss variation patterns to be performed (variation patterns in which the mission cannot be successful) is also described in Table 6a described above. Is the same as

  As shown in FIG. 136, even when it is determined not to execute the notice side timer effect in the process of step S503, after the timer subject notice lottery (steps S554 and S564) is performed in this way, Which of the non-target effects E1 to E3 and F that are prepared as effects that cannot be the target of the notice timer effect based on the winning results or variation pattern (variation number) of the big hit A determination process (third timer non-target notice lottery: step S555) is performed.

  Although the table referred to in step S555 is omitted, the table is basically the same as the table T7b (second timer non-target notice lottery) referred to when the timer is not a special timer. When the mode of executing E2 (PTN3, 4, 8) is selected, the big hit expectation is lower than when the mode of executing notice F (PTN5, 6) is selected.

  After the third timer non-target notice lottery (step S555) is performed, the timer target notice lottery (steps S554 and S564) and the third timer non-target notice lottery ( After the notice effect determined in step S555) is set in a predetermined storage area, the process related to the notice lottery is terminated. Thereby, drawing data corresponding to the effect determined in the notice lottery is created, and control is performed to start each effect in the effect symbol variation process.

  In the peripheral control MPU 1511a according to the present embodiment, when it is determined not to execute the notice side timer effect in the process of step S503, the timer target notice lottery and the third timer non-target notice lottery are processed separately. I decided to do it as However, if it is determined not to execute the notice timer effect in the process of step S503, it is not necessary to determine the execution mode of the non-target effects E1 to E3, F in relation to the notice timer effect. The timer target notice lottery and the third timer non-target notice lottery may be executed within one lottery process.

  In addition, the above-described special timer mode (non-target notice E2 is set so that the big hit expectation is lower than the non-target notice F in a situation where the count display of the notice side timer effect is not performed. In the situation where the count display of the notice side timer effect is performed, the relationship with the notice side timer effect is also adopted in the case of not adopting the big hit expectation degree compared to the non-target notice F). Since it is not necessary to determine the execution mode of the non-target effects E1 to E3, F, the timer target notice lottery and the third timer non-target notice lottery may be executed within one lottery process.

  Further, in this embodiment, after determining whether or not to execute the notice timer effect, the determination process as to which effect is to be executed as the notice effect is performed. After determining in what manner the effect is to be executed, the presence / absence and execution mode of the notice timer effect may be determined.

  By the way, in the peripheral control MPU 1511a according to this embodiment, as described above, when a winning (accepting a game ball) occurs at the start opening 2002, 2004, whether to perform a pre-reading effect on the hold information corresponding to the winning The determination process about whether or not is performed (steps S245 and S255). In this respect, in this determination process, the hold mode that changes the display mode (color, form, etc.) of the hold display that is the target of the pre-reading effect based on the information on the big hit determination or the fluctuation pattern included in the hold information. Lottery for change effects (existence of execution, lottery for display mode), lottery for look-ahead zone effects over multiple variations (lottery for execution status, execution mode (color, number of continuous executions, etc.)), etc. In addition, a lottery is performed to determine whether or not the variable display corresponding to the hold information is the target of “timer pre-reading effect”.

  Here, the timer pre-reading effect is an effect in which when the change display that has been put on hold (the change display of the effect target) is being executed, the proportion of the notice-side timer effect that appears within the change time increases. For example, in the effect display device 1600 or the like, a predetermined image (for example, “Preparing a timer”) is displayed at the start timing of the variable symbol display that starts after the winning timing (the timing when the timer pre-reading effect is won). Etc.) is displayed. Note that the reason why the predetermined image (for example, “Preparing the timer”, etc.) does not appear at the winning timing (timing won for the timer prefetching effect) This is to make it difficult to recognize.

  According to such a timer look-ahead effect, it may be suggested that there is a high rate of occurrence of the notice side timer effect over a plurality of variable displays without specifying which hold display is supported. Since it becomes possible to do so, it is expected to maintain the gaming interests over a plurality of variable displays. However, among the preceding effects (prefetch effects), including such timer prefetch effects, it is a type of continuous (or continued) over a plurality of variable displays without specifying which hold display is supported. When performing a production (preceding period production), if the same type of production (preceding period production) and its execution period may overlap, the production becomes too complex and what is targeted / purposed There is a concern that it will not be possible to understand whether it is a production, and the entertainment interest will be reduced.

  Therefore, when determining whether or not to execute such a preceding period effect (pre-reading determination at the time of winning a prize), the preceding period effect corresponding to other previously held information that has been won is not being executed and waiting for execution. Judgment is also made as to whether or not it is in the state. And the preceding period effect such as the timer pre-reading effect is newly provided at least on the condition that the preceding period effect according to the other on-hold information previously won is not executed and is not in a waiting state. It is possible to make a decision to generate the error. As a result, it is possible to avoid that the two preceding period effects are overlapped, and it is possible to suppress a decrease in the gaming interest.

  As the preceding period effect, for example, in addition to the timer pre-reading effect, a continuous continuous pre-reading effect that causes at least a part of a stop symbol to appear in the same manner (color of numbers, etc.) over multiple variations, or a background image over multiple variations It is possible to employ a pre-read zone effect that changes the character to a special mode. In the above process (pre-reading determination at the time of winning a prize), among these preceding period effects, the same type of preceding period effects do not appear overlapping, and even if they are different types of preceding period effects, these execution periods Will be controlled so that they do not overlap. Among the pre-reading effects, for the type of effects (for example, a hold change effect, etc.) that are performed over a plurality of variable displays by identifying which hold display is supported, the execution status of these preceding period effects It is desirable to be able to appear regardless of whether or not it is possible to appear, but if a new prize occurs when the preceding period production is being executed or is waiting to be executed, a new prize will occur when it is not in that situation It is desirable to perform the pre-reading determination at the time of winning so that the appearance ratio of the effect of the type (for example, the hold change effect) is reduced as a pre-reading effect corresponding to the winning compared to the case where the winning is performed.

  As described above, while a preceding period effect such as a timer prefetch effect (an effect of a type that is continuous (or continued) over a plurality of variable displays without specifying which hold display is supported) is executed. Even if a new winning of a game ball is generated, the prohibition control is performed so that this does not occur for the preceding period effect corresponding to this, so that the two preceding period effects interfere with each other. Decline in interest can be suppressed. However, if such prohibition control is performed, the frequency of the preceding period effect being performed as the preceding effect is reduced by the amount that the preceding period effect is subject to the prohibition control, and there is a concern that the game entertainment will be degraded. The

  Therefore, in the peripheral control MPU 1511a according to this embodiment, when the preceding period effect corresponding to the hold information is executed while the change display of the special symbol corresponding to the hold information has not yet started, first, the specific effect Information indicating that the status is restricted is set. Then, when the hold information is newly stored when the information is set by the previously stored hold information, at least the special symbol variation display corresponding to the previously stored hold information is ended. While the preceding period effect corresponding to the newly stored hold information is not executed until, the newly stored after the end of the variable symbol display of the special symbol corresponding to the previously stored hold information The preceding period effect corresponding to the hold information is controlled to be executed.

  That is, in this case, even if it is once determined that the execution of the preceding period effect corresponding to the hold information is not allowed at the time when the hold information is newly stored, the game is then advanced and stored first. In a gaming situation in which there is no concern that production interference with the preceding period effect corresponding to the hold information has occurred, the execution of the preceding period effect is permitted once it has been determined that the execution is not allowed. As a result, it is possible to suitably maintain the frequency at which the preceding period effect is performed while performing the prohibition control on the preceding period effect, thereby suppressing a decrease in the gaming interest.

  More specifically, in the first special figure prefetching process (FIG. 122: step S245) and the second special figure prefetching process (FIG. 123: step S255) when a new winning occurs, first, the first special reservation is made. Based on the counter value by the number counter or the second special reservation number counter, it is determined what is the holding order (digestion order) of the new winning. For example, in the case of the first special symbol prefetching process, first, the hold information corresponding to the new winning is stored in any of the first special symbol hold storage area a to the first special symbol hold storage area d. Determine if it is in a state. And after this, it is stored in the hold information that is stored prior to the new winning and the variable display is being executed, and the hold information that is in a state where the variable display is not executed. Determine if there is something. As a result, even if there is specific holding information that is the execution target of the preceding period effect, the execution of the preceding period effect according to the new winning is not completely prohibited, In the period after the variable display according to the hold information is completed, control is performed such that execution of the preceding period effect according to the new winning is permitted.

Hereinafter, a method for realizing such control will be described by taking a more detailed game situation as an example.
In FIG. 158 (a), hold information (first special symbol) in which the variable display is in execution and three hold information in which the variable display is not executed (all are the first special symbol) are stored. It is a figure which shows the example about table T7a referred in a 1st special figure prefetch process, when a new winning (1st special symbol) generate | occur | produces in the state which is being held. FIG. 158 (b) shows the hold information (first special symbol) in which the variable display is in execution and the two pieces of hold information (both in the first special symbol) in which the variable display is not executed. It is a figure which shows the example about table T7b referred in the 1st special figure prefetch process, when a new winning (1st special symbol) generate | occur | produces in the memorize | stored state.

  As shown in FIG. 158 (a), in this table T7a, on-hold information (first special symbol) in which the variable display is in execution and three on-hold information in which the variable display is in an unexecuted state And a first special symbol) depending on whether one of them is the target of the preceding period effect, or none of which is the target of the preceding period effect. It is possible to determine from which timing the corresponding hold information can be the target of the preceding period effect (the number of prefetchable fluctuations).

  For example, in the table T7a, all of the hold information (first special symbol) in which the variable display is in execution and the three pieces of hold information in which the variable display is not executed (all are the first special symbol). Is not the subject of the preceding period effect, the variable display according to the hold 1 (first hold information stored in the first special symbol hold storage area a) and the hold 2 (first special symbol hold storage) A variable display according to the second hold information stored in the area b), a variable display according to the hold 3 (the third hold information stored in the first special symbol hold storage area b), and The new winnings were targeted over four variable display periods with the variable display corresponding to the holding 4 corresponding to the new winning (fourth holding information stored in the first special symbol holding storage area d). It is possible to execute the preceding period production There is determined (determination that prefetching variability number is 4). That is, in this case, the variable display corresponding to the hold 4 corresponding to the new winning is performed at the timing after the variable display corresponding to the running state is finished and the variable display corresponding to the first hold information is started. Execution of the preceding period effect for is permitted.

  In addition, in the table T7a, when the hold information in the state where the change display is being executed is the target of the preceding period effect, the change display corresponding to the hold 2, the change display corresponding to the hold 3, and the new It is determined that the preceding period effect for the new winning can be executed over the three variable display periods with the variable display according to the hold 4 according to the winning prize (the number of pre-reading fluctuations is 3). Determination). That is, in this case, the timing after the fluctuation display in the running state is finished, the fluctuation display according to the first hold information is further finished, and the fluctuation display according to the second hold information is started. Thus, the execution of the preceding period effect for the variable display corresponding to the hold 4 corresponding to the new winning is permitted.

  Here, even if the hold information in the state where the change display is being executed is the target of the preceding period effect, the change display according to the hold 1, the change display according to the hold 2, and the hold 3 It is determined that the preceding period effect for the new prize can be executed over the four fluctuation display periods of the fluctuation display corresponding to the new prize and the fluctuation display corresponding to the hold 4 corresponding to the new winning ( It may be determined that the number of prefetch fluctuations is 4). However, in this case, the preceding period effect that appeared in the variable display in the running state and the new preceding period effect that starts with the variable display corresponding to the hold 1 are continuously executed. Whether the preceding period effect is the same effect (whether the previous preceding period effect continues), or is another preceding period effect newly started (whether the previous preceding period effect has ended)? Since this makes it difficult to distinguish, the method of setting the preceding period effect as a prohibited period so as not to newly occur in the first variable display after the preceding period effect ends (the method adopted in the table T7a). It is more desirable to adopt. Such a method is employed not only in the table T7a but also in other tables T7 (in addition to the table T7b, a table not shown).

  In addition, in the table T7a, when the hold 1 is the target of the preceding period effect, two change displays of the change display according to the hold 3 and the change display according to the hold 4 according to the new winning. It is determined that the preceding period effect for the new winning can be executed over the period (determination that the number of pre-reading fluctuations is 2). That is, in this case, the variable display in the running state is ended, the variable display according to the first hold information is ended, the variable display according to the second hold information is further ended, and the third display At the timing after the start of the variable display according to the hold information, execution of the preceding period effect for the variable display according to the hold 4 according to the new winning is permitted.

  In addition, in the table T7a, when the hold 2 is the target of the preceding period effect, the preceding period for the new winning is only the variable display period corresponding to the holding 4 corresponding to the new winning. It is determined that the effect can be executed (determination that the number of prefetch fluctuations is 1). That is, in this case, the variable display in the running state is ended, the variable display according to the first hold information is ended, the variable display according to the second hold information is ended, and the third hold information is displayed. The preceding period for the variable display according to the hold 4 according to the new winning at a timing after the variable display according to the game is further ended and the variable display according to the fourth hold information is started. The execution of the production is allowed.

  Further, in the table T7a, when the hold 3 is the target of the preceding period effect, it is determined that the preceding period effect for the new winning is not executable (the number of pre-reading fluctuations is 0). Judgment). That is, in this case, the execution of the preceding period effect for the variable display according to the hold 4 according to the new winning is not permitted.

  On the other hand, in the table T7b, the hold 3 is not included as a determination target of whether or not it is the target of the preceding period effect, and the number of prefetchable fluctuations obtained as a determination result is smaller than that in the table T7a. However, since it is basically the same as the table T7a, the description will be omitted. In addition, tables similar to these are also prepared at the time of holding 2 wins and at the time of holding 1 wins, but the explanation is omitted.

  Incidentally, it may be assumed that there are two pieces of hold information that are the targets of the preceding period production at the time of winning the hold 4, etc., but in this case, either To determine the number of prefetchable fluctuations. For example, at the time of winning the hold 4, if the variable hold and the hold 2 are the targets of different preceding period effects in the table T7a, the hold 2 on the later side of the holding order is the target of the preceding period effect. “The number of prefetchable fluctuations = 1” is determined.

  Further, as described above, the control related to the prohibition period of the preceding period effect is a type of effect that is continuous (or continued) over a plurality of variable displays without specifying which hold display is supported. This is done for the purpose of setting a prohibition period for this type of performance based on the execution status. Therefore, the prohibition period of the preceding period effect does not occur depending on the execution state of the type of effect (holding change effect) that identifies which hold display is supported, and the execution state of the preceding period effect (look ahead) Even if the number of possible fluctuations = 0, the type of effect (hold change effect) that identifies which hold display is supported is not prohibited.

  Moreover, even if it is in the prohibition period of the preceding period effect, among the timer prefetching effects, for the timer prefetching effect performed in the first preceding mode and the second preceding mode, which will be described later, the notice side timer effect appears. You may make it appear because certainty is not calculated | required.

  If the hold information on the second special symbol side is included in the hold information in which the variable display is not executed as the prohibition control of the preceding period effect, the hold information on the second special symbol side is preceded. Even if it is not the target of the period effect, control is performed so that a new preceding period effect is not started until the variable display according to the hold information on the second special symbol side is ended. Good. At this time, it is not necessary to set the next variable display period after the variable display corresponding to the hold information on the second special symbol side as the prohibition period, and a new preceding period from the time when the next variable display is executed. It is desirable to allow the production to start.

  In addition, with regard to the processing for confirming the pre-reading production status set for hold in this way and determining the pre-reading variable number according to the result, a new winning is generated each time the hold is used. It is desirable to do it every time.

  In the first special figure prefetching process (FIG. 122: step S245) and the second special figure prefetching process (FIG. 123: step S255), when the prefetchable variation number is determined in this way, the determined period (prefetchable). The number of fluctuations) is determined as to what kind of preceding period effect is to be executed (including whether or not it is executed).

  For example, first, it is determined which type of preceding period effect is to be executed for the hold information corresponding to the new winning. As described above, the types of the preceding period effects include a plurality of pre-read zone effects that display related background images across a plurality of variations and a specific preceding display that suggests that there is a high possibility that the notice timer effect will be executed. It is possible to prepare a timer pre-reading effect or the like displayed across the variation as a selection candidate. As a result, when the type of the preceding period effect is determined, a determination process as to how the preceding period effect of the determined type is executed is performed.

  FIGS. 159 (a) and (b) are diagrams showing an example of the table T8a-1 and the table T8a-2 that are referred to when the execution mode of the timer prefetch effect is determined in a situation where the prefetch variable number is four. It is. 160A and 160B are diagrams showing an example of the table T8b-1 and the table T8b-2 that are referred to when the execution mode of the timer prefetch effect is determined in a situation where the prefetch variable number is three. It is.

  As described above, the timer pre-reading effect is an effect that, when appearing, the rate at which the notice-side timer effect appears is high when the hold information that is the target of prefetching is digested, and the periphery according to this embodiment In the control MPU 1511a, the timer prefetching effect is executed in the first preceding mode, the second preceding mode, the third preceding mode, or the like, in which the ratio of the notice side timer effect appearing is different.

  Here, the first preceding mode is, for example, a display in which a first mode such as “timer occurrence premonition” is displayed on the effect display device 1600, and when the timer prefetching effect is executed in the first preceding mode. The probability that the notice timer effect is executed is set to approximately 20% (step S502).

  In addition, the second preceding mode is, for example, a second mode such as “timer occurrence chance” displayed on the effect display device 1600. When the timer pre-reading effect is executed in the second preceding mode, a notice side is displayed. The probability that the timer effect is executed is set to approximately 80% (step S502).

  The third preceding mode is, for example, a third mode such as “Preparing timer” displayed on the effect display device 1600. When the timer prefetching effect is executed in the third preceding mode, the notice timer The performance is always executed (even if it is not 100%, it may have a higher probability than the second preceding mode) (step S502).

  Then, based on the information related to the big hit for prefetch determination, the information related to the variation pattern number for prefetch determination, etc., it is determined in which execution mode the timer prefetch effect is executed. For example, in a situation where the number of prefetch fluctuations is 4, with reference to the tables T8a-1 and T8a-2 shown in FIGS. In a situation where either aspect is selected based on the information and the production random number assigned to the information and the prefetch variable number is 3, tables T8b-1 and T8b- shown in FIG. 2, one of the modes is selected on the basis of the prefetch information corresponding to the variable numbers 1 to 22 and the effect random numbers assigned to the information.

As shown in FIG. 159 (a), in the table T8a-1, the change display of the hold information that is the target of the timer prefetching effect is started in the state where the first preceding mode finally appears. The following three modes are prepared as modes.
The timer pre-reading effect does not appear in any manner when the change display of the hold information that is the target of the timer pre-reading effect is in the state of hold 3 and hold 2 and is the target of the timer pre-reading effect. A mode in which the timer pre-reading effect is displayed in the first preceding mode (prediction of timer occurrence) when the variable information display of the hold information is in the hold 1 state. When the state is 3, the timer prefetching effect does not appear in any manner, and the timer prefetching effect is the first preceding when the change display of the hold information that is the target of the timer prefetching effect is in the hold 2 state. A mode (prediction of the occurrence of a timer) and a mode in which this is continued even in the hold 1 state. Hold this timer prefetch effect when dynamic display is in the state of the hold 3 and displayed in the first prior embodiment (feeling of timer generator) 2, aspects to be continued in a state of hold 1

In the table T8a-1, the following six modes can be used as modes for starting the variable display of the hold information that is the target of the timer prefetching effect in the state where the second preceding mode appears in the end. It is prepared.
The timer pre-reading effect does not appear in any manner when the change display of the hold information that is the target of the timer pre-reading effect is in the state of hold 3 and hold 2 and is the target of the timer pre-reading effect. A mode in which the timer pre-reading effect is displayed in the second preceding mode (timer occurrence chance) when the variable information on-hold information is in the hold 1 state. In this state, the timer prefetching effect is not caused to appear in any manner, and the timer prefetching effect is displayed in the second preceding mode when the change display of the hold information that is the target of the timer prefetching effect is in the hold 2 state. A mode in which (timer occurrence chance) is displayed and this is continued even in the hold 1 state. A mode in which the timer pre-reading effect is displayed in the second preceding mode (timer occurrence chance) when the fluctuation display is in the hold 3 state and this is continued even in the hold 2 and hold 1 states. When the change display of the hold information in the state is in the hold 3 state, the timer prefetch effect is not caused to appear in any manner, and the change display of the hold information that is the target of the timer prefetch effect is in the hold 2 state The timer pre-reading effect is displayed when the timer pre-reading effect is displayed in the first preceding mode (predicting the occurrence of the timer) and the variation display of the hold information that is the target of the timer pre-reading effect is in the hold 1 state. Is changed from the first preceding mode (prediction of timer occurrence) to the second preceding mode (timer generation chance) and is displayed. The timer pre-reading effect is displayed in the first preceding mode (prediction of timer occurrence) when the change display of the hold information being held is in the hold 3 state, and this is continued even in the hold 2 state. When the change display of the hold information that is the target of the production is in the hold 1 state, the timer pre-reading production is changed from the first preceding mode (prediction of timer generation) to the second preceding mode (timer occurrence chance). Mode to be displayed ・ When the change display of the hold information that is the target of the timer prefetching effect is in the state of the hold 3, the timer prefetching effect is displayed in the first preceding mode (prediction of occurrence of timer) and the timer prefetching effect The timer pre-reading effect is changed from the first preceding mode (prediction of timer generation) to the second preceding mode (timer generating time) when the change display of the holding information that is the target of A mode in which the display is changed and displayed in the hold 1 state.

  Note that the timer pre-reading effects of the first and second preceding modes are displayed in the hold 1 state and then continuously displayed after the hold information is digested and the variable display is started. It is desirable to do so. Moreover, you may make it a form change further in the fluctuation | variation display started after the said hold information was digested. Further, when the notice timer effect is started in the variable display, the timer prefetch effect of the first preceding aspect and the second preceding aspect may be hidden, but the notice timer effect is started. Even so, the display is continued even after the notice side timer effect is started, or after the notice side timer effect is started. If it is made non-display at a predetermined timing thereafter, it becomes possible to add interest. Note that if the timer-predictive timer effect is not executed even though the timer pre-reading effect is executed in either the first preceding aspect or the second preceding aspect, the non-notification is made when a predetermined time has elapsed since the start of the symbol variation. It will be displayed. Further, it is more desirable that the timing of the non-display is the same as the timing of the non-display (such as the predetermined timing described above) when the notice side timer effect is executed.

  In the peripheral control MPU 1511a according to this embodiment, the first predecessor mode (predicting the occurrence of a timer) or the second predecessor mode regardless of the timer prefetching effect that increases the execution ratio of the notice timer effect when it appears. The timer pre-reading effect of (timer occurrence chance) and the timer pre-reading effect of the third preceding mode (timer preparation) are made to appear as different effects. Therefore, as is clear from the contents of the table T8a-1, in the state where the first preceding mode and the second preceding mode are displayed, the timer pre-reading effect is changed from these preceding modes to the third preceding mode. This is not adopted for the display mode. In addition, in the situation where the timer prefetching effect of the third preceding mode (during timer preparation) appears, the timer prefetching effect of the first preceding mode (prediction of timer generation) or the second preceding mode (timer generation chance) appears. Or, in the situation where the timer prefetching effect of the first preceding mode (timer occurrence premonition) or the second preceding mode (timer generation chance) appears, the timer prefetching effect of the third preceding mode (timer preparation) appears. Can be generated.

  Therefore, in the situation where the number of pre-reading fluctuations is 4, referring to table T8a-1 shown in FIG. Referring to the table T8a-2 shown in FIG. 159 (b), the execution mode related to the timer pre-reading effect of the third preceding mode (timer preparation) is further determined. It will be.

Here, as shown in FIG. 159 (b), in the table T8a according to this embodiment, the hold information that is the target of the timer pre-reading effect in the state where the third preceding aspect finally appears. As a mode in which the variable display is started, only the following mode is prepared.
-When the change display of the hold information that is the subject of the timer pre-reading effect is in the hold 3 state, the timer pre-reading effect is displayed in the third preceding mode (in preparation for the timer), and this is indicated as hold 2 and hold 1 Mode to continue even in the state

  However, in the case of the third preceding mode, not only the above-described one mode, but also in the case of the on-hold 3 or the on-hold 2 state, no timer pre-reading effects appear, From the above, it may be possible to select a mode for displaying the third preceding mode.

  According to such a configuration, the timer pre-reading effect of the first preceding mode (timer generation premonition) or the second preceding mode (timer generation chance) is executed, and the timer of the third preceding mode (timer generation chance). When the pre-reading effect is executed, both the timer pre-reading effect of the first preceding mode (preliminary occurrence of timer) or the second preceding mode (timer occurrence chance) and the timer pre-reading effect of the third preceding mode (timer preparation) are both Each case will be executed. And, when both the timer prefetching effect of the first preceding mode (timer occurrence premonition) or the second preceding mode (timer occurrence chance) and the timer prefetching effect of the third preceding mode (timer preparing) are respectively executed, Because it is in a situation that it is definitely suggested that the notice timer performance will be executed, enjoy the production such as whether to change from the first preceding mode to the second preceding mode with a margin or a sense of security. Will be able to.

  Moreover, you may control so that the timer prefetching effect of the 1st preceding aspect, the timer prefetching effect of the 2nd preceding aspect, and the timer prefetching effect of the 3rd preceding aspect may appear simultaneously.

  In addition, it is desirable that the timer pre-reading effect in the third preceding mode (timer preparation in progress) is continuously displayed even after the target hold information is digested and the variable display is started. In this case, after the target hold information is digested and the variable display is started, the third preceding mode (timer preparation in progress) is not displayed when the notice side timer effect is started.

  In this embodiment, the third predecessor mode of the timer prefetching effect is adopted as a mode of displaying “Preparing the timer” in the effect display device 1600. You may make it employ | adopt as an aspect which starts the count display toward the effect (effect which appears in the unexecuted fluctuation display) made into the effect object of a timer effect. That is, in this case, for example, the remaining time during which the state of the hold 1 is continued (the remaining change time of the special symbol that is in the variable display state when in the hold 1 state), and the hold 1 is digested and the change display is displayed. The count display will be performed over the total time from the start to the start of the effect targeted for the notice timer effect, and the timer prefetch effect (third preceding mode) and the notice timer The effect is executed as one count display in which two variation displays are connected.

  In this regard, when the third preceding mode is realized as one count display connected to such a notice timer presentation, the count display is not executed in the hold 3 or the hold 2 and the count display is performed in the hold 1 state. It is desirable to perform. That is, if the count display is started when the status is on hold 3 or hold 2, depending on the number of holds when the status of hold 1 is reached, “the effect that is targeted for the effect of the notice timer effect ( By changing the “Remaining time until start of production in unexecuted variation display”, it is possible to properly execute count display (count display until reaching a predetermined number) for the production. This is because there is a concern that it will disappear.

  The table T8b-1 shown in FIG. 160 (a) and the table T8b-2 shown in FIG. 160 (b) are shown in the table T8a-1 shown in FIG. 159 (a) and in FIG. 159 (b). The table T8a-2 is basically in the same relationship as the table T8a-2.

  In addition, as described above, the peripheral control MPU 1511a according to this embodiment determines the pending change effect in the first special figure prefetch process (FIG. 122: step S245) and the second special figure prefetch process (FIG. 123: step S255). Processing is also performed. The hold change effect means that the hold display is changed in any manner by changing the hold display mode corresponding to the hold information acquired in accordance with the prize to any of a plurality of modes different from the normal hold mode. Depending on whether it is displayed, the expectation of jackpot when the hold display is digested is suggested.

  More specifically, as the hold display according to this embodiment, in addition to the normal hold mode when the hold change effect is not performed, the mode of displaying white blinking, the mode of displaying in blue, and displaying in green Can be displayed in any one of a mode to display, a mode to display in red, and a mode to display in rainbow color. Is low, and the expectation degree of jackpot is gradually increased in the order of blue, green, and red. If the display is held in a rainbow-colored display mode, the probability that a jackpot symbol will appear when the reservation is stopped is 100. % Is set to be a relationship. In addition, the big hit expectation is naturally set for the normal hold mode, but the big hit expectation when the normal hold is displayed should be lower than the mode displayed in white blinking. Alternatively, the display mode may be the same as or higher than the mode of blinking white.

  Therefore, normally, for example, when a mode of displaying in white blinking or blue appears, the first performance situation with a lower degree of expectation of jackpot is provided than when displaying in green or red. However, in the peripheral control MPU 1511a according to this embodiment, control that can provide a second effect state in which the big hit expectation is increased when a mode of displaying in white blinking or blue appears instead of green or red under a predetermined condition. Can be executed.

  FIG. 161 shows a case where there is nothing that causes a jackpot symbol to appear in the hold information in which the variable display is in execution and the hold information in which the change display is not executed (for example, hold 1 to hold 3). It is a figure which shows the normal time hold change table T9a referred. In FIG. 162, there is one in which a jackpot symbol appears in the hold information in which the variable display is in execution and the hold information in which the change display is not executed (for example, hold 1 to hold 3). It is a figure which shows the special time holding | maintenance change table T9b referred to at times.

  In the peripheral control MPU 1511a according to this embodiment, when a new winning (accepting a game ball) at the start port 2002, 2004 occurs, the first special figure prefetch process (FIG. 122: step S245) and the second special figure In the pre-reading process (FIG. 123: Step S255), the hold information stored before the new winning and the variable display is being executed and the hold information in which the variable display is not executed (for example, hold) 1 to Hold 3), it is determined whether there is one that causes a jackpot symbol to appear (one that has been determined to win the jackpot as a result of the jackpot determination or the prefetch determination). As a result, when it is determined that there is nothing that causes a big hit symbol to appear, the normal time table T9a (set in a relationship in which the big hit expectation degree gradually increases in the order of white blinking, blue, green, red, and rainbow color. 161) With reference to FIG. 161), normally, for example, when a mode of displaying white blinking or blue appears, the first production situation with a lower degree of big hit expectation than when displaying in red is displayed. To be provided.

  However, it is determined that there is one that causes a jackpot symbol to appear between the hold information that is stored prior to the new winning and the variable display is in a running state and the hold information that is not in a variable display. When this occurs (when a rare event occurs), the second change status is provided by executing the hold change effect with reference to the special time change table T9b (FIG. 162).

  That is, as shown in FIG. 162, in the special-time hold change table T9b, first, red and rainbow colors related to the hold display mode are acquired as hold information corresponding to the new winnings. The production random numbers are distributed so that any of the “prefetch information” and “prefetch information regarding the variation pattern” indicates any of them.

  In addition, as for the green color relating to the hold display mode, even if the change pattern (change numbers 7 to 14) in which the production random numbers are distributed so as to be selectable in the normal hold change table T9a, the special time hold change is performed. In the table T9b, the production random numbers are distributed so as not to be selected. In this regard, when the pre-read information regarding the fluctuation pattern is equivalent to SP reach (variation numbers 15 to 22), green can be selected in the special time hold change table T9b. In comparison with the change table T9a, the production random numbers are distributed so that the probability of the appearance of green is lower both when winning and winning the big hit.

  On the other hand, with regard to white blinking and blue relating to the hold display mode, the special-time hold change table T9b has a higher appearance probability both when winning a big hit and when defeating, compared to the normal hold change table T9a. The production random number is distributed. In addition, regarding the blinking white and the blue color relating to the hold display mode, even if the variable numbers 1 and 2 are not selected in the normal hold change table T9a, they can be selected in the special hold change table T9b. In this way, the production random numbers are distributed.

  According to such a configuration, for example, an effect with a high degree of expectation in which a jackpot symbol appears (for example, an effect in which a notice-timer timer effect targeting the object fall B with an SP reach variation pattern appears) is executed. If a new win occurs during the game (under certain conditions), if a green or red appearance appears as a hold display corresponding to the new win, a jackpot symbol will appear in the high-expected performance being executed. It is difficult to have expectations for the second stage, but when a white blinking or blue mode appears, it is relatively easy to have the expectation that a jackpot symbol will appear in the high expectation stage during the execution. Will be able to provide.

  In particular, in the peripheral control MPU 1511a according to this embodiment, as described above, as the third preceding aspect of the timer prefetching effect, the remaining time during which the hold 1 state is continued (the state of the variable display when in the hold 1 state) Over the time that is the sum of the remaining variation time of the special symbol) and the time from when the hold 1 is digested and the variation display is started until the production that is the production target of the notice timer production is started. The count display can be executed. That is, in this case, even if the count display appears in the effect display device 1600, there is a possibility that the variable display ends before the count display reaches the predetermined value and the next variable display is started. Therefore, it is expected that the game entertainment will be improved in combination with the control using the special time hold change table T9b.

For example, suppose that the count display (or timer preparation in progress) of the notice side timer effect appears during the execution of the variable display (for example, SP reach) in the situation where the blinking white or the blue hold display appears as the hold 1 Thus, the second game progression can have a sense of expectation that a jackpot symbol will appear rather than the first game progression described below.
-The notice timer timer effect is directed to the effect in the hold 1 for which only a low expectation level (blinking white or blue) is shown, and the hold is performed after the running variable display (for example, SP reach) is finished in a losing manner. The first game progress / notice side timer effect in which the variable display according to the hold information of 1 is started is not the effect in the hold 1 in which only the low expectation level (blinking white or blue) is shown, and the change being executed Second game progress that is directed to the production in the display (for example, SP reach)

  In other words, the notice timer performance with a high expectation level (for example, a jackpot symbol appears with a probability of 10% or more when it appears) is executed, but the notice timer effect with a low expectation (for example, appears). Even if there is a case where the effect in the hold 1 of white flashing or blue) in which the jackpot symbol does not appear with a probability of only a few percent, the possibility of the jackpot symbol appearing is greatly reduced. However, according to the above-mentioned second game progress, it is special because the chance increase by avoiding the occurrence of such a production situation and the fluctuation display during execution are big hits. Referring to the time hold change table T9b (FIG. 162), the chance display is increased due to the expectation that the hold display of hold 1 is in a flashing white state (highly appearing) or blue. The notice timer performance with a high degree of expectation of jackpot is that the effect of “the effect in the running fluctuation display during the run” is directed as if “the running fluctuation display is a big hit”. As the chances will increase with the double, it will be possible to improve the game entertainment.

  Note that the third predecessor mode of the timer prefetching effect may be executed not as a count display but as “timer preparation in progress”. In other words, in this case, it is possible to recognize that the notice-side timer effect for the effect in the variation display is executed at the time when the state in which “timer is being prepared” is displayed is switched to the count display. Therefore, when there is a holding display that is blinking white or blue when the count display appears, it can be expected that a big hit symbol appears in the variable display.

  On the other hand, if “Timer preparation” is not displayed and the count display is started in a situation where a green or red (especially red) hold display is displayed, the notice timer performance is performed. Not only does it make it difficult to have the expectation that a big hit symbol will appear in the fluctuation display, but also a timer on the notice side to raise the expectation level for green and red (especially red) hold display. The production cannot function. Therefore, if “Timer preparation” is displayed in a situation where a green or red (especially red) hold display is displayed, until the green or red (especially red) hold display is consumed. It is hoped that the count display will not start, and it is expected that the game entertainment will be maintained within the period until the count display (notice side timer effect) is started.

  In addition, according to such a configuration, when an effect with a high jackpot expectation appears in the variable display during execution, a new winning is generated and the hold display in any aspect such as white blinking, blue, green, red, etc. It is possible to predict whether or not a jackpot symbol will appear in the variable display during execution, so that a decrease in the game entertainment can be suppressed.

  In addition, such a hold change effect using the special time change table T9b is executed for a hold display corresponding to a new winning, but the effect target is actually “new Rather than "whether the jackpot symbol appears in the variable display of the hold information (hold information that has changed hold) according to the winnings", "holding information that is stored before the new winning (holds not subject to hold change) It functions as an effect of “whether a big hit symbol appears in the variation display of (information)”. Therefore, even if no hold change is executed when a new winning occurs or the above-mentioned preceding period effect is prohibited, the special time change change table T9b is determined by the hold information that has been won later. When the hold change effect using is executed, it becomes possible to function as an effect as if the prefetch effect was generated afterwards for the hold information for which no prefetch effect was executed. It is expected to reduce the entertainment interest of not being performed.

  In the special time hold change table T9b, the green mode can be selected for some reach types. However, as with the red mode, any variation pattern may not be selected. . In short, if the rate of appearance with a high expectation that can appear as a hold display is a low rate (including 0) compared to the normal hold change table T9a, white is displayed when the count display appears. It is possible to improve the game entertainment when there is a flashing or blue holding display.

  In addition, the pending change can be generated at a winning time, at the start of the change, or at a predetermined timing during the change, and the number of changes may be generated a plurality of times. That is, in this case, even when the count display of the notice timer effect is started in the variable display according to the hold display that is blinking white or blue, the white blink or blue may change to green or red Therefore, it is possible to suppress a decrease in the entertainment interest of the game. In this embodiment, the display corresponding to the pending display that is the subject of digestion even during the symbol variation performed in accordance with the pending digestion (not already in the suspended state, but in the suspended display when in the suspended state) As described above, the corresponding display) is displayed, and the display mode corresponding to the hold display is further changed (hold change).

  However, when such a hold change effect using the special time change change table T9b is realized, a new prize is generated while the specific effect with high expectation is being executed during the execution of the variable display, and the prize is won. When the on-hold display corresponding to the red color occurs, a big expectation symbol is displayed in a variable display in which a specific effect with a high degree of expectation (for example, a timer effect in which an object fall B is effected) is executed. There may be a situation that definitely suggests that it will not appear, and there is a concern about a decline in the amusement of entertainment.

  Therefore, a new winning occurs during a period in which a specific timer effect that targets at least an accessory fall B is being executed (during a period in which a high-expected specific effect is being executed). Even if it does, it is desirable to control so that the hold display according to the winning does not appear in the effect display device 1600 and the mode of change in hold is hidden. Further, it is desirable to maintain the non-display state for the hold display even after the count display reaches a predetermined value and has been digested.

  However, in this case, the hidden display that has been hidden is not continuously hidden until the variable display is terminated. For example, within the period of the variable display, for example, a hit effect or a loss ( It is preferable to display a hold display that has been hidden after the timing at which a loss effect that suggests a big win is displayed, and to display the mode of change of the hold. According to such a configuration, even if the on-hold display corresponding to the new winning is red, it is already suggested that the game is lost, so that the on-screen display is not reduced. Because of the red color, it is possible to improve the gaming interest by including hold information with a high expectation level for jackpots in the hold.

  In addition, the control related to the non-display of the hold display does not cover all timer effects (notice effects), but relatively big hits such as those that target the object fall B among the timer effects. It is desirable to execute only a specific timer effect with a high degree of expectation (a notice effect with a high degree of expectation).

  In addition, as described above, when the hold change effect using the special time change change table T9b is realized, for example, the timer prefetch effect is executed in the third preceding mode (eg, during timer preparation) while the blue hold display appears. In the case of being played, it is desired that the game progress in which the count display (timer effect) is started and the jackpot symbol appears in the variable display before the blue hold display is consumed. In this regard, even if the game situation is such that the game progress is performed, whether the count display (timer effect) is started during the change or the change corresponding to the blue hold display is not started. In the variable display where the count display (timer effect) starts and the jackpot symbol appears before the blue hold display is digested so that a throbbing feeling about whether the count display starts in the display is given The count display (timer effect) when a predetermined time elapses after the start of the change display than the ratio (including 0%) at which the count display (timer effect) is started in accordance with the start timing of the change display It is desirable to control so that the rate at which is started becomes higher. Note that the ratio may include 100%. Alternatively, it is desirable to perform control so that the ratio at which the count display (timer effect) is started when a predetermined time has elapsed since the start of the change display is started as compared with the case where the red hold display appears. . Note that the ratio may include 100%.

  Furthermore, in the peripheral control MPU 1511a according to this embodiment, a new winning is made during the period in which the timer prefetching effect (table T8a-1, table T8b-1) of the first preceding mode or the second preceding mode is being executed. When the hold information corresponding to this is newly acquired and the variable display that is the target of the timer pre-reading effect is started and this is being executed, the ratio that the notice timer effect is executed is the above Control that can execute the timer pre-reading effect (control related to the change effect) is performed differently depending on the newly acquired hold information (new winning).

  FIG. 163 is a diagram illustrating an example of a processing procedure for processing performed to realize such a changeable effect. Note that this process is performed when a pre-payment (game ball is received) at a specific starting point during a period in which the timer prefetching effect (table T8a-1 or table T8b-1) of the first preceding mode or the second preceding mode is being executed. ) May occur, or within the period prior to the completion of the hold information that is held before the winning (hold information on which the information related to the production is erased / reset) is digested It may be performed at a predetermined timing.

  As shown in FIG. 163, the peripheral control MPU 1511a first determines whether or not the hold information corresponding to the new winning indicates the specific game information as the process of step S601. The specific game information may be, for example, “game information that causes a highly anticipated specific variation pattern such as SP reach to appear when the new hold information is digested” or “the new game information”. It may be “game information to win a big hit when the hold information is digested”. Here, for convenience of explanation, “game information to win a big hit when the new hold information is digested” will be described as the specific game information.

  As a result, if it is determined that the hold information corresponding to the new winning indicates the specific game information, the process is stored in the next step S602 prior to the hold information corresponding to the new winning. When at least part of the information related to the effect is deleted and the change effect is performed with respect to the hold information that is the target of the timer prefetch effect (the first preceding mode or the second preceding mode) among the held information Reset to contents.

  For example, when the first predecessor mode (prediction of timer occurrence) is set as the timer prefetching effect, when the hold information that is the subject of the timer prefetching effect is digested, the notification timer effect is approximately 20% probable. When the second preceding mode (timer occurrence chance) is set as the timer prefetching effect, a probability of approximately 80% is assumed when the hold information that is the target of the timer prefetching effect is digested As described above, the notice-timer timer effect is executed. However, in the process of step S602, all (or at least a part) of information related to the timer prefetching effect is deleted, or a table that is referred to when determining the effect pattern (such as SP reach) or the notice lottery is determined. Settings for changing to something different from the normal time (setting of a change flag, etc.) are made. Then, the peripheral control MPU 1511a performs the control (FIG. 136) related to the effect based on the effect information modified (deleted / set) in this way, so that the first predecessor effect (prediction of timer occurrence) and the first Regardless of which of the two preceding modes (timer occurrence chance) is set, the notice-side timer effect is executed with a probability of approximately 50% in the processing of step S502 (FIG. 136). Further, when determining the contents of the production pattern, the notice production, etc., for example, a table (not shown) at the time of the changing effect is referred to based on the setting of the changing flag, and various effects are performed in a manner different from the normal time. Will be executed.

  And after the modification process (step S602) about the pending production information that is the target of the timer prefetching production is performed in this way, as the processing of step S603, the background image when the change production is performed is used. Process to change to. At this time, it is desirable that the display (the first preceding aspect and the second preceding aspect) appearing as the timer prefetching effect is also hidden. That is, in this case, when a new winning occurs (or after the winning is generated until the hold information that is the target of the timer pre-reading effect is digested), the background image is the background at the time of the changing effect. If the image is suddenly changed to the image, the first preceding mode or the second preceding mode that has appeared until then is not displayed, but the background image at the time of the change effect itself functions as one mode of the timer pre-reading effect. Become moist. Then, during the period in which the background image at the time of the dramatic effect appears, whether or not the notice timer effect appears when the hold information that is the target of the timer look-ahead effect is digested (whether it is a frustration). It becomes possible to have a great interest, and this makes it possible to maintain the gaming interest during the period when the timer prefetching effect is being performed.

  On the other hand, if it is determined in the process of step S601 that the hold information corresponding to the new winning is not indicative of specific game information, whether or not to execute a change gaze effect next as the process of step S611. Judgment processing is performed. This change gaze effect is an effect that changes the background image to the background image when the change effect is performed in the process of step S603 in spite of not performing the modification process (step S602) on the above-described hold information. That is.

  In addition, in the process of step S611, when it is determined that the first-stage gaze effect is not to be executed, the current timer pre-reading effect (first preceding aspect, second preceding aspect) and various effect determining aspects are to be continued. The processing (FIG. 163) is terminated without performing any processing related to the change effect.

  In such a configuration, when a new winning occurs during the period in which the timer prefetching effect (table T8a-1 or table T8b-1) of the first preceding aspect or the second preceding aspect is being executed (in a specific starting area). When a game ball is accepted and game information corresponding to the game ball is newly acquired), when the variable display that is the target of the timer pre-reading effect is started and this is being executed, the notice timer effect is displayed. The notice side timer effect can be executed so that the executed ratio varies depending on the newly acquired game information (holding information). In other words, in this case, if the hold information is newly acquired in the period in which the timer prefetch effect of the first preceding aspect or the second preceding aspect is being executed, it is not the hold information that is the target of the timer prefetch effect but the new information. The acquired hold information is specific game information (information indicating a specific variation pattern such as SP reach, information indicating a big hit, or information indicating that the type of the big hit is to shift to a high probability short-time gaming state, etc. ), The rate at which the notice-side timer effect is executed during the execution of the variable display that is the target of the timer pre-reading effect changes, so that it is the target of the timer pre-reading effect. Expectations for other effects can be given before the variable display is executed, and a decrease in the gaming interest in the period can be suppressed.

  In the above configuration, when the hold information is newly acquired in the period in which the timer prefetch effect of the first preceding aspect or the second preceding aspect is being executed, the hold information is not the target of the timer prefetch effect. Depending on whether or not the newly acquired hold information is specific game information, after performing the modification process (step S602), before the hold information that is the target of the timer pre-reading effect is digested In addition, the background image is changed to the background image at the time of the change effect, and the display related to the timer prefetch effect is hidden. In other words, in this case, until the change-over effect is started, the subject of the effect is a timer pre-reading effect, and an effect situation is provided that gives a sense of expectation to the hold information that is the target of the timer pre-reading effect. On the other hand, after the change production is started, the main subject of the production is changed to the change production, in order to give a sense of expectation to the newly acquired hold information including the timer pre-reading production. It will be shifted to the production situation where various productions are performed. Therefore, it becomes possible to change the subject of the production flexibly when a hold with higher expectation than the hold information that is the target of the timer pre-reading effect is acquired, and it has already been set It is avoided that the production time for the hold information with high expectation is lost due to the production.

  Such a changeable effect may be executed even if the hold information that is the target of the timer prefetching effect indicates that a big win is won. That is, in this case, since the main subject of the production moves to the newly-held winning hold information, the jackpot production will appear in the hold that is digested before that, so a surprise-like production will be realized. As a result, it is possible to suppress a decrease in the interest of gaming.

  Further, in this embodiment, when the hold information is newly acquired in the period in which the timer pre-reading effect of the first preceding aspect or the second preceding aspect is being executed, the process related to the above-mentioned change effect (FIG. 163) is executed. However, when the hold information is newly acquired during the period in which the timer prefetching effect of the third preceding aspect is being executed, the process (FIG. 163) related to the above-mentioned change effect may be executed. .

  Further, the background image at the time of the change effect may be continued even after the change display according to the hold information that is the target of the timer prefetch effect is ended. In other words, in this case, for the hold information that is digested after the variable display corresponding to the hold information that is the target of the timer pre-reading effect ends, it functions as a one-time change effect.

  Further, such a changeable effect may be executed on the condition that the new winning is generated and the specific condition is satisfied even when the timer prefetching effect is not executed. In this case, for example, the table referred to when determining the production pattern (SP reach, etc.) and the notice lottery for all the hold information stored before the new winning is changed to a table different from the normal time. Settings (such as setting of a change flag) are made, so that the appearance probabilities of various effects change as long as the change is not a change effect.

  Further, in the above embodiment, the rate at which the notice side timer effect is executed at the time of the change effect is changed, but when the change flag is set, the change side timer is determined by determining an effect pattern different from the normal time. You may make it change the ratio in which production is performed. As a result, even if a variable number that does not cause the variable timer effect to appear when the variable effect is not executed, the variable timer effect appears when the variable effect is executed, or the variable timer effect appears when the variable effect is not executed. Even when the number is changed, it is possible to perform control so that the variable timer effect does not appear when the change effect is executed.

  In addition, when such a change effect is performed, even if the timer effect appears when the change effect is not executed, the variable timer effect may not appear when the change effect is executed. If there is a concern about the decline of the game entertainment, there will be a special lottery when a lottery is performed for a special notice effect that cannot appear in normal times (when the change effect is not executed). You may control so that an effect may appear.

  In addition, the rate at which the notice-side timer effect is executed in the variable display that was the target of the timer pre-reading effect at the time of the change effect is not necessarily constant (in this case, 50%). It may be controlled differently depending on whether or not a big hit symbol appears in the variable display that has been.

  Hereinafter, with reference to FIG. 164 and FIG. 165, the contents of the effects of the above-described timer effect example will be described in detail. Here, the processing examples relating to the above-mentioned effects are merely examples, and for example, effects other than the above-described types may be executed as the contents of the notice effects, Appearance conditions and the like may be changed as appropriate within the scope of the same technical idea. Therefore, the production examples described below may include those that do not match the processing content of each production described above, but are within the scope of the same technical idea and within the scope of implementation by those skilled in the art. There is no problem because the processing contents are changed as appropriate. In addition, the “timer effect” below basically means that the count display is executed in the notice timer effect or the variable timer effect, but in addition to the effect during the count display, It may have a meaning including timer prefetching effects. In addition, as a mode of “count display”, “seconds” is counted in the following, but is not limited thereto.

  FIG. 164 (A) shows an effect situation in which a change display of the decorative symbol SZ (special symbol) is performed on the effect display device 1600 in the normal gaming state with the number of holds being zero. FIG. 164 (B) shows that two winnings are generated during execution of the variable display of the decorative symbol SZ shown in FIG. 164 (A), and the holding information corresponding to those winnings is stored, and the holding which is won first is held. The on-hold display corresponding to 1 indicates the normal on-hold mode, and the on-hold display corresponding to the second on-hold hold 2 is displayed in red. FIG. 164 (C) shows the first-in first-out (First-In First-Out) after the decorative symbol SZ that has been in the variable display state in the production state shown in FIG. ) Shows the production situation in which the hold information stored in the hold 1 is digested and changed to a change state. In addition, in this production example, as clearly shown in the figure, even in a situation where the hold information of hold 1 is digested and the state of change display (hold 0 state) is shown, it is shown at the time of hold 1. Display control is performed so that the player can recognize the hold display mode (hold 0 display). Further, as described above, the hold display of hold 0 can be further changed in a change mode (blinking white, blue, green, red, rainbow color) even in such a variable display state. Street.

  Here, in the production situation shown in FIG. 164 (C), the hold information that was in the hold 1 state at the time of FIGS. 164 (A) and (B) is digested and the variable display is started. Alternatively, the hold prefetching effect is executed after a predetermined time has elapsed since the start of the variation display. As the pre-reading pre-production effect, it may be executed in any of the first preceding aspect, the second pre-preceding aspect, or the third pre-preceding aspect described above. The appearance of an effect means that the hold information of hold 0 (in the state of variation display) or the hold information of hold 1 is the target of the hold pre-reading effect (example here) Then, the hold information of hold 1 is the target of the hold pre-reading effect).

  FIG. 164 (D) shows that one winning occurs during execution of the variable display of the decorative symbol SZ shown in FIG. 164 (C), and the holding information corresponding to the winning is normally held as a holding display corresponding to the holding 2 The production status displayed in the form of is shown. However, if the hold display corresponding to this hold 2 indicates specific game information (here, jackpot information) and satisfies the above-described conditions for executing the variable effect, FIG. 164 (E) shows. As described above, the control related to the change effect is executed based on the hold information (game information) corresponding to the hold 2.

  As described above, a change effect is a change made by changing the contents of hold information (here, hold 1) that is stored and held before hold information (here hold 2) that causes the change effect. It is something to digest. On the other hand, the above-described change gaze effect is, for example, a hold that occurs when the hold display corresponding to hold 2 does not indicate specific game information (here, jackpot information) and generates the change gaze effect. The contents of the hold information (here hold 1 here) that is stored before the information (here hold 2) and is in the hold state are put on hold without modification. That is, in this case, since the ease of occurrence of various effects will be different when the hold 1 is digested depending on whether the change effect or the change Gase effect is performed, It is possible for the player side to estimate whether or not the hold indicating the game information is included (whether the change effect or the change gaze effect is performed), so that the decrease in the game interest can be suppressed. It is desirable to control the hold display (here, hold 2) corresponding to these effects so that no hold change occurs regardless of the result of the jackpot determination in both the change effect and the change gaze effect.

  Therefore, the timing at which the control related to the change effect is executed based on the hold information (game information) corresponding to the hold 2 is after the change display of the hold 0 that is not the target for altering the hold information has ended. In addition, it is desirable that the change display of the hold 1 to be modified of the hold information is before the start of the variable display. In this regard, in this embodiment, by executing the control related to the change effect when the hold display of the hold 1 is not yet shifted and displayed after the losing symbol is stopped by the change display of the hold 0. As shown in FIG. 164 (E), in addition to modifying the hold information of hold 1 (particularly information related to the production), the timer pre-reading production and the mode of change of suspension (red) displayed so far are displayed. The background image is not displayed (displayed in a normal hold mode), and the background image is changed to the background image when the change effect is performed. At this time, a predetermined display image (here, “change”) is displayed for a predetermined time.

  Further, in such an effect situation (FIG. 164 (E)), the timer pre-read effect that has appeared until then until the variable display of the hold 0 is terminated continues to be displayed without starting the count display. Therefore, it is possible to recognize that the target of the timer prefetching effect is the hold 1.

  In FIG. 164 (F), after the change effect background shown in FIG. 164 (E) appears, the hold information stored as the hold 1 is digested by shifting the hold information, and the state is changed. The production status is shown.

  Here, in the effect situation shown in FIG. 164 (F), the hold information that was in the hold 1 state in FIG. 164 (E) is digested and the variable display is started. The timer effect count display is started after a predetermined time has elapsed since the start of the variable display. Similarly, in the production situation shown in FIG. 164 (F), a specific display (here, “make the conversation notice appear”) related to the first production (here “conversation notice”) is displayed. Has been. The timing at which the specific display (make the conversation notice appear) may appear before the timing at which the timer effect (count display) appears, or after the timing at which the timer effect (count display) appears. It is possible to appear at an appropriate timing.

  Note that the timer effect is displayed with priority over other notice effects, decorative symbols, etc., including the case of the timer prefetch effect (FIG. 164 (D)). A partial display range (left part) of the notice effect that displays “Take a conversation notice to appear” in the so-called ticker mode (slide video) is hidden by the timer effect that is displayed with priority over this. ing.

  Also, in this production situation (FIG. 164 (F)), the timer production starts counting display with a relatively small number of counts such as “10 seconds”. There is a high possibility that it will be the target of the timer performance, and there is a concern that the game entertainment will be lowered. However, in this effect state (FIG. 164 (F)), a specific indication (conversation notice) that the effect type (conversation notice) that appears at a relatively early stage among the effect types that are the effects of the timer effect appears. It is expected that the target of the timer production will be “conversation notice that appears relatively early” and that the mission success will be confirmed to be a big hit. For this reason, the decline in the entertainment interest is suppressed.

  Moreover, as described above, the timer effect appears with a probability different from the normal time when the change effect is executed. For example, when the timer pre-reading effect displayed in FIG. 164 (D) is displayed in the first preceding mode (prediction of timer occurrence), the timer effect appears only with a probability of approximately 20% in normal times. On the other hand, the timer effect appears with a probability of approximately 50% when the change effect is executed. Therefore, when the timer effect appears in the background of such a change effect, the change effect (the change of the appearance probability of the timer effect is not a constant change effect (generally 20%) where the appearance probability of the timer effect does not change). The expectation that about 50%) is being executed, and in turn, the expectation for winning the jackpot (because it is determined that the holding information for the jackpot is included at the time of changing production) is increased. However, in this case, if the timer effect does not appear in the background of such a change effect, the appearance probability of the timer effect does not change, not the change effect (approximately 50%) in which the appearance probability of the timer effect changes. As a result, the degree of concern that the change gaze production (approximately 20%) is being executed increases.

  In addition, when the timer prefetching effect displayed in FIG. 164 (D) is displayed in the third preceding mode (timer being prepared), the timer effect appears with a probability of 100% in the normal time. When the change effect is executed, the timer effect appears only with a probability of approximately 50%. Therefore, when the timer effect does not appear in the background of such a change effect, the change of the appearance probability of the timer effect is not a change effect (generally 100%) in which the appearance probability of the timer effect does not change. It is definitely suggested that the performance (generally 50%) is being executed and that the holding information for winning the jackpot is included. However, at this time, if a timer effect appears in the background of such a change effect, it is not a change effect (generally 50%) in which the appearance probability of the timer effect changes, but a change effect that does not change the appearance probability of the timer effect. As a result, the degree of concern that the performance (approximately 100%) is being executed increases.

  FIG. 165 (G) shows a timer related indication that the count display of the timer effect executed in FIG. 164 (F) has reached a predetermined value (here, 0) and has reached the predetermined value (here, 0). The display status (here “Yukuzo”) is shown. Note that the timer-related display (here, “Yukuzo”) suggesting that the predetermined numerical value (0 in this case) has been reached may appear after the timer effect count display is hidden.

  In the effect state shown in FIG. 165 (G), the count display reaches a predetermined value while the mission display (make the conversation notice appear) is still displayed. It is a situation that is definitely suggested that the situation is about to appear now, and it can be said that a great deal of attention is drawn to whether or not a conversation notice appears as the production.

  FIG. 165 (H) shows a conversation notice (in this case, after the timer effect that has reached a predetermined value in FIG. 165 (G) and the timer-related display are hidden) "It may be a chance")) shows the production situation. Immediately after this, a special display indicating that the mission was successful appears in the mission effect (make the conversation notice appear).

  In the effect state shown in FIG. 165 (H), since the mission effect (make the conversation notice appear) indicates that the mission was successful, it is definitely suggested to win the jackpot.

  In FIG. 165 (I), after the mission is successful in FIG. 165 (H), the change display is stopped by the losing symbol even though the special display (here, “Mission successful!”) Appears. The production situation is shown.

  That is, as described above, in this embodiment, with respect to the specific display related to the first presentation (here, “conversation notice”) (here, “make the conversation notice appear”), the hold information that is the subject of the presentation (In the situation shown in FIG. 165 (I), it is possible to appear within the period of the variable display according to the hold 1), and the hold information (FIG. 165 (I In the situation shown in (), it is possible to appear in advance even within the variable display period corresponding to the hold (0). Moreover, the timing at which the first presentation (here, “conversation notice”) is displayed and the special display (here, “Mission Success!”) Appears, is also the holding information (the big hit) Within the variable display period according to the hold information (hold information that does not become big hit) before the variable display under a predetermined condition. Can also appear in advance.

  According to such a configuration, even though a special display (here, “Mission Success!”) Appears in the mission effect, and it has been definitely suggested that it will be a big hit, the fluctuation display ends with a losing pattern. Since it will be (stopped), an unexpected situation will occur as a player. However, after that, when the next variation display is started, the variation display ends (stops) with a jackpot symbol, so that a sense of happiness after being dropped into despair is given. . As a result, it becomes possible to add a dramatic inflection even after it has been definitely suggested that it will be a big hit, so that it is possible to maintain the game entertainment taste until the big hit symbol is stopped become.

  However, when the special display appears in advance as described above, there is a concern that a complaint on the player side with respect to the hole side may occur at the time when the variable display is ended (stopped) with a lost symbol. Therefore, in the case of a loss variation in which a special display appears in advance, the ratio that the pre-reading effect that extends to the next variation display (a variation display that becomes a big hit) is executed within the execution period of the variation display does not appear in the special display. It is desirable to set it higher than the time. In this production example, as shown in FIG. 165 (I), after the mission is achieved in FIG. 165 (H), a timer is used within a period until the change display is terminated (stopped) with a lost symbol. A new look-ahead effect will be generated. According to such a configuration, even if the mission is successful before the timer effect count display is started, the variable display displays the losing symbol in the variable display, and the variable display in which the timer effect count display is started appears. It is possible to achieve an effect as if the variation display in which the jackpot symbol appears is carried forward. As a result, it is possible to suppress the occurrence of a complaint on the player side with respect to the hole side when the variable display is terminated (stopped) with a lost symbol.

  However, the look-ahead effect that spans a plurality of fluctuation displays (up to a fluctuation display that becomes a big hit) may not necessarily be executed. In this sense, as shown in FIG. It is desirable to continue to display a special display (in this case, “Mission successful!”) That appears within the execution period of the variable display in which the losing symbol appears, even after the digestion is started and the variable display is started. In this respect, if such a special display (here, “Mission Success!”) Is continuously displayed until the jackpot symbol appears in the variable display where the jackpot symbol appears, it will be produced before the jackpot symbol is stopped. As shown in FIG. 165 (K), the production image that is definitely suggested to win a big hit as the production in the production pattern, because there is a concern about the decline of the game entertainment interest without a typical inflection. It is desirable to hide the special display (in this case, “Mission Success!”) At a timing prior to the occurrence of. As a result, after the special display (here, “Mission Success!”) Is hidden, the effect image shown in FIG. 165 (K) (determined to win the big hit as the effect content in the effect pattern) Until the appearance of the suggested effect image), the anxiety about the appearance of the jackpot symbol increases somewhat, and the effect situation shown in FIG. 165 (L) (the effect state where the jackpot symbol is stopped) It is expected that the game entertainment will be suitably maintained until).

  In FIG. 165 (J), the count display of the 30-second timer effect is started, and after the effect situation shown in FIG. 165 (J) appears, the effect situation shown in FIG. 165 (K) changes. Until it appears, the count display of the 30-second timer effect ends, a timer-related display (here “Yukuzo”) is displayed, and an effect that is the target of the effect has occurred Needless to say.

  Next, a timer effect example different from the timer effect examples shown in FIGS. 164 and 165 will be described in detail with reference to FIGS. 166 and 167.

  FIG. 166 (A) shows an effect situation in which a change display of the decorative symbol SZ (special symbol) is performed on the effect display device 1600 in the normal gaming state with the number of holds being zero. FIG. 166 (B) shows that three winnings are generated during execution of the variable display of the decorative symbol SZ shown in FIG. 166 (A), and the holding information corresponding to those winnings is stored, and the holding which is won first is held. An effect in which the hold display corresponding to 1 is in the normal hold mode, the hold display corresponding to the 2nd winning hold 2 is in red, and the hold display corresponding to the 3rd winning hold 3 is displayed in blue. Indicates the situation. FIG. 166 (C) shows the first-in first-out (First-In First-Out) after the decorative symbol SZ that has been in the variable display state in the production state shown in FIG. ) Shows the production situation in which the hold information stored in the hold 1 is digested and changed to a change state. In this production example as well, as is clear from the figure, even in the situation where the hold information of hold 1 is digested and is in a variable display state (hold 0 state), it is shown at the time of hold 1. Display control is performed so that the player can recognize the hold display mode (hold 0 display). Further, as described above, the hold display of hold 0 can be further changed in a change mode (blinking white, blue, green, red, rainbow color) even in such a variable display state. Street. Further, in FIGS. 166 and 167, the movable body for production KT which is omitted in FIGS. 164 and 165 for convenience of explanation is shown in the drawing. The movable body KT may be, for example, “a back-bottom-back movable effect unit 3100, a back-upper left-movable effect unit 3200, a back-left-movable effect unit 3300, a back-upper-middle movable effect unit 3400, a back-bottom-front front movable effect unit 3500, etc. It corresponds to `` movable member '' etc.

  Here, in the production situation shown in FIG. 166 (C), the hold information that was in the hold 1 state at the time of FIGS. 166 (A) and (B) is digested and the variable display is started. Alternatively, the hold prefetching effect is executed after a predetermined time has elapsed since the start of the variation display. As a mode of the hold prefetching effect, it may be executed in any of the first preceding mode, the second preceding mode, or the third preceding mode described above, but in the staged situation shown in FIG. The appearance of the effect means that any of the hold information of the hold 0 (in the variable display state), the hold information of the hold 1 or the hold information of the hold 2 is the target of the hold pre-reading effect. (In the example here, the hold information of hold 1 is the target of the hold pre-reading effect).

  Here, as an aspect of the hold pre-reading effect, the count display may be executed from when the corresponding hold display (here, hold information of hold 1) is still in the hold state. That is, in this case, after the count display reaches a predetermined numerical value (here, “0”), the count display is the predetermined numerical value (here, “0”), as well as an event that the decorative display of the decorative symbol SZ may end. Since the event that the variation display of the decoration symbol SZ ends before the time reaches the point can occur, even if the count display is being executed, the target of the timer effect is any hold information It becomes difficult to grasp whether or not.

  However, in this effect example, any one of the first preceding mode (predicting timer generation), the second preceding mode (timer generating chance), and the third preceding mode (timer generating chance) is displayed as the mode of holding pre-reading effect. Can be done.

  In this respect, in the production situation shown in FIG. 166 (C), the hold information 1 is in a red mode among the hold information 0, 1, 2 and is in a hold display mode with the highest expectation level of jackpot. In view of this, it is desirable from the player side that the timer prefetching effect is for the hold information 1 and generates a combined effect with the red hold display. In other words, in this case, the combined effect indicates that the expected degree of winning the jackpot is higher in the hold information 1, so that the hold 0 in the normal hold mode and the blue hold 2 in the low expectation state are prefetched by the timer. It is possible to increase the degree of expectation that a jackpot symbol will appear in any of the hold information 0 to 2 as compared with the case where the expectation degree of jackpot is dispersed as a target of the production. In addition, if the blue hold 2 with low expectation becomes the target of the timer prefetching effect, there is a concern about the decline of the game entertainment, so the blue hold 2 with low expectation is the timer for maintaining the game entertainment. It is also important to develop the production so that it is not the target of the pre-reading production.

  Moreover, as described above, in this embodiment, if a new winning occurs when the hold information (hit-hold hold) in which the jackpot symbol appears is stored, not the normal time table T9a (FIG. 161) but the big-hit hold time. The hold change effect is executed with reference to a dedicated table (FIG. 162: special time change change table T9b). In the hold change effect using the special time change change table T9b, when the big hit hold is already included (when the red hold 1 is a big hit), red and green are unlikely to appear as the hold 2 mode. The blue and white blinking modes are relatively likely to appear. Therefore, in the production situation shown in FIG. 166 (C), when the timer prefetching production is intended for the hold information 1 and functions to increase the big hit expectation, the blue hold 2 with a low expectation is set to the timer. Because the chance increase due to avoiding the decline in gaming interest by making it a target and the hold information of the hold 1 in the red mode is a big hit, the special time hold change table T9b (FIG. 162) is referred to and the blue mode Increased chances by expecting that the hold display of hold 2 is in a blue (high probability of appearance) production state (the notice timer production with a high jackpot expectation is “production within the variable display during execution” Is a production target, and it also functions as if it supports the fact that “the variable display during the execution is a big hit”). From becoming cormorants, it is possible to improve the game playability.

  Therefore, in the production situation shown in FIGS. 166 (B) and (C), when a new winning is generated, a blue or white blinking on-hold display is newly generated, or a green or red on-hold display is displayed. If a new occurrence is confirmed, it is possible to recognize whether or not a jackpot hold is included, and it can be said that the stage is in a production situation in which a new winning is encouraged.

  FIG. 166 (D) shows that the variation display of the decorative symbol SZ that is in the running state while the timer pre-reading effect mode shown in FIG. 166 (C) is maintained (the count is not started) is a lost symbol. After the end (stop), the hold information stored in the hold 1 as a result of the shift operation of the hold information is digested to show a change state.

  In the effect situation shown in FIG. 166 (D), the player is subject to the timer prefetch effect in the hold information of hold 0 (in the state of variation display) that is in a red state, and in the blue state. It becomes possible to recognize that the information is one of the hold information of the hold 1 and hope that the count display is executed within the execution period of the variable display corresponding to the hold information of the hold 0 which is a red mode.

  Also in this example, the timer effect is displayed with priority over other notice effects, decorative symbols, etc., including the case of the timer prefetch effect (FIG. 166 (D)). Here, the partial range (left portion) of the dialogue part of the female character in the conversation notice is hidden by the timer effect that is preferentially displayed.

  FIG. 166 (E) shows an effect situation in which the timer pre-reading effect is ended and the timer effect count display is being executed during the execution of the variable display of the decorative symbol SZ shown in FIG. 166 (D). .

  However, as described above, whether or not the count display is started during the execution of the variable display of the decorative symbol SZ according to the digestion of the red hold information (whether the timer prefetch is for red hold information) ) Is an extremely high level of interest for players. Therefore, in the peripheral control MPU 1511a according to this embodiment, the count display that is in the running state is made so that it is difficult for the player to visually recognize that such count display is in the running state. Control can be made so that the movable body KT for the production is moved forward and positioned for a predetermined time. According to such a configuration, the timer effect (timer look-ahead effect, count display) is executed, and it is confirmed whether the timer effect count display is executed while the player is feeling excited. By making it difficult, it is possible to further increase the attention to the timer effect and enhance the feeling of throb.

  In order to suitably realize such an effect, in the situation where the timer effect is being executed but the count display is not yet executed (for example, while the timer pre-reading effect is being executed), the aforementioned movable body for effect KT It is desirable to control so as not to move (move). That is, in this case, since the movable body KT for the effect suddenly moves where the player does not care about the existence of the movable body KT for the effect, the count display becomes difficult to see. With such a surprise effect that occurs at the worst timing, it is possible to increase the attention to the timer effect and enhance the feeling of excitement.

  The operation effect by the effector movable body KT may be made to function only as an effect that makes it easy to visually recognize the timer pre-reading effect among the timer effects and makes it difficult to visually recognize the count display. You may make it function also as object notice E2 (1st production). That is, in this case, the non-target notice E2 (first effect) that is not an object of the timer effect and is not originally related, but the non-target notice E2 (first effect) is executed during the count display. By becoming (FIG. 166 (E)), for example, a higher jackpot expectation is shown than the cut-in effect shown in the next production situation (FIG. 166 (F)), and the game entertainment is improved. Will be able to.

  As described above, this non-target notice E2 (here, the operation effect by the effecting movable body KT) is desirably executed in any of a plurality of modes with different degrees of expectation. In a state where the display is not executed, it is desirable to show the big hit expectation degree depending on which of the light emission modes (blue, green, red) appears when the movable body KT for production appears. At this time, when the production movable body KT operates in the red light emission mode, the higher hit expectation degree may be shown than the cut-in production shown in the next production situation (FIG. 166 (F)), The expected value of the jackpot expectation when the motion effect is generated by the effecting movable body KT is lower than the expected value of the jackpot expectation of the cut-in effect shown in the next effect situation (FIG. 166 (F)). Is required. However, as described above, when an operation effect is performed by the movable body for production KT during the execution of the count display, regardless of which of blue, green, and red appears as the light emission mode, the motion for the production is performed. It is desirable to control so that the degree of jackpot expectation indicated by the action effect by the body KT is the same (for example, 70%). According to such a configuration, during the count display, attention is paid not to what kind of aspect appears in the operation effect by the effecting movable body KT but to the operation effect itself by the effecting movable body KT. Therefore, it is possible to avoid a decrease in the gaming interests depending on the mode when the production effect is generated by the production movable body KT.

  By the way, in the production situation shown in FIG. 166 (E), the above-mentioned double chance increase has succeeded because the subject of the timer prefetching production is not the blue hold 2 but the red hold 1. In addition, the chance increase due to the execution of the non-target notice E2 (here, the operation effect by the effecting movable body KT) during the execution of the count display is also successful. Therefore, if it is suggested that there is a high possibility that the variation display is not likely to win the big hit despite the fact that there is such a high expectation situation, the game entertainment will be enhanced originally. It is inevitable that the game entertainment will be significantly reduced in the expected variation display. In this regard, in the above-described special time change table T9b (FIG. 162) that is referred to when a big hit hold (including hold 0) is included, green or red is held when a new winning occurs. Since it is difficult for information to appear, if the hold 2 corresponding to the occurrence of a new winning is displayed in red in the production situation shown in FIG. 166 (E), a jackpot hold is included. There is a possibility that the player will be exposed to the fact that it is not.

  Therefore, in the peripheral control MPU 1511a according to this embodiment, a new prize is awarded during a period in which the count display of a specific timer effect that is considered to have a high degree of expectation is executed among the timer effects, or in a period thereafter. Even if an error occurs, the mode (flashing white, blue, green, red, rainbow) is difficult to recognize, and even if the hold display that has already been displayed is further changed to hold, the control becomes difficult to recognize. To do. In the example shown in FIG. 166 (E), the hold display 1 and 2 are hidden and displayed by their shadows, making it difficult to recognize the hold display mode. May be hidden. As a result, even if a count display with a high degree of expectation is being executed, it is possible to avoid a decrease in gaming interest due to the appearance of a green or red hold display when a new winning occurs. become.

  FIG. 166 (F) shows that after the timer effect count display shown in FIG. 166 (E) reaches a predetermined numerical value (here “0”) and the timer related display (here “Yukuzo”) is displayed, An effect situation is shown in which an effect (cut-in effect by a teammate character) that is an effect of a timer effect is being executed. As shown in FIG. 166 (F), even in a situation where an effect (cut-in effect by a teammate character) that is an effect target of a timer effect is being executed, the holds 1 and 2 remain hidden and are shadowed. The mode of hold display is difficult to recognize.

  In FIG. 167 (G), after the effect (cut-in effect by the teammate character) that is the target of the timer effect in FIG. 167 (F) is executed, the variation display is displayed when the teammate character wins the enemy character. It shows the production situation that is shown to be confirmed and stopped with the big hit symbol.

  In the production situation shown in FIG. 167 (G), since it is definitely suggested that it will be a big hit, no matter which mode appears as the mode of the hold 1, 2, the game entertainment will be reduced There is no such thing. Therefore, the hold 1 and 2 that are difficult to recognize are displayed in a recognizable manner as to which mode appears after the effect indicating whether or not the big hit is displayed. It is desirable to do so. In other words, in this case, even if it is shown that the change display is confirmed and stopped due to losing because the ally character is defeated by the enemy character, the hold 1 and 2 modes can be recognized at that time. Since it may be recognized that either one of 1 and 2 is a red or rainbow-colored aspect, it is possible to suppress a decrease in gaming interest.

  Further, in the effect situation shown in FIG. 167 (G), a new timer effect is generated and the count display is started. This count display is performed with the remaining count number remaining (the count number displayed at the start of the count display) even in the production situation shown in FIG. 167 (H) in which the big hit symbol is confirmed and stopped and the variable display is terminated. (With more counts remaining than the smallest count number (10 seconds)), and without any effects that are the targets of the timer effects being generated, continue even after the change display ends. It is executed as the special timer effect described above.

  However, after that, during the period in which the opening effect is executed in the effect state shown in FIG. 167 (I), the timer effect count display is not displayed. Thereby, the change display (symbol effect) ended in the effect situation shown in FIG. 167 (H) and the effect during the big hit game (big hit game effect) started in the effect situation shown in FIG. 167 (J). It becomes possible to recognize that the productions are not connected to each other, and the player can enjoy the production newly started in this way with a fresh feeling.

  In this regard, in the peripheral control MPU 1511a according to this embodiment, the count display is secretly executed as time elapses even during the period in which the timer effect count display is hidden (the opening effect execution period). When the count display of the timer effect is redisplayed in the effect during the jackpot game that is started in the effect situation shown in FIG. 167 (J), the numerical value of the count display is advanced by that amount. Like to be. This will create a production situation as if the remaining time until the count display of the timer production reaches a predetermined value has suddenly decreased, so it counts in a state where the player's feelings are not ready It becomes possible to make the display reach a predetermined numerical value, and it is preferably avoided that the timer effect that is continued from the state of the variable display becomes rutted.

  Then, the peripheral control MPU 1511a according to this embodiment controls the timer effect that has been continued from the state of the variable display so that the count display reaches a predetermined value within the execution period of the big hit game. At this time, a timer-related display (here, “Yukuzo”) that suggests that the predetermined numerical value (0 in this case) has been reached appears in the same manner as the timer effect performed within the period of the variable display.

  FIG. 167 (K) shows that after the timer effect count display shown in FIG. 167 (J) reaches a predetermined numerical value (here “0”) and the timer related display (here “Yukuzo”) is displayed, An effect situation in which a specific effect (corresponding to the first special effect and the second special effect described above, and “CHANCE” in the drawing) is executed is shown.

  As shown in FIG. 167 (K), in the peripheral control MPU 1511a according to this embodiment, a specific effect (display of “CHANCE”) can be executed within the execution period of the big hit game. When “CHANCE” is displayed), the jackpot type in which the winning jackpot is advantageous to the player (for example, the type in which the number of rounds of the jackpot game is 16 rounds, or the high probability short-time game state after the jackpot game ends) It is shown that the degree of expectation is high. Note that the ratio may be 100%. In this way, when the above-mentioned special timer effect is executed, the count display is continued until after the big hit game is started, not only is the big hit confirmed, but the winning big hit is a big hit type that is advantageous to the player. A certain degree of expectation will also increase, so that it will be possible to improve the game entertainment.

  Then, after this, an effect in which the teammate character fights against the enemy character is performed in a specific round game or the like, and as a result, the teammate character wins (FIG. 167 (L)), the winning jackpot type is advantageous to the player. It will be shown that. When the teammate character is defeated in the performance, it is indicated that the winning jackpot is not a jackpot type advantageous to the player.

  Thus, when the result of the performance during the big hit game appears, the game proceeds with the content according to the result. For example, if the result that the ally character wins is obtained, the big hit game is executed up to 16 rounds. Or after the jackpot game is over, it is controlled to a high probability time-short state. On the other hand, when the result of losing the teammate character is obtained, the big hit game is finished in eight rounds, or after the big hit game is finished, a gaming state (for example, a low probability of lower probability) than the high probability short-time state. It is controlled in a short time state.

  Here, the content of the specific effect (display of “CHANCE”) shown in FIG. 167 (K) may be related to an effect in which a teammate character fights against an enemy character in a specific round game. For example, it is possible to set an effect content for the ally character to acquire a weapon in the specific effect shown in FIG. 167 (K), and execute an effect of fighting the enemy character using the weapon acquired in the specific round game. For example, in the specific performance shown in FIG. 167 (K), it can be implied that the possibility that the teammate character has won in the subsequent battle has increased.

  The present invention has been described with reference to preferred embodiments. However, the present invention is not limited to these embodiments, and various modifications can be made without departing from the spirit of the present invention as described below. And design changes are possible.

  The discrete component is an electronic component in which only a single function element (an element having one electrical function (such as a resistance element)) is encapsulated. For example, the number of elements having a specific function is two or three. It is a concept that includes components that are enclosed in one package.

  That is, in the embodiment, the gaming machine applied to the pachinko machine 1 is shown, but the present invention is not limited to this, and is applied to a pachislot machine or a gaming machine in which a pachinko machine and a pachislot machine are fused. Even in this case, the same effect can be obtained.

DESCRIPTION OF SYMBOLS 1 Pachinko machine 2 Outer frame 3 Door frame 4 Main body frame 5 Game board 5a Game area 1300 Main control unit 1310 Main control board 1310a Main control MPU
1400 Function Display Unit 1401 Status Indicator 1402 Normal Symbol Indicator 1403 First Special Symbol Indicator 1404 First Special Reservation Number Indicator 1405 Second Special Symbol Indicator 1406 Second Special Reservation Number Indicator 1407 Round Indicator 1500 Peripheral Control Unit 1510 Peripheral control board 1511 Peripheral control unit 1511a Peripheral control MPU
1512 Liquid crystal display control unit 1600 Game board side effect display device 1600a Liquid crystal module 2001 General winning port 2002 First starting port 2003 Gate unit 2004 Second starting port 2005 Large winning port 2100 Starting port unit 4002 First starting port sensor 4003 Gate sensor 4004 Second starting port sensor 4005 Count sensor 4020 General prize opening sensor 4024 Magnetic detection sensor

Claims (3)

Determining means for determining based on the game medium passing through the start area;
A symbol effect control means for performing a symbol effect based on a result of the determination by the determination means;
A gaming state control means capable of executing a control to shift to a specific gaming state advantageous to the player after the particular symbol aspect appears when a particular symbol aspect appears in the symbol effect executed by the symbol effect control means. When
With
The symbol effect control means is:
A first effect executing means capable of executing a first effect in a first period of the symbol effects ;
A second effect executing means capable of executing a second effect in a second period that does not overlap the first period of the symbol effects ; and
A first aspect that spans the first period and does not straddle the second period as a count effect in which a count display related to an effect different from both the first effect and the second effect is performed during the execution of the symbol effect And a second mode that does not straddle the first period and straddle the second period are prepared, and the count effect is executed in any of a plurality of modes including at least the first mode and the second mode. Possible count production means
Have
When both the first effect and the second effect are executed in one symbol effect in which the count effect is not executed, the second effect is not executed in the one symbol effect in which the count effect is not executed. The ratio of the specific pattern appearance is higher than when one stage is executed.
Even if the second effect is not executed and the first effect is executed within one symbol effect, the first effect is performed when the count effect is executed in the first mode across the first effect. And the second effect is performed in one symbol effect, and the ratio of the specific symbol aspect is higher than when the count effect is executed in the second aspect across the second effect. As described above , the gaming machine characterized in that the first effect executing means, the second effect executing means, and the count effect means are controlled based on the result of the determination by the determining means .   Determining means for determining based on the game medium passing through the start area;
  A symbol effect control means for performing a symbol effect based on a result of the determination by the determination means;
  A gaming state control means capable of executing a control to shift to a specific gaming state advantageous to the player after the particular symbol aspect appears when a particular symbol aspect appears in the symbol effect executed by the symbol effect control means. When
  With
  The symbol effect control means is:
  A first effect executing means capable of executing a first effect in a first period of the symbol effects;
  A second effect executing means capable of executing a second effect in a second period that does not overlap the first period of the symbol effects; and
  During the execution of the symbol effect, the count effect is displayed across the first period and the second period, where the count display is performed for the timing at which the effect image not related to either the first effect or the second effect appears. A count effect means that can be executed in any of a plurality of aspects including at least a first aspect that does not straddle and a second aspect that does not straddle the first period and straddles the second period
  Have
  When the second effect is not executed in the one symbol effect where the count effect is not executed and the first effect is executed, the first effect is not executed in the one symbol effect where the count effect is not executed. Compared to when the two performances are executed, the ratio of the specific design aspect appearing lower,
  When the first effect is executed in the first period while the count effect is performed in the first aspect that straddles the first period and does not straddle the second period, the first period is Expectation that the specific symbol aspect appears compared to when the second effect is executed in the second period while the count effect is performed in the second aspect that does not straddle the second period The first effect executing means, the second effect executing means, and the count effect means are controlled based on the result of the determination by the determining means so as to increase the degree.
  A gaming machine characterized by that.   In the gaming machine according to claim 1 or 2,
  A speaker device that performs a predetermined sound effect is further provided.
  A gaming machine characterized by that.