JP5046255B2 - Game machine - Google Patents

Description

  It relates to gaming machines.

  The most popular pachinko machines are currently displayed with a special symbol on the 7-segment display, such as when a game ball enters the starter (start chucker). When the special symbol is in a specific mode (for example, “7”), a special gaming state that is more profitable for the player than the normal gaming state {a special winning opening (attacker) that is normally closed is a predetermined condition Is a model that is called “Digipachi” (conventional “first-class game machine”). Here, in order to reduce the burden of display control of special symbols that are directly linked to the interests of the player, in addition to the aforementioned “special symbols”, it is referred to as “decorative symbols” for the purpose of enhancing the fun of the game. The symbol to be displayed is variably displayed on a display such as a liquid crystal having a size larger than that of the display unit in a form synchronized with the variation of the special symbol. And when the change of the special symbol is started, the decorative symbol also starts to change accordingly, and when the special symbol stops in a specific mode (for example, “7”), the decorative symbol also changes to the predetermined mode (for example, “777”). Then, the player recognizes that the transition to the special game has been confirmed because the decorative symbol has stopped in a predetermined manner.

  Such a mechanism is common to this type of pachinko machine, so in order to differentiate it from other types, how to devise the overall production including the variation of the above-mentioned design and give high interest The focus is on what to do. For example, the movable body accessory effect is one of them, and the movable object effect effect is an effect video developed on a display device such as a liquid crystal display during the period from the start of symbol variation to the symbol stop. It is an effect mainly intended to enhance the effect of the production by moving the movable object in conjunction with the image. Here, since the motion control of the effect moving image is mainly performed on the sub board side, in order to link the effect moving image and the movable object accessory, the operation control of the movable object accessory is also performed on the sub substrate side. Is preferred. Also, in recent years, there is a tendency to diversify and complicated the operation content of the movable body for the purpose of further enhancing the interest of moving body effect production, so on the sub-board side with higher processing capacity than the main board. In many cases, a configuration for controlling the operation of the movable body accessory is used. In addition, in order to respond to the tendency for diversification and complexity to be required for the operation content of the movable body accessory, there are those that carry a plurality of movable body accessories and perform a production operation that interlocks the plurality of movable body accessories. Has appeared.

  On the other hand, there has conventionally been a slot machine as a gaming machine form different from pachinko gaming machines. The slot machine is configured to display a plurality of symbols on a plurality of reels. When a predetermined combination of symbols is displayed on a predetermined active line, a predetermined number of symbols are displayed to the player. A payout is made. Then, the player uses the stop button provided on the slot machine to enjoy the operation by displaying the combination of symbols as the predetermined combination on the reel. In recent years, there are many slot machines that are equipped with movable objects to improve their interest. As with pachinko machines, the contents of operations of movable objects are required to be diversified and complicated. It tends to be.

  Here, the operation of the movable body accessory is realized by connecting a movable member constituted by a member such as a synthetic resin or a spring and a drive source such as a stepping motor or a solenoid, and supplying power to the drive source. Yes. In addition, in order to diversify and complicate the operation contents of the movable body accessory, many of the movable members are configured to be driven by a plurality of driving sources. The electrical operation of the gaming machine is enabled by supplying power from the power supply device to the structural component.

By the way, when power is supplied to a drive source such as a stepping motor or a solenoid, the coil portion generates heat according to the excitation power amount or excitation time to the coil portion constituting the drive source. When heat is generated exceeding a predetermined allowable range based on the shape, the coil portion may be burned out. Therefore, conventionally, by providing a waiting period until the heat generated in the coil part is dissipated to the surroundings, it is possible to prevent the coil part from generating heat beyond the allowable range.
Japanese Patent No. 3703688

  For example, Patent Document 1 includes an overheat detection circuit capable of detecting an overheat state of an electric circuit that constitutes a drive source. When an overheat state exceeding a predetermined allowable upper limit is detected by the overheat detection circuit, driving is performed. A technique for stopping power supply to a source is disclosed. However, in such a technique, since it is necessary to provide a special circuit provided with a sensor separately, the subject that the manufacturing cost of a game machine will increase arises. The present invention has been made in view of the above problems, and in a gaming machine equipped with a drive source for driving a movable body accessory, a game for preventing a failure of the drive source due to burning of the coil portion or the like without the need of providing a special circuit separately The purpose is to provide a machine.

The gaming machine according to this aspect (1)
A pachinko gaming machine comprising a main game control unit (for example, the main control device 1000) that controls the progress of a game and a sub game control unit (for example, an effect display control means 2320) that controls the execution of an effect,
A main game start port (for example, a first main game start port 2210, a second main game start port 2110) into which a game ball can enter;
Main game identification information display unit (for example, first main game symbol display unit 2131, second main game symbol display unit 2231) on which variable display and stop display of main game identification information (for example, main game symbol) is executed. When,
A variable winning opening (for example, a first grand prize opening 2120, a second big prize opening 2220) that can take an open state and a closed state;
A secondary game identification information display unit (for example, a decorative symbol display area 2311) in which variable display and stop display of the secondary game identification information (for example, a decorative symbol) is executed;
A plurality of displaceable variable members (for example, movable body accessory group 232-110, movable body accessory group 232-210),
The main game control unit (for example, the main control device 1000)
Main game random number acquisition means (for example, main game random number acquisition means) (for example, main game random number acquisition means) when a game ball enters the main game start port (for example, the first main game start port 2210, the second main game start port 2110) , First main game random number acquisition determination execution means 1121, second main game random number acquisition determination execution means 1122),
Based on the random numbers acquired by the main game random number acquisition means (for example, the first main game random number acquisition determination execution means 1121 and the second main game random number acquisition determination execution means 1122), the main game identification information display unit (for example, the first game random number acquisition determination execution means 1122). Main game identification information display content determination for determining a variation mode and stop identification information of main game identification information (for example, main game symbol) displayed on the main game symbol display unit 2131 and the second main game symbol display unit 2231) Means (for example, first main game content determination means 1141, second main game content determination means 1142);
In accordance with the variation mode determined by the main game identification information display content determination means (for example, the first main game content determination means 1141 and the second main game content determination means 1142), After the main game identification information (for example, the main game symbol) is variably displayed on the main game symbol display unit 2131 and the second main game symbol display unit 2231), the main game identification information display content determination means (for example, the first game symbol display unit 2231) is displayed. Main game identification information display control means (for example, first main game symbol control means 1151, first control which controls to display stop identification information determined by the main game content determination means 1141 and the second main game content determination means 1142). 2 main game symbol control means 1152),
When a predetermined mode is displayed as stop identification information in the main game identification information display unit (for example, the first main game symbol display unit 2131, the second main game symbol display unit 2231), Special game execution control means (for example, special game control means 1170) for controlling the special prize opening 2120 and the second big prize opening 2220) to shift from the closed state to the special game that is opened;
Information related to the main game random number acquired by the main game random number acquisition means (for example, the first main game random number acquisition determination execution means 1121 and the second main game random number acquisition determination execution means 1122) is displayed in the sub game control unit (for example, effect display). Main game side information transmission control means (for example, information transmission control means 1300) for transmission to the control means 2320) side,
The secondary game control unit (for example, the effect display control means 2320)
The secondary game identification information displayed in the secondary game identification information display unit (for example, the decorative symbol display area 2311) based on the information related to the main game random number transmitted from the main game control unit (for example, the main control device 1000). Sub-game identification information display content determination means (for example, a drawing display content determination means 2322a) for determining a variation mode and stop identification information (for example, a decorative symbol);
Sub-game identification information display content determination means (for example, a device) is synchronized with the fluctuation and stop of the main game identification information (for example, the main game symbol) on the main game control unit (for example, the main control device 1000) side. After the secondary game identification information (for example, a decorative symbol) is variably displayed on the secondary game identification information display unit (for example, the decorative symbol display area 2311) based on the variation mode determined by the figure display content determining means 2322a). The secondary game identification information display content determining means (for example, the display display content determining means 2322a), the secondary game identification information display control means (for example, a decorative symbol) for controlling to display the stop identification information deterministically. Display control means 2322);
Whether or not to displace is determined for each of a plurality of variable members (for example, the movable body accessory group 232-110 and the movable body accessory group 232-210), and the variable member to be displaced is determined whether or not the variable member can be displaced. Displacement content determination means (for example, initial operation availability / content determination means 2325a-1, error resolution operation availability / content determination means 2325b-1, production operation availability / content determination means 2325c-1),
Based on the displacement contents by variable member displacement availability / content determination means (for example, initial motion availability / content determination means 2325a-1, error resolution operation availability / content determination means 2325b-1, production operation availability / content determination means 2325c-1). , Variable member displacement availability / content determination means (for example, initial operation availability / content determination means 2325a-1, error resolution operation availability / content determination means 2325b-1, production operation availability / content determination means 2325c-1) are displaced. The variable member that has been determined is capable of performing control to displace the variable member, and is determined based on the content different from the content determined by the variable member displacement availability / displacement content determination means due to a malfunction occurring in the gaming machine. Variable member displacement control means (for example, movable body accessory control means) capable of executing control for displacing a variable member different from the variable member In pachinko machine having a 325) and,
The variable member displacement control means is
When displacing the variable member (for example, movable body accessory group 232-110, movable body accessory group 232-210) determined to be displaced by the variable member displacement propriety / displacement content determination means, the variable member (for example, Variable member displacement propriety / displacement content determination means for a target drive source (for example, solenoid B, solenoid D) that is a drive source for driving the movable body accessory group 232-110 and the movable body accessory group 232-210). Based on the displacement content determined by (for example, initial operation availability / content determination means 2325a-1, error-resolving operation availability / content determination means 2325b-1, production operation availability / content determination means 2325c-1), a predetermined output period Variable member drive signal output means (for example, movable body accessory drive source excitation control means 2325f) for outputting a drive signal
A means for switching whether to enable or disable the drive signal output by the variable member drive signal output means (for example, movable body accessory drive source excitation control means 2325f), the target drive source (for example, solenoid B, When the drive signal output to the solenoid D) is switched to be invalid, the drive signal output by the variable member drive signal output means (for example, the movable body drive source excitation control means 2325f) is the target drive. Variable member drive signal invalidating means (for example, movable body overcurrent avoidance control means 2325g) for controlling the input to the source (eg, solenoid B, solenoid D),
History information relating to an input period in which a drive signal output by a variable member drive signal output means (for example, movable body accessory drive source excitation control means 2325f) is input to a target drive source (for example, solenoid B, solenoid D) Variable member drive signal effective period history information temporary storage means (for example, excitation history information accumulation temporary storage means 2325g-3 for each drive source) that temporarily accumulates and temporarily stores over a specific monitoring period;
Based on the history information temporarily stored in variable member drive signal effective period history information temporary storage means (for example, excitation history information accumulation temporary storage means 2325g-3 for each drive source), the time value of the input period is set to X, When the time value of the monitoring period is derived as Y and the ratio of the time value X with respect to the time value Y becomes equal to or greater than a predetermined value, variable member drive signal invalidating means (for example, a movable body role) Variable member drive signal output capacity limiting means (for example, movable article overcurrent avoidance control means 2325g) that can be controlled to be invalid or limited by the object overcurrent avoidance control means 2325g). ) Is a pachinko game machine.

The gaming machine according to this aspect (2)
A main game control unit (for example, a main board in a slot machine) that controls the progress of the game, and a sub game control unit (for example, a sub board in the slot machine) that controls the execution of the effects;
A main game identification information display unit for displaying main game identification information {for example, a plurality (for example, three rows) of reels each having a plurality of identification information arranged on the outer periphery};
A main game start instruction device (for example, a start lever) that can be operated by the player and instructs the game start;
A main game progress instruction device (e.g., a stop button) that can be operated by the player and instructs the progress of the game;
A slot machine comprising a plurality of displaceable variable members (e.g., equivalent to a movable body accessory group 232-110 and a movable body accessory group 232-210),
The main game control unit (for example, the main board in the slot machine)
Main game random number acquisition means for acquiring a main game random number triggered by the operation of a main game start instruction device (for example, a start lever) (for example, start in a situation where a predetermined number of game media are inserted) Random number acquisition means for acquiring random numbers triggered by lever operation),
One or more stop identifications based on the random number acquired by the main game random number acquisition means (for example, a random number acquisition means for acquiring a random number triggered by operation of a start lever in a situation where a predetermined number of game media are inserted) Main game identification information display content determination means for tentatively determining information (for example, display content determination means for internally determining a winning combination such as a small role or a special role),
Main game identification information display content determination means (for example, display content determination means for internally determining a winning combination such as a small role or a special character) and one or a plurality of stop identification information temporarily determined by the main game Based on the operation timing of the progress instructing device (for example, stop button), one stop identification information is displayed as the main game identification information display unit {for example, a plurality of (for example, three rows) each having a plurality of identification information arranged on the outer periphery. ) Of the main game identification information display control means (for example, based on the internally determined winning combination and the timing when the stop button is pressed) to stop the reel at a predetermined position. Reel control means),
When a predetermined mode is displayed as stop identification information on the main game identification information display section {for example, a plurality of (for example, three rows of reels) each having a plurality of identification information arranged on the outer periphery}, the process shifts to a special game. Special game execution control means for controlling the special game {e.g., a special combination that activates the special combination triggered by the fact that special action item operation symbols (e.g., "7, 7, 7") are arranged on a predetermined effective line. Object operating means},
Information on the main game random number acquired by the main game random number acquisition means (for example, random number acquisition means for acquiring a random number triggered by the operation of the start lever in a situation where a predetermined number of game media are inserted) Main game side information transmission control means (for example, the communication means between the main board and the sub board in the slot machine) for transmitting to the control unit (for example, the sub board in the slot machine) side,
The sub game control unit (for example, the sub board in the slot machine)
Based on information relating to the main game random number transmitted from the main game control unit (for example, the main board in the slot machine) or independently, a plurality of variable members (for example, the movable object group 232-110, the movable object group) Each of the variable members (e.g., corresponding to the movable body accessory group 232-110 and the movable body accessory group 232-210) is determined to determine whether or not the displacement is possible. Member displacement availability / displacement content determination means (e.g., equivalent to initial operation availability / content determination means 2325a-1, error resolution operation availability / content determination means 2325b-1, production operation availability / content determination means 2325c-1),
Displacement contents by variable member displacement availability / content determination means (e.g., equivalent to initial operation availability / content determination means 2325a-1, error resolution operation availability / content determination means 2325b-1, production operation availability / content determination means 2325c-1) Based on the above, variable member displacement availability / content determination means (e.g., equivalent to initial operation availability / content determination means 2325a-1, error resolution operation availability / content determination means 2325b-1, production operation availability / content determination means 2325c-1) This means is capable of executing control for displacing the variable member that has been determined to be displaced, and is different from the content determined by the variable member displacement availability / displacement content determination means due to a malfunction that has occurred in the gaming machine. may perform control to displace the variable member based variable member displacement control means (for example, corresponding to the movable member won game controller 2325) And having,
The variable member displacement control means (for example, equivalent to the movable body accessory control means 2325)
Variable member displacement availability / displacement content determination means (e.g., equivalent to initial operation availability / content determination means 2325a-1, error resolution operation availability / content determination means 2325b-1, production operation availability / content determination means 2325c-1) When displacing the variable member that has been determined to be displaced, variable member displacement availability / displacement content determination means (for a target drive source (e.g., equivalent to solenoid B or solenoid D) that is a drive source for driving the variable member) For example, a predetermined output period is determined based on the displacement content determined by the initial operation availability / content determination means 2325a-1, error elimination operation availability / content determination means 2325b-1, and production operation availability / content determination means 2325c-1. Variable member drive signal output means (for example, equivalent to movable body accessory drive source excitation control means 2325f) that outputs a drive signal,
A means for switching between enabling and disabling the drive signal output by the variable member drive signal output means (e.g., corresponding to the movable body accessory drive source excitation control means 2325f), the target drive source (e.g., solenoid B, corresponding to solenoid D) is switched to invalidate the drive signal output to variable member drive signal output means (for example, equivalent to movable object driving source excitation control means 2325f). Variable member drive signal invalidating means (for example, corresponding to movable body overcurrent avoidance control means 2325g) for controlling the drive signal to be input to the target drive source (for example, equivalent to solenoid B or solenoid D); ,
Input period in which the drive signal output by the variable member drive signal output means (for example, equivalent to the movable body accessory drive source excitation control means 2325f) is input to the target drive source (for example, equivalent to the solenoid B or solenoid D) Variable member drive signal effective period history information temporary storage means (for example, equivalent to drive source excitation history information accumulation temporary storage means 2325g-3) for accumulating and temporarily storing the history information related to a specific monitoring period;
Based on the history information temporarily stored in variable member drive signal effective period history information temporary storage means (e.g., equivalent to drive source excitation history information accumulation temporary storage means 2325g-3), the time value of the input period is set to X When the time value of the monitoring period is derived as Y, and the ratio of the time value X with respect to the time value Y becomes greater than or equal to a predetermined value, variable member drive signal invalidating means (for example, movable Variable member drive signal output capacity limiting means (for example, movable body accessory over-energization) that can be controlled to be invalid or limited by the body accessory over-electricity avoidance control means 2325g) A slot machine including an avoidance control unit 2325g).

  In the above slot machine, other configurations that are not shown in parentheses may be configured based on known configurations.

  According to the pachinko gaming machine according to claim 1, based on the history information temporarily stored in the variable member drive signal effective period history information temporary storage means, the time value of the input period related to the drive signal to the drive source is X, When the time value of the monitoring period is derived as Y, and the ratio of the time value X with respect to the time value Y becomes equal to or greater than a predetermined value, the drive signal output to the drive source is invalidated or Since it is configured to limit, it is possible to prevent the failure of the drive source due to burning of the coil portion or the like without the need for providing a special circuit separately.

  According to the slot machine of claim 2, based on the history information temporarily stored in the variable member drive signal valid period history information temporary storage means, the time value of the input period related to the drive signal for the drive source is monitored by X The time value of the period is derived as Y, and when the ratio of the time value X with respect to the time value Y becomes equal to or greater than a predetermined value, the drive signal output to the drive source is invalidated or restricted. Therefore, it is possible to prevent a failure of the drive source due to burning of the coil portion or the like without the necessity of providing a special circuit separately.

FIG. 1 is a front view of a pachinko gaming machine according to the embodiment. FIG. 2 is a rear view of the pachinko gaming machine according to the embodiment. FIG. 3 is an exploded perspective view of a movable body accessory unit according to the pachinko gaming machine according to the embodiment. FIG. 4 is an operation explanatory view of a movable body accessory unit (front unit) according to the pachinko gaming machine according to the embodiment. FIG. 5 is an operation explanatory view of the movable body accessory unit (back unit) according to the pachinko gaming machine according to the embodiment. FIG. 6 is an overall electrical configuration diagram of the pachinko gaming machine according to the embodiment. FIG. 7 is an electrical configuration diagram of a movable body accessory unit according to the pachinko gaming machine according to the embodiment. FIG. 8 is a functional block diagram of the pachinko gaming machine according to the embodiment. FIG. 9 is a main flowchart on the main controller side in the pachinko gaming machine according to the embodiment. FIG. 10 is a flowchart of processing at the time of vibration error detection on the main controller side in the pachinko gaming machine according to the embodiment. FIG. 11 is a flowchart of auxiliary game symbol winning random number acquisition processing on the main control device side in the pachinko gaming machine according to the embodiment. FIG. 12 is a flowchart of the electric accessory driving determination process on the main controller side in the pachinko gaming machine according to the embodiment. FIG. 13 is a flowchart of main game content determination random number acquisition processing on the main controller side in the pachinko gaming machine according to the embodiment. FIG. 14 is a flowchart of main game symbol display processing on the main controller side in the pachinko gaming machine according to the embodiment. FIG. 15 is a flowchart of the first main game symbol (and second main game symbol) display processing on the main control device side in the pachinko gaming machine according to the embodiment. FIG. 16 is a flowchart of specific game end determination processing on the main controller side in the pachinko gaming machine according to the embodiment. FIG. 17 is a flowchart of special game operating condition determination processing on the main controller side in the pachinko gaming machine according to the embodiment. FIG. 18 is a flowchart of a special game control process on the main controller side in the pachinko gaming machine according to the embodiment. FIG. 19 is a flowchart of the game state determination process after the special game is completed on the main controller side in the pachinko gaming machine according to the embodiment. FIG. 20 is a main flowchart on the display control device side in the pachinko gaming machine according to the embodiment. FIG. 21 is a flowchart of initial processing at the time of power interruption return on the display control device side in the pachinko gaming machine according to the embodiment. FIG. 22 is a flowchart of the movable body accessory basic position setting process on the display control device side in the pachinko gaming machine according to the embodiment. FIG. 23 is a flowchart of the effect stage determination process on the display control device side in the pachinko gaming machine according to the embodiment. FIG. 24 is a flowchart of the hold information management process on the display control device side in the pachinko gaming machine according to the embodiment. FIG. 25 is a flowchart of decorative symbol display content determination processing on the display control device side in the pachinko gaming machine according to the embodiment. FIG. 26 is a flowchart of a decorative symbol display control process on the display control device side in the pachinko gaming machine according to the embodiment. FIG. 27 is a flowchart of a special game display control process on the display control device side in the pachinko gaming machine according to the embodiment. FIG. 28 is a flowchart of the movable object position monitoring process on the display control device side in the pachinko gaming machine according to the embodiment. FIG. 29 is a flowchart of a movable body accessory error occurrence determination process on the display control device side in the pachinko gaming machine according to the embodiment. FIG. 30 is a flowchart of a movable object error notification control process on the display control device side in the pachinko gaming machine according to the embodiment. FIG. 31 is a flowchart of a movable object error notification process on the display control device side in the pachinko gaming machine according to the embodiment. FIG. 32 is a flowchart of movable body accessory operation availability / content determination processing on the display control device side in the pachinko gaming machine according to the embodiment. FIG. 33 is a flowchart of the operation determination / content determination process during the initial operation on the display control device side in the pachinko gaming machine according to the embodiment. FIG. 34 is a flowchart of an operation availability / content determination process during an error elimination operation on the display control device side in the pachinko gaming machine according to the embodiment. FIG. 35 is a flowchart of the operation determination / content determination process during the rendering operation on the display control device side in the pachinko gaming machine according to the embodiment. FIG. 36 is a flowchart of the content determination processing at the time of presentation operation on the display control device side in the pachinko gaming machine according to the embodiment. FIG. 37 is a flowchart of the movable object accessory operation control process on the display control device side in the pachinko gaming machine according to the embodiment. FIG. 38 is a flowchart of the operation start control process at the time of initial operation on the display control device side in the pachinko gaming machine according to the embodiment. FIG. 39 is a flowchart of the operation end control process at the time of initial operation on the display control device side in the pachinko gaming machine according to the embodiment. FIG. 40 is a flowchart of an operation start control process during an error elimination operation on the display control device side in the pachinko gaming machine according to the embodiment. FIG. 41 is a flowchart of the operation end control process at the time of error elimination operation on the display control device side in the pachinko gaming machine according to the embodiment. FIG. 42 is a flowchart of an operation start control process during a rendering operation on the display control device side in the pachinko gaming machine according to the embodiment. FIG. 43 is a flowchart of an operation end control process during a rendering operation on the display control device side in the pachinko gaming machine according to the embodiment. FIG. 44 is a flowchart of motor / solenoid excitation start control processing on the display control device side in the pachinko gaming machine according to the embodiment. FIG. 45 is a flowchart of motor / solenoid excitation end control processing on the display control device side in the pachinko gaming machine according to the embodiment. FIG. 46 is a flowchart of long-term energization abnormality monitoring control processing on the display control device side in the pachinko gaming machine according to the embodiment. FIG. 47 is a main flowchart relating to interrupt processing on the display control device side in the pachinko gaming machine according to the embodiment. FIG. 48 is a flowchart of a movable body accessory special movable preparation operation control process on the display control device side in the pachinko gaming machine according to the embodiment. FIG. 49 is a flowchart of operation content determination processing during a special movable preparation operation on the display control device side in the pachinko gaming machine according to the embodiment. FIG. 50 is a flowchart of an operation start control process during a special movable preparation operation on the display control device side in the pachinko gaming machine according to the embodiment. FIG. 51 is a flowchart of the operation end control process during the special movable preparation operation on the display control device side in the pachinko gaming machine according to the embodiment. FIG. 52 is a flowchart of the movable object special movement control process on the display control device side in the pachinko gaming machine according to the embodiment. FIG. 53 is a flowchart of operation content determination processing during special movement on the display control device side in the pachinko gaming machine according to the embodiment. FIG. 54 is a flowchart of operation start control processing during special movement on the display control device side in the pachinko gaming machine according to the embodiment. FIG. 55 is a flowchart of operation end control processing during special movement on the display control device side in the pachinko gaming machine according to the embodiment. FIG. 56 is a flowchart of processing at the time of reception of vibration error notification release information on the display control device side in the pachinko gaming machine according to the embodiment. FIG. 57 is an operation diagram 1 in the pachinko gaming machine according to the embodiment. FIG. 58 is an operation diagram 2 in the pachinko gaming machine according to the embodiment. FIG. 59 is an operation diagram 3 in the pachinko gaming machine according to the embodiment. FIG. 60 is an operation diagram 4 in the pachinko gaming machine according to the embodiment. FIG. 61 is an operation diagram 5 in the pachinko gaming machine according to the embodiment. FIG. 62 is an operation diagram 6 in the pachinko gaming machine according to the embodiment. FIG. 63 is an operation diagram 7 in the pachinko gaming machine according to the embodiment. FIG. 64 is an operation diagram 8 in the pachinko gaming machine according to the embodiment. FIG. 65 is an operation diagram 9 in the pachinko gaming machine according to the embodiment. FIG. 66 is an operation diagram 10 in the pachinko gaming machine according to the embodiment.

Form to carry out

  Hereinafter, embodiments will be described with reference to the drawings. In addition, although the following embodiment is a model in which two conventional type 1 pachinko gaming machines are mixed, it is not limited to this, and other gaming machines {for example, conventional type 2 or type 3 Species, general power, ordinary machine, multi-function machine (for example, a gaming machine having two functions of the conventional first type, and a gaming machine having one function of the first conventional type and one function of the second conventional type) In addition to pachinko gaming machines such as), arcade machines such as slot machines and coin game machines, and various game machines} are also within the scope of this embodiment. In addition, it is merely an example, and the place and function where each means exists, the order of each step regarding various processes, the timing of flag on / off, the name of the means responsible for each step, etc. are limited to the following modes. Is not to be done. In addition, the above-described embodiments and modified examples should not be understood as being limited to being applied to specific items, and may be in any combination. For example, it should be understood that a modification example of an embodiment is a modification example of another embodiment, and even if one modification example and another modification example are described independently, there is the modification example. It should be understood that a combination of the modified example and another modified example is also described.

  First, the basic structure of the front side of the pachinko gaming machine according to the present embodiment will be described with reference to FIG. Pachinko gaming machines mainly consist of a gaming machine frame and a gaming board. Hereinafter, these will be described in order.

  First, the gaming machine frame of the pachinko gaming machine includes an outer frame 102, a front frame 104, a transparent plate 106, a door 108, an upper ball dish 110, a lower ball dish 112, and a launch handle 116. First, the outer frame 102 is a frame for fixing the pachinko gaming machine to a position where it should be installed. The front frame 104 is a frame body aligned with the opening portion of the outer frame 102, and is attached to the outer frame 102 through a hinge mechanism (not shown) so as to be opened and closed. The front frame 104 includes a mechanism for launching a game ball, a mechanism for detachably storing a game board, a mechanism for guiding or collecting the game ball, and the like. The transparent plate 106 is made of glass or the like and is supported by the door 108. The door 108 is attached to the front frame 104 through an unillustrated hinge mechanism so as to be opened and closed. The upper ball tray 110 has mechanisms for storing game balls, sending out game balls to the launch rail, and extracting the game balls to the lower ball tray 112. The lower ball tray 112 has a mechanism for storing and extracting game balls. Further, a speaker 114 is provided between the upper ball tray 110 and the lower ball tray 112, and a sound effect corresponding to the gaming state or the like is output.

  Next, the game board 120 has a game area 120 defined by an outer rail 122 and an inner rail 124. The game area 120 includes a first main game start port 2210, a second main game start port 2110, an auxiliary game entrance ball port 2410, a first game start port 2210, a plurality of game nails, windmills, and other general winning holes. 1st grand prize opening 2120, 2nd big prize opening 2220, 1st main game symbol display device 2130, 2nd main game symbol display device 2230, production display device 2140, auxiliary game symbol display device 2420, center decoration 192 and out port 142 Is installed. Hereinafter, each element will be described in detail.

  First, the first main game start port 2210 is installed as a start winning port corresponding to the first main game. As a specific configuration, the first main game start port 2210 includes a first incoming ball detection device 2211. Here, the first entrance detection device 2211 is a sensor that detects the entrance of a game ball into the first main game start port 2210, and the first main game start port entrance information indicating the entrance at the time of entrance. Is generated.

  Next, the second main game start port 2110 is installed as a start winning port corresponding to the second main game. As a specific configuration, the second main game start port 2110 includes a second incoming ball detection device 2111 and an electric accessory 2112. Here, the second entrance detection device 2111 is a sensor that detects the entrance of a game ball into the second main game start port 2110, and the second main game start port entrance information indicating the entrance at the time of entrance. Is generated. Next, the electric accessory 2112 has a closed state in which a game ball cannot enter the second main game start port 2110 {a ball receiving member formed in a flat plate shape (hereinafter referred to as a ball receiving member) from the game area 120. The retracted state} and the open state in which a game ball can enter (a state in which the ball receiving member protrudes into the game area 120) are variable. Here, the electric accessory 2112 in the present embodiment employs an electric accessory (so-called “velo power”) in which the ball receiving portion slides back and forth, and when in the open state, the ball receiver protrudes into the game area. The game ball is received by the member, and the game ball is guided to the second incoming detection device 2111 (arranged inside the game board). In the present embodiment, the game ball flowing down the right side of the game area 120 (referenced to the center of the game area) is configured to be easily guided to the second main game start port 2110, and the left side of the other game area 120 ( A game ball flowing down the center of the game area is configured to be difficult to be guided to the second main game start port 2110. It should be noted that “easy to be guided” and “not easily guided” are determined, for example, by the magnitude of the number of entered balls when 10,000 balls are launched to the right and left, respectively. Further, in the present embodiment, as the electric combination, an electric combination in which the ball receiving member slides back and forth is adopted so that it is difficult to receive the game ball in the opening operation in a short time. There is no limitation, and so-called tulip-type electric accessories that can take a closed state in which a game ball is difficult or impossible to enter and an open state in which the game ball is easier to enter than in the closed state may be adopted. .

  Next, the auxiliary game entrance 2410 includes an entrance detection device 2411. Here, the entrance detection device 2411 is a sensor that detects the entrance of a game ball into the auxiliary game entrance 2410, and generates auxiliary game entrance entrance information indicating the entrance at the time of entry. Note that the entry of a game ball into the auxiliary game entrance 2410 triggers a lottery to displace the electric accessory 2112 of the second main game start port 2110.

  Next, when the first main game symbol (first special symbol) or the second main game symbol (second special symbol) is stopped in a predetermined manner, the first grand prize port 2120 (second grand prize port 2220) This is a winning opening that is in the open state as a “big hit” and has a horizontal rectangular shape and is located at the upper right of the out opening 142. Specifically, the first grand prize opening 2120 (second big prize opening 2220) includes a first prize detection device 2121 (second prize detection device 2221) for detecting a game ball entry, An electric accessory 2122 (second electric accessory 2222). Here, the first winning detection device 2121 (second winning detection device 2221) is a sensor that detects the entry of a game ball into the first big winning port 2120 (second big winning port 2220). The first grand prize entry information (second big prize entry information) indicating the entry is generated. The first electric accessory 2122 (second electric accessory 2222) is an open state in which a game ball cannot enter or is difficult to win in the first grand prize opening 2120 (second big prize opening 2220) and the game ball is easy to win. The first big prize opening 2120 (second big prize opening 2220) is varied in the state. In the present embodiment, there are two special winning openings. However, a special game based on the first main gaming symbol and a special game based on the second main gaming symbol may be executed with one single winning opening. Good.

  Next, the first main game symbol display device 2130 (second main game symbol display device 2230) changes the first main game symbol (second main game symbol) corresponding to the first main game (second main game). Display and stop display. Specifically, the first main game symbol display device 2130 (second main game symbol display device 2230) includes a first main game symbol display unit 2131 (second main game symbol display unit 2231) and a first main game. And a symbol hold display unit 2132 (second main game symbol hold display unit 2232). Here, the first main game symbol hold display unit 2132 (second main game symbol hold display unit 2232) is composed of four lamps, and the number of lighting of the lamps is the first main game (second main game). This corresponds to the number of random numbers held (the number of main game symbols that have not been executed). The first main game symbol display device 2130 (second main game symbol display device 2230) is composed of, for example, a 7-segment LED, and the first main game symbol (second main game symbol) is “0” to “9”. ”And 10 types of numbers and“ − ”of the loss.

  Since the first main game symbol (second main game symbol) does not necessarily have an effect role, in this embodiment, the first main game symbol display device 2130 (second main game symbol display device 2230). The size of is set to be inconspicuous. However, in the case of adopting a technique that does not display the first decorative symbol (second decorative symbol) by giving the first main gaming symbol (second main gaming symbol) itself an effect role, an effect described later You may comprise so that a 1st main game symbol (2nd main game symbol) may be displayed on a liquid crystal display like the display apparatus 2310. FIG.

  Next, the effect display device 2140 mainly performs change display and stop display of effect images including decorative symbols that change and stop in conjunction with the first main game symbol and the second main game symbol, A holding ball display is performed. Specifically, the display control of the effect display control means 2320, which will be described later, displays on the screen a decorative symbol display area 2311 (not shown) in which the decorative symbol change display and stop display are executed, and the first main game symbol. A first hold display portion 2312a for executing the corresponding decorative symbol hold display and a second hold display portion 2312b (not shown) for executing the decorative symbol hold display corresponding to the second main game symbol are formed. The The effect display device 2140 is configured by a liquid crystal display in the present embodiment, but may be configured by other display means such as a mechanical drum or LED.

  Next, the auxiliary game symbol display device 2420 performs a change display and a stop display of the auxiliary game symbol (ordinary symbol). Specifically, the auxiliary game symbol display device 2420 includes an auxiliary game symbol display unit 2421 and an auxiliary game symbol hold display unit 2422. Here, the auxiliary game symbol hold display unit 2422 is composed of four lamps, and the number of lighting of the lamps corresponds to the number of auxiliary game symbol changes held (the number of auxiliary game symbol changes that have not been executed).

  Finally, the center decoration 192 is installed around the effect display device 2140, and has functions such as a flow path of the game ball, protection of the effect display device 2140, and decoration. In addition, the game effect lamp 190 is provided in the game area 120 and plays a role of effect by blinking or the like.

  Next, the basic structure on the back side of the pachinko gaming machine will be described with reference to FIG. The pachinko gaming machine controls the overall operation of the pachinko gaming machine, and in particular controls the overall game operation such as lottery when entering the first main game starting port 2210 (second main game starting port 2110) (ie, game Main control device (main control board) 1000 that performs control directly related to the profits of the player, and effect display control means that performs display control related to various effects on the effect display device 2140 that provides interest to the game content ( Sub-main control board) 2320, presentation display device (sub-sub control board) 2310 for performing display processing for enhancing the fun of the game, prize ball tank 212, prize ball rail 214, and winning prizes In response, a prize ball payout mechanism (set base) 210 including a payout unit 216 for paying out game balls supplied from the prize ball tank 212 to the upper ball tray 110, and payout by the payout unit 216 A prize ball payout control device (prize ball payout control board) 3000 for controlling the work, a launch device 232 for launching the game balls (reserved balls) of the upper ball tray 110 to the game area 120 one by one, and launch of the launch device 232 A launch control board 230 that controls the operation, a power supply unit 290 that supplies power to each part of the pachinko gaming machine, a power switch 292 that is a switch for turning on and off the pachinko gaming machine, etc. On the opposite side).

《Movable body composition》
Next, the basic structure of the movable object accessory unit in the present embodiment will be described with reference to FIG. First, in the present embodiment, a plurality of types of movable body accessories that operate in conjunction with the effect moving image developed on the effect display device 2310 are provided from the start of the symbol change to the stop of the symbol. In addition, each movable body accessory includes a movable member formed of a member such as a synthetic resin or a spring, a stepping motor or solenoid that is a drive source of the movable member, a sensor for detecting the position of the movable member, and the like as a unit. It is configured to be detachable from the gaming machine. Specifically, in the present embodiment, a game board front unit 232-100 and a game board back unit 232-200 are provided, and a game board 232-50, which is a board member constituting the game area 120, is provided. It is configured to be detachable. Here, the game board front unit 232-100 is configured to be detachable from the front side (the front side of the gaming machine) with respect to the game board 232-50. On the other hand, the game board back unit 232-200 is configured to be detachable from the back side (the back side of the gaming machine) with respect to the game board 232-50. Hereinafter, each unit will be described in detail.

  First, the game board front unit 232-100 has a plurality of types of movable body accessory groups (front unit side) 232-100. Here, in the present embodiment, the movable body accessory group (front unit side) 232-100 is a movable body accessory 232-110B (hereinafter referred to as the center of the game area) installed on the left side when viewed from the front side of the gaming machine. And a movable body accessory 232-110D (hereinafter referred to as a movable body accessory D) installed on the right side (based on the center of the game area) as viewed from the front side of the gaming machine. ing. Although not shown, each of the movable members in the movable body accessory B (movable body accessory D) is connected to one solenoid {hereinafter referred to as solenoid B (D)}. The solenoid B (D) is driven by being excited based on the excitation pulse signal from the sub main control board 2320.

  Next, the game board back unit 232-200 has a plurality of types of movable body accessory groups (back unit side) 232-210. Here, in this embodiment, the movable body accessory group (rear unit side) 232-210 is a movable body accessory 232-210 </ b> A (hereinafter referred to as the center of the game area) as viewed from the front side of the gaming machine. And a movable body accessory 232-210C (hereinafter referred to as a movable body accessory C) installed on the right side (referenced to the center of the game area) from the front side of the gaming machine. ing. The movable member in the movable body accessory A is connected to two motors 232-211A (hereinafter, referred to as motor A), and based on an excitation pulse signal from the sub-main control board 2320, as will be described later. The motor A is driven by being excited. Further, the movable member in the movable body accessory C is connected to one motor 232-211C (hereinafter referred to as motor C), and based on the excitation pulse signal from the sub-main control board 2320, as will be described later. The motor C is configured to be driven by being excited.

  Since this figure is an exploded perspective view, it is easy to determine in which unit the movable body accessories A to D are installed. However, when these units are attached to a gaming machine, It is configured to be difficult to distinguish from the appearance of the machine. For example, when the game board back unit 232-200 is attached to the game machine, the movable body accessory A is located on the player side with respect to the effect display device 2140 in FIG. It seems to have been done. Further, as will be described later, since the movable body accessory A and the movable body accessory B are configured to operate in conjunction with each other, the movable body accessory A and the movable body accessory B are installed in the same unit. By misunderstanding that the movable body accessory A is installed in the game board front unit 232-100, it is captured.

  Next, operation modes of the movable body accessory B and the movable body accessory D in the present embodiment will be described with reference to FIG. The movable member in the movable body accessory B (movable body accessory D) moves to the center of the game area when the solenoid B (D) is excited, and the solenoid B (D) is demagnetized (reference). ) To return to the position. Note that the movable body accessory B and the movable body accessory D are configured to be capable of independently controlling their operations.

  Next, with reference to FIG. 5, operation modes of the movable body accessory A and the movable body accessory C in the present embodiment will be described. First, the movable member in the movable body accessory A has a motor A in the first rotation direction (for example, the motor located on the left side of the movable body accessory A in the figure rotates clockwise, and on the right side of the movable body accessory A). Energized to rotate in the counterclockwise direction of the motor that is located, to the center of the game area (when the decorative symbol is displayed at the reference position, part or all of the display content is hidden) To). On the other hand, the motor A is rotated in the second rotation direction (for example, in FIG. 2, the motor located on the left side of the movable accessory A rotates counterclockwise, and the motor located on the right of the movable accessory A rotates clockwise. Even when excited to rotate in the (direction) direction, it returns to the original (reference) position. Next, the movable member in the movable body accessory C is energized so that the motor C rotates in the first rotation direction (for example, the direction in which the motor C rotates in the clockwise direction in the figure). Move to the side. On the other hand, when the motor C is excited to rotate in the second rotation direction (for example, the direction in which the motor C rotates counterclockwise in the figure), the motor C returns to the original (reference) position. Here, in this embodiment, as shown in the figure, the movable area of the movable body accessory A and the movable area of the movable body accessory C are configured to overlap. In other words, depending on the position where the movable body accessory A and the movable body accessory C exist, they interfere with each other.

<Electrical configuration>
Next, an electrical schematic configuration of the pachinko gaming machine according to the present embodiment will be described with reference to the block diagram of FIG. First, as described above, the pachinko gaming machine according to the present embodiment pays out a game ball based on the main control board 1000 that controls the progress of the game and information (signals, commands, etc.) from the main control board 1000. Controls the prize ball payout control board 3000 to be controlled, various effects on the effect display device 2140 such as decoration pattern change / stop, etc., effects from the sound from the speaker 114, lighting of the game effect lamp 190, and error notification are controlled. A sub-main control board 2320 and a sub-sub control board 2310 for executing display processing such as a variation display / stop display of a decorative symbol on the effect display device 2140, a hold display, a notice display, and the like. Here, in the main control board 1000, the prize ball payout control board 3000, the sub main control board 2320, and the sub sub control board 2310, a CPU that performs various arithmetic processes, a ROM that preliminarily stores programs that define the arithmetic processes of the CPU, A RAM that temporarily stores data handled by the CPU (various data generated during the game, computer programs read from the ROM, etc.) is mounted. Each substrate is connected to a power supply unit, and can be electrically operated by being supplied with power from the power supply unit.

  First, the main control board 1000 is connected to a prize ball payout control board 3000, a sub-main control board 2320, and a prize opening sensor S such as the first ball detection apparatus 2211 and the second ball detection apparatus 2111. . In addition, it is also connected to a hall computer or the like via an external connection terminal (not shown), and is configured so that game related information can be output from the main control board 1000 to an external device.

  Next, the prize ball payout control board 3000 is a device that can be operated by the player and the prize ball payout mechanism 210 for paying out the game balls. The game ball lending request is received and transmitted to the prize ball payout control board 3000. Connected to the game ball lending device 100. The sub-sub control board 2310 is connected to the effect display device 2140. In the present embodiment, the game ball lending device 100 is separately provided and adjacent to the game machine. However, the game ball lending device 100 may be integrated with the game machine. Control and management control of a recording medium for lending such as electronic money may be integrated.

  Next, the sub-main control board 2320 includes a sub-sub control board 2310, a game board front unit 232-100 and a game board back unit 232-200, and a movable object that can report an error relating to the movable object. It is connected to error notification means (front unit correspondence) 232-31 and movable body accessory error notification means (back unit correspondence) 232-32. In addition, a speaker 114, a game effect lamp 190, and the like are also connected. Here, in this embodiment, the movable body accessory error notification means (corresponding to the front unit) 232-31 and the movable body accessory error notification means (corresponding to the back unit) 232-32 are configured by a plurality of LEDs. As will be described later, when an abnormal operation in the movable body accessory A to the movable body accessory D is detected, the abnormal operation is related to the movable body accessory installed in any position of any unit. It is configured so that it can be discriminated so that it can be discriminated (for example, notification is made by a combination of a lighting location or a lighting location of an LED).

  Next, in the connection between the sub-main control board 2320 and the game board front unit 232-100, a position where the movable body accessory group (front unit side) 232-110 and the presence position of the movable body accessory group can be detected. It is connected to the sensor group (front unit side) 232-120. Further, in the connection between the sub-main control board 2320 and the game board back unit 232-200, a position sensor capable of detecting the position of the movable object combination (back unit side) 232-210 and the movable object combination group. It is connected to the group (back unit side) 232-220. Hereinafter, the inside of each unit will be described in detail.

  Next, the internal configuration of the game board unit according to the present embodiment will be described with reference to the block diagram in the upper part of FIG. First, the solenoid B (D) in the movable body accessory group (front unit side) 232-110 and the motor A (C) in the movable body accessory group (back unit side) 232-210 are connected to the sub-main control board 2320. ing. Further, a position sensor 232-120B (hereinafter referred to as position sensor B) and a position sensor 232-120D (hereinafter referred to as position sensor D) in the position sensor group (front unit side) 232-120 and a position sensor group (rear unit). Side) 232-220, position sensor 232-220A (hereinafter referred to as position sensor A) and position sensor 232-220C (hereinafter referred to as position sensor C) are connected to sub-main control board 2320. Here, the solenoid B (D) and the motor A (C) are excited based on the excitation pulse signal transmitted from the sub-main control board 2320 side, and the movable body accessory B (D) and the movable body accessory A (C). Drive. In addition, the position of the movable body accessory B (D) and the movable body accessory A (C) is detected by the position sensor B (D) and the position sensor A (C), and the detected position information is sub-main control board. 2320. With this configuration, each of the movable body accessories A to D can be controlled from the sub-main control board 2320 side. For example, as the position sensor A, the position sensor α is installed at the initial position of the movable body accessory A, and the position sensor β is installed at the maximum drive position of the movable body accessory A. The position sensor A is movable by each position sensor. By transmitting information related to whether or not the body accessory A has been detected to the sub-main control board 2320 side, it is possible to detect the position of the movable object A. Furthermore, this embodiment has a feature in the structure of the excitation control unit so that the solenoid B (D) and the motor A (C) are not burned out due to a control malfunction on the sub-main control board 2320 side. is doing. Hereinafter, the excitation control unit in the sub-main control board 2320 will be described in detail.

  Next, an electrical schematic configuration of the excitation control unit in the sub-main control board 2320 according to the present embodiment will be described with reference to a block diagram in the middle stage of FIG. First, the sub-main CPU 232-300 is connected to the RAM 232-400 and the I / O port 232-500, and outputs the excitation pulse signal and the control signal separately via the I / O port 232-500. It is configured to Next, the I / O port 232-500 is connected to the driver 232-600, and the excitation pulse signal and control signal output from the I / O port 232-500 are logical circuits (in this example, positive logic). And is not limited to this), and is input to the driver 232-600 after being converted into one signal. The driver 232-600 is connected to each of the solenoid B (D) and the motor A (C), and the solenoid B (D) and the motor A (C) are connected to each other based on the converted excitation signal. On the other hand, excitation power can be supplied. Here, the lower part of the figure is an example of a state in which the excitation pulse signal and the control signal are converted into one signal through the logic circuit. As shown in the figure, the excitation pulse signal is a rectangular signal that repeats H (high) level and L (low) level, and the control signal is either H level or L level over a predetermined period. It is a signal that keeps being held. When the control signal is at the H level, the rectangular signal of the excitation pulse signal is converted into the excitation signal with the same shape. On the other hand, when the control signal is at L level, all the rectangular signals of the excitation pulse signal are converted to L level signals and become excitation signals (that is, they are in a non-excitation state). In the present embodiment, the excitation signal (or excitation power value) that is the converted signal can be input to the sub main CPU 232-300 via the I / O port 232-500. The main CPU 232-300 is configured to be able to store the input excitation signal (or excitation power value) in the RAM 232-400. In the RAM 232-400, since a buffer area is secured so that excitation signals (or excitation power values) for a predetermined period can be accumulated, the solenoid B (D) and the motor A (C) are stored in the predetermined period. It is possible to calculate the supplied excitation power value. Note that control signal output control, excitation power value utilization, and the like will be described later.

  Next, various functions of the pachinko gaming machine according to the present embodiment will be described with reference to the block diagram of FIG. First, the main control device 1000 is connected to a game peripheral device 2000 related to the game and a prize ball payout control device 3000 that performs payout control of a predetermined number of prize balls based on a payout instruction from the main control device 1000 so as to communicate information. ing. In the following description, each means included in the main controller 1000 may be configured to be mounted on a peripheral device (for example, the game peripheral device 2000). For example, in the present embodiment, the main controller 1000 has a payout control function. However, the main controller 1000 may be configured to have the prize ball payout controller 3000, for example. Similarly, each means included in the peripheral device (for example, the game peripheral device 2000) may be configured to be mounted on the main controller 1000. The details of each means (device) will be described below.

  First, the main control device 1000 includes a game control means 1100 for controlling the first main game, second main game, special game, auxiliary game, and general game, and various game information {eg, stop Symbol information, stop symbol attribute information (for example, probability variation jackpot, sudden probability variation jackpot, sudden time shortening variation jackpot, small hit, loss), information on variation mode (for example, variation time), special game start signal / status Information transmission control means 1300 for transmitting information / end signal, hold information, hold look-ahead information, etc., and prize ball payout control so as to pay out predetermined prize balls based on winning of game balls to various winning holes Prize ball payout determining means 1400 for controlling the device 3000 and vibration error detection control for detecting vibration applied to the gaming machine and for controlling error related to the vibration It has a stage 1600, the.

  Here, the game control means 1100 determines whether or not each random number can be acquired by determining whether or not each ball can be acquired, and whether or not the ball determination means 1110 determines whether the game ball flows into each ball entrance (starting port, etc.). Random number acquisition determination execution means 1120 for acquiring each random number, a hold control means 1130 for temporarily storing a ball entering each start port during a variable display as a hold ball within an upper limit number, and game contents to be described later Win / fail lottery means 1135 for lottery based on a determined random number (win random number), and symbol content determining means for determining a stop symbol and a variation mode (variation time, etc.) of each symbol based on each random number. 1140, display control means 1150 for performing control to change and stop each symbol, and various processes directly related to determination of opening / closing of the electric accessory 2112 of the second main game starting port 2110 The moving object opening / closing control means 1160, the special game control means 1170 for controlling each special game which is more advantageous to the player than the normal game, and the current game state regarding which game is related to the first main game and the second main game Specific game control means 1180 for determining whether to shift to the state, processing for shifting the gaming state based on the determination, and the current gaming state {e.g., state relating to the main game (normal gaming state, probability variation gaming state , Time-reduced gaming state, special gaming state), state relating to auxiliary games (easy release state, non-easy release state), stop symbol and fluctuation mode information related to main game symbol, on / off status of various flags, gaming state during special game (For example, information on the number of rounds and the number of winning prizes)} or the like is temporarily stored. Hereinafter, each means will be described in detail.

  First, the entrance determination means 1110 is directed to the first main game start entrance entrance determination means 1111 and the second main game start entrance 2110 that determine whether or not a game ball has entered the first main game start entrance 2210. Second main game start entrance entrance judging means 1112 that judges whether or not a game ball has entered, and auxiliary game entrance entrance that judges whether or not a game ball has flown into the auxiliary game entrance 2410 Determination means 1113.

  Next, the random number acquisition determination execution means 1120 determines whether or not to acquire a game content determination random number (first main game random number) based on the game ball entering the first main game start port 2210 and determines A first main game random number acquisition determination execution means 1121 for acquiring the random number (for example, a winning random number, a variation mode determination random number, a main game symbol determination random number, etc.) according to the result, and a game ball to the second main game start port 2110 It is determined whether or not to acquire a game content determination random number (second main game random number) based on the incoming ball, and according to the determination result, the random number (for example, winning random number, variation mode determination random number, main game symbol determination random number) Etc.) and a secondary game random number acquisition determination execution means 1123 for determining whether or not an auxiliary game symbol winning random number can be acquired and acquiring the random number based on the determination result When It has.

  Here, the “random numbers” in the claims and the specification including the above are, for example, “0” to “65535” (winning random number) or “0” to “255” ( It is a value randomly selected from a predetermined range such as (variation mode determination random number). The random number may not be a mathematically generated random number, but may be a pseudo random number generated by a hardware random number, a software random number, or the like. For example, the expression method of each value in the random number is a method in which the value is expressed in order along the random number sequence (plus one method), the next value when the final value of the random number sequence is expressed (initial value) ) With a contingent value (initial value update method), a combination of these, and the like.

  Next, the hold control means 1130 determines whether or not to temporarily store the game content determination random number acquired in a situation where the first main game symbol variation permission has not been granted, and based on the determination result, the random number is subjected to symbol variation. First main game symbol hold means 1131 for holding in the first main game symbol hold information temporary storage means 1131a until permission is granted, and the game content determination random number acquired in a situation where the second main game symbol change permission is not granted And a second main game symbol holding means 1132 for holding the random number in the second main game symbol hold information temporary storage means 1132a until the symbol variation permission is lowered based on the determination result. , Determine whether to temporarily store the auxiliary game symbol winning random number acquired in the situation where the auxiliary game symbol variation permission has not been granted, and based on the determination result, the random number is permitted to vary And an auxiliary game symbol hold means 1133 for holding up descend. Here, the first main game symbol holding means 1131, the second main game symbol holding means 1132 and the auxiliary game symbol holding means 1133 can temporarily store up to four random numbers combined with the holding order. The first main game symbol hold information temporary storage means 1131a, the second main game symbol hold information temporary storage means 1132a, and the auxiliary game symbol hold information temporary storage means 1133a are provided.

Next, the success / failure lottery means 1135 determines whether or not to win a special game if the result of the success / failure lottery is a win (for example, internally turns on the winning flag), and the success / failure lottery means 1135a. And a success / failure lottery table 1135b which is referred to when performing. Here, the success / failure lottery table 1135b performs the first main game success / failure lottery table 1135b-1 referred to when performing the success / failure lottery with respect to the first main game symbol and the second main game symbol with respect to success / failure lottery. And a second main game success / failure lottery table 1135b-3 referred to at the time. Here, Table 1 is an example of a first main game success / failure lottery table and a second main game success / failure lottery table for each gaming state. In the present embodiment, for convenience of explanation, the small hitting lottery table is omitted, but such a table may exist separately (in this case, the big hitting lottery is performed first and then the small hitting lottery is performed. Or, you must draw a small lottery first and then a big hit lottery). Alternatively, it may be one lottery table in which the big hit and the small hit are combined.

  Next, the symbol content determination means 1140 determines the stop symbol and variation mode (variation time, etc.) of the first main game symbol based on the acquired game content determination random number (first main game random number). A second main game content determination unit 1142 that determines a stop pattern and a variation mode (variation time, etc.) of the second main game symbol based on the determination unit 1141 and the acquired game content determination random number (second main game random number); And auxiliary game content determining means 1143 for determining a stop symbol of the auxiliary game symbol based on the acquired auxiliary game symbol winning random number.

Here, the first main game content determination means 1141 has a first main game content determination lottery table 1141a that is referred to when determining a stop symbol or a variation mode related to the first main game symbol, The first main game content determination lottery table 1141a includes various lottery tables that differ depending on the result of the success / failure and the gaming state (for example, with regard to the gaming state, the lottery table for the first main game normal gaming state, Probability change game → first main game probability change game state lottery table, time reduction game → first main game time reduction game state lottery table). The second main game content determination means 1142 has a second main game content determination lottery table 1142a that is referred to when determining a stop symbol or a variation mode related to the second main game symbol. The two main game content determination lottery table 1142a includes various lottery tables that differ depending on the result of the success / failure and the game state (for example, with regard to the game state, the lottery table for the second main game normal game state, the probability Floating game → second main game probability variable game state lottery table, time reduction game → second main game time reduction game state lottery table). Furthermore, the auxiliary game content determination means 1143 has an auxiliary game content determination lottery table 1143a that is referred to when determining a stop symbol related to the auxiliary game symbol, and the auxiliary game content determination lottery table 1143a includes: Various winning tables that differ depending on the game state are provided (normal game → auxiliary game normal lottery table, probability variation game and time shortening game → auxiliary game time shortening lottery table). Here, Table 2 is an example of a first main game content determination lottery table and a second main game content determination lottery table (stop symbol) for each of the winning / failing results and gaming states. As shown in Table 2, in this embodiment, there are a plurality of symbols as jackpot symbols. The profit state at the time of the special game and the game state after the special game are determined based on the type of symbol (this will be described later). Table 3 is an example of a first main game content determination lottery table and a second main game content determination lottery table (variation mode) for each of the winning / failing results and the gaming states. In this embodiment, for convenience of explanation, the table is not configured to have a different table according to the number of reserved balls, but needless to say, it may be configured to have a different table according to the number of reserved balls. Absent. In the present embodiment, for convenience of explanation, the main game content determination lottery table configuration is common to the first main game symbol and the second main game symbol. However, different table configurations may be used.

  Next, the display control means 1150 controls the first main game symbol display unit 2130 of the first main game symbol display device 2130 to stop and display after changing the first main game symbol for a predetermined time. On the game symbol control means 1151 and the second main game symbol display unit 2231 of the second main game symbol display device 2230, the second main game symbol is controlled to stop and display after changing the second main game symbol for a predetermined time. If random numbers are temporarily stored in the control means 1152, the first main game symbol hold information temporary storage means 1131a, and the second main game symbol hold information temporary storage means 1132a, the random number hold means temporarily Main game symbol hold release control means 1154 for determining whether to prioritize fluctuations in the main game symbol based on the stored random number, and the auxiliary game symbol display unit 242 of the auxiliary game symbol display device 2420 Above, and an auxiliary game symbol control means 1153 for performing the control for stopping the display after varying the predetermined time auxiliary game design.

  Here, the first main game symbol control means 1151 further includes first main game symbol change time management means 1151a for managing the change time according to the change mode determined by the first main game content determination means 1141. doing. The first main game symbol variation time management means 1151a further includes a first main game symbol variation management timer 1151a-1 (decrement counter) that can be cleared to zero. Next, the second main game symbol control means 1152 further has second main game symbol change time management means 1152a for managing the change time according to the change mode determined by the second main game content determination means 1142. doing. The second main game symbol variation time management means 1152a further includes a second main game symbol variation management timer 1152a-1 (decrement counter) that can be cleared to zero. Further, the auxiliary game symbol control means 1153 has auxiliary game symbol variation time management means 1153a for managing the variation time of the auxiliary game symbols on the auxiliary game symbol display unit 2421 of the auxiliary game symbol display device 2420. . The auxiliary game symbol variation time management means 1153a further includes an auxiliary game symbol variation management timer 1153a-1 capable of measuring time.

  Next, the electric accessory opening / closing control means 1160 includes a condition determining means 1161 for determining whether or not a condition for performing a process for opening and closing the electric accessory 2112 of the second main game starting port 2110 is satisfied. And an opening timer 1162 for measuring the driving (opening) time of the electric accessory 2112 in the second main game starting port 2110.

Next, the special game control means 1170 determines whether or not the condition for shifting to the special game is satisfied, specifically, whether or not the winning is won (the winning flag is generated). Together with the determination, whether or not the first main game symbol has stopped in a predetermined mode (predetermined modes “7A” to “1A”) or the second main game symbol has stopped in a predetermined mode (predetermined modes “7B” to “1B”) If the condition determination means 1171 for determining whether or not the game has been fulfilled and the special game transition condition is satisfied, the contents of the special game (specifically, the big winning opening to be opened, the number of rounds, the time between rounds, etc.) ) Is set in the special game related information temporary storage means 1194, and a special game is executed in which the first big prize opening 2122 or the second big prize opening 2220 is opened under a predetermined condition. Special game execution means 1173 , And a special game time management means 1174 for performing time management of various processes related to a special game. Here, the special game time management means 1174 further includes a special game timer 1174a capable of measuring time. The special game content determination unit 1172 further includes a special game content reference table 1172a that is referred to when specifying the content of the special game to be set in the special game related information temporary storage unit 1194. Here, Table 4 is an example of a special game content reference table. As shown in Table 4, “7A, 7B” is a high-profit special game that can win many balls. On the other hand, “6A to 1A, 6B to 1B” is a low-profit special game in which a large number of balls cannot be obtained. Here, as can be seen from the comparison with the contents shown in Tables 1 and 2, the ratio of the high profit special game is higher in the second main game than in the first main game, and the big hit The ratio of probability and probability variation jackpots is the same for the first main game and the second main game. That is, in the present embodiment, the profit rate in the second main game is generally higher than the profit rate in the first main game, but the present invention is not limited to this, and the first main game and the first You may be comprised so that the profit rate of 2 main games may be equivalent.

  Next, the specific game control means 1180 has specific game end condition determination means 1181 for determining whether or not the end condition for the specific game state is satisfied. Here, the specific game end condition determining means 1181 further includes a time reduction counter 1181a capable of counting the time reduction. Here, the “specific game” means, for example, a probability variation game in which a lottery probability for a special game is higher than that in a normal game or a time shortening game in which the variation time of a main game symbol is relatively shorter than that in a normal game. Point to.

  Here, in the present embodiment, during the time reduction, the variation time of the first main game symbol and the second main game symbol is relatively shortened (time reduction function) as compared with the non-time reduction. Furthermore, the variation time of the auxiliary game symbol is also relatively shortened, and the opening extension time of the electric accessory 2112 of the second main game starting port 2110 is relatively extended (opening time extension function). In addition, the time reduction in this embodiment ends when the total value of the number of changes in the first main game symbol and the number of changes in the second main game symbol exceeds a predetermined number (excluding a probability change game with no time limit limitation). ). That is, the number of time reductions is subtracted for each change (stop) of the first main game symbol and the second main game symbol. Here, as shown in Table 4, in this embodiment, the specific game content is predetermined for each winning symbol, and when the special game related to each winning symbol ends, the specific game is referred to by referring to this table. The content is determined. The above-mentioned specific game end condition determining means 1181 has, for example, a function of performing a lottery transition from a specific game (for example, a probability-change game or a time-reduced game) to a normal game with a predetermined probability every time a symbol changes. Good (in the case of pachinko machines with a falling lottery function).

  Next, the game state temporary storage means 1190 is a first main game state temporary storage means for temporarily storing the current game state in the first main game (game from the change of the first main game symbol to the stop). 1191, second main game state temporary storage means 1192 for temporarily storing the current game state in the second main game (game from the change of the second main game symbol to the stop), and current in the auxiliary game Auxiliary game state temporary storage means 1193 for temporarily storing the game state and the current game state in the special game (for example, the number of rounds, the number of game balls won in any round, on / off of various flags related to the special game, etc.) Special game related information temporary storage means 1194 for temporary storage.

  Here, the first main game state temporary storage means 1191 is a first flag temporary storage means 1191a for temporarily storing ON / OFF information of various flags in various game states related to the first main game, and the first main game state that is currently changing. And a first main game symbol information temporary storage means 1191b for temporarily storing stop symbols and variation mode information related to the game symbols (first main game symbols satisfying the change start condition).

  The second main game state temporary storage means 1192 includes second flag temporary storage means 1192a for temporarily storing ON / OFF information of various flags in various game states related to the second main game, and the second main game that is currently changing. There is a second main game symbol information temporary storage means 1192b for temporarily storing the stop symbol and the variation mode information related to the symbol (second main game symbol for which the variation start condition is satisfied).

  The auxiliary game state temporary storage unit 1193 temporarily stores information related to the auxiliary game (for example, on / off information of various flags such as an auxiliary game symbol winning flag, a release extension flag, and a time reduction flag). It has storage means 1193a and auxiliary game symbol information temporary storage means 1193b for temporarily storing information such as stop symbols related to the currently changing auxiliary game symbols (auxiliary game symbols for which change start conditions are established). .

  Next, the vibration error detection control means 1600 controls to invalidate the input means (for example, a ball entry determination means) on the main controller side when detecting an error related to vibration applied to the gaming machine. An input invalidation means 1610 and an input invalidation state holding period timer 1611 for measuring an input invalidation state holding period, which is a period for holding the invalidation state of the input means, are provided. When a vibration error is detected, the award ball control device may be controlled so as to cancel the permission to launch the hit ball, and the game information at the time of error is temporarily saved in the RAM, and the game state at the time of error is resumed at the time of return. It may be configured.

  Next, the gaming peripheral device 2000 will be described. Since some of the peripheral devices have already been described in detail, the remaining configuration will be briefly described. First, the game peripheral devices are a first main game peripheral device A that is a peripheral device on the first main game side, a second main game peripheral device B that is a peripheral device on the second main game side, and a first main game side. And a first and second main game shared peripheral device C that is a shared peripheral device on the second main game side, and an auxiliary game peripheral device D related to the auxiliary game. Hereinafter, these peripheral devices will be described in order.

  First, the first main game peripheral device A includes a first main game start port 2210 that triggers the transition to a special game, and a first main game symbol display device 2130 that can display a stop and change display of the first main game symbol. have.

  Next, the second main game peripheral device B has a second main game start port 2110 that triggers the transition to the special game, and a second main game symbol display device 2230 capable of displaying a stop and change display of the second main game symbol. And have.

  Next, the first / second main game shared peripheral device C is in a closed state during a normal game, and is opened under a predetermined condition during a special game. It has a second grand prize opening 2220 that is in a closed state during a game and is open under a predetermined condition during a special game.

  Next, the auxiliary game peripheral device 2400 has an auxiliary game entrance 2410 that triggers the opening of the electric accessory 2112 of the second main game start port 2110, and an auxiliary game that can display stop and change display of auxiliary game symbols. And a symbol display device 2420.

  Furthermore, main controller 1000 is unidirectionally connected to a sub-main control board (production display control means 2320) that controls all output (including display) related to the production. Then, the effect display control means 2320 can communicate information with the sub-sub control board (effect display means 2310) that performs the output related to the effect, including the stop display and change display of the decorative symbols and the display indicating the progress of the game during the special game. Connected to. In addition, the production relates to the display of only the information that does not affect the game result, including the variation of the decoration pattern in a time synchronized manner with the variation of the first main game symbol and the second main game symbol. Is.

  Here, the effect display control means 2320 is a display information receiving means 2321 for receiving various types of information from the main control device 1000 side, and a decoration display for controlling the decoration pattern variation mode and stop pattern determination processing and display control processing. Control means 2322, design hold information display control means 2323 for managing the number of decorative symbols held and holding display processing, and general presentation information such as notice effects, special game effects, decoration lamps, voice and other effects Production general information temporary storage means 2324 for temporary storage, movable body accessory control means 2325 for controlling the operation of the movable body accessory, and power-on executed on the sub-board side when powering on the gaming machine Power-on-time processing control means 2326 for controlling time processing, and sub-side gaming state control means 2327 for controlling the gaming state on the sub-board side such as effect mode. It is. Hereafter, each said means is explained in full detail.

  First, the display information receiving means 2321 has main-side information temporary storage means 2321a for temporarily storing symbol information and display instruction information related to the first main game and the second main game from the main controller 1000 side. .

Next, the decorative symbol display control means 2322 is based on the information from the main controller 1000 side, and the decorative symbol display content determining means 2322a for determining the stop symbol and the fluctuation pattern of the decorative symbol, and the decorative symbol variation mode and symbol. For temporarily storing design variation mode / symbol storage means 2322b for storing the image / moving image data and the like, and various types of information (variation mode information, stop symbol information, various flags, etc.) relating to the design variation of the decorative design Design special stop symbol content determination that determines a special stop symbol as a stop symbol of a decorative symbol when an inconsistency related to symbol information received from the main controller 1000 side is detected. Means 2322d. Here, the drawing display content determination means 2322a has a drawing variation content determination lottery (reference) table 2322a-1 that is referred to when determining the stop symbol and variation mode of the decorative symbol. Table 5 is a stop symbol determination reference table, and Table 6 is a variation mode determination reference table. As can be seen from these tables, in the present embodiment, the stop symbol or variation mode of the decorative symbol is determined based on the main game symbol information (stop symbol information or variation mode information) transmitted from the main controller 1000 side. It is configured as follows. In addition, as for the stop symbol of the decorative symbol, in the case of winning, it is determined by lottery based on the attribute information of the main game symbol, and in the case of losing, it is determined by lottery based on whether it is reach or non-reach, About the variation | change aspect of a decoration symbol, although comprised so that it may be uniquely identified based on the variation | change aspect of a main game symbol, it is not limited to this at all. For example, even if the decoration symbol is uniquely determined by linking to the stop symbol of the main game symbol, the variation mode of the decoration symbol is determined by lottery based on the variation mode (or variation time) of the main game symbol. It may be configured to be.

In addition, the design special stop symbol content determination means 2322d has a special stop symbol content determination reference table 2322d-1 that is referred to in order to determine the special stop symbol of the decorative symbol. Here, Table 7 is an example of the special stop symbol content determination reference table 2322d-1. As shown in this table, the special stop symbol content determination reference table 2322d-1 stores a stop symbol as a special stop symbol. Here, each stop symbol in the special stop symbol is represented by a combination of symbols (numerical symbols in this example) used in the stop symbol determination reference table in the drawing variation content determination reference table 2322a-1. Has been. As will be described later, the special stop symbol is selected only when the predetermined condition is satisfied (for example, when it is detected that the symbol information transmitted from the main side is not normal), and the predetermined condition is satisfied. If not satisfied, the special stop symbol is not selected. In addition, a special variation mode (for example, symbol stop in the order of stop of middle symbol → right symbol → left symbol) is provided instead of the special stop symbol, and the special variation mode is selected only when a predetermined condition is satisfied, If the above condition is not satisfied, the special variation mode may not be selected.

  Next, the drawing hold information display control means 2323 has a drawing hold information temporary storage means 2323a for temporarily storing information related to the hold related to the decorative design. Moreover, the drawing hold information temporary storage means 2323a has the drawing hold counter 2322a-1 for counting the number of hold concerning a decoration design.

  Next, the movable body accessory control means 2325 performs the movable body accessory initial operation execution control means 2325a that controls the operation related to the initial operation of the movable body accessory and the error elimination operation (retry operation) of the movable body accessory. The movable body accessory error elimination operation execution control means 2325b that controls the motion control, the movable body effect production operation execution control means 2325c that manages the motion control related to the rendering operation of the movable body accessory, and the operation control of the movable body accessory The movable body accessory operation state information temporary storage means 2325d for temporarily storing information related to the above, and the movable body accessory abnormal operation for grasping the position information of the movable body accessory and supervising the monitoring control related to the abnormal operation of the movable body accessory In order to avoid excessive power supply to the monitoring control means 2325e, the movable body accessory drive source excitation control means 2325f that controls excitation control for the drive source that drives the movable accessory, and the drive source of the movable accessory. Movable body accessory over-electricity avoidance control means 2325g, and movable body accessory special movement execution control means for controlling to execute the control of moving the movable body accessory specially when receiving information related to the vibration error from the main side. 2325h.

  Next, the movable body accessory initial operation execution control means 2325a includes initial motion execution availability / content determination means 2325a-1 for determining whether or not the initial motion execution of the movable body accessory and the initial motion content, and the initial of the movable body accessory. Initial operation start control means 2325a-2 for executing operation start control of the movable body accessory based on the operation content, and initial stage for executing the operation end control of the movable body accessory while grasping the initial operation execution state of the movable body accessory Operation end control means 2325a-3. Further, the initial motion execution availability / content determination means 2325a-1 includes an initial motion content determination reference table 2325a-1-1 that is referred to in order to determine the initial motion content of each movable body accessory. .

Here, Table 8 is an example of the initial operation content determination reference table 2325b-1-1. As shown in this example, in the initial motion content determination reference table 2325b-1-1, the motion content related to the initial motion of each movable body accessory is defined. Further, as the operation contents related to the initial operation, the moving position of the movable body accessory, the presence / absence of interference with other movable body accessories, and the operation priority of the movable body accessory are determined. Then, as will be described later, the initial operation of each movable body accessory is executed based on the operation content related to the initial operation.

  Next, the movable body accessory error elimination operation execution control means 2325b includes an error elimination operation execution feasibility / content decision means 2325b-1 for determining whether or not the error elimination operation can be performed for the movable body accessory and the error elimination operation content, and the movable body An error-resolving operation start control means 2325b-2 for executing the operation start control of the movable object based on the error-resolving operation content of the accessory, and grasping the error-resolving operation execution state of the movable object and the movable object And error elimination operation end control means 2325b-3 for executing operation end control. Further, the error resolving operation execution possibility / content determination means 2325b-1 has an error resolving operation content determination reference table 2325b-1-1 that is referred to in order to determine the error resolving operation content of each movable body accessory. is doing.

Here, Table 9 is an example of the error resolution operation content determination reference table 2325b-1-1. As shown in this example, in the error resolution operation content determination reference table 2325b-1-1, the operation content related to the error resolution operation of each movable body accessory is defined. Further, as the operation content related to the error elimination operation, the moving position of the movable object, the presence / absence of interference with other movable objects, and the operation priority of the movable object are determined. Then, as will be described later, the error elimination operation of each movable body accessory is executed based on the operation content related to the error elimination operation.

  Next, the movable body effect production operation execution control means 2325c includes the production operation execution availability / content determination means 2325c-1 for determining whether or not the production operation execution of the movable body accessory and the content of the production operation are performed, and the production of the movable body accessory. An effect operation start control means 2325c-2 for executing the operation start control of the movable body accessory based on the operation content, and an effect for grasping the effect operation execution state of the movable object and executing the operation end control of the movable object Operation end control means 2325c-3. Further, the performance operation execution propriety / content determination means 2325c-1 includes a performance operation content determination reference table 2325c-1-1 that is referred to in order to determine the performance operation content of each movable body accessory. .

Here, Table 10 is an example of the effect operation content determination reference table 2325c-1-1. As shown in this example, the operation content related to the rendering operation of each movable body accessory is defined in the rendering operation content determination reference table 2325c-1-1. Further, as the operation content related to the rendering operation, the operation pattern and operation timing (elapsed seconds from the start of the change) of the movable body accessory are determined for each of the decoration pattern change modes. Then, as will be described later, the rendering operation of each movable body accessory is executed based on the operation content related to the rendering operation. Here, the operation content related to the rendering operation is different from the other operation content (initial operation, error-resolving operation), and priority is given to the operation of the movable body accessory (in this example, the movable body accessories A and C) that can interfere with each other. The ranking is not set. The reason is that as shown in the example of the operation timing, the operation timing of the movable body accessory A and the operation timing of the movable body accessory C are different, and the latter operation is started after the former operation is completed. This is because the timing of both is set. In the present embodiment, the movable body accessory A and the movable body accessory B (and the movable body accessory C and the movable body accessory D) are configured to operate in conjunction with each other. It is configured so that the operation timing of each movable body accessory that operates is the same (however, it is not limited to this). Further, in this example, the variation pattern of the decorative pattern and the operation content of the movable object have a one-to-one correspondence, but the present invention is not limited to this.

  Next, the movable body accessory abnormal operation monitoring control means 2325e includes a movable body accessory basic position determining means 2325e-1 for determining a basic position of the movable body accessory, a planned position and a current position of the movable body accessory. And a movable body accessory position consistency confirmation means 2325e-2 for confirming the consistency between the two and a movable body accessory error notification control means 2325e for controlling error notification related to the movable body accessory. -4. Here, the movable body accessory basic position determining means 2325e-1 has a basic position determining reference table 2325e-1-1 which is referred to in order to determine the basic position of the movable body accessory. In addition, the movable body accessory position consistency confirmation unit 2325e-2 is a reference for determining the position consistency confirmation content that is referred to in order to determine a predetermined condition for confirming the consistency related to the positional information of the movable body accessory. It has a table 2325e-2-1. Moreover, the movable body accessory error notification control means 2325e-4 has an operation abnormality accumulation counter 2325e-4-1 for each movable body accessory that accumulates and temporarily stores the number of abnormal operation occurrences related to the movable body accessory. Yes.

Here, Table 11 is an example of the reference table 2325e-1-1 for determining the basic position. As shown in this example, in this embodiment, each of the movable body accessories A to D has different basic stop positions depending on the game state on the main side and the sub side (the movable body accessory stops when not operating). The position to be set) can be set. For example, when the main game state is the main game probability variation game state and the sub game state is the probability variation stage A, the movable object A is the initial position (the position where the movable object should stop when the power is turned on). ) Is set as a basic stop position, which is a stop position different from (). In this way, the basic stop position is configured to have different stop positions by the number of combinations that is the number of main-side gaming states × the number of sub-side gaming states. And, as will be described later, the gaming state has changed (for example, the main gaming state has shifted from the probability variation gaming state to the non-probability variation gaming state, the sub gaming state has transitioned from the normal stage A to the normal stage B, etc.) The basic stop position setting process is executed at a later predetermined timing.

Next, Table 12 is an example of a position consistency confirmation content determination reference table 2325e-2-1. As shown in this example, in the present embodiment, when a predetermined confirmation timing is reached, a position (planned position) where the movable body accessory should be present at the confirmation timing is determined, and the planned position and the current position are determined. As a result of comparing the two, if the two are significantly different, the operation abnormality of the movable body accessory can be detected. Here, the confirmation timing in the present embodiment is (1) when the gaming state is changed, (2) a predetermined timing during execution of the rendering operation of the movable body accessory, and (3) after the termination of the rendering operation of the movable body accessory, Can be broadly classified. In the case of (1) and (3), the basic stop position described above is set as the scheduled position. On the other hand, in the case of (2), the position derived based on the basic stop position and the predetermined number of drive steps is set as the planned position. As described above, by providing a plurality of confirmation timings, it is possible to quickly detect an abnormal operation of the movable body accessory. Note that the confirmation timing is an example, and other confirmation timings may be provided. In that case, for example, an example of performing so-called polling monitoring that periodically reaches the confirmation timing at a predetermined time interval can be given.

  Next, the movable body accessory drive source excitation control means 2325f provides a drive source excitation start control process 2325f-1 for controlling the start of excitation of the movable body accessory to the drive source, and the movable body accessory drive source. Drive source excitation end control processing 2325f-2 for controlling to end the excitation.

  Next, the movable body overcurrent avoidance control unit 2325g counts the drive source number upper limiter control unit 2325g-1 that limits the upper limit number of drive sources that supply excitation power, and the excitation time for each drive source. Drive source energization time monitoring timer 2325g-2 for each, and excitation source information accumulated temporary storage means 2325g- for accumulating and temporarily storing information related to the excitation power supplied to each drive source. 3. The information related to the excitation power is calculated in advance based on the supply time and the data when the power consumption per unit for each drive source is stored in advance as data and the information related to the excitation power is temporarily stored. You may comprise as follows. Also, the timing for deriving the calculation may be at the time of determining whether or not to perform limiter control by the drive source number upper limiter control means 2325g-1 rather than at the time of temporarily storing the information (the determination process will be described later). ).

  Next, the movable body accessory special movement execution control means 2325h executes the movable body accessory special movement preparation operation execution control means 2325h for executing the special movement preparation operation which is a preliminary operation before executing the special movement of the movable body accessory. -1 and movable body accessory special movement execution control means 2325h-2 for executing special movement of the movable body accessory.

  The first main game symbol display device 2130, the second main game symbol display device 2230, and the auxiliary game symbol display device 2420 are connected to the main control device 1000 so as to be able to transmit information, and the remaining effect display means 2310 is an effect. The display control unit 2320 is connected to be able to transmit information. That is, the first main game symbol display device 2130, the second main game symbol display device 2230, and the auxiliary game symbol display device 2420 are controlled by the main control device 1000, and the effect display means 2310 is controlled by the effect display control means 2320. Means that. Note that another peripheral device may be controlled via the main controller 1000 and another peripheral device controlled by one-way communication.

Next, the processing flow of the pachinko gaming machine according to the present embodiment will be described with reference to the flowcharts of FIGS. First, the flow of processing on the main board side of the pachinko gaming machine according to the present embodiment will be described with reference to the flowcharts of FIGS. Table 13 is a list of flags used in the processing of FIGS.

  First, FIG. 9 is a main flowchart showing the flow of general processing performed by the main controller 1000. First, at step 1020, main controller 1000 transmits power interruption recovery information to the sub-main control board 2320 side. Here, it is supplemented that the transmission process is a process that is executed only once at the time of power failure recovery on the main controller 1000 side. Next, at step 1050, main controller 1000 executes vibration error detection processing described later. Next, at step 1100, main controller 1000 executes an auxiliary game symbol winning random number acquisition process, which will be described later. Next, in step 1200, main controller 1000 executes an electric accessory driving determination process described later. Next, at step 1300, main controller 1000 executes a game content determination random number acquisition process, which will be described later. Next, at step 1400, main controller 1000 executes a main game symbol display process described later. Next, at step 1500, main controller 1000 executes special game operating condition determination processing described later. Next, at step 1600, main controller 1000 executes a special game control process described later. Next, in step 1700, the main controller 1000 (especially the prize ball payout determining means 1400) drives the prize ball payout control apparatus 3000 based on the winning opening where the game ball has won to pay out a predetermined number of prize balls. To return to the top of this processing flow. Hereinafter, processing related to each subroutine will be described in detail.

  Next, FIG. 10 is a flowchart of processing at the time of vibration error detection according to the subroutine of step 1050 in FIG. First, in step 1052, the vibration error detection control means 1600 detects a vibration error related to vibration or impact applied to the gaming machine based on a known method (for example, vibration provided at an arbitrary position in the gaming machine). There are a technique for detecting vibration exceeding a predetermined value based on a signal from the sensor, a technique for outputting a vibration detection signal when the vibration sensor itself detects vibration exceeding a predetermined value, and detecting vibration based on the signal. It is determined whether or not. In the case of Yes in step 1052, in step 1054, the input invalidation means 1610 at the time of vibration error detection sets a predetermined period related to the retention period of the game prohibited state in the input invalidation state retention period timer 1611 and starts the timer. . Next, in step 1056, the information transmission control unit 1300 transmits vibration error notification instruction information to the sub-main control board 2320 side. Next, in step 1058, the vibration error detection time input invalidation means 1610 disables the main controller 1000 side in a game prohibition state (for example, invalidates a ball entry signal from the winning mouth sensor S or plays a game ball by the launching device 232. To the next process (auxiliary game symbol winning random number acquisition process in step 1100). On the other hand, in the case of No in step 1052, in step 1062, the input invalidation means 1610 at the time of vibration error detection refers to the input invalidation state holding period timer 1611, and whether a predetermined period related to the holding period of the game prohibited state has elapsed. Determine whether or not. In the case of Yes in step 1062, in step 1064, the input invalidation means 1610 at the time of vibration error detection stops the input invalidation state holding period timer 1611. Next, in step 1066, the information transmission control unit 1300 transmits vibration error notification release information to the sub-main control board 2320 side. Next, at step 1068, the input invalidating means 1610 at the time of vibration error detection cancels the game prohibition state on the main control device 1000 side, and proceeds to the next process (auxiliary game symbol winning random number acquisition process of step 1100). In the case of No in step 1062, the process proceeds to the next process (auxiliary game symbol winning random number acquisition process in step 1100).

  Next, FIG. 11 is a flowchart of the auxiliary game symbol winning random number acquisition process according to the subroutine of step 1100 in FIG. First, in step 1102, the auxiliary game entrance entrance determination means 1113 determines whether or not a game ball enters (inflow, passes) the auxiliary game entrance 2410. In the case of Yes in step 1102, in step 1104, the auxiliary game random number acquisition determination execution means 1123 refers to the auxiliary game symbol hold information temporary storage means 1133a, and determines whether or not the number of hold balls is not the upper limit (for example, 4). . In the case of Yes in step 1104, in step 1106, the auxiliary game random number acquisition determination execution means 1123 acquires an auxiliary game symbol winning random number. Next, in step 1108, the auxiliary game symbol hold means 1133 adds 1 hold ball in the form of setting the random number in the auxiliary game symbol hold information temporary storage means 1133a together with information on what number of holds. Then, the process proceeds to the next process (electric accessory driving determination process of step 1300). In addition, also when it is No in step 1102 and step 1104, it transfers to the following process (electric-powered article drive determination process of step 1300).

  Next, FIG. 12 is a flowchart of the electric accessory drive determination process according to the subroutine of step 1200 in FIG. First, in step 1202, the electric accessory opening / closing control means 1160 refers to the auxiliary game related information temporary storage means 1193a to determine whether or not the electric accessory open flag is off. In the case of Yes in step 1202, in step 1204, the auxiliary game symbol control means 1153 refers to the auxiliary game related information temporary storage means 1193a and determines whether or not the auxiliary game symbol changing flag is off. In the case of Yes in step 1204, in step 1206, the auxiliary game content determination unit 1143 accesses the auxiliary game symbol hold information temporary storage unit 1133a and determines whether or not there is a hold ball related to the auxiliary game symbol. In the case of Yes in step 1206, in step 1216, the auxiliary game content determination unit 1143 refers to the auxiliary game state temporary storage unit 1193 to acquire the game state of the auxiliary game side and the acquired game state of the auxiliary game side. The stop symbol is determined based on the auxiliary game symbol random number based on the reserved ball and temporarily stored in the auxiliary game symbol information temporary storage means 1193b. Next, in step 1218, the auxiliary game symbol variation time management means 1153a sets the auxiliary game symbol variation management timer 1153a-1 to a predetermined time related to the variation time of the auxiliary game symbol (for example, based on the game state on the auxiliary game side (for example, 5 seconds for short-time games and 30 seconds for normal games. In step 1220, the auxiliary game symbol control means 1153 turns on the auxiliary game symbol fluctuation flag in the auxiliary game related information temporary storage means 1193a. Next, in step 1222, the auxiliary game symbol holding means 1133 updates the hold information recorded in the auxiliary game symbol hold information temporary storage means 1133a after subtracting 1 from the reserved ball related to the auxiliary game symbol, and also assists. The game symbol control means 1153 starts the auxiliary game symbol variation management timer 1153 a-1, and then starts the auxiliary game symbol variation display on the auxiliary game symbol display unit 2421. Next, in step 1224, the auxiliary game symbol variation time management means 1153a refers to the auxiliary game symbol variation management timer 1153a-1, and determines whether or not a predetermined time related to the variation time of the auxiliary game symbol has been reached. To do. In the case of Yes in step 1224, in step 1226, the auxiliary game symbol control means 1153 refers to the auxiliary game symbol information temporary storage means 1193b, acquires the stop symbol of the auxiliary game symbol, and stops the acquired auxiliary game symbol. The symbol is fixedly displayed on the auxiliary game symbol display unit 2421. In step 1228, the auxiliary game symbol control means 1153 turns off the auxiliary game symbol fluctuation flag in the auxiliary game related information temporary storage means 1193a. Next, in step 1230, the condition determination means 1161 determines whether or not the stop symbol of the auxiliary game symbol is “winning”. In the case of Yes in step 1230, in step 1232, the electric accessory opening / closing control means 1160 determines, based on the gaming state on the auxiliary game side, a predetermined time related to the opening time of the electric accessory in the opening timer 1162 (for example, in the case of a short-time game) Is set to 5 seconds, and 0.5 seconds in the case of a normal game. Next, in step 1234, the electric accessory opening / closing control means 1160 turns on the electric accessory open flag in the auxiliary game related information temporary storage means 1193a. In step 1236, the electric accessory opening / closing control means 1160 opens the electric accessory 2112 of the second main game starting port 2110. Next, at step 1238, the electric accessory opening / closing control means 1160 refers to the release timer 1162, and determines whether or not a predetermined time related to the opening time of the electric accessory has been reached. In the case of Yes in step 1238, in step 1240 and step 1242, the electric accessory opening / closing control means 1160 closes the electric accessory 2112 of the second main game starting port 2110, and in the auxiliary game related information temporary storage means 1193a. The electric agent release flag is turned off, and the process proceeds to the next process (game content determination random number acquisition process in step 1300).

  If NO in step 1202, the process proceeds to step 1238. If NO in step 1204, the process proceeds to step 1224. If NO in step 1206, step 1224, step 1230, and step 1238, the next process is performed. The process proceeds to (game content determination random number acquisition process in step 1300).

  Next, FIG. 13 is a flowchart of the game content determination random number acquisition process according to the subroutine of step 1300 in FIG. First, in step 1302, whether or not the first main game start port entrance determining means 1111 has received the first main game start port entrance information from the first entrance detection device 2211 of the first main game start port 2210. Determine. In the case of Yes in step 1302, in step 1304, the first main game random number acquisition determination execution means 1121 refers to the first main game symbol hold information temporary storage means 1131a, and whether or not the number of hold balls is not the upper limit (for example, 4). Determine whether. In the case of Yes in step 1304, in step 1306, the first main game random number acquisition determination execution means 1121 acquires a game content determination random number (first main game random number). Next, in step 1312, the first main game symbol hold means 1131 stores the game content determination random number in the first main game symbol hold information temporary storage means 1131a. Next, in step 1313, the information transmission control means 1300 transmits information indicating that the first main game random number has been acquired. Next, in step 1314, whether or not the second main game start port entrance determining means 1112 has received the second main game start port entrance information from the second entrance detection device 2111 of the second main game start port 2110. Determine whether. In the case of Yes in step 1314, in step 1316, the second main game random number acquisition determination execution means 1122 refers to the second main game symbol hold information temporary storage means 1132a, and whether or not the number of hold balls is not the upper limit (for example, 4). Determine whether. In the case of Yes in step 1316, in step 1318, the second main game random number acquisition determination execution means 1122 acquires a game content determination random number (second main game random number). Next, in step 1324, the second main game symbol hold means 1132 stores the game content determination random number in the second main game symbol hold information temporary storage means 1132a. Next, in step 1325, the information transmission control means 1300 transmits information indicating that the second main game random number has been acquired, and proceeds to the next process (main game symbol display process in step 1400). In the case of No in step 1302 and step 1304, the process proceeds to step 1314, and in the case of No in step 1314 and step 1316, the process proceeds to the next process (main game symbol display process in step 1400).

  Next, FIG. 14 is a flowchart of main game symbol display processing according to the subroutine of step 1400 in FIG. First, in step 1401, the main game symbol hold release control means 1154 refers to the second main game symbol hold information temporary storage means 1132a, and confirms whether there is no hold of the second main game symbol. In the case of Yes in step 1401, in step 1400 (2), main controller 1000 executes a first main game symbol display process described later, and proceeds to the next process (special game operation condition determination process in step 1500). . On the other hand, in the case of No in step 1401, in step 1400 (1), main controller 1000 executes a second main game symbol display process described later and proceeds to the next process (special game operation condition determination process in step 1500). Transition. Thus, in the present embodiment, when there is a holding ball of the second main game symbol, regardless of the presence of the holding ball of the first main game symbol (even if the winning order is the holding of the first main game symbol) Although it is configured so that the second main game symbol is preferentially executed, the present invention is not limited to this.

  Next, FIG. 15 is a flowchart of the first main game symbol display process (second main game symbol display process) according to the subroutine of step 1400 (1) {step 1400 (2)} in FIG. First, in step 1402, the first main game content determination means 1141 (second main game content determination means 1142) determines whether or not a change start condition is satisfied. Here, the condition for starting the change is that the special game or the design is not changing.

  Next, in step 1414, the first main game content determination means 1141 (second main game content determination means 1142) is a first main game symbol hold information temporary storage means 1131a (second main game symbol hold information temporary storage means 1132a. ) Is temporarily stored, and the game content determination random number related to the current symbol variation is read out. Next, at step 1403, the winning / not-lotting means 1135 refers to the first main gaming winning / losing lottery table 1135b-1 (second main gaming winning / losing lottery table 1135b-3) corresponding to each gaming state, and determines the game contents. Based on the random number (winning random number), the main game symbol winning lottery is executed. In step 1417, the special game transition determination unit 1135a determines whether or not the main game symbol winning / losing lottery result is a hit. In the case of Yes in step 1417, in step 1418, the special game transition determining unit 1135a turns on the “hit flag” in the first flag temporary storage unit 1191a (second flag temporary storage unit 1192a). On the other hand, if step 1417 is No, step 1418 is skipped.

  In step 1416, the first main game content determination unit 1141 (second main game content determination unit 1142) first lottery table 1141a (for determining the second main game content) corresponding to each game state. With reference to the lottery table 1142a), a stop symbol for the main game symbol is determined based on the main game symbol determination result lottery result and the game content determination random number (for example, the main game symbol determination random number), and a game content determination random number (for example, a variation mode determination) Based on the random number, the main game symbol variation mode is determined, and these are temporarily stored in the first main game symbol information temporary storage unit 1191b (second main game symbol information temporary storage unit 1192b).

  Next, in step 1419-1, the information transmission control means 1300 subtracts the symbol information (stop symbol information, stop symbol attribute information, variation mode information, etc.) related to the main game symbol determined in step 1416 and the current gaming state. Transmit to the main control board 2320 side. Next, in step 1419-2, the information transmission means 1300 transmits the symbol variation display start instruction information to the sub-main control board 2320 side. Next, in step 1420, the first main game symbol variation time management means 1151a (second main game symbol variation time management means 1152a) is a predetermined time related to the variation time of the main game symbol (the variation mode determined in step 1416) Is set in the first main game symbol variation management timer 1151a-1 (second main game symbol variation management timer 1152a-1). Then, in step 1422, the first main game symbol control means 1151 (second main game symbol control means 1152) is the first main game symbol of the first main game symbol display device 2130 (second main game symbol display device 2230). On the display unit 2131 (second main game symbol display unit 2231), in accordance with the variation mode stored in the first main game symbol information temporary storage unit 1191b (second main game symbol information temporary storage unit 1192b), Start the variable display. Next, in step 1446, the first main game symbol control means 1151 (second main game symbol control means 1152) turns on the changing flag in the first flag temporary storage means 1191a (second flag temporary storage means 1192a). To do. In step 1434, the first main game symbol variation time management means 1151a (second main game symbol variation time management means 1152a) determines whether or not a predetermined time related to the variation time of the main game symbol has been reached. In the case of Yes in step 1434, in step 1437, the information transmission control unit 1300 transmits the symbol confirmation display instruction information to the sub main control board 2320 side. Next, in step 1438, the first main game symbol control means 1151 (second main game symbol control means 1152) makes the first main game of the first main game symbol display device 2130 (second main game symbol display device 2230). The variable display of the main game symbol on the symbol display unit 2131 (second main game symbol display unit 2231) is stopped, and the first main game symbol information temporary storage unit 1191b (second main game symbol information temporary storage unit 1192b) is stopped. The stored stop symbol is displayed and controlled as a fixed stop symbol. Next, in step 1440, the first main game symbol control means 1151 (second main game symbol control means 1152) turns off the changing flag in the first flag temporary storage means 1191a (second flag temporary storage means 1192a). To. In step 1442, the first main game symbol variation time management means 1151a (second main game symbol variation time management means 1152a) first timer game variation management timer 1151a-1 (second main game symbol variation management). Timer 1152a-1) is reset. Next, at step 1450, main controller 1000 executes a specific game end determination process described later, and proceeds to the next process (special game operation condition determination process at step 1500). In the case of No in step 1434, the process proceeds to the next process (special game operation condition determination process in step 1500).

  In the case of No in step 1402, in step 1444, the first main game symbol control means 1151 (second main game symbol control means 1152), the first flag temporary storage means 1191a (second flag temporary storage means 1192a). ), It is determined whether or not the changing flag is ON. If Yes in Step 1444, the process proceeds to Step 1434, and if No in Step 1444, the process proceeds to the next process (special game operation condition determination process in Step 1500).

  Next, FIG. 16 is a flowchart of the specific game end determination according to the subroutine of steps 1450 (1) and (2) in FIG. First, in step 1452, the specific game control means 1180 refers to the time / count counter 1181a to determine whether or not the time / count counter value is greater than zero. In the case of Yes in step 1452, in step 1454, the specific game control means 1180 subtracts 1 from the time-count counter value of the time-count counter 1181a. Next, in step 1456, the specific game control means 1180 refers to the time reduction counter 1181a and determines whether or not the time reduction is zero. In the case of Yes in step 1456, in step 1460, the specific game control unit 1180 turns off the time reduction flag in the first flag temporary storage unit 1191a and the time reduction flag in the second flag temporary storage unit 1192a. Next, in step 1462, the specific game control means 1180 turns on the short time end flag in the game state temporary storage means 1190, and proceeds to the next process (special game operation condition determination process in step 1500). In addition, also when it is No in step 1452 and step 1456, it transfers to the following process (special game operation condition determination process of step 1500).

  Next, FIG. 17 is a flowchart of the special game operation condition determination process according to the subroutine of step 1500 in FIG. First, in step 1502, the condition determination unit 1171 refers to the first flag temporary storage unit 1191a (second flag temporary storage unit 1192a) and determines whether or not the hit flag is on. In the case of Yes in step 1502, in step 1504, the condition determination means 1171 causes the first main game symbol display unit 2131 (second main game symbol) of the first main game symbol display device 2130 (second main game symbol display device 2230). It is determined whether or not the main game symbol displayed on the display unit 2231) is stopped in a predetermined manner. In the case of Yes in step 1504, in step 1505, the special game content determination means 1172 refers to the special game content reference table 1172a (see the previous table) on the basis of the predetermined mode, thereby determining the content of the special game. set. Next, in steps 1552 and 1554, the specific game control unit 1180 temporarily turns off the specific game flag (probability variation flag / time reduction flag) in the first flag temporary storage unit 1191a and the second flag temporary storage unit 1192a. At the same time, the time reduction counter 1181a is reset (time reduction counter value = 0). Then, in step 1506 and step 1508, the condition determination means 1171 turns on the special game transition permission flag in the special game related information temporary storage means 1194, and the first flag temporary storage means 1191a (second flag temporary storage means). The winning flag in 1192a) is turned off, and the process proceeds to the next process (special game control process in step 1600). It should be noted that, even in the case of No in step 1502 and step 1504, the process proceeds to the next process (special game control process in step 1600).

  Next, FIG. 18 is a flowchart of the special game control process according to the subroutine of step 1600 in FIG. First, in step 1602, the special game execution means 1173 refers to the special game related information temporary storage means 1194, and determines whether or not the special game transition permission flag is on. In the case of Yes in step 1602, in step 1604 and step 1606, the special game execution means 1173 turns off the special game transition permission flag in the special game related information temporary storage means 1194 and turns on the special game execution flag. Next, in step 1608, the information transmission control means 1300 transmits special game start display instruction information to the sub-main control board 2320 side, and proceeds to step 1612. On the other hand, in the case of No in step 1602, in step 1610, the special game execution means 1173 refers to the special game related information temporary storage means 1194 and determines whether or not the special game execution flag is on. If YES in step 1610, the process proceeds to step 1612. In the case of No in step 1610, the special game execution means 1173 determines that the special game permission is not granted, and proceeds to the next process (award ball payout process in step 1700).

  Next, in step 1612, the special game executing means 1173 refers to the special game related information temporary storage means 1194, and whether or not the round continuation flag is on, in other words, whether or not the round is in the middle. Determine. If Yes in step 1612, that is, if the round is in the middle, the process proceeds to step 1624 without performing the processes of steps 1614 to 1622 described in detail below. On the other hand, in the case of No in step 1612, that is, immediately before the start of the round, first, in step 1614, the special game execution unit 1173 sets the release pattern (for example, release) set in the special game related information temporary storage unit 1194. Set the opening pattern to continue and the pattern to open and close. Next, in step 1616, the special game executing means 1173 clears the winning ball counter in the special game related information temporary storage means 1194 to zero. Next, in step 1618, the special game executing means 1173 adds 1 to the round number counter in the special game related information temporary storage means 1194. Note that the number of rounds stored in the special game related information temporary storage unit 1194 is 0 immediately after the start of the special game (initial value), and is incremented by 1 each time a round is repeated thereafter. Next, in step 1620, the special game executing means 1173 turns on the round continuation flag in the special game related information temporary storage means 1194. In step 1622, the special game executing means 1173 drives the first electric combination 2122 of the first big prize opening 2120 or the second electric combination 2222 of the second big prize opening 2220 to drive the first big prize opening 2120. Alternatively, the second big prize opening 2220 is opened, and the process proceeds to Step 1624.

  Next, in step 1624, the information transmission control means 1300 transmits game state information (for example, the current number of rounds, the number of winning game balls, etc.) related to the current special game to the sub-main control board 2320 side. In step 1626, the special game execution unit 1173 refers to the special game related information temporary storage unit 1194 and determines whether or not a predetermined ball (for example, 10 balls) has been won in the round. If Yes in step 1626, the process proceeds to step 1630. On the other hand, in the case of No in step 1626, in step 1628, the special game executing means 1173 refers to the special game timer 1174a (particularly, the open time timer) to determine whether or not a predetermined time for opening the big prize opening has elapsed. judge. Also in the case of Yes in step 1626, the process proceeds to step 1630, and in the case of No in step 1626, the process proceeds to the next process (award ball payout process in step 1700).

  Next, in step 1630, the special game executing means 1173 stops driving the first electric combination 2122 of the first big prize opening 2120 or the second electric combination 2222 of the second big prize opening 2220, and the first big The winning opening 2120 or the second major winning opening 2220 is closed. In step 1632, the special game executing means 1173 resets a special game timer 1174a (particularly, an opening time timer). Next, in step 1634, the special game executing means 1173 turns off the round continuation flag in the special game related information temporary storage means 1194. Next, in step 1636, the special game executing means 1173 refers to the special game related information temporary storage means 1194, and the round is the final round (for example, 15 rounds when the probability fluctuation big hit and the time shortening fluctuation big hit are suddenly, It is determined whether or not the probability variation big hit is 2 rounds). In the case of Yes in step 1636, in step 1638, the special game execution means 1173 turns off the special game execution flag in the special game related information temporary storage means 1194. Next, at step 1640, the information transmission control means 1300 transmits a special game end signal to the sub-main control board 2320 side. In step 1650, the game control means 1100 executes a game state determination process after the end of the special game, which will be described later, and proceeds to the next process (a prize ball payout process in step 1700). Even in the case of No in step 1636, the process proceeds to the next process (prize ball payout process in step 1700).

  Next, FIG. 19 is a flowchart of the game state determination process after the end of the special game according to the subroutine of step 1650 in FIG. First, in step 1652, the specific game control means 1180 refers to the game state temporary storage means 1191 and determines whether or not the current special game is a probability variation big hit. In the case of Yes in step 1652, in step 1654, the specific game control unit 1180 turns on the probability variation flag in the game state temporary storage unit 1191. Next, in step 1656, the specific game control unit 1180 refers to the game state temporary storage unit 1191 and determines whether or not the current special game has a time reduction variation. In the case of Yes in step 1656, in step 1658, the specific game control unit 1180 refers to the game state temporary storage unit 1191 and determines whether or not the current special game has a limited number of time reductions. In the case of Yes in step 1658, in step 1660, the specific game control means 1180 sets a predetermined number of times (30 times in the present embodiment) in the hour / short number counter 1181a, and proceeds to step 1664. On the other hand, in the case of No in step 1658, in step 1662, the specific game control unit 1180 sets the maximum number of times (for example, 65535 times) that can be specified as the counter value in the time-count counter 1181a, and proceeds to step 1664. Next, in step 1664, the specific game control means 1180 turns on the time reduction flag in the auxiliary game related information temporary storage means 1193, and shifts to the next process (award ball payout process in step 1700). In the case of No in step 1652, the process proceeds to step 1656, and in the case of No in step 1656, the process proceeds to the next process (prize ball payout process in step 1700).

  Next, control processing executed on the sub-board side will be described with reference to FIGS. First, FIG. 20 is a main flowchart on the sub-board (particularly sub-main control board 2320) side in the pachinko gaming machine according to the present embodiment. Here, FIG. 20 (left) is an initial process on the sub board executed only when the power to the gaming machine is turned on, and FIG. 20 (right) is a sub board repeatedly executed after turning on the power to the gaming machine. Main processing. First, to explain from the flowchart of FIG. 20 (left), in step 5000, the effect display control means 2320 executes an initial process at power interruption return described later, and then proceeds to the main process of FIG. 20 (right).

  Next, the main process flowchart of FIG. 20 (right) will be described. First, in step 5200, the effect display control means 2320 executes a movable body accessory basic position setting process to be described later. Next, in step 5400, effect display control means 2320 executes effect stage determination processing described later. Next, in step 5600, the effect display control means 2320 executes a hold information management process described later. Next, in step 5700, the effect display control means 2320 executes a decorative symbol display content determination process described later. Next, in step 5800, the effect display control means 2320 executes a decorative symbol display control process to be described later. Next, in step 6000, the effect display control means 2320 executes a special game display control process to be described later. Next, in step 6500, the effect display control means 2320 executes a movable body accessory position monitoring process described later. Next, in step 7000, the effect display control means 2320 executes a movable body accessory error occurrence determination process to be described later. Next, in step 7500, the effect display control means 2320 executes a movable body accessory error notification control process described later. Next, in step 7600, the effect display control means 2320 executes a movable body accessory error notification process described later. Next, in step 8000, the effect display control means 2320 executes a movable body accessory movement availability / content determination process described later. Next, in step 9000, the effect display control means 2320 executes a movable body accessory operation control process to be described later. Next, in step 4000, the effect display control means 2320 executes a motor / solenoid excitation start control process to be described later. Next, in step 4500, the effect display control means 2320 executes a motor / solenoid excitation end control process to be described later. Next, in step 3000, the effect display control means 2320 executes a long-term energization abnormality monitoring control process, which will be described later, and repeats the process of returning to the top of this process flow. Each subroutine will be described in detail below.

  First, FIG. 21 is a flowchart of the power failure return initial processing according to the subroutine of step 5000 in FIG. First, in step 5002, the power-on processing control unit 2326 determines whether or not the power-on information is received on the sub-main control board 2320 side. Here, the power-on information is information that allows the main board to be recovered from the power interruption state based on a command indicating the status at the time of recovery, and in this embodiment, the power interruption recovery transmitted from the main board. Command corresponds. In the case of Yes in step 5002, in step 5004, the processing control means 2326 at power-on starts the movable body accessory A initial operation incomplete flag, the movable body accessory B in the movable body accessory operation state information temporary storage means 2325d. The initial operation incomplete flag, the movable body accessory C initial operation incomplete flag, and the movable body accessory D initial operation incomplete flag are all turned on, and the process proceeds to the next process (sub-side main flow). Here, in this embodiment, since there are four types of movable object combinations, movable object combination A, movable object combination B, movable object combination C, and movable object combination D, the movable object combination The description may be omitted as appropriate depending on a description method such as A to D or movable object A (C). In addition, the movable body accessory A to D initial operation incomplete flag is a flag that is turned on when an initial operation execution process related to each of the movable body accessories A to D described later is incomplete. This flag is turned off when the operation execution process is completed. In the case of No in step 5002, by executing step 5002 again, the power-on information reception waiting loop process is executed.

  Next, FIG. 22 is a flowchart of the movable body accessory basic position setting process according to the subroutine of step 5200 in FIG. First, in step 5202, the movable body accessory basic position determining means 2325e-1 refers to the basic position determining reference table 2325e-1-1 and determines whether or not a predetermined set timing has been reached. In the case of Yes in Step 5202, in Step 5204, the movable body accessory basic position determining unit 2325 e-1 refers to the basic position determining reference table 2325 e-1-1 and determines the current main game state and sub-side game. Based on the state, the basic stop position of the movable body accessory A to D at the set timing is determined, and the determined content is temporarily stored in the movable body accessory operation state information temporary storage unit 2325d for the next processing (step 5400). To the stage stage determination process). In the case of No in step 5202, the process proceeds to the next process (effect stage determination process in step 5400).

  Next, FIG. 23 is a flowchart of effect stage determination processing according to the subroutine of step 5400 in FIG. First, in step 5410, the sub-side gaming state control unit 2327 refers to the main-side information temporary storage unit 2321a and determines whether or not the main-side gaming state has shifted to the probability-variable gaming state. In the case of Yes in step 5410, in step 5420, whether or not the sub game state control means 2327 satisfies the transfer condition to the probability variation stage A that is the sub game state (for example, wins a predetermined transfer lottery probability). Determine whether. In the case of Yes in step 5420, in step 5422, the sub game state control means 2327 sets type information (produce mode) representing the probability variation stage A in the sub game state type in the effect general information temporary storage means 2324. Next, in step 5424, the sub-side gaming state control means 2327 makes full use of the effect display means 2310 to display the background moving image corresponding to the probability variation stage A on the effect display device 2140, and performs the next process (in step 5600). Shift to pending information management processing. On the other hand, in the case of No in step 5420, in step 5426, the sub game state control unit 2327 sets type information representing the probability variation stage B in the sub game state type in the effect general information temporary storage unit 2324. Next, in Step 5428, the sub-side gaming state control means 2327 makes full use of the effect display means 2310 to display the background moving image corresponding to the probability variation stage B on the effect display device 2140, and performs the next process (Step 5600). Shift to pending information management processing.

  On the other hand, in the case of No in step 5410, in step 5440, the sub-side gaming state control unit 2327 refers to the main-side information temporary storage unit 2321a to determine whether or not the main-side gaming state has shifted to the non-probability variation gaming state. Determine whether. In the case of Yes in step 5440, in step 5450, the sub game state control means 2327 satisfies the condition for shifting to the normal stage A that is the sub game state (for example, winning a predetermined transfer lottery probability). Determine whether. In the case of Yes in step 5450, in step 5452, the sub game state control means 2327 sets type information (effect mode) representing the normal stage A as the sub game state type in the effect general information temporary storage means 2324. Next, in step 5454, the sub-side gaming state control means 2327 makes full use of the effect display means 2310 to display the background moving image corresponding to the normal stage A on the effect display device 2140, and performs the next process (in step 5600). Shift to pending information management processing. On the other hand, in the case of No in step 5450, in step 5456, the sub game state control unit 2327 sets type information representing the normal stage B as the sub game state type in the effect general information temporary storage unit 2324. Next, in step 5458, the sub-side gaming state control means 2327 makes full use of the effect display means 2310 to display the background moving image corresponding to the normal stage B on the effect display device 2140, and the next process (in step 5600). Shift to pending information management processing. In the case of No in step 5440, the process proceeds to the next process (holding information management process in step 5600).

  Next, FIG. 24 is a flowchart of the hold information management process according to the subroutine of step 5600 in FIG. First, in step 5602, the drawing hold information display control means 2323 refers to the main side information temporary storage means 2321a, and receives new hold related information (the first main game symbol or the second main game symbol from the main controller side). It is determined whether or not such hold information is received. In the case of Yes in step 5602, in step 5604, the drawing hold information display control means 2323 displays the drawing hold counter in the drawing hold information temporary storage means 2323a (maximum 4 for the first main game, second main game). "1" is added to a maximum of 4), and the process proceeds to the next process (decorative symbol display content determination process in step 5700). On the other hand, in the case of No in step 5602, in step 5606, the effect display control unit 2320 refers to the main side information temporary storage unit 2321a and determines whether or not the symbol variation display start instruction information is received from the main control device side. To do. In the case of Yes in step 5606, in step 5608, the effect display control means 2320 accesses the flag area of the drawing display related information temporary storage means 2322c, turns on the symbol content determination permission flag, and performs the next process (in step 5700). The process proceeds to the decorative symbol display content determination process. If No in step 5606, the process proceeds to the next process (decorative symbol display content determination process in step 5700).

  Next, FIG. 25 is a flowchart of the decorative symbol display content determination process according to the subroutine of step 5700 in FIG. First, in step 5702, the drawing display content determination unit 2322a refers to the flag area of the drawing display related information temporary storage unit 2322c and determines whether or not the symbol content determination permission flag is on. In the case of Yes in step 5702, in step 5704, the drawing display content determination unit 2322a turns off the symbol content determination permission flag in the flag area of the drawing display related information temporary storage unit 2322c. Next, in step 5706, the figure display content determination unit 2322a acquires the symbol information from the main side temporarily stored in the main side information temporary storage unit 2321a (stopped symbol / variation mode related to the main game symbol). . Next, in step 5708, the design special stop symbol content determining means 2322d determines whether or not the two match with each other based on the stop symbol related to the main game symbol and the variation mode. Here, “both match” means, for example, that a stop symbol related to the main game symbol can be selected at the time of hitting, and a variation mode related to the main game symbol can be selected at the time of hit. It means that. On the other hand, “both are inconsistent” means that, for example, a stop symbol related to the main game symbol can be selected at the time of hitting, and a variation mode related to the main game symbol can be selected when lost. It means that. In the case of Yes in step 5708, in step 5712, the drawing special stop symbol content determination means 2322d turns off the main control transmission command error flag in the drawing display related information temporary storage means 2322c, and proceeds to step 5730. On the other hand, in the case of No in step 5708, in step 5714, the drawing special stop symbol content determination means 2322d turns on the main control transmission command error flag in the drawing display related information temporary storage means 2322c, and proceeds to step 5730. .

  In the present embodiment, based on the stop symbol and the variation mode relating to the main game symbol, whether or not both are matched, in other words, whether the information transmitted from the main control board 1000 side is normal or not. However, the present invention is not limited to this. In that case, for example, a special command for confirming whether a disconnection / short circuit has occurred in the connection between the main control board 1000 and the sub main control board 2320 from the main control board 1000 side. An example can be given in which transmission is performed and determination is performed based on whether or not the sub-main control board 2320 has normally received.

  Next, in step 5730, the drawing display content determination unit 2322a determines whether or not the main control transmission command error flag in the drawing display related information temporary storage unit 2322c is off. In the case of Yes in step 5730, in step 5732, the figure display content determination means 2322a determines whether or not the stop symbol related to the main game symbol is a winning symbol. In the case of Yes in step 5732, in step 5734, the drawing display content determination means 2322a refers to the drawing variation content determination lottery table 2322a-1 based on the stop symbol related to the main game symbol, and stops the decorative symbol of the decorative symbol As a result, a hit number (for example, a set of three numbers such as “777”) is determined and temporarily stored in the drawing display related information temporary storage unit 2322c. Next, in step 5736, the figure display content determination means 2322a is based on the variation state relating to the main game symbol and the sub game state (effect mode) temporarily stored in the effect general information temporary storage means 2324. With reference to the drawing variation content determination lottery table 2322a-1, the decoration pattern variation mode is determined and temporarily stored in the drawing display related information temporary storage unit 2322c. Next, in step 5738, the drawing display content determination unit 2322a turns on the symbol variation permission flag in the drawing display related information temporary storage unit 2322c, and proceeds to the next processing (decorated symbol display control processing in step 5800). To do. If No in step 5702, the process proceeds to the next process (decorative symbol display control process in step 5800).

  On the other hand, in the case of No in step 5732, in step 5740, the drawing display content determination unit 2322a uses the stop symbol of the decoration symbol based on the stop symbol related to the main game symbol (for example, a number such as “134”). Random eyes) are randomly determined and temporarily stored in the drawing display related information temporary storage means 2322c. Next, in step 5742, the drawing display content determination means 2322a stores the stoppage of the decorative symbol temporarily stored in the drawing display related information temporary storage means 2322c and the special stop symbol content determination reference table 2322d-1. Is compared with the stop appearance of the decorative symbol temporarily stored in the table, and it is determined whether or not the same appearance is obtained. If Yes in step 5742, the process proceeds to step 5736, and if No in step 5742, the process proceeds to step 5740. In other words, the stop appearance of the decorative symbol randomly determined in the processing is a stop event different from the stop event of the decorative symbol temporarily stored in the special stop symbol content determination reference table 2322d-1. That will be secured.

  On the other hand, in the case of No in step 5730, in step 5750, the drawing special stop symbol content determination means 2322d decorates any stop event temporarily stored in the special stop symbol content determination reference table 2322d-1. The symbol is determined to be a stop event and temporarily stored in the drawing display related information temporary storage means 2322c. Next, in step 5752, the drawing special stop symbol content determining means 2322d determines a special variation mode based on the variation mode related to the main game symbol, and temporarily stores it in the drawing display related information temporary storage unit 2322c. Here, the mode of the special variation mode is not particularly limited. However, in the situation where this process is executed, the reliability of the information related to the main game symbol is significantly reduced, so that the variation mode becomes non-reach Therefore, it is preferable that the impact on the player is reduced. Next, in step 5754, the drawing special stop symbol content determination unit 2322d turns off the main control transmission command error flag in the drawing display related information temporary storage unit 2322c, and the process proceeds to step 5738.

  Next, FIG. 26 is a flowchart of the decorative symbol display control process according to the subroutine of step 5800 in FIG. First, in step 6704, the decorative symbol display control unit 2322 refers to the flag area of the drawing display related information temporary storage unit 2322c and determines whether or not the symbol variation permission flag is on. If Yes in step 5804, in step 5808, the decorative symbol display control unit 2322 turns off the symbol variation permission flag in the flag area of the drawing display related information temporary storage unit 2322c. Next, in step 5809, the decorative symbol display control means 2322 turns on the movable body effect effect operation permission determination permission flag in the effect general information temporary storage means 2324. Here, the movable body effect production operation permission determination permission flag is a flag related to the production operation of the movable body character that is executed in conjunction with the start / end of change of the decorative symbol, and as described later, When the flag is turned on, it is determined whether or not the performance action of the movable body accessory can be performed. Next, in step 5810, the decorative symbol display control means 2322 displays the decorative symbol on the effect display device 2410 on the basis of the determination contents relating to the variation of the decorative symbol temporarily stored in the drawing display related information temporary storage means 2322c. The change display is started, and the flow shifts to Step 5830. If No in step 5804, the process proceeds to step 5830.

  Next, in step 5830, the decorative symbol display control means 2322 refers to the main side information temporary storage means 2321a, and determines whether or not the symbol fixed display instruction information has been received from the main side. In the case of Yes in step 5830, in step 5832, the decorative symbol display control means 2322 is based on the determination content relating to the stop symbol (stopping appearance) of the decorative symbol temporarily stored in the drawing display related information temporary storage means 2322c. Then, the stop symbol of the decorative symbol is confirmed and displayed, and the process proceeds to the next process (the display control process during special game in step 6000). In the case of No in step 5830, the process proceeds to the next process (display control process during special game in step 6000). Here, in step 5830, symbol confirmation display instruction information may be received from the main side in a situation where the stop symbol (stop appearance) of the decorative symbol is not determined. Such a situation occurs, for example, due to some trouble such as failure in receiving the symbol variation display start instruction information from the main side. In that case, as a stop symbol of the decorative symbol, for example, a symbol that is not a numerical symbol such as “XXX”, a score that is temporarily stored in the special stop symbol content determination reference table 2322d-1, and the like are confirmed and displayed. By configuring so, it is possible to promptly notify the malfunction.

  Next, FIG. 27 is a flowchart of the display control processing during special game according to the subroutine of step 6000 in FIG. First, in step 6002, the effect display control means 2320 refers to the flag area of the effect general information temporary storage means 2324 and determines whether or not the special game flag is off. In the case of Yes in step 6002, in step 6004, the effect display control means 2320 refers to the main side information temporary storage means 2321a and determines whether or not special game start display instruction information has been received from the main side. In the case of Yes in step 6004, in step 6006 and step 6008, the effect display control means 2320 turns on the special game flag in the flag area of the effect general information temporary storage means 2324 and also makes a big hit on the effect display device 2140. Start display. Next, in step 6010, the sub-side gaming state control means 2327 sets type information (effect mode) indicating special gaming in the sub-side gaming state type in the effect general information temporary storage means 2324, and proceeds to step 6012. To do. In the case of No in step 6002, the process proceeds to step 6012.

  Next, in step 6012, the effect display control means 2320 sequentially displays the number of rounds and the number of winnings on the effect display device 2140 based on the game information sequentially transmitted from the main side (probability change big hit or time reduction) (Displayed only for big hits). Here, if there are sudden probability fluctuation big hits and small hits, if the number of rounds is displayed, the player will know whether the current hit is “sudden probability fluctuation big hits” or “small hits”. In such a case, the number of rounds is not displayed in the process. Next, in step 6014, the effect display control means 2320 refers to the main side information temporary storage means 2321a and determines whether or not special game end display instruction information has been received from the main side. In the case of Yes in step 6014, in step 6016, the effect display control means 2320 performs jackpot end display on the effect display device 2140. Next, in step 6018, the effect display control means 2320 turns off the special gaming flag in the flag area of the effect general information temporary storage means 2324, and proceeds to the next process (movable body accessory position monitoring process in step 6500). Transition. In the case of No in step 6004 and step 6014, the process proceeds to the next process (movable body accessory position monitoring process in step 6500).

  Next, FIG. 28 is a flowchart of the movable object position monitoring process according to the subroutine of step 6500 in FIG. First, in step 6502, the movable body accessory current position detection unit 2325 e-2 is based on the position information transmitted from the position sensors A to D, and the current position information (current position) relating to the movable body accessories A to D. Information) is acquired and temporarily stored in the movable body accessory operation state information temporary storage means 2325d, and the process proceeds to the next process (movable body accessory error occurrence determination process in step 7000).

  Next, FIG. 29 is a flowchart of the movable body accessory error occurrence determination process according to the subroutine of step 7000 in FIG. First, in step 7002, the movable body accessory position consistency confirmation unit 2325e-2 refers to the position consistency confirmation content determination reference table 2325e-2-1 to determine whether the predetermined position consistency confirmation timing has been reached. Determine whether or not. In the case of Yes in step 7002, in step 7004, the movable body accessory position consistency confirmation unit 2325e-2 refers to the position consistency confirmation content determination reference table 2325e-2-1 and at the time of the confirmation timing. Position information (scheduled position information) where the movable body accessories A to D should exist is derived and temporarily stored in the movable body accessory operation state information temporary storage means 2325d. Next, in step 7006, the movable body accessory position consistency confirmation unit 2325e-2 presents the current position information (M) of the movable body accessories A to D temporarily stored in the movable body accessory operation state information temporary storage unit 2325d. The position information temporarily stored in step 6502 in FIG. 28) and the planned position information (position information temporarily stored in step 7004) are compared, and the current position information and the planned position information are included in the movable body accessories A to D. Determine if there is something different. In the case of Yes in Step 7006, in Step 7008, the movable body accessory position consistency checking unit 2325 e-2 is a movable body accessory operation that is a flag relating to a movable body accessory whose current position information and scheduled position information are different. The movable body accessory AD in the state information temporary storage means 2325d is turned on. Here, in the movable body accessory in which the movable body accessory A to D error count addition flag is turned on, an error notification control process related to the movable body accessory described later is executed. Next, in step 7010, the movable body accessory position consistency confirmation unit 2325e-2 temporarily stores the movable body accessory operation state information, which is a flag relating to the movable body accessory whose current position information and scheduled position information are different. The movable body accessory AD error non-completion flag in the means 2325d is turned on, and the process proceeds to the next process (movable body accessory error notification control process in step 7500). Here, in the movable body accessory for which the movable body accessory A to D error elimination processing incomplete flag is turned on, an error elimination operation (retry operation) control process related to the movable body accessory described later is executed. It becomes. In the case of No in step 7002 or step 7006, the process proceeds to the next process (movable body accessory error notification control process in step 7500).

  Next, FIG. 30 is a flowchart of the movable body accessory error notification control process according to the subroutine of step 7500 in FIG. First, in step 7502, the movable body accessory error notification control means 2325e-4 determines which flag of the movable body accessory A to D error count addition flags in the movable body accessory operation state information temporary storage means 2325d. It is determined whether it is on, and different processing is executed based on the determination result. Here, in executing the determination, the “movable body accessory A error count addition flag”, “movable body accessory B error count addition flag”, “movable body accessory C error count addition flag”, “movable body accessory C error count addition flag”, The processing is executed in the order of the “object D error count addition flag”. If none of the flags are on, the process proceeds to the next process (movable body accessory error notification process in step 7600).

  Next, when the “movable body accessory A error count addition flag” is ON in step 7502, in step 7520, the movable body accessory error notification control unit 2325 e-4 moves the operation abnormality accumulation counter 2325 e for each movable body accessory. 1 is added (incremented) to the counter value of the operation abnormality accumulation counter A in 4-1; Next, in step 7521, the movable body accessory error notification control means 2325e-4 turns off the movable body accessory A error count addition flag in the movable body accessory operation state information temporary storage means 2325d. Next, in step 7522, the movable body accessory error notification control means 2325e-4 determines that the counter value of the operation abnormality accumulation counter A in the operation abnormality accumulation counter 2325e-4-1 for each movable object is a predetermined number A (for example, 3 times) or not. In the case of Yes in step 7522, in step 7524, the movable body accessory error notification control means 2325e-4 turns on the movable body accessory A operation error notification flag in the movable body accessory operation state information temporary storage means 2325d. . Next, in Step 7526, the movable body accessory error notification control means 2325e-4 clears the counter value of the operation abnormality accumulation counter A in the operation abnormality accumulation counter 2325e-4-1 for each movable object, and The process proceeds to the movable body article error notification process in step 7600. In the case of No in step 7522, the process proceeds to the next process (movable body accessory error notification process in step 7600).

  Next, when the “movable body accessory B error count addition flag” is ON in step 7502, in step 7540, the movable body accessory error notification control means 2325 e-4 moves the operation abnormality accumulation counter 2325 e for each movable body accessory. 1 is added (incremented) to the counter value of the operation abnormality accumulation counter B in 4-1; Next, in step 7541, the movable body accessory error notification control means 2325e-4 turns off the movable body accessory B error count addition flag in the movable body accessory operation state information temporary storage means 2325d. Next, in step 7542, the movable body accessory error notification control means 2325e-4 determines that the counter value of the operation abnormality accumulation counter B in the operation abnormality accumulation counter 2325e-4-1 for each movable object is a predetermined number B (for example, 3 times) or not. In the case of Yes in step 7542, in step 7544, the movable body accessory error notification control means 2325e-4 turns on the movable body accessory B operation error notification flag in the movable body accessory operation state information temporary storage means 2325d. . Next, in step 7546, the movable body accessory error notification control means 2325e-4 clears the counter value of the operation abnormality accumulation counter B in the operation abnormality accumulation counter 2325e-4-1 for each movable object, and The process proceeds to the movable body article error notification process in step 7600. In the case of No in step 7542, the process proceeds to the next process (movable body accessory error notification process in step 7600).

  Next, when the “movable body accessory C error count addition flag” is ON in step 7502, in step 7560, the movable body accessory error notification control means 2325e-4 performs operation abnormality accumulation counter 2325e for each movable body accessory. 1 is added (incremented) to the counter value of the operation abnormality accumulation counter C in 4-1; Next, in step 7561, the movable body accessory error notification control means 2325e-4 turns off the movable body accessory C error count addition flag in the movable body accessory operation state information temporary storage means 2325d. Next, in step 7562, the movable body accessory error notification control means 2325e-4 determines that the counter value of the operation abnormality accumulation counter C in the operation abnormality accumulation counter 2325e-4-1 for each movable object is a predetermined number C (for example, 3 times) or not. In the case of Yes in step 7562, in step 7564, the movable body accessory error notification control means 2325e-4 turns on the movable body accessory C operation error notification flag in the movable body accessory operation state information temporary storage means 2325d. . Next, in step 7566, the movable body accessory error notification control means 2325e-4 clears the counter value of the operation abnormality accumulation counter C in the operation abnormality accumulation counter 2325e-4-1 for each movable object, and The process proceeds to the movable body article error notification process in step 7600. In the case of No in step 7562, the process proceeds to the next process (movable body accessory error notification process in step 7600).

  Next, when the “movable body accessory D error count addition flag” is ON in step 7502, in step 7580, the movable body accessory error notification control means 2325e-4 performs operation abnormality accumulation counter 2325e for each movable body accessory. 1 is added (incremented) to the counter value of the operation abnormality accumulation counter D in 4-1; Next, in step 7581, the movable body accessory error notification control means 2325e-4 turns off the movable body accessory D error count addition flag in the movable body accessory operation state information temporary storage means 2325d. Next, in step 7582, the movable body accessory error notification control means 2325e-4 determines that the counter value of the operation abnormality accumulation counter D in the operation abnormality accumulation counter 2325e-4-1 for each movable object is a predetermined number D (for example, 3 times) or not. In the case of Yes in step 7582, in step 7584, the movable body accessory error notification control means 2325e-4 turns on the movable body accessory D operation error notification flag in the movable body accessory operation state information temporary storage means 2325d. . Next, in Step 7586, the movable body accessory error notification control unit 2325e-4 clears the counter value of the operation abnormality accumulation counter D in the operation abnormality accumulation counter 2325e-4-1 for each movable body accessory to the next value. The process proceeds to the movable body article error notification process in step 7600. In the case of No in step 7582, the process proceeds to the next process (movable body accessory error notification process in step 7600).

  When the movable body accessory A to D operation error notification flag is turned on, as described later, an error notification related to the turned movable body accessory is executed. Here, the set number of the predetermined number A to D is not particularly limited, but by setting an appropriate value based on the structure and frequency of use of the movable body accessory, the durability of each movable body accessory It is possible to execute error notification in consideration of the above.

  Next, FIG. 31 is a flowchart of the movable body accessory error notification process according to the subroutine of step 7600 in FIG. First, in step 7602, the movable body accessory error notification control means 2325e-4 turns on any of the movable body accessory A to D operation error notification flags in the movable body accessory operation state information temporary storage means 2325d. It is determined whether or not. In the case of Yes in step 7602, in step 7604, the movable body accessory error notification control means 2325e-4 has either the movable body accessory B operation error notification flag or the movable body accessory D operation error notification flag turned on. It is determined whether or not. In the case of Yes in Step 7604, in Step 7606, the movable body accessory error notification control means 2325e-4 executes the game board front unit 232-100 on the movable body accessory error notification means (corresponding to the front unit) 232-31. Informs that an abnormality has occurred in the movable body accessory installed in. Next, in step 7608, the movable body accessory error notification control means 2325e-4 determines whether or not the movable body accessory B operation error notification flag is ON. In the case of Yes in step 7608, in step 7610, the movable body accessory error notification control means 2325e-4 is installed on the left side of the game board on the movable body accessory error notification means (corresponding to the front unit) 232-31. Informs that an abnormality has occurred in the movable object. Next, in step 7612, the movable body accessory error notification control means 2325e-4 determines whether or not the movable body accessory D operation error notification flag is ON. In the case of Yes in step 7612, in step 7614, the movable body accessory error notification control means 2325e-4 is installed on the right side of the game board on the movable body accessory error notification means (corresponding to the front unit) 232-31. The fact that an abnormality has occurred in the movable body accessory being informed is notified, and the routine proceeds to step 7616. In the case of No in step 7608, the process proceeds to step 7612, and in the case of No in step 7604 or step 7612, the process proceeds to step 7616.

  Next, in step 7616, the movable body accessory error notification control means 2325e-4 determines whether either the movable body accessory A operation error notification flag or the movable body accessory C operation error notification flag is ON. judge. In the case of Yes in step 7616, in step 7618, the movable body accessory error notification control means 2325e-4 performs the game board back unit 232-200 on the movable body accessory error notification means (corresponding to the back unit) 232-32. Informs that an abnormality has occurred in the movable body accessory installed in. Next, in step 7620, the movable body accessory error notification control means 2325e-4 determines whether or not the movable body accessory A operation error notification flag is ON. In the case of Yes in Step 7620, in Step 7622, the movable body accessory error notification control means 2325e-4 is installed on the upper side of the game board on the movable body accessory error notification means (corresponding to the back unit) 232-32. Informs that an abnormality has occurred in the movable object. Next, in step 7624, the movable body accessory error notification control means 2325e-4 determines whether or not the movable body accessory C operation error notification flag is ON. In the case of Yes in step 7624, in step 7626, the movable body accessory error notification control means 2325e-4 is installed on the right side of the game board surface on the movable body accessory error notification means (corresponding to the back unit) 232-32. It is notified that an abnormality has occurred in the movable body accessory that is present, and the process proceeds to the next processing (movable body accessory operation availability / content determination processing in step 8000). In the case of No in Step 7620, the process proceeds to Step 7624, and in the case of No in Step 7602, Step 7616 or Step 7624, the next process (movable body accessory operation availability / content determination process in Step 8000). Migrate to

  In this embodiment, as described above, the movable body accessory error notification means (corresponding to the front unit) 232-31 and the movable body accessory error notification means (corresponding to the back unit) 232-32 are configured by a plurality of LEDs. Thus, it is configured so that it is easy to grasp the error relating to the movable body accessory installed in which part of which unit by the lighting part of LED or the combination of lighting parts. Therefore, in this processing flow, the error notification mode is separated for each movable body accessory, so that the notification can be made in a different error notification mode for each movable body accessory. Moreover, the movable body accessory error notification means (corresponding to the front unit) 232-31 and the movable body accessory error notification means (corresponding to the back unit) 232-32 are not limited to providing the dedicated LED for error notification, The other game effect lamp 190 provided on the game board surface is substituted (it is not limited to the position of the substitute lamp, and may be an easily visible position or a position that is difficult to visually recognize). Also good. With this configuration, it is not necessary to separately provide a movable body accessory error notification LED, which is preferable in terms of reducing development costs. In that case, for error notification, the LED lighting pattern for enhancing the gaming effect and the LED lighting pattern for error notification are separated (to avoid misunderstanding by the player). A plurality of types of LED lighting patterns (for example, not only lighting but also lighting, blinking, or a difference in blinking intervals) may be provided. Further, when a plurality of types of LED lighting patterns for error notification are provided, the lighting patterns may be configured to be different based on the number of occurrences of operation abnormality with reference to the operation abnormality accumulation counter. By adopting such a configuration, it becomes easy to grasp the number of occurrences of abnormality of the movable body accessory. Furthermore, it is desirable that the error notification LED harness and the movable body accessory harness are configured separately, and with this configuration, the wiring portion between the notification LED and the movable body accessory is defective at the same time. Therefore, it is possible to reduce the occurrence of a situation in which an abnormal operation of the movable body accessory cannot be notified.

  In addition, the movable body accessory error notification means (corresponding to the front unit) 232-31 and the movable body accessory error notification means (corresponding to the back unit) 232-32 are not limited to being constituted by LEDs, and an effect display device. Error notification may be performed on 2140. In that case, for example, the information regarding the error relating to the movable object installed in which part of which unit and the information such as the contact information to the gaming machine manufacturer are included in the QR code. It can also be configured to display above. In such a configuration, by importing the QR code into a mobile communication terminal or the like, it becomes possible to quickly and accurately notify the information regarding the abnormal operation from the hall operator side to the gaming machine manufacturer side. .

  Next, FIG. 32 is a flowchart of the movable body accessory operation availability / content determination process according to the subroutine of step 8000 in FIG. First, in step 8200, the movable body accessory initial operation execution control means 2325a executes an initial operation operation enable / disable content determination process described later. Next, in step 8400, the movable article error elimination operation execution control means 2325b executes an error elimination operation availability / content determination process described later. Next, in step 8600, the movable body effect production operation execution control means 2325c executes an operation operation availability / content determination process described later, and proceeds to the next process (movable body accessory operation control process in step 9000). Transition.

  Next, FIG. 33 is a flowchart of operation availability / content determination processing during initial operation according to the subroutine of step 8200 in FIG. 32. First, in step 8202, the initial action enable / disable content determination unit 2325a-1 determines which flag of the movable body accessory A to D initial operation incomplete flag in the movable body accessory operation state information temporary storage unit 2325d is set. It is determined whether it is on, and different processing is executed based on the determination result. Here, when the determination is performed, “movable body accessory A initial operation incomplete flag”, “movable body accessory C initial operation incomplete flag”, “movable body accessory B initial operation incomplete flag”, “ It executes in the order of “movable body accessory D initial operation incomplete flag”. If none of the flags is on, the processing proceeds to the next processing (operation availability / content determination processing during error-resolving operation in step 8400).

  Next, when the “movable body accessory A initial operation incomplete flag” is ON in step 8202, in step 8220, the initial operation availability / content determination unit 2325 a-1 determines the initial operation content determination reference table 2325 a-1. −1, the number of driving steps of the motor A is derived based on a predetermined initial operation pattern A that is an initial operation pattern of the movable body accessory A, and the derived number of steps is calculated as the movable body accessory operation state information. Set to the step counter A in the temporary storage means 2325d. Next, in Step 8222, the initial action enable / disable content determination means 2325a-1 turns off the movable object combination A initial operation incomplete flag in the movable object action state information temporary storage means 2325d. Next, in step 8224, the initial action enable / disable content determination unit 2325a-1 turns on the movable object combination A initial operation start permission flag in the movable object combination operation state information temporary storage unit 2325d, and performs the next processing ( The process proceeds to step 8400 for whether or not the error can be resolved during operation / content determination processing.

  Next, when the “movable body accessory C initial operation incomplete flag” is ON in step 8202, in step 8240, the initial operation availability / content determination unit 2325 a-1 determines the initial operation content determination reference table 2325 a-1. −1, the number of driving steps of the motor C is derived based on a predetermined initial operation pattern C which is an initial operation pattern of the movable body accessory C, and the derived number of steps is calculated as the movable body accessory operation state information. Set to step counter C in temporary storage means 2325d. Next, in Step 8242, the initial action availability / content determination means 2325a-1 turns off the movable object C initial action incomplete flag in the movable object action state information temporary storage means 2325d. Next, in step 8244, the initial motion enable / disable content determination unit 2325a-1 turns on the movable body accessory C initial operation start permission flag in the movable body accessory operation state information temporary storage unit 2325d, and performs the next processing ( The process proceeds to step 8400 for whether or not the error can be resolved during operation / content determination processing.

  Next, when the “movable body accessory B initial operation incomplete flag” is ON in step 8202, in step 8260, the initial operation enable / disable content determination unit 2325 a-1 determines the initial operation content determination reference table 2325 a-1. −1, a predetermined excitation time related to the initial operation of the movable body accessory B is set in the excitation period timer B in the movable body accessory operation state information temporary storage means 2325d. Next, in Step 8262, the initial action enable / disable content determination unit 2325a-1 turns off the movable object combination B initial operation incomplete flag in the movable object action state information temporary storage unit 2325d. Next, in step 8264, the initial motion enable / disable content determination unit 2325a-1 turns on the movable body accessory B initial operation start permission flag in the movable body accessory operation state information temporary storage unit 2325d, and performs the next processing ( The process proceeds to step 8400 for whether or not the error can be resolved during operation / content determination processing.

  Next, when the “movable body accessory D initial operation incomplete flag” is ON in step 8202, in step 8280, the initial operation availability / content determination unit 2325 a-1 determines the initial operation content determination reference table 2325 a-1. −1, a predetermined excitation time related to the initial operation of the movable body accessory D is set in the excitation period timer D in the movable body accessory operation state information temporary storage means 2325d. Next, in Step 8282, the initial action enable / disable content determination means 2325a-1 turns off the movable object D initial action incomplete flag in the movable object action state information temporary storage means 2325d. Next, in Step 8284, the initial action enable / disable content determination unit 2325a-1 turns on the movable object combination D initial operation start permission flag in the movable object combination operation state information temporary storage unit 2325d, and performs the next processing ( The process proceeds to step 8400 for whether or not the error can be resolved during operation / content determination processing.

  Next, FIG. 34 is a flowchart of the operation determination / content determination process during the error resolution operation according to the subroutine of Step 8400 in FIG. First, in step 8402, the error resolution operation enable / disable content determination unit 2325b-1 determines which of the movable body accessory A to D error cancellation processing incomplete flags in the movable body accessory operation state information temporary storage unit 2325d. It is determined whether the flag is on, and different processing is executed based on the determination result. Here, when executing the determination, the “movable body accessory A error elimination process incomplete flag”, the “movable body accessory C error elimination process incomplete flag”, and the “movable body accessory B error elimination process incomplete flag”. ”And“ Movable object D error elimination process incomplete flag ”. If none of the flags is on, the process proceeds to the next process (operation availability / content determination process during the rendering operation in step 8600).

  Next, when the “movable body accessory A error elimination processing incomplete flag” is ON in step 8402, in step 8420, the error elimination operation availability / content determination means 2325 b-1 determines the error resolution operation contents determination reference table. 2325a-1-1, the number of driving steps of the motor A is derived based on the predetermined retry operation pattern A that is the error elimination operation pattern of the movable body accessory A, and the derived number of steps is calculated as the movable body role. It is set to the step counter A in the physical operation state information temporary storage means 2325d. Next, in step 8422, the error elimination operation availability / content determination means 2325b-1 turns off the movable body accessory A error elimination processing incomplete flag in the movable body accessory operation state information temporary storage means 2325d. Next, in Step 8424, the error elimination operation enable / disable content determination unit 2325b-1 turns on the movable body accessory A error elimination operation start permission flag in the movable body accessory operation state information temporary storage unit 2325d. The process shifts to the processing (operation availability / content determination process at the time of rendering operation in step 8600).

  Next, when the “movable object C error elimination process incomplete flag” is ON in step 8402, in step 8440, the error resolution operation availability / content determination unit 2325 b-1 determines the error resolution operation content determination reference table. 2325a-1-1, the number of driving steps of the motor C is derived on the basis of a predetermined retry operation pattern C that is an error elimination operation pattern of the movable body accessory C, and the derived number of steps is calculated as the movable body role. It is set to the step counter C in the physical operation state information temporary storage means 2325d. Next, in Step 8442, the error elimination operation availability / content determination means 2325b-1 turns off the movable body accessory C error elimination processing incomplete flag in the movable body accessory operation state information temporary storage means 2325d. Next, in step 8444, the error elimination operation enable / disable content determination unit 2325b-1 turns on the movable body accessory C error elimination operation start permission flag in the movable body accessory operation state information temporary storage unit 2325d. The process shifts to the processing (operation availability / content determination process at the time of rendering operation in step 8600).

  Next, when the “movable body accessory B error elimination process incomplete flag” is ON in step 8402, in step 8460, the error resolution operation availability / content determination unit 2325 b-1 determines the error resolution operation content determination reference table. Referring to 2325a-1-1, a predetermined excitation time related to the error elimination operation of the movable body accessory B is set in the excitation period timer B in the movable body accessory operation state information temporary storage means 2325d. Next, in step 8462, the error elimination operation availability / content determination means 2325b-1 turns off the movable body accessory B error elimination processing incomplete flag in the movable body accessory operation state information temporary storage means 2325d. Next, in step 8464, the error elimination operation enable / disable content determination unit 2325b-1 turns on the movable body accessory B error elimination operation start permission flag in the movable body accessory operation state information temporary storage unit 2325d. The process shifts to the processing (operation availability / content determination process at the time of rendering operation in step 8600).

  Next, when the “movable body accessory D error elimination processing incomplete flag” is ON in step 8402, in step 8480, the error elimination operation availability / content determination means 2325 b-1 determines the error resolution operation contents determination reference table. Referring to 2325a-1-1, a predetermined excitation time related to the error elimination operation of the movable body accessory D is set in the excitation period timer D in the movable body accessory operation state information temporary storage means 2325d. Next, in step 8482, the error elimination operation availability / content determination means 2325b-1 turns off the movable body accessory D error elimination processing incomplete flag in the movable body accessory operation state information temporary storage means 2325d. Next, in step 8484, the error elimination operation enable / disable content determination unit 2325b-1 turns on the movable body accessory D error elimination operation start permission flag in the movable body accessory operation state information temporary storage unit 2325d. The process shifts to the processing (operation availability / content determination process at the time of rendering operation in step 8600).

  Next, FIG. 35 is a flowchart of the motion availability / content determination process during the rendering operation according to the subroutine of step 8600 in FIG. First, in step 8602, the performance operation availability / content determination unit 2325c-1 determines whether the movable body effect production operation availability determination permission flag in the production general information temporary storage unit 2324 is on. In the case of Yes in step 8602, in step 8610, the production operation availability / content determination unit 2325c-1 turns off the movable body effect production operation availability decision permission flag in the production general information temporary storage unit 2324, and proceeds to step 8620. To do. In the case of No in step 8602, the process proceeds to the next process (movable body accessory operation control process in step 9000).

  Next, in step 8620, the rendering action availability / content determination means 2325c-1 refers to the movable body accessory operation state information temporary storage means 2325d, and the flag related to the initial action relating to the movable body accessory A is ON. Or in other words, it is determined whether or not the initial operation of the movable article A is incomplete. If Yes in step 8620, the process proceeds to step 8640. On the other hand, in the case of No in step 8620, in step 8622, the rendering operation availability / content determination unit 2325 c-1 refers to the movable body accessory operation state information temporary storage unit 2325 d, and relates to an error related to the movable body accessory A. It is determined whether or not the flag is turned on, in other words, whether or not any operation abnormality is occurring in the movable body accessory A. In the case of Yes in step 8622, the process proceeds to step 8640. On the other hand, in the case of No in step 8622, in step 8626, the rendering action availability / content determination unit 2325c-1 sets the movable body accessory A + B rendering operation execution decision permission flag in the movable body accessory operation state information temporary storage unit 2325d. Turn on and go to step 8640. Here, the movable body accessory A + B effect operation execution decision permission flag is a flag for executing the effect operation in conjunction with the movable object accessory A and the movable object accessory B. As described later, When the flag is on, the rendering operation of the movable body accessory A and the movable body accessory B is executed.

  Next, in step 8640, the performance action availability / content determination unit 2325c-1 determines whether the movable body accessory A + B effect operation execution determination permission flag in the movable body accessory operation state information temporary storage unit 2325d is off. In other words, it is determined whether or not the movable body accessory A that operates in conjunction with the movable body accessory B is in a state in which the rendering operation is not possible. If Yes in step 8640, the process proceeds to step 8660. On the other hand, in the case of No in step 8640, in step 8642, the rendering action availability / content determination unit 2325c-1 refers to the movable body accessory operation state information temporary storage unit 2325d, and relates to the initial action relating to the movable body accessory B. It is determined whether or not the flag is ON, in other words, whether or not the initial operation of the movable article B is incomplete. In the case of Yes in Step 8642, in Step 8644, the performance action availability / content determination unit 2325c-1 turns off the movable body accessory A + B effect operation execution decision permission flag in the movable body accessory operation state information temporary storage unit 2325d. Then, the process proceeds to step 8660. On the other hand, in the case of No in step 8642, in step 8646, the rendering action availability / content determination unit 2325c-1 refers to the movable body accessory operation state information temporary storage unit 2325d, and relates to an error related to the movable body accessory B. It is determined whether or not the flag is ON, in other words, whether or not some kind of operation abnormality is occurring in the movable body accessory B. If YES in step 8646, the flow advances to step 8644. On the other hand, in the case of No in Step 8646, the process proceeds to Step 8660.

  Next, in step 8660, the stage action availability / content determination unit 2325c-1 refers to the movable body accessory operation state information temporary storage unit 2325d, and the flag related to the initial action related to the movable body accessory C is ON. Or in other words, it is determined whether or not the initial operation of the movable article C is incomplete. If Yes in step 8660, the process proceeds to step 8680. On the other hand, in the case of No in step 8660, in step 8662, the rendering action availability / content determination unit 2325c-1 refers to the movable body accessory operation state information temporary storage unit 2325d, and relates to errors related to the movable body accessory C. It is determined whether or not the flag is on, in other words, whether or not some kind of operation abnormality is occurring in the movable body accessory C. In the case of Yes in Step 8662, the process proceeds to Step 8680. On the other hand, in the case of No in step 8662, in step 8666, the performance action availability / content determination unit 2325c-1 sets the movable body accessory C + D effect operation execution determination permission flag in the movable body accessory operation state information temporary storage unit 2325d. Turn on and go to step 8680. Here, the movable body accessory C + D effect operation execution decision permission flag is a flag for executing the effect operation in conjunction with the movable body accessory C and the movable body accessory D. As described later, When the flag is on, the rendering operation of the movable body accessory C and the movable body accessory D is executed.

  Next, in step 8680, the performance action availability / content determination unit 2325c-1 determines whether the movable body accessory C + D effect operation execution decision permission flag in the movable body accessory operation state information temporary storage unit 2325d is off. In other words, it is determined whether or not the movable body accessory C that operates in conjunction with the movable body accessory D is in a state in which the production operation cannot be performed. If Yes in step 8680, the process proceeds to step 8700. On the other hand, in the case of No in step 8680, in step 8682, the rendering action availability / content determination unit 2325c-1 refers to the movable body accessory operation state information temporary storage unit 2325d, and relates to the initial motion related to the movable body accessory D. It is determined whether or not the flag is ON, in other words, whether or not the initial operation of the movable article D is incomplete. In the case of Yes in step 8682, in step 8684, the rendering action availability / content determination unit 2325c-1 turns off the movable body accessory C + D rendering operation execution decision permission flag in the movable body accessory operation state information temporary storage unit 2325d. , Step 8700 is entered. On the other hand, in the case of No in step 8682, in step 8686, the rendering operation availability / content determination unit 2325 c-1 refers to the movable body accessory operation state information temporary storage unit 2325 d, and relates to an error related to the movable body accessory D. It is determined whether or not the flag is on, in other words, whether or not some kind of operation abnormality is occurring in the movable body accessory D. If Yes in step 8686, the process proceeds to step 8684. On the other hand, in the case of No in step 8686, the process proceeds to step 8700.

  Next, in step 8700, the performance operation availability / content determination unit 2325c-1 executes content operation time determination processing described later, and proceeds to the next processing (movable body accessory operation control processing in step 9000). In this way, when it is determined that either the movable body accessory A or the movable body accessory B is in a state in which the rendering operation cannot be performed, the rendering related to both the movable body accessory A and the movable body accessory B The operation execution permission is not lowered. Further, when it is determined that either the movable body accessory C or the movable body accessory D is in a state in which the rendering operation cannot be performed, the rendering operation related to both the movable body accessory C and the movable body accessory D is performed. It is configured not to allow execution permission. With such a configuration, when a certain movable body accessory and another movable body accessory that operates in conjunction with the certain movable body accessory are provided, when an abnormal operation of one of the movable body accessories is detected Is configured so as to prohibit the operation of the other associated movable object, thereby preventing the player from misidentifying the jackpot reliability due to the abnormal operation of the movable object. You can also.

  Next, FIG. 36 is a flowchart of the content determination processing at the time of effect operation according to the subroutine of step 8700 in FIG. First, in step 8730, the performance action availability / content determination unit 2325c-1 determines whether the movable body accessory A + B effect operation execution decision permission flag in the movable body accessory operation state information temporary storage unit 2325d is on. judge. If Yes in step 8730, the process moves to step 8732, and if No in step 8730, the process moves to step 8750.

  Next, in step 8732, the performance action availability / content determination unit 2325c-1 turns off the movable body accessory A + B effect operation execution decision permission flag in the movable body accessory operation state information temporary storage unit 2325d. Next, in step 8734, the performance operation enable / disable content determination unit 2325c-1 refers to the drawing display related information temporary storage unit 2322c, acquires the variation pattern of the decorative design, and also creates the production operation content determination reference table 2325c. -1-1 is used to determine the rendering operation contents (including the case where the rendering operation is not executed) of the movable body accessory A and the movable body accessory B based on the variation mode, and the movable body accessory operation state information temporarily Temporarily store in the storage means 2325d. Next, in step 8736, the rendering operation availability / content determination unit 2325c-1 performs rendering operations of the movable body accessory A and the movable body accessory B temporarily stored in the movable body accessory operation state information temporary storage unit 2325d. Based on the contents, the movable body accessory operation state information temporary storage means 2325d is determined by referring to the production operation content determination reference table 2325c-1-1 to determine the movable timing of the movable body accessory A and the movable body accessory B. Memorize temporarily. Next, in step 8738, the rendering operation enable / disable content determination means 2325c-1 sets the basic stop position and the rendering operation content of the movable body accessory A temporarily stored in the movable body accessory operation state information temporary storage means 2325d. Based on the basic stop position, the number of steps in which the movable body accessory A can be moved from the basic stop position to the predetermined position detection point in the position sensor A is calculated, and the calculated number of steps is stored in the movable body accessory operation state information temporary storage means 2325d. To the step counter A. Next, in step 8740, the effect operation enable / disable content determination unit 2325c-1 uses a predetermined excitation time related to the effect operation of the movable body accessory B as an excitation period timer in the movable object operation state information temporary storage unit 2325d. Set to B. Next, in step 8742, the rendering operation availability / content determination unit 2325c-1 determines the movable body accessory A rendering operation start permission flag and the movable body accessory B rendering operation in the movable body accessory operation state information temporary storage unit 2325d. The start permission flag is turned on, and the process proceeds to step 8750.

  Next, in step 8750, the performance action enable / disable content determination unit 2325c-1 determines whether the movable body accessory C + D effect operation execution determination permission flag in the movable body accessory operation state information temporary storage unit 2325d is on. Determine. If Yes in step 8750, the process proceeds to step 8752, and if No in step 8750, the process proceeds to the next process (movable body accessory operation control process in step 9000).

  Next, in step 8752, the rendering operation availability / content determination unit 2325c-1 turns off the movable body accessory C + D rendering operation execution decision permission flag in the movable body accessory operation state information temporary storage unit 2325d. Next, in step 8754, the rendering operation availability / content determination unit 2325c-1 refers to the drawing display related information temporary storage unit 2322c, acquires the variation pattern of the decorative design, and also creates a rendering table for determining the rendering operation content 2325c. -1-1 is used to determine the rendering operation contents (including the case where the rendering operation is not executed) of the movable body accessory C and the movable body accessory D based on the variation mode, and the movable body accessory operation state information temporarily Temporarily store in the storage means 2325d. Next, in step 8756, the rendering operation availability / content determination unit 2325c-1 performs rendering operations of the movable body accessory C and the movable body accessory D temporarily stored in the movable body accessory operation state information temporary storage unit 2325d. Based on the contents, the movable body accessory C and the movable body accessory D are determined with reference to the production action content determination reference table 2325c-1-1 to determine the movable timing of the movable body accessory C and the movable body accessory operation state information temporary storage means 2325d. Memorize temporarily. Next, in step 8758, the rendering action availability / content determination unit 2325c-1 sets the basic stop position and the rendering operation content of the movable body accessory C temporarily stored in the movable body accessory operation state information temporary storage unit 2325d. On the basis of this, the number of steps in which the movable body accessory C can be moved from the basic stop position to a predetermined position detection point in the position sensor C is calculated, and the calculated number of steps is stored in the movable body accessory operation state information temporary storage means 2325d. Step counter C is set. Next, in step 8760, the rendering operation availability / content determination unit 2325c-1 uses a predetermined excitation time related to the rendering operation of the movable body accessory D as an excitation period timer in the movable body accessory operation state information temporary storage unit 2325d. Set to D. Next, in step 8762, the rendering action availability / content determination unit 2325c-1 determines the movable body accessory C effect operation start permission flag and the movable body accessory D effect operation in the movable body accessory operation state information temporary storage unit 2325d. The start permission flag is turned on, and the process proceeds to the next process (movable body accessory operation control process in step 9000).

  Next, FIG. 37 is a flowchart of the movable body accessory operation control process according to the subroutine of Step 9000 in FIG. First, in step 9200, the movable body accessory initial operation execution control means 2325a executes an initial operation operation start control process described later. Next, in step 9300, the movable body accessory initial operation execution control means 2325a executes an initial operation operation end control process which will be described later. Next, in step 9400, the movable body accessory error elimination operation execution control means 2325b executes an error elimination operation start control process described later. Next, in Step 9500, the movable body accessory error elimination operation execution control means 2325b executes an error elimination operation time operation end control process described later. Next, in step 9600, the movable body effect production operation execution control means 2325c executes production operation operation start control processing described later. Next, in step 9700, the movable article effect operation execution control means 2325c executes an operation end control process during effect operation described later, and proceeds to the next process (motor / solenoid excitation start control process in step 4000). .

  Next, FIG. 38 is a flowchart of the operation start control process during initial operation according to the subroutine of step 9200 in FIG. First, in step 9202, the initial operation start control unit 2325a-2 determines whether or not the symbol changing flag in the drawing display related information temporary storage unit 2322c is off. If Yes in step 9202, the process proceeds to step 9210, and if No in step 9202, the process proceeds to the next process (initial operation operation end control process in step 9300).

  Next, in step 9210, the initial operation start control means 2325a-2 turns on any of the movable body accessory A to D initial operation start permission flags in the movable body accessory operation state information temporary storage means 2325d. And different processing is executed based on the determination result. Here, in performing the determination, “movable body accessory A initial operation start permission flag”, “movable body accessory C initial operation start permission flag”, “movable body accessory B initial operation start permission flag”, “ It executes in the order of “movable body accessory D initial operation start permission flag”. If none of the flags is on, the process proceeds to the next process (operation end control process during initial operation in step 9300).

  Next, when the “movable body accessory A initial operation start permission flag” is ON in step 9210, in step 9220, the initial operation start control unit 2325 a-2 stores the movable body accessory operation state information temporary storage unit 2325 d. Whether or not the movable object C in-operation flag is OFF, in other words, whether or not the movable object C is not in operation regardless of the operation content (initial operation, error-resolving operation, production operation). Determine. In the case of Yes in step 9220, in step 9222, the initial operation start control means 2325a-2 turns on the movable object accessory A initial operation in-progress flag in the movable object accessory operation state information temporary storage means 2325d. Next, in Step 9224, the initial operation start control means 2325a-2 turns off the movable object accessory A initial operation start permission flag in the movable object accessory operation state information temporary storage means 2325d. Next, in step 9226, the initial motion start control means 2325a-2 turns on the movable body accessory A operating flag in the movable body accessory operation state information temporary storage means 2325d, and performs the next processing (initial step 9300). The operation shifts to the operation end control process during operation. In the case of No in step 9220, the process proceeds to the next process (operation end control process during initial operation in step 9300).

  Next, when the “movable body accessory C initial operation start permission flag” is ON in step 9210, in step 9240, the initial operation start control unit 2325 a-2 stores the movable body accessory operation state information temporary storage unit 2325 d. Whether or not the movable body accessory A in-operation flag is off, in other words, whether or not the movable body accessory A is not in an operating state regardless of the operation content (initial operation, error canceling operation, production operation). Determine. In the case of Yes in step 9240, in step 9242, the initial operation start control means 2325a-2 turns on the movable object accessory C initial operation in-progress flag in the movable object accessory operation state information temporary storage means 2325d. Next, in Step 9244, the initial operation start control means 2325a-2 turns off the movable object combination C initial operation start permission flag in the movable object combination operation state information temporary storage means 2325d. Next, in step 9246, the initial operation start control means 2325a-2 turns on the movable body accessory C operating flag in the movable body accessory operation state information temporary storage means 2325d, and performs the next processing (initial step 9300). The operation shifts to the operation end control process during operation. In the case of No in step 9220, the process proceeds to the next process (operation end control process during initial operation in step 9300).

  Next, when the “movable body accessory B initial operation start permission flag” is ON in step 9210, in step 9262, the initial operation start control means 2325a-2 stores the movable body accessory operation state information temporary storage means 2325d. The moving body accessory B initial operation in-progress flag is turned on. Next, in Step 9264, the initial operation start control means 2325a-2 turns off the movable object combination B initial operation start permission flag in the movable object combination operation state information temporary storage means 2325d. Next, in step 9266, the initial motion start control means 2325a-2 turns on the movable body accessory B in-motion flag in the movable body accessory operation state information temporary storage means 2325d, and performs the next processing (initial step 9300). The operation shifts to the operation end control process during operation.

  Next, when the “movable body accessory D initial operation start permission flag” is ON in step 9210, in step 9282, the initial operation start control means 2325a-2 stores the movable body accessory operation state information temporary storage means 2325d. The moving body accessory D initial operation flag is turned on. Next, in Step 9284, the initial operation start control means 2325a-2 turns off the movable object combination D initial operation start permission flag in the movable object combination operation state information temporary storage means 2325d. Next, in step 9286, the initial operation start control means 2325a-2 turns on the movable body accessory D operating flag in the movable body accessory operation state information temporary storage means 2325d, and performs the next processing (initial step 9300). The operation shifts to the operation end control process during operation.

  Next, FIG. 39 is a flowchart of the operation end control process during initial operation according to the subroutine of step 9300 in FIG. First, in step 9302, the initial operation end control means 2325a-3 has any of the movable body accessory AD flags in the movable body accessory operation state information temporary storage means 2325d turned on. And different processing is executed based on the determination result. Here, in performing the determination, the “movable body accessory A initial operation flag”, the “movable body accessory C initial operation flag”, the “movable body accessory B initial operation flag”, the “movable body accessory B initial operation flag”, The processing is executed in the order of the “object D initial operation flag”. If none of the flags is on, the process proceeds to the next process (operation start control process during error-resolving operation in step 9400).

  Next, when the “movable body accessory A initial operation flag” is ON in step 9302, in step 9312, the initial operation end control means 2325 a-3 stores the movable body accessory operation state information temporary storage means 2325 d. With reference to the current position information relating to the movable body accessory A, it is determined whether or not the movable body accessory A is present at the initial position. Here, a supplementary explanation will be given of a method for determining whether or not the movable object A is present at the initial position. In the present embodiment, as described above, an example is given in which the position sensor α is installed at the initial position of the movable object A as the position sensor A, and the position sensor β is installed at the maximum drive position of the movable object. . The position of the movable object A is determined based on whether the position sensor α or the position sensor β has detected the movable object A. For example, when the movable body accessory A is detected by the position sensor α, the movable body accessory A exists at the initial position, and when the movable body accessory A is detected by the position sensor β, The movable body accessory A is present at the maximum drive position. In addition, when neither the position sensor α nor the position sensor β detects the movable body accessory A, the movable body accessory A exists at any position between the initial position and the maximum drive position. It becomes. Here, at the time of execution of the initial operation, (1) the number of driving steps in which the movable body accessory A can move from the initial position to the maximum driving position is predicted, and (2) the movable body accessory is equal to the number of driving steps. A is driven, and (3) the driving is terminated when the driving for the number of driving steps is completed or the movable object A is detected by the position sensor β. Next, (4) predicting and calculating the number of drive steps in which the movable body accessory A can move from the maximum drive position to the initial position, and (5) driving the movable body accessory A by the number of drive steps, (6 ) When a drive corresponding to the number of drive steps is completed, or when the movable object A is detected by the position sensor α, a series of operations are executed such that the drive ends and the execution of the initial operation is completed. Become. That is, “whether or not the movable object A is present at the initial position” means that the detection determination process (6) is being executed. Such a series of operations (1) to (6) is desirably performed after ensuring that the movable body accessory A is present at the initial position when the initial operation is performed. However, when the gaming machine is turned on, the movable object A may not be present at the initial position. In such a case, a preparatory operation before the initial operation may be required. For example, as the preparation operation, when (A) the movable body accessory A is not detected by either the position sensor α or the position sensor β, (B) the movable body accessory A is moved in the direction of the position sensor α by a predetermined step ( For example, the movable body accessory A is driven by ½) of the number of driving steps that can move from the initial position to the maximum driving position, and (C) the driving for the number of driving steps is completed or the position sensor α When the movable object A is detected, the driving is terminated. If (C) the movable body accessory A is not detected, (D) the movable body accessory A can be moved in the direction of the position sensor β by a predetermined step (for example, from the initial position to the maximum drive position). The movable body accessory A is driven by ½) of the number of driving steps, and (E) the driving is performed when the driving for the number of driving steps is completed or the movable body accessory A is detected by the position sensor β. For example, a series of operations of (F) moving the movable body accessory A from the maximum drive position to the initial position may be performed.

  In the case of Yes in step 9312, in step 9314, the initial operation end control means 2325a-3 turns off the movable body accessory A operating flag in the movable body accessory operation state information temporary storage means 2325d. Next, in step 9316, the initial operation end control means 2325a-3 turns off the movable body accessory A initial operation in-progress flag in the movable body accessory operation state information temporary storage means 2325d, and performs the next processing (in step 9400). Moves to the operation start control process during error elimination operation. On the other hand, in the case of No in step 9312, in step 9320, the initial operation end control means 2325a-3 refers to the step counter A in the movable body accessory operation state information temporary storage means 2325d, and the initial of the movable body accessory A is determined. It is determined whether or not the operation for the scheduled operation (number of drive steps) in the operation has been completed. If Yes in step 9320, the process proceeds to step 9314. On the other hand, in the case of No in step 9320, in step 9322, the initial operation end control means 2325a-3 determines whether the symbol changing flag in the drawing display related information temporary storage means 2322c is on, that is, the initial operation. It is determined whether or not symbol variation has started during execution. In the case of Yes in step 9322, in step 9324, the initial operation end control means 2325a-3 turns on the movable object accessory A initial operation incomplete flag in the movable object accessory operation state information temporary storage means 2325d, and step 9314 Migrate to On the other hand, in the case of No in step 9322, in step 9326, the initial operation end control means 2325a-3 determines the current position information and the movable object combination related to the movable object accessory A in the movable object accessory operation state information temporary storage means 2325d. The current position information related to the object C is compared, and it is determined whether or not the movable object A and the movable object C are interfering (or immediately before the interference). If “Yes” in step 9326, the process proceeds to step 9324, and if “No” in step 9326, the process proceeds to the next process (operation start control process during error elimination operation in step 9400). Here, in the case of Yes in step 9322 or step 9326, the fact that the movable body accessory A initial operation incomplete flag is turned on will be described in detail. First, in this embodiment, when the symbol variation is started before the initial operation of the movable object A is completed, or when the interference with the movable object C is detected before the initial operation of the movable object A is completed. Is configured to execute the initial operation of the movable article A again. Then, in the re-execution of the initial operation, the initial operation is re-executed without considering the occurrence of an error relating to the movable body accessory A (that is, the operation abnormality accumulation counter addition process in FIG. 30 is not executed). Therefore, the movable body accessory A initial operation incomplete flag is turned on (hereinafter, the same applies to other movable body accessories).

  Next, when the “movable body accessory C initial operation flag” is ON in step 9302, in step 9332, the initial operation end control means 2325 a-3 stores the movable body accessory operation state information temporary storage means 2325 d. With reference to the current position information related to the movable body accessory C, it is determined whether or not the movable body accessory C exists at the initial position. In the case of Yes in step 9332, in step 9334, the initial operation end control means 2325a-3 turns off the movable body accessory C operating flag in the movable body accessory operation state information temporary storage means 2325d. Next, in step 9336, the initial operation end control means 2325a-3 turns off the movable body accessory C initial operation in-progress flag in the movable body accessory operation state information temporary storage means 2325d, and performs the next processing (in step 9400). Moves to the operation start control process during error elimination operation. On the other hand, in the case of No in step 9332, in step 9340, the initial operation end control means 2325a-3 refers to the step counter C in the movable body accessory operation state information temporary storage means 2325d, and the initial of the movable body accessory C is initialized. It is determined whether or not the operation for the scheduled operation (number of drive steps) in the operation has been completed. If Yes in step 9340, the process proceeds to step 9334. On the other hand, in the case of No in step 9340, in step 9342, the initial operation end control unit 2325a-3 determines whether or not the symbol changing flag in the drawing display related information temporary storage unit 2322c is on, that is, the initial operation. It is determined whether or not symbol variation has started during execution. In the case of Yes in step 9342, in step 9344, the initial operation end control means 2325a-3 turns on the movable object accessory C initial operation incomplete flag in the movable object accessory operation state information temporary storage means 2325d, and step 9344. Migrate to On the other hand, in the case of No in step 9342, in step 9346, the initial operation end control means 2325a-3 determines the current position information and the movable object combination related to the movable object accessory C in the movable object accessory operation state information temporary storage means 2325d. The current position information related to the object A is compared, and it is determined whether or not the movable object C and the movable object A are interfering (or just before the interference). If “Yes” in step 9346, the process proceeds to step 9344, and if “No” in step 9346, the process proceeds to the next process (operation start control process during error elimination operation in step 9400).

  Next, when the “movable body accessory B initial operation flag” is ON in step 9302, in step 9352, the initial operation end control means 2325 a-3 stores the movable body accessory operation state information temporary storage means 2325 d. With reference to the current position information relating to the movable body accessory B, it is determined whether or not the movable body accessory B exists at the initial position. In the case of Yes in step 9352, in step 9354, the initial operation end control means 2325a-3 turns off the moving body accessory B operating flag in the movable body accessory operation state information temporary storage means 2325d. Next, in step 9356, the initial operation end control means 2325a-3 turns off the movable body accessory B initial operation in-progress flag in the movable body accessory operation state information temporary storage means 2325d, and performs the next processing (in step 9400). Moves to the operation start control process during error elimination operation. On the other hand, in the case of No in step 9352, in step 9360, the initial operation end control means 2325a-3 refers to the excitation period timer B in the movable body accessory operation state information temporary storage means 2325d, and It is determined whether or not the operation for the scheduled operation (excitation period) in the initial operation is completed. If Yes in step 9360, the process proceeds to step 9354. On the other hand, in the case of No in step 9360, in step 9362, the initial operation end control unit 2325a-3 determines whether or not the symbol changing flag in the drawing display related information temporary storage unit 2322c is on, that is, the initial operation. It is determined whether or not symbol variation has started during execution. In the case of Yes in step 9362, in step 9364, the initial motion end control means 2325a-3 turns on the movable body accessory B initial operation incomplete flag in the movable body accessory operation state information temporary storage means 2325d, and step 9354. Migrate to On the other hand, in the case of No in step 9362, the processing shifts to the next processing (operation start control processing at the time of error elimination operation in step 9400). If the “movable body accessory D initial operation flag” is ON in step 9302, the process is substantially the same as the process in steps 9352 to 9364, and the description thereof is omitted.

  Next, FIG. 40 is a flowchart of the operation start control process at the time of error elimination operation according to the subroutine of step 9400 in FIG. First, in step 9402, the error elimination operation start control unit 2325b-2 determines whether or not the symbol changing flag in the drawing display related information temporary storage unit 2322c is off. If Yes in step 9402, the process proceeds to step 9410, and if No in step 9402, the process proceeds to the next process (operation completion control process during error elimination operation in step 9500).

  Next, in step 9410, the error elimination operation start control means 2325b-2 determines which flag of the movable body accessory A to D error elimination operation start permission flags in the movable body accessory operation state information temporary storage means 2325d. Is turned on, and different processing is executed based on the determination result. Here, in performing the determination, the “movable body accessory A error canceling operation start permission flag”, the “movable body accessory C error canceling operation start permission flag”, and the “movable body accessory B error canceling operation start permission flag”. ”And“ movable body accessory D error elimination operation start permission flag ”. If none of the flags is on, the process proceeds to the next process (the operation termination control process at the time of error elimination operation in step 9500).

  Next, when the “movable body accessory A error elimination operation start permission flag” is ON in step 9410, the error elimination operation start control means 2325b-2 in step 9420, the movable body accessory action state information temporary storage means. Whether or not the moving body accessory C in-operation flag in 2325d is off, in other words, whether or not the movable body accessory C is in an operating state regardless of the operation content (initial operation, error solving operation, production operation). Determine whether or not. In the case of Yes in step 9420, in step 9422, the error elimination operation start control means 2325b-2 turns on the movable body accessory A error elimination in-progress flag in the movable body accessory operation state information temporary storage means 2325d. Next, in step 9424, the error elimination operation start control means 2325b-2 turns off the movable body accessory A error elimination operation start permission flag in the movable body accessory operation state information temporary storage means 2325d. Next, in step 9426, the error elimination operation start control unit 2325b-2 turns on the movable body accessory A operating flag in the movable body accessory operation state information temporary storage unit 2325d, and performs the next processing (in step 9500). The operation shifts to the operation end control processing during error elimination operation. In the case of No in step 9420, the processing shifts to the next processing (operation completion control processing during error elimination operation in step 9500).

  Next, when the “movable body accessory C error elimination operation start permission flag” is ON in step 9410, the error elimination operation start control means 2325b-2 in step 9440, the movable body accessory action state information temporary storage means. Whether or not the moving body accessory A operating flag in 2325d is off, in other words, whether or not the movable body accessory A is in an operating state regardless of the operation content (initial operation, error canceling operation, production operation). Determine whether or not. In the case of Yes in step 9440, in step 9442, the error elimination operation start control unit 2325b-2 turns on the movable body accessory C error elimination operation in-progress flag in the movable body accessory operation state information temporary storage unit 2325d. Next, in step 9444, the error elimination operation start control means 2325b-2 turns off the movable body accessory C error elimination operation start permission flag in the movable body accessory operation state information temporary storage means 2325d. Next, in step 9446, the error elimination operation start control means 2325b-2 turns on the movable body accessory C operating flag in the movable body accessory operation state information temporary storage means 2325d, and performs the next processing (step 9500). The operation shifts to the operation end control processing during error elimination operation. In the case of No in step 9440, the process proceeds to the next process (the operation end control process at the time of error elimination operation in step 9500).

  Next, when the “movable body accessory B error elimination operation start permission flag” is ON in step 9210, in step 9462, the error elimination operation start control unit 2325 b-2 moves the movable body accessory operation state information temporary storage unit. The moving body accessory B error elimination in-progress flag in 2325d is turned on. Next, in step 9464, the error elimination operation start control means 2325b-2 turns off the movable body accessory B error elimination operation start permission flag in the movable body accessory operation state information temporary storage means 2325d. Next, in Step 9466, the error elimination operation start control means 2325b-2 turns on the movable body accessory B operating flag in the movable body accessory operation state information temporary storage means 2325d, and performs the next processing (in Step 9500). The operation shifts to the operation end control processing during error elimination operation.

  Next, when the “movable body accessory D error elimination operation start permission flag” is ON in step 9210, in step 9482, the error elimination operation start control means 2325 b-2 is a movable body accessory action state information temporary storage means. The movable body accessory D error elimination operation flag in 2325d is turned on. Next, in step 9484, the error elimination operation start control means 2325b-2 turns off the movable body accessory D error elimination operation start permission flag in the movable body accessory operation state information temporary storage means 2325d. Next, in step 9486, the error elimination operation start control means 2325b-2 turns on the movable body accessory D operating flag in the movable body accessory operation state information temporary storage means 2325d, and performs the next processing (in step 9500). The operation shifts to the operation end control processing during error elimination operation.

  Next, FIG. 41 is a flowchart of the operation end control process at the time of error elimination according to the subroutine of step 9500 in FIG. First, in step 9502, the error elimination operation end control means 2325 b-3 turns on any of the movable body accessory A to D error elimination operation in-progress flags in the movable body accessory operation state information temporary storage means 2325 d. And different processing is executed based on the determination result. Here, in executing the determination, “movable body accessory A error canceling operation flag”, “movable body accessory C error canceling operation flag”, “movable body accessory B error canceling operation flag”, “ It executes in the order of “movable body accessory D error elimination operation flag”. If none of the flags is on, the process proceeds to the next process (operation start control process during rendering operation in step 9600).

  Next, when the “movable body accessory A error canceling operation flag” is ON in step 9502, in step 9312, the error cancel operation end control means 2325b-3 moves the movable body accessory operation state information temporary storage means 2325d. With reference to the current position information and basic stop position information relating to the movable body accessory A, it is determined whether or not the movable body accessory A is present at the basic stop position. In the case of Yes in step 9512, in step 9514, the error elimination operation end control means 2325b-3 turns off the movable body accessory A operating flag in the movable body accessory operation state information temporary storage means 2325d. Next, in step 9516, the error elimination operation end control means 2325b-3 turns off the movable body accessory A error elimination operation flag in the movable body accessory operation state information temporary storage means 2325d, and performs the next processing (step 9600, the operation start control process during the rendering operation). On the other hand, in the case of No in step 9512, in step 9520, the error elimination operation end control means 2325b-3 refers to the step counter A in the movable body accessory operation state information temporary storage means 2325d, and It is determined whether or not the operation for the scheduled operation (the number of drive steps) in the error elimination operation has been completed. If Yes in step 9520, the process proceeds to step 9514. On the other hand, in the case of No in step 9520, in step 9522, the error elimination operation end control means 2325b-3 determines whether or not the symbol changing flag in the drawing display related information temporary storage means 2322c is on, that is, an error. It is determined whether or not symbol variation has been started during execution of the canceling operation. In the case of Yes in step 9522, in step 9524, the error elimination operation end control means 2325b-3 turns on the movable body accessory A error elimination processing incomplete flag in the movable body accessory operation state information temporary storage means 2325d, Control goes to step 9514. On the other hand, in the case of No in step 9522, in step 9526, the error elimination operation end control means 2325b-3 determines the current position information and the movable body related to the movable body accessory A in the movable body accessory operation state information temporary storage means 2325d. The current position information related to the accessory C is compared, and it is determined whether or not the movable object A and the movable object C are interfering (or just before the interference). In the case of Yes in step 9526, the process proceeds to step 9524, and in the case of No in step 9526, the process proceeds to the next process (the operation start control process during the rendering operation in step 9600). Here, in the case of Yes in step 9522 or step 9526, the fact that the movable body accessory A error elimination processing incomplete flag is turned on will be described in detail. First, in this embodiment, the pattern variation is started before the error solving operation of the movable object A is completed, or the interference with the movable object C is detected before the error solving operation of the movable object A is completed. In such a case, it is necessary to wait for the error-resolving operation of the movable body accessory A to reach an appropriate operation timing (for example, a timing that does not hinder the visual recognition of the decorative pattern or misidentifies it as an interlocking operation with another movable body accessory). Configured to run again. Then, in the re-execution of the error-resolving operation, it is not considered that an error has occurred with respect to the movable object A (that is, the operation abnormality accumulation counter addition process in FIG. In order to execute, the movable body accessory A error elimination processing incomplete flag is turned on (hereinafter, the same applies to other movable body accessories).

  Next, when the “movable body accessory C error elimination operation flag” is ON in step 9502, in step 9532, the error elimination operation end control means 2325b-3 moves the movable body accessory operation state information temporary storage means 2325d. With reference to the current position information and basic stop position information related to the movable body accessory C, it is determined whether or not the movable body accessory C exists at the basic stop position. In the case of Yes in step 9532, in step 9534, the error elimination operation end control means 2325b-3 turns off the movable body accessory C operating flag in the movable body accessory operation state information temporary storage means 2325d. Next, in step 9536, the error elimination operation end control means 2325b-3 turns off the movable body accessory C error elimination operation in-progress flag in the movable body accessory operation state information temporary storage means 2325d, and performs the next processing (step 9600, the operation start control process during the rendering operation). On the other hand, in the case of No in Step 9532, in Step 9540, the error elimination operation end control means 2325b-3 refers to the step counter C in the movable body accessory operation state information temporary storage means 2325d, and It is determined whether or not the operation for the scheduled operation (the number of drive steps) in the error elimination operation has been completed. If Yes in step 9540, the process proceeds to step 9534. On the other hand, in the case of No in step 9540, in step 9542, the error elimination operation end control means 2325b-3 determines whether the symbol changing flag in the drawing display related information temporary storage means 2322c is on, that is, an error. It is determined whether or not symbol variation has been started during execution of the canceling operation. In the case of Yes in step 9542, in step 9544, the error elimination operation end control means 2325b-3 turns on the movable body accessory C error elimination processing incomplete flag in the movable body accessory operation state information temporary storage means 2325d, Control goes to step 9534. On the other hand, in the case of No in step 9542, in step 9546, the error elimination operation end control means 2325b-3 determines the current position information and the movable body related to the movable body accessory C in the movable body accessory operation state information temporary storage means 2325d. The current position information related to the accessory A is compared, and it is determined whether or not the movable object C and the movable object A interfere (or are just before the interference). In the case of Yes in step 9546, the process proceeds to step 9544, and in the case of No in step 9546, the process proceeds to the next process (the operation start control process during the rendering operation in step 9600).

  Next, when the “movable body accessory B error elimination operation flag” is ON in step 9502, in step 9552, the error elimination operation end control means 2325b-3 moves the movable body accessory operation state information temporary storage means 2325d. With reference to the current position information and basic stop position information related to the movable body accessory B, it is determined whether or not the movable body accessory B exists at the basic stop position. In the case of Yes in Step 9552, in Step 9554, the error elimination operation end control means 2325b-3 turns off the movable body accessory B operating flag in the movable body accessory operation state information temporary storage means 2325d. Next, in step 9556, the error elimination operation end control means 2325b-3 turns off the movable body accessory B error elimination operation in-progress flag in the movable body accessory operation state information temporary storage means 2325d, and performs the next processing (step 9600, the operation start control process during the rendering operation). On the other hand, in the case of No in step 9552, in step 9560, the error elimination operation end control means 2325b-3 refers to the excitation period timer B in the movable body accessory operation state information temporary storage means 2325d, and the movable body accessory B It is determined whether or not the operation for the scheduled operation (excitation period) in the error canceling operation is completed. If Yes in step 9560, the process proceeds to step 9554. On the other hand, in the case of No in step 9560, in step 9562, the error elimination operation end control unit 2325b-3 determines whether or not the symbol changing flag in the drawing display related information temporary storage unit 2322c is on, that is, an error. It is determined whether or not symbol variation has been started during execution of the canceling operation. In the case of Yes in step 9562, in step 9564, the error elimination operation end control means 2325b-3 turns on the movable body accessory B error elimination processing incomplete flag in the movable body accessory operation state information temporary storage means 2325d, Control goes to step 9554. On the other hand, in the case of No in step 9562, the process proceeds to the next process (the operation start control process during the rendering operation in step 9600). If the “movable body accessory D initial operation flag” is ON in step 9502, the process is substantially the same as the process in steps 9552 to 9564, and the description thereof is omitted.

  Next, FIG. 42 is a flowchart of the motion start operation start control process according to the subroutine of step 9600 in FIG. First, in Step 9602, the rendering operation start control unit 2325c-2 refers to the movable body accessory operation state information temporary storage unit 2325d, and moves any of the movable body accessories A to D. It is determined whether or not the timing (see FIG. 36) has been reached. In the case of Yes in Step 9602, the process proceeds to Step 9610. In the case of No in Step 9602, the process proceeds to the next process (the operation end control process during the rendering operation in Step 9700).

  Next, in step 9610, the rendering operation start control means 2325c-2 turns on any of the movable body accessory A to D rendering operation start permission flags in the movable body accessory operation state information temporary storage means 2325d. And different processing is executed based on the determination result. Here, when the determination is performed, “movable body accessory A effect operation start permission flag”, “movable object accessory C effect operation start permission flag”, “movable object accessory B effect operation start permission flag”, “ It executes in the order of “movable body accessory D effect operation start permission flag”. If none of the flags is on, the process proceeds to the next process (operation end control process during rendering operation in step 9700).

  Next, when the “movable body accessory A effect operation start permission flag” is ON in step 9610, in step 9622, the effect operation start control means 2325c-2 is stored in the movable object action state information temporary storage means 2325d. The moving body accessory A production in-progress flag is turned on. Next, in step 9624, the rendering operation start control unit 2325c-2 turns off the movable body accessory A rendering operation start permission flag in the movable body accessory operation state information temporary storage unit 2325d. Next, in step 9626, the rendering operation start control means 2325c-2 turns on the movable body accessory A operating flag in the movable body accessory operation state information temporary storage means 2325d, and performs the next processing (the rendering of step 9700). The operation shifts to the operation end control process during operation.

  Next, when the “movable body accessory C effect operation start permission flag” is ON in step 9610, in step 9642, the effect operation start control means 2325c-2 is stored in the movable object action state information temporary storage means 2325d. The moving body accessory C effect operating flag is turned on. Next, in step 9644, the rendering operation start control means 2325c-2 turns off the movable body accessory C rendering operation start permission flag in the movable body accessory operation state information temporary storage unit 2325d. Next, in step 9646, the rendering operation start control means 2325c-2 turns on the movable body accessory C operating flag in the movable body accessory operation state information temporary storage means 2325d, and performs the next process (the rendering of step 9700). The operation shifts to the operation end control process during operation.

  Next, when the “movable body accessory B effect operation start permission flag” is ON in step 9610, in step 9662, the effect operation start control means 2325c-2 is stored in the movable object action state information temporary storage means 2325d. The movable body accessory B effect operating flag is turned on. Next, in step 9664, the rendering operation start control unit 2325c-2 turns off the movable body accessory B rendering operation start permission flag in the movable body accessory operation state information temporary storage unit 2325d. Next, in step 9666, the rendering operation start control means 2325c-2 turns on the movable body accessory B in-motion flag in the movable body accessory operation state information temporary storage means 2325d, and performs the next process (the rendering of step 9700). The operation shifts to the operation end control process during operation.

  Next, when the “movable body accessory D effect operation start permission flag” is ON in step 9610, in step 9682, the effect operation start control means 2325c-2 is stored in the movable object action state information temporary storage means 2325d. The moving body accessory D effect operating flag is turned on. Next, in step 9684, the rendering operation start control means 2325c-2 turns off the movable body accessory D rendering operation start permission flag in the movable body accessory operation state information temporary storage means 2325d. Next, in step 9686, the rendering operation start control means 2325c-2 turns on the movable body accessory D in-motion flag in the movable body accessory operation state information temporary storage unit 2325d, and performs the next process (the rendering of step 9700). The operation shifts to the operation end control process during operation.

  Next, FIG. 43 is a flowchart of the operation end control process at the time of effect operation according to the subroutine of step 9700 in FIG. First, in step 9702, the rendering operation end control means 2325c-3 has any of the movable body accessory A to D rendering operation in-progress flags in the movable body accessory operation state information temporary storage means 2325d turned on. And different processing is executed based on the determination result. Here, in performing the determination, the “movable body accessory A effect operating flag”, the “movable object C effect operating flag”, the “movable object B effect operating flag”, The processing is executed in the order of the “product D effect operating flag”. If none of the flags is on, the process proceeds to the next process (motor / solenoid excitation start control process in step 4000).

  Next, when the “movable body accessory A effect operating flag” is ON in step 9702, the effect operation end control means 2325c-3 in step 9712 stores the movable object accessory operation state information temporary storage means 2325d. With reference to the step counter A, it is determined whether or not the operation for the scheduled operation (the number of drive steps) in the effect operation of the movable article A has been completed. In the case of Yes in step 9712, in step 9714, the rendering operation end control means 2325c-3 turns off the movable body accessory A operating flag in the movable body accessory operation state information temporary storage means 2325d. Next, in step 9716, the rendering operation end control means 2325c-3 turns off the movable body accessory A rendering operation flag in the movable body accessory operation state information temporary storage unit 2325d, and performs the next processing (in step 4000). Move to motor / solenoid excitation start control processing. On the other hand, in the case of No in step 9712, in step 9722, the rendering operation end control means 2325c-3 determines the current position information and the movable body role related to the movable body accessory A in the movable body accessory operation state information temporary storage means 2325d. The current position information related to the object C is compared, and it is determined whether or not the movable object A and the movable object C are interfering (or immediately before the interference). If YES in step 9722, the process proceeds to step 9714, and if NO in step 9722, the process proceeds to the next process (motor / solenoid excitation start control process in step 4000).

  Next, when the “movable body accessory C effect operating flag” is ON in step 9702, the effect operation end control means 2325c-3 in step 9732 causes the movable object accessory operation state information temporary storage means 2325d. With reference to the step counter C, it is determined whether the operation | movement for the scheduled operation | movement (the number of drive steps) in the production | presentation operation | movement of the movable body accessory C is complete | finished. In the case of Yes in step 9732, in step 9734, the rendering operation end control means 2325c-3 turns off the moving body accessory C operating flag in the movable body accessory operation state information temporary storage means 2325d. Next, in step 9736, the production operation end control means 2325c-3 turns off the movable body accessory C production operation flag in the movable body accessory operation state information temporary storage means 2325d, and performs the next processing (in step 4000). Move to motor / solenoid excitation start control processing. On the other hand, in the case of No in step 9732, in step 9742, the rendering operation end control means 2325c-3 determines the current position information and the movable body role related to the movable body accessory C in the movable body accessory operation state information temporary storage means 2325d. The current position information related to the object A is compared, and it is determined whether or not the movable object C and the movable object A are interfering (or just before the interference). If Yes in step 9742, the process proceeds to step 9734. If No in step 9742, the process proceeds to the next process (motor / solenoid excitation start control process in step 4000).

  Next, when the “movable body accessory B effect operating flag” is ON in step 9702, the effect operation end control means 2325c-3 in step 9752 stores the movable object accessory operation state information temporary storage means 2325d. With reference to the excitation period timer B, it is determined whether or not the operation for the scheduled operation (excitation period) in the rendering operation of the movable object B has been completed. In the case of Yes in step 9752, in step 9754, the rendering operation end control means 2325c-3 turns off the movable body accessory B operating flag in the movable body accessory operation state information temporary storage means 2325d. Next, in step 9756, the rendering operation end control unit 2325c-3 turns off the movable body accessory B rendering operation in-progress flag in the movable body accessory operation state information temporary storage unit 2325d, and performs the next process (in step 4000). Move to motor / solenoid excitation start control processing. On the other hand, if NO in step 9752, the process proceeds to the next process (motor / solenoid excitation start control process in step 4000). If the “movable body accessory D initial operation flag” is on in step 9702, the process is substantially the same as the process in steps 9752 to 9756, and the description thereof is omitted.

  Next, FIG. 44 is a flowchart of motor / solenoid excitation start control processing according to the subroutine of step 4000 in FIG. First, in step 4002, the drive source excitation start control means 2325f-1 turns on any of the movable body accessory A to D operating flags in the movable body accessory operation state information temporary storage means 2325d. And different processing is executed based on the determination result. Here, in executing the determination, the “movable body accessory A operating flag”, “movable body accessory C operating flag”, “movable body accessory B operating flag”, “movable body accessory D operation” Execute in the order of “middle flag”. If none of the flags is on, the process proceeds to the next process (motor / solenoid excitation end control process in step 4500).

  Next, when the “moving body accessory A operating flag” is ON in step 4002, the drive source excitation start control means 2325f-1 in step 4012 stores the movable body accessory operation state information temporary storage means 2325d. It is determined whether or not the movable body accessory A energizing flag is off. In the case of Yes in step 4012, in step 4016, the drive source excitation start control means 2325f-1 sends an excitation pulse signal to the motor A based on the counter value of the step counter A in the movable body accessory operation state information temporary storage means 2325d. (See FIG. 7) is output. Here, in this embodiment, the control signal (see FIG. 7) to the motor A is configured to be maintained at the H level by default, and the excitation pulse signal output in this processing holds the rectangular shape of the pulse signal. And converted into an excitation signal. Further, the counter value of the step counter A is appropriately subtracted according to the output of the excitation pulse signal {appropriate subtraction is more specifically, for example, motors A and C employ a four-phase stepping motor. In this case, the excitation pulse signal is output to each phase (for example, A, B, A-, B-) based on a predetermined excitation method (for example, 1-phase, 2-phase, or 1-2-phase excitation). The On the other hand, the control signal is configured to be output for all phases, but in order to simplify the explanation, this explanation is used}. Next, in step 4018, the drive source excitation start control means 2325f-1 turns on the movable body accessory A excitation in-progress flag in the movable body accessory operation state information temporary storage means 2325d, and performs the next processing (in step 4500). Move to motor / solenoid excitation end control processing. On the other hand, in the case of No in step 4012, the process proceeds to the next process (motor / solenoid excitation end control process in step 4500). If the “moving body accessory C in-operation flag” is ON in step 4002, the process is substantially the same as the process in steps 4012 to 4018, and the description thereof is omitted.

  Next, when the “moving body accessory B operating flag” is ON in step 4002, in step 4030, the drive source excitation start control means 2325f-1 is stored in the movable body accessory operation state information temporary storage means 2325d. It is determined whether or not the movable body accessory B exciting flag is off. In the case of Yes in step 4030, the drive source excitation start control means 2325f-1 outputs a predetermined pulse signal to the solenoid B in step 4034. Here, in this embodiment, the control signal (see FIG. 7) to the solenoid B is configured to be kept at the H level by default. Next, in step 4036, the drive source excitation start control means 2325f-1 starts the excitation period timer B in the movable body accessory operation state information temporary storage means 2325d. Next, in step 4038, the drive source excitation start control means 2325f-1 turns on the movable body accessory B excitation in-progress flag in the movable body accessory operation state information temporary storage means 2325d, and performs the next processing (in step 4500). Move to motor / solenoid excitation end control processing. On the other hand, in the case of No in step 4030, the process proceeds to the next process (motor / solenoid excitation end control process in step 4500). If the “moving body accessory C in-operation flag” is ON in step 4002, the process is substantially the same as the process in steps 4012 to 4018, and the description thereof is omitted.

  Next, FIG. 45 is a flowchart of the motor / solenoid excitation end control process according to the subroutine of step 4500 in FIG. First, in step 4502, the drive source excitation end control means 2325f-2 turns on any of the movable body accessory A to D energizing flags in the movable body accessory operation state information temporary storage means 2325d. And different processing is executed based on the determination result. Here, in executing the determination, “moving body accessory A exciting flag”, “movable body accessory C exciting flag”, “moving body accessory B exciting flag”, “moving body accessory D exciting” Execute in the order of “middle flag”. If none of the flags is on, the process proceeds to the next process (long-term energization abnormality monitoring control process in step 3000).

  Next, when the “moving body accessory A exciting flag” is ON in step 4502, the drive source excitation end control means 2325f-2 in step 4512, the movable body accessory operation state information temporary storage means 2325d. With reference to the step counter A, it is determined whether or not the pulse signal output for a predetermined number of steps has been completed. In the case of Yes in step 4512, the drive source excitation end control means 2325f-2 ends the output of the pulse signal to the motor A in step 4513. Next, in step 4514, the drive source excitation end control means 2325f-2 turns off the movable body accessory A excitation in-progress flag in the movable body accessory operation state information temporary storage means 2325d, and performs the next processing (in step 3000). Transition to long-term energization abnormality monitoring control processing). On the other hand, in the case of No in step 4512, in step 4516, the drive source excitation end control means 2325f-2 determines whether the movable body accessory A operating flag in the movable body accessory operation state information temporary storage means 2325d is off. Determine whether or not. If YES in step 4516, the process proceeds to step 4513. If NO in step 4516, the process proceeds to the next process (long-term energization abnormality monitoring control process in step 3000). Note that if the “moving body accessory C exciting flag” is ON in step 4502, the process is substantially the same as the process in steps 4512 to 4516, and the description thereof is omitted.

  Next, when the “moving body accessory B excitation flag” is ON in step 4502, the drive source excitation end control means 2325f-2 in step 4530, the movable body accessory operation state information temporary storage means 2325d is stored. It is determined whether the excitation period timer B is zero (that is, whether the set predetermined time has elapsed). In the case of Yes in step 4530, the drive source excitation end control means 2325f-2 ends the output of the pulse signal to the solenoid B in step 4531. Next, in step 4532, the drive source excitation end control means 2325f-2 turns off the movable body accessory B excitation in-progress flag in the movable body accessory operation state information temporary storage means 2325d, and performs the next process (in step 3000). Transition to long-term energization abnormality monitoring control processing On the other hand, in the case of No in step 4530, in step 4534, the drive source excitation end control means 2325f-2 determines whether the movable body accessory B operating flag in the movable body accessory operation state information temporary storage means 2325d is OFF. Determine whether or not. If Yes in step 4534, the process proceeds to step 4531. If No in step 4534, the process proceeds to the next process (long-term energization abnormality monitoring control process in step 3000). Note that if the “movable body accessory D exciting flag” is ON in step 4502, the process is substantially the same as the process in steps 4530 to 4534, so the description is omitted.

  Next, FIG. 46 is a flowchart of the long-term energization abnormality monitoring control process according to the subroutine of step 3000 in FIG. First, in step 3002, the movable body accessory over-electricity avoidance control means 2325g turns on any of the movable body accessory A to D energizing flags in the movable body accessory operation state information temporary storage means 2325d. It is determined whether there is any, and different processing is executed based on the determination result. Here, in executing the determination, “moving body accessory A exciting flag”, “movable body accessory C exciting flag”, “moving body accessory B exciting flag”, “moving body accessory D exciting” Execute in the order of “middle flag”. If none of the flags is on, the process proceeds to step 3050.

  Next, when the “moving body accessory A energizing flag” is ON in step 3002, in step 3012 the movable body accessory overcurrent avoidance control means 2325g is stored in the movable body accessory operation state information temporary storage means 2325d. It is determined whether or not the movable body accessory A energization time monitoring flag is off. In the case of Yes in step 3012, in step 3014, the drive source number upper limiter control unit 2325 g-1 calculates the sum of the number of motors currently driven (excited) and the number of motors related to the motor A that is scheduled to be excited. To do. Next, in step 3016, the drive source number upper limit limiter control unit 2325g-1 determines whether or not the calculated total number of motors is less than a predetermined number (3 in the present embodiment). In the case of Yes in step 3016, in step 3018, the movable body accessory over-energization avoidance control unit 2325g sets a predetermined value (for example, the energization time monitoring timer A related to the motor A in the drive source energization time monitoring timer 2325g-2). Set 5 seconds) and start. Next, in step 3020, the movable body accessory over-energization avoidance control unit 2325g turns on the movable body accessory A energization time monitoring flag in the movable body accessory operation state information temporary storage unit 2325d, and proceeds to step 3050. To do. On the other hand, in the case of No in step 3012, in step 3022, the movable body accessory over-energization avoidance control unit 2325g has the energization time monitoring timer A related to the motor A in the drive source energization time monitoring timer 2325g-2 being zero. It is determined whether or not. In the case of Yes in step 3022, in step 3024, the movable article overcurrent avoidance control unit 2325g stops the output of the control signal related to the motor A for a predetermined period (maintains L level), and proceeds to step 3050. Here, in this processing, when the output of the control signal is held at the L level, even if the pulse signal is output to the motor A, all the pulse signals are converted to the L level (see FIG. 7). ) On the other hand, if the answer is No in Step 3016, the process proceeds to Step 3024, and if the answer is No in Step 3022, the process proceeds to Step 3050. If the “moving body accessory C exciting flag” is on in step 3002, the process is substantially the same as the process in steps 3012 to 3024, and the description thereof is omitted.

  Here, a supplementary explanation will be given of the determination processing in step 3016. In the present embodiment, as shown in the production operation content determination reference table 2325c-1-1 and the like, the motor A (number of motors 2) that is a driving source for driving the movable body accessory A and the movable body accessory C The motor C (1 motor) that is a drive source for driving the motor is configured so as not to be driven simultaneously. That is, as long as the processing on the sub-board side is a normal operation, the determination result in step 3016 is not No. That is, it is supplemented that the determination process is a process assuming that the process on the sub-board side is operating abnormally for some reason.

  Next, when the “moving body accessory B exciting flag” is ON in step 3002, in step 3030, the movable body accessory over-electricity avoidance control means 2325g is stored in the movable body accessory operation state information temporary storage means 2325d. It is determined whether the movable body accessory B energization time monitoring flag is off. In the case of Yes in step 3030, in step 3032, the movable body accessory overcurrent avoidance control unit 2325 g refers to the drive source excitation history information cumulative temporary storage unit 2325 g-3, and for a predetermined period X in the past from the current time. An excitation history is acquired, and a sum Y of excitation output periods within the predetermined period X is calculated. Next, in step 3034, the movable article overcurrent avoidance control means 2325g calculates the sum Z of the calculated sum Y of the excitation output periods and the timer value of the excitation period timer B scheduled to be output. Next, in Step 3036, the movable body accessory over-energization avoiding control unit 2325g determines whether (Y + Z) / (X + Z) is less than a predetermined ratio. Here, for example, the excitation output data relating to the movable body accessory B temporarily stored in the excitation history information accumulation temporary storage means 2325g-3 for each drive source is excitation output 5 seconds → non-excitation output 20 seconds → excitation output. In the case of 5 seconds → non-excitation output 20 seconds, X = 50 seconds and Y = 10 seconds. In such a situation, if the timer value of the excitation period timer B is 10 seconds, Z = 10 seconds, and (Y + Z) / (X + Z) = (10 + 10) / (50 + 10) = 1/3. It becomes. If the predetermined ratio is 30%, 1/3> predetermined ratio is 30%, and the determination result in step 3036 is No. In this embodiment, as shown in FIG. 7, the transmission history information of the excitation signal (or excitation power) for the drive source can be stored in the buffer, and the buffer in FIG. This corresponds to the excitation history information accumulation temporary storage means 2325g-3. Returning to the description of the flowchart, in the case of Yes in Step 3036, in Step 3038, the movable body accessory over-energization avoiding control means 2325g is the energization time monitoring timer for the solenoid B in the drive source energization time monitoring timer 2325g-2 A predetermined value (for example, 10 seconds) is set in B and started. Next, in step 3040, the movable body accessory over-energization avoidance control unit 2325g turns on the movable body accessory B energization time monitoring flag in the movable body accessory operation state information temporary storage unit 2325d, and proceeds to step 3050. To do. On the other hand, in the case of No in step 3030, in step 3042, the energization time monitoring timer B related to the solenoid B in the driving source energization time monitoring timer 2325g-2 is zero in the movable body overcurrent avoidance control means 2325g. It is determined whether or not. In the case of Yes in Step 3042, in Step 3044, the movable body accessory over-energization avoidance control unit 2325g stops the output of the control signal related to the solenoid B for a predetermined period (maintains L level), and proceeds to Step 3050. Here, in this process, when the output of the control signal is held at the L level, even if the excitation pulse signal is output to the solenoid B, all the excitation pulse signals are converted to the L level (see FIG. 7). On the other hand, if NO in step 3036, the process proceeds to step 3044, and if NO in step 3042, the process proceeds to step 3050. Note that if the “moving body accessory D exciting flag” is ON in step 3002, the process in step 3030 to step 3044 is executed in substantially the same manner, and the description thereof is omitted.

  Next, in step 3050, the movable body accessory over-energization avoidance control means 2325g has a movable body accessory A to D exciting flag in the movable body accessory operation state information temporary storage means 2325d turned off. , The movable body accessory A to D energization time monitoring flag relating to the movable body accessory is turned off, and the process proceeds to the next process (movable body accessory basic position setting process in step 5200).

  Next, with reference to FIG. 47 to FIG. 56, the special movable control process of the movable body accessory executed on the sub-board side will be described. First, FIG. 47 is a flowchart of interrupt processing on the sub-board side that is executed when vibration error notification instruction information is received from the main side. First, the interrupt processing on the sub-board side in the present embodiment is the case where vibration error notification instruction information (see step 1056 in FIG. 10) is received from the main side during execution of the main processing flowchart on the sub-board side. This means that the process execution in the main process flowchart being executed is temporarily suspended and the interrupt process is preferentially executed. Then, after the execution of the interrupt process, the process of the main flowchart that has been temporarily suspended is resumed.

  Next, in step 2010, the movable body accessory special movement execution control means 2325h turns on all the movable body accessories A to D special movable preparation operation incomplete flags in the movable body accessory operation state information temporary storage means 2325d. To do. Here, the movable body accessory A to D special movable preparation operation incomplete flag is a flag for executing the preparation operation when the special movable production effect of the movable body accessory is executed. As a result, the process of forcibly moving the movable body accessory to the initial position, which will be described later, is executed. Next, in step 2500, the movable body accessory special movement execution control means 2325h executes a movable body accessory special movement preparation operation control process described later. Next, in step 3500, the movable body accessory special movement execution control means 2325h executes a movable body accessory special movement control process which will be described later. Next, in step 4000, the movable body accessory special movement execution control means 2325h executes the above-described motor / solenoid excitation start control processing. Next, in step 4500, the movable body accessory special movement execution control means 2325h executes the above-described motor / solenoid excitation end control process. Next, in step 3000, the movable body accessory special movement execution control means 2325h executes the above-described long-term energization abnormality monitoring control process. Next, in step 2020, the movable body accessory special movement execution control means 2325h determines whether or not vibration error notification release information (see step 1066 in FIG. 10) from the main side has been received. In the case of Yes in Step 2020, in Step 2100, the movable body accessory special movement execution control means 2325h executes vibration error notification release information reception processing described later, and returns to the main flowchart on the sub-board side. On the other hand, in the case of No in Step 2020, the process proceeds to Step 2500 (that is, a loop process for waiting for reception of vibration error notification release information). Hereinafter, although each process is explained in full detail, description is abbreviate | omitted about the process mentioned above.

  Next, FIG. 48 is a flowchart of the movable body accessory special movable preparation operation control process according to the subroutine of step 2500 in FIG. First, in step 2600, the special movable preparation operation execution control means 2325h-1 executes an operation content determination process during special movable preparation operation described later. Next, in Step 2700, the special movable preparation operation execution control means 2325h-1 executes a special movable preparation operation operation start control process described later. Next, in step 2800, the special movable preparation operation execution control means 2325h-1 executes a special movable preparation operation operation end control process described later, and performs the following process (movable body accessory special movement control process in step 3500). Migrate to

  Next, FIG. 49 is a flowchart of operation content determination processing during the special movable preparatory operation according to the subroutine of step 2600 in FIG. First, in Step 2602, the special movable preparation operation execution control means 2325 h-1 selects any of the movable body accessories A to D special movable preparation operation incomplete flag in the movable body accessory operation state information temporary storage means 2325 d. It is determined whether the flag is on, and different processing is executed based on the determination result. Here, in executing the determination, the “movable body accessory A special movable preparation operation incomplete flag”, the “movable body accessory C special movable preparation operation incomplete flag”, and the “movable body accessory B special movable preparation operation incomplete”. "Uncompleted flag" and "movable body accessory D special movable preparation operation incomplete flag" are executed in this order. If none of the flags is on, the process proceeds to the next process (operation start control process during special movable preparatory operation in step 2700).

  Next, when the “movable body accessory A special movable preparation operation incomplete flag” is ON in step 2602, in step 2620, the special movable preparation operation execution control means 2325 h-1 temporarily moves the movable body accessory operation state information. Based on the current position information of the movable body accessory A in the storage means 2325d and the initial position information of the movable body accessory A, the number of drive steps capable of moving the movable body accessory A to the initial position is derived and derived. The number of steps is set in the step counter A in the movable article operating state information temporary storage means 2325d. Next, in step 2622, the special movable preparation operation execution control means 2325h-1 turns off the movable body accessory A special movable preparation operation incomplete flag in the movable body accessory operation state information temporary storage means 2325d. Next, in Step 2624, the special movable preparation operation execution control means 2325h-1 turns on the movable body accessory A special movable preparation operation start permission flag in the movable body accessory operation state information temporary storage means 2325d. The process proceeds to the process (operation start control process at the time of special movable preparatory operation in step 2700).

  Next, when the “movable body accessory C special movable preparation operation incomplete flag” is ON in step 2602, in step 2640, the special movable preparation operation execution control means 2325 h-1 moves the movable body accessory operation state information temporarily. Based on the current position information of the movable body accessory C in the storage means 2325d and the initial position information of the movable body accessory C, the number of drive steps capable of moving the movable body accessory C to the initial position is derived and derived. The number of steps is set in a step counter C in the movable article operating state information temporary storage means 2325d. Next, in step 2642, the special movable preparation operation execution control unit 2325h-1 turns off the movable body accessory C special movable preparation operation incomplete flag in the movable body accessory operation state information temporary storage unit 2325d. Next, in Step 2644, the special movable preparation operation execution control means 2325h-1 turns on the movable body accessory C special movable preparation operation start permission flag in the movable body accessory operation state information temporary storage means 2325d. The process proceeds to the process (operation start control process at the time of special movable preparatory operation in step 2700).

  Next, when the “movable body accessory B special movable preparation operation incomplete flag” is ON in step 2602, the special movable preparation operation execution control means 2325 h-1 determines a predetermined condition relating to the movable body accessory B in step 2660. Is set in the excitation period timer B in the movable body accessory operating state information temporary storage means 2325d. Next, in step 2662, the special movable preparation operation execution control means 2325h-1 turns off the movable body accessory B special movable preparation operation incomplete flag in the movable body accessory operation state information temporary storage means 2325d. Next, in step 2664, the special movable preparation operation execution control means 2325h-1 turns on the movable body accessory B special movable preparation operation start permission flag in the movable body accessory operation state information temporary storage means 2325d, and The process proceeds to the process (operation start control process at the time of special movable preparatory operation in step 2700).

  Next, when the “movable body accessory D special movable preparation operation incomplete flag” is ON in step 2602, the special movable preparation operation execution control means 2325 h-1 determines the predetermined thing related to the movable body accessory D in step 2680. Is set in the excitation period timer D in the movable body accessory operating state information temporary storage means 2325d. Next, in step 2682, the special movable preparation operation execution control means 2325h-1 turns off the movable body accessory D special movable preparation operation incomplete flag in the movable body accessory operation state information temporary storage means 2325d. Next, in step 2684, the special movable preparation operation execution control means 2325h-1 turns on the movable body accessory D special movable preparation operation start permission flag in the movable body accessory operation state information temporary storage means 2325d. The process proceeds to the process (operation start control process at the time of special movable preparatory operation in step 2700).

  Next, FIG. 50 is a flowchart of the operation start control process during the special movable preparatory operation according to the subroutine of step 2700 in FIG. First, in Step 2702, the special movable preparation operation execution control means 2325h-1 selects any of the movable body accessories A to D special movable preparation operation start permission flags in the movable body accessory operation state information temporary storage means 2325d. It is determined whether the flag is on, and different processing is executed based on the determination result. Here, when executing the determination, “movable body accessory A special movable preparation operation start permission flag”, “movable body accessory C special movable preparation operation start permission flag”, “movable body accessory B special movable preparation operation” This is executed in the order of “start permission flag” and “movable body accessory D special movable preparation operation start permission flag”. If none of the flags is on, the process proceeds to the next process (operation end control process during special movable preparatory operation in step 2800).

  Next, when the “movable body accessory A special movable preparation operation start permission flag” is ON in step 2702, in step 2722, the special movable preparation operation execution control means 2325 h-1 moves the movable body accessory operation state information temporarily. The movable body accessory A special movable preparatory operation in-progress flag in the storage means 2325d is turned on. Next, in step 2724, the special movable preparation operation execution control unit 2325h-1 turns off the movable body accessory A special movable preparation operation start permission flag in the movable body accessory operation state information temporary storage unit 2325d. Next, in Step 2726, the special movable preparation operation execution control means 2325h-1 turns on the movable body accessory A operating flag in the movable body accessory operation state information temporary storage means 2325d, and performs the next processing (Step 2800). (The operation end control process during the special movable preparatory operation).

  Next, when the “movable body accessory C special movable preparation operation start permission flag” is ON in step 2702, in step 2742, the special movable preparation operation execution control means 2325 h-1 moves the movable body accessory operation state information temporarily. The movable body accessory C special movable preparatory operation in-progress flag in the storage means 2325d is turned on. Next, in step 2744, the special movable preparation operation execution control unit 2325h-1 turns off the movable body accessory C special movable preparation operation start permission flag in the movable body accessory operation state information temporary storage unit 2325d. Next, in step 2746, the special movable preparation operation execution control means 2325h-1 turns on the movable body accessory C operating flag in the movable body accessory operation state information temporary storage means 2325d, and performs the next processing (step 2800). (The operation end control process during the special movable preparatory operation).

  Next, when the “movable body accessory B special movable preparation operation start permission flag” is ON in step 2702, in step 2762, the special movable preparation operation execution control means 2325h-1 temporarily moves the movable body accessory operation state information. The movable body accessory B special movable preparation operation in-progress flag in the storage means 2325d is turned on. Next, in step 2764, the special movable preparation operation execution control means 2325h-1 turns off the movable body accessory B special movable preparation operation start permission flag in the movable body accessory operation state information temporary storage means 2325d. Next, in step 2766, the special movable preparation operation execution control means 2325h-1 turns on the movable body accessory B in-motion flag in the movable body accessory operation state information temporary storage means 2325d, and performs the next processing (step 2800). (The operation end control process during the special movable preparatory operation).

  Next, when the “movable body accessory D special movable preparation operation start permission flag” is turned on in step 2702, the special movable preparation operation execution control means 2325 h-1 in step 2782 sends the movable body accessory operation state information temporarily. The movable body accessory D special movable preparation in-progress flag in the storage means 2325d is turned on. Next, in Step 2784, the special movable preparation operation execution control means 2325h-1 turns off the movable body accessory D special movable preparation operation start permission flag in the movable body accessory operation state information temporary storage means 2325d. Next, in step 2786, the special movable preparation operation execution control means 2325h-1 turns on the movable body accessory D operating flag in the movable body accessory operation state information temporary storage means 2325d, and performs the next processing (step 2800). (The operation end control process during the special movable preparatory operation).

  Next, FIG. 51 is a flowchart of the operation end control process during the special movable preparation operation according to the subroutine of Step 2800 in FIG. First, in Step 2802, the special movable preparation operation execution control means 2325h-1 determines which flag of the movable body accessory A to D special movable preparation operation in-progress flag in the movable body accessory operation state information temporary storage means 2325d. Is turned on, and different processing is executed based on the determination result. Here, in executing the determination, the “movable body accessory A special movable preparation operation flag”, the “movable body accessory C special movable preparation operation flag”, and the “movable body accessory B special movable preparation operation flag”. ”,“ Movable body accessory D special movable preparation operation flag ”. Here, by setting such an order, the interference operation of the movable body accessories (in this embodiment, the movable body accessories A and C) that can interfere with each other even during special movement of the movable body accessory is performed. It can be avoided. If none of the flags is on, the process proceeds to the next process (movable body special movement control process in step 3500).

  Next, when the “movable body accessory A special movable preparation operation in-progress flag” is ON in step 2802, in step 2822, the special movable preparation operation execution control means 2325 h-1 temporarily stores the movable body accessory operation state information. With reference to the inside of the means 2325d, it is determined whether or not the current position of the movable accessory A is the initial position. In the case of Yes in step 2822, in step 2824, the special movable preparation operation execution control unit 2325h-1 turns off the movable object combination A operating flag in the movable object combination operation state information temporary storage unit 2325d. Next, in Step 2826, the special movable preparation operation execution control means 2325h-1 turns off the movable body accessory A special movable preparation operation in-progress flag in the movable body accessory operation state information temporary storage means 2325d, and performs the next processing. The process proceeds to (movable body accessory special movement control process in step 3500). On the other hand, in the case of No in step 2822, in step 2828, the special movable preparation operation execution control means 2325h-1 refers to the step counter A in the movable body accessory operation state information temporary storage means 2325d, and the movable body accessory A It is determined whether or not the operation corresponding to the scheduled operation (number of drive steps) in the special movable preparatory operation is completed. In the case of Yes in step 2828, the process proceeds to step 2824, and in the case of No in step 2828, the process proceeds to the next process (movable body special movement control process in step 3500).

  Next, when the “movable body accessory C special movable preparation operation in-progress flag” is ON in step 2802, in step 2842, the special movable preparation operation execution control means 2325h-1 temporarily stores the movable body accessory operation state information. With reference to the inside of the means 2325d, it is determined whether or not the current position of the movable body accessory C is the initial position. In the case of Yes in step 2842, in step 2844, the special movable preparation operation execution control means 2325h-1 turns off the movable body accessory C operating flag in the movable body accessory operation state information temporary storage means 2325d. Next, in Step 2846, the special movable preparation operation execution control means 2325h-1 turns off the movable object combination C special movable preparation operation in-progress flag in the movable object combination operation state information temporary storage means 2325d, and performs the next processing. The process proceeds to (movable body accessory special movement control process in step 3500). On the other hand, in the case of No in step 2842, in step 2848, the special movable preparation operation execution control means 2325h-1 refers to the step counter C in the movable body accessory operation state information temporary storage means 2325d, and the movable object accessory C It is determined whether or not the operation corresponding to the scheduled operation (number of drive steps) in the special movable preparatory operation is completed. In the case of Yes in step 2848, the process proceeds to step 2844, and in the case of No in step 2848, the process proceeds to the next process (the movable body accessory special movable control process in step 3500).

  Next, when the “movable body accessory B special movable preparation operation in-progress flag” is ON in step 2802, in step 2862, the special movable preparation operation execution control means 2325h-1 temporarily stores the movable body accessory operation state information. With reference to the inside of the means 2325d, it is determined whether or not the current position of the movable body accessory B is the initial position. In the case of Yes in step 2862, in step 2864, the special movable preparation operation execution control means 2325h-1 turns off the movable body accessory B operating flag in the movable body accessory operation state information temporary storage means 2325d. Next, in Step 2866, the special movable preparation operation execution control means 2325h-1 turns off the movable body accessory B special movable preparation operation in-progress flag in the movable body accessory operation state information temporary storage means 2325d, and performs the next processing. The process proceeds to (movable body accessory special movement control process in step 3500). On the other hand, in the case of No in step 2862, in step 2868, the special movable preparation operation execution control means 2325h-1 refers to the excitation period timer B in the movable body accessory operation state information temporary storage means 2325d, and moves the movable object accessory. It is determined whether or not the operation for the scheduled operation (excitation period) in the special movable preparatory operation for B has been completed. In the case of Yes in step 2868, the process proceeds to step 2864, and in the case of No in step 2868, the process proceeds to the next process (movable body special movement control process in step 3500).

  Next, when the “movable body accessory D special movable preparation operation in-progress flag” is ON in step 2802, the special movable preparation operation execution control means 2325h-1 temporarily stores the movable body accessory operation state information in step 2882. Referring to the inside of the means 2325d, it is determined whether or not the current position of the movable body accessory D is the initial position. In the case of Yes in step 2882, in step 2884, the special movable preparation operation execution control means 2325h-1 turns off the movable body accessory D operating flag in the movable body accessory operation state information temporary storage means 2325d. Next, in step 2886, the special movable preparation operation execution control means 2325h-1 turns off the movable body accessory D special movable preparation operation in-progress flag in the movable body accessory operation state information temporary storage means 2325d, and performs the next processing. The process proceeds to (movable body accessory special movement control process in step 3500). On the other hand, in the case of No in step 2882, in step 2888, the special movable preparation operation execution control means 2325h-1 refers to the excitation period timer D in the movable body accessory operation state information temporary storage means 2325d, and moves the movable object accessory. It is determined whether or not the operation for the scheduled operation (excitation period) in the special movable preparatory operation of D has been completed. In the case of Yes in step 2888, the process proceeds to step 2884, and in the case of No in step 2888, the process proceeds to the next process (movable body accessory special movable control process in step 3500).

  Next, FIG. 52 is a flowchart of the movable body accessory special movement control process according to the subroutine of step 3500 in FIG. First, in step 3600, the special movement execution control means 2325h-2 executes a special movement operation content determination process described later. Next, in Step 3700, the special movement execution control means 2325h-2 executes a special movement operation start control process described later. Next, in Step 3800, the special movement execution control means 2325h-2 executes a special movement operation end control process described later, and proceeds to the next process (a motor / solenoid excitation start control process in Step 4000).

  Next, FIG. 53 is a flowchart of the operation content determination process during special movement according to the subroutine of step 3600 in FIG. First, in step 3602, the special movable execution control means 2325h-2 turns off all of the movable body accessory A to D special movable preparation operation in-progress flags in the movable body accessory operation state information temporary storage means 2325d. It is determined whether or not. In the case of step 3602 Yes, in step 3604, the special movable execution control means 2325 h-2 turns off all of the movable body accessory A to D special movable operation in-progress flags in the movable body accessory operation state information temporary storage means 2325 d. It is determined whether or not. In the case of step 3604 Yes, in step 3606, the special movable execution control means 2325h-2 refers to the movable body accessory action state information temporary storage means 2325d, and the flag related to the initial action is off (the initial action execution has been completed). A movable body accessory (hereinafter referred to as a special movable body) that specially moves any of the movable body accessories A to D that have been initially operated) and that have an error-related flag turned off (no error has occurred or has been eliminated). (Referred to as a target character). Next, in step 3608, the special movement execution control means 2325h-2 performs special production operation contents different from the normal operation contents (initial operation, error elimination operation, production operation) for each of the special movable object combinations. decide. Next, in Step 3610, the special movable execution control means 2325h-2 determines the movable timing so that each special movable target combination is immediately operated. Here, the reason for determining the movable timing is different from the operation content of the movable body accessory at the time of the production operation, and it is not necessary to link with the variation pattern of the decorative symbol, and the purpose of special movement is to perform error notification. This is because it is necessary to start a special movable operation promptly. Next, in step 3612, the special movable execution control means 2325 h-2 derives the number of drive steps (or excitation time) for each special movable target object based on the special performance operation content determined in step 3608, The derived content is set in a step counter (or excitation period timer) in the movable body accessory operation state information temporary storage means 2325d. Next, in step 3614, the special movable execution control means 2325h-2 turns on the movable body accessory A to D special movable operation start permission flag related to the special movable target accessory, and performs the next process (special movable in step 3700). Shift to the operation start control process). In the case of No in step 3602 or step 3604, the process proceeds to the next process (operation start control process during special movement in step 3700).

  Note that the mode of the special performance operation is different from the operation modes of the initial operation, the error elimination operation, and the production operation (the initial motion content determination reference table 2325b-1-1 and the error resolution operation content determination reference table 2325b-1-1. The operation mode is not particularly limited as long as it is different from the operation mode defined in the production operation content determination reference table 2325c-1-1), but the purpose of special movement is to perform error notification, so that the movable body It is preferable that the number of driving steps of the accessory is large (when all LEDs are mounted, all the LEDs are blinked). Moreover, it is also possible to enhance the error notification effect by moving the effect display device 2140 to a position where it is shielded. Moreover, you may comprise so that a movable body accessory may be fixed in the maximum movement position (maximum protrusion amount) from an initial position, and it is suitable in order to further raise an error alerting effect. At the time of the special effect operation, the error notification relating to the movable body accessory is executed by the movable body accessory error notification means (corresponding to the front unit) 232-31 or the movable body accessory error notification means (corresponding to the back unit) 232-32. Therefore, it is possible to determine whether or not the special effect operation is caused by an abnormal operation of the movable body accessory.

  Next, FIG. 54 is a flowchart of the operation start control process during special movement according to the subroutine of step 3700 in FIG. First, in step 3702, the special movable execution control means 2325h-2 turns on any of the movable body accessory A to D special movable operation start permission flags in the movable body accessory operation state information temporary storage means 2325d. And different processing is executed based on the determination result. Here, in executing the determination, the “movable body accessory A special movable operation start permission flag”, the “movable body accessory C special movable operation start permission flag”, and the “movable body accessory B special movable operation start permission flag”. ”,“ Movable body accessory D special movable operation start permission flag ”. If none of the flags is on, the process proceeds to the next process (operation end control process during special movable operation in step 3800).

  Next, when the “movable body accessory A special movable operation start permission flag” is ON in step 3702, in step 3722, the special movable operation execution control means 2325h-2 stores the movable body accessory operation state information temporary storage means. The movable body accessory A special movable operation flag in 2325d is turned on. Next, in Step 3724, the special movable operation execution control unit 2325h-2 turns off the movable body accessory A special movable operation start permission flag in the movable body accessory operation state information temporary storage unit 2325d. Next, in step 3726, the special movable operation execution control means 2325h-2 turns on the movable object combination A operating flag in the movable object combination operation state information temporary storage means 2325d, and performs the next processing (in step 3800). The process proceeds to the operation end control process during special movable operation.

  Next, when the “movable body accessory C special movable operation start permission flag” is ON in step 3702, in step 3742, the special movable operation execution control unit 2325h-2 stores the movable body accessory operation state information temporary storage unit. The movable body accessory C special movable operation flag in 2325d is turned on. Next, in Step 3744, the special movable operation execution control unit 2325h-2 turns off the movable body accessory C special movable operation start permission flag in the movable body accessory operation state information temporary storage unit 2325d. Next, in Step 3746, the special movable action execution control means 2325h-2 turns on the movable object combination C operation flag in the movable object action state information temporary storage means 2325d, and performs the next processing (Step 3800). The process proceeds to the operation end control process during special movable operation.

  Next, when the “movable body accessory B special movable operation start permission flag” is ON in step 3702, in step 3762, the special movable operation execution control means 2325h-2 stores the movable body accessory operation state information temporary storage means. The movable body accessory B special movable operation flag in 2325d is turned on. Next, in step 3764, the special movable operation execution control unit 2325h-2 turns off the movable body accessory B special movable operation start permission flag in the movable body accessory operation state information temporary storage unit 2325d. Next, in step 3766, the special movable operation execution control means 2325h-2 turns on the movable body accessory B in-motion flag in the movable body accessory operation state information temporary storage means 2325d, and performs the next processing (in step 3800). The process proceeds to the operation end control process during special movable operation.

  Next, when the “movable body accessory D special movable operation start permission flag” is turned on in step 3702, the special movable operation execution control means 2325h-2 in step 3882 determines the movable body accessory operation state information temporary storage means. The movable body accessory D special movable operation flag in 2325d is turned on. Next, in step 3784, the special movable operation execution control means 2325h-2 turns off the movable body accessory D special movable operation start permission flag in the movable body accessory operation state information temporary storage means 2325d. Next, in Step 3786, the special movable operation execution control means 2325h-2 turns on the movable body accessory D operating flag in the movable body accessory operation state information temporary storage means 2325d, and performs the next process (in Step 3800). The process proceeds to the operation end control process during special movable operation.

  Next, FIG. 55 is a flowchart of the operation end control process during special movable operation according to the subroutine of step 3800 in FIG. First, in step 3802, the special movable operation execution control unit 2325h-2 turns on any of the movable body accessory A to D special movable operation in-progress flags in the movable body accessory operation state information temporary storage unit 2325d. And different processing is executed based on the determination result. Here, in performing the determination, the “movable body accessory A special movable operation flag”, the “movable body accessory C special movable operation flag”, the “movable body accessory B special movable operation flag”, “ The movable body accessory D is executed in the order of “special movable operation flag”. If none of the flags is on, the process proceeds to the next process (motor / solenoid excitation start control process in step 4000).

  Next, when the “movable body accessory A special movable operation flag” is ON in step 3802, in step 3822, the special movable operation execution control means 2325h-2 makes the movable body accessory operation state information temporary storage means 2325d. With reference to the step counter A, it is determined whether or not the operation corresponding to the scheduled operation (number of drive steps) in the special movable operation of the movable article A has been completed. In the case of Yes in step 3822, in step 3824, the special movable action execution control means 2325h-2 turns off the movable object accessory A operating flag in the movable object action state information temporary storage means 2325d. Next, in step 3826, the special movable operation execution control means 2325h-2 turns off the movable body accessory A special movable operation in-progress flag in the movable body accessory operation state information temporary storage means 2325d, and performs the next processing (step 4000 motor / solenoid excitation start control processing). On the other hand, in the case of No in step 3822, in step 3828, the special movable motion execution control means 2325h-2 determines the current position information and the movable body related to the movable body accessory A in the movable body accessory operation state information temporary storage means 2325d. The current position information related to the accessory C is compared, and it is determined whether or not the movable object A and the movable object C are interfering (or just before the interference). If Yes in step 3828, the process proceeds to step 3824, and if No in step 3828, the process proceeds to the next process (motor / solenoid excitation start control process in step 4000).

  Next, when the “movable body accessory C special movable operation flag” is ON in step 3802, in step 3842, the special movable operation execution control means 2325 h-2 moves the movable body accessory operation state information temporary storage means 2325 d. With reference to the step counter C, it is determined whether or not the operation corresponding to the scheduled operation (number of drive steps) in the special movable operation of the movable article C has been completed. In the case of Yes in step 3842, in step 3844, the special movable operation execution control means 2325h-2 turns off the movable body accessory C operating flag in the movable body accessory operation state information temporary storage means 2325d. Next, in step 3846, the special movable operation execution control means 2325h-2 turns off the movable body accessory C special movable operation in-progress flag in the movable body accessory operation state information temporary storage means 2325d, and performs the next processing (step 4000 motor / solenoid excitation start control processing). On the other hand, in the case of No in step 3842, in step 3848, the special movable operation execution control means 2325h-2 determines the current position information and the movable body related to the movable body accessory C in the movable body accessory operation state information temporary storage means 2325d. The current position information related to the accessory A is compared, and it is determined whether or not the movable object C and the movable object A interfere (or are just before the interference). If Yes in step 3848, the process proceeds to step 3844, and if No in step 3848, the process proceeds to the next process (motor / solenoid excitation start control process in step 4000).

  Next, when the “movable body accessory B special movable operation flag” is ON in step 3802, in step 3862, the special movable operation execution control means 2325h-2 makes the movable body accessory operation state information temporary storage means 2325d. With reference to the excitation period timer B, it is determined whether or not the operation for the scheduled operation (excitation period) in the special movable operation of the movable body accessory B has been completed. In the case of Yes in step 3862, in step 3864, the special movable operation execution control means 2325h-2 turns off the moving body accessory B in-motion flag in the movable body accessory operation state information temporary storage means 2325d. Next, in step 3866, the special movable operation execution control means 2325h-2 turns off the movable body accessory B special movable operation in-progress flag in the movable body accessory operation state information temporary storage means 2325d, and performs the next processing (step 4000 motor / solenoid excitation start control processing). On the other hand, in the case of No in step 3862, the processing shifts to the next processing (motor / solenoid excitation start control processing in step 4000). If the “movable body accessory D special movable operation flag” is ON in step 3802, the process is substantially the same as the process in steps 3862 to 3866, and the description thereof is omitted.

  Next, FIG. 56 is a flowchart of processing for receiving vibration error notification release information according to the subroutine of step 2100 in FIG. First, in Step 2102, the movable body accessory special movement execution control means 2325h stops all the operations of the movable body accessories A to D that are currently in operation. Next, in step 2104, the movable body accessory special movement execution control means 2325h turns off all the special movement-related flags in the movable body accessory operation state information temporary storage means 2325d, and executes the main flowchart on the sub-board side. (Return).

  Next, the operation of the pachinko gaming machine according to the present embodiment will be described with reference to FIGS. First, FIG. 57 and FIG. 58 are action diagrams related to the initial operation of the movable body accessory when the power to the gaming machine is turned on. Further, FIGS. 59 to 61 are action diagrams related to the rendering operation and error elimination operation of the movable body accessory when the decorative symbol fluctuates. FIG. 62 is an operation diagram relating to special movement of the movable body accessory when a vibration error occurs. FIG. 63 is an operation diagram when the error is not eliminated during the error elimination operation of the movable body accessory. FIGS. 64 to 66 are operation diagrams when overcurrent is generated during the operation of the movable body accessory. Hereinafter, each operation diagram will be described in detail.

  Next, the operation diagram of FIG. 57 will be described. First, at the time of turning on the power to the gaming machine, on the sub-board side, the movable bodies related to all the movable body accessories (in this embodiment, four types of movable body accessories A to D) at the timing of 1 in the figure. The accessory A to D initial operation incomplete flag is turned on. Then, when the flag is turned on, the initial operations of the movable body accessory A, the movable body accessory B, and the movable body accessory D are executed {the movable body accessory A, B, D initial operation flag (In-operation flag) is turned on}. Here, although the movable body accessory C is in the initial operation start permitted state (the movable body accessory C initial operation start permission flag is ON), the initial operation is not executed and the movable body accessory C enters the initial operation execution standby state. The reason is that in this embodiment, the movable body accessory A and the movable body accessory C are configured so that they can interfere with each other. It avoids that. Next, since it has been detected that the movable body accessory B is located at the initial position at the timing 2 in the figure, the initial operation of the movable body accessory B ends. Next, since the movable body accessory D has been detected at the initial position at the timing of 3 in the figure, the initial operation of the movable body accessory D ends. As described above, since the time required for the initial operation varies depending on the structure of the movable body accessory, the initial operation of each movable body accessory is sequentially completed after the initial operation is started. Next, since it has been detected that the movable body accessory A is located at the initial position at timing 4 in the figure, the initial operation of the movable body accessory A ends. Next, the initial operation of the movable body accessory C is executed when the initial operation of the movable body accessory A is completed. Thus, since the initial operation of the movable body accessory C is executed after the initial operation of the movable body accessory A executed prior to the movable body accessory C is completed, it is guaranteed that the two do not interfere with each other. It can be done. And since it was detected that the movable body accessory C is located at the initial position at the timing of 5 in the figure, the initial operation of the movable body accessory C is finished, and the initial operations of all the movable body accessories C Will end.

  Next, the operation diagram of FIG. 58 will be described. First, at the timing of 1 in the figure, the movable object combination A to D initial operation incomplete flag related to the movable object combinations A to D is turned on, and the movable object combination A, the movable object combination B, and the movable object combination are turned on. The initial operation of the object D is executed. Next, since it has been detected that the movable body accessory B is located at the initial position at the timing 2 in the figure, the initial operation of the movable body accessory B ends. Next, at the timing of 3 in the figure, the game ball enters the start opening and the symbol variation is started. Here, for the movable body accessory A and the movable body accessory D in which the initial operation is being executed, the initial operation being executed is interrupted. Then, the movable object A, D initial operation incomplete flag is turned on again, and the initial operation start permission state is set. However, since the symbol variation continues, the initial operation is not executed and the initial operation execution standby state is entered. On the other hand, since the movable body accessory B has finished the initial operation, the movable body accessory B initial operation incomplete flag remains off, and the initial operation start permission state is not entered again. In addition, for the movable body accessory C waiting for the completion of the initial operation of the movable body accessory A, the movable body accessory C initial operation incomplete flag is kept OFF, but the initial operation start permission state (movable Since the body accessory C initial operation start permission flag is ON), the movable body accessory A waits for the end of the initial operation (initial operation execution standby state). Next, the symbol variation ends at timing 4 in the figure. Here, the initial operations of the movable body accessory A and the movable body accessory D that are in the initial operation execution standby state are executed again. Then, the initial operation is sequentially completed at timings 5 to 7 in the figure. Thus, in this embodiment, since the initial operation is interrupted during the symbol variation, for example, in a situation such as a power interruption / power interruption recovery while the gaming machine is operating, the player can perform the initial operation. Can be avoided from being mistaken as a production operation. In particular, in the initial operation of the movable body accessory, when it is configured to check all the patterns that can be moved, the operation content of the initial operation is flashy (for example, the movable body accessory having a large number of driving steps). It is conceivable that all the LEDs mounted on the LED will blink. That is, if the player misidentifies the initial action as a production action, the player misidentifies that the expectation degree of jackpot of the symbol variation is high.

  Next, the operation diagram of FIG. 59 will be described. First, immediately before the timing of 1 in the figure, the game ball enters the starting port and starts symbol variation. In addition, at the timing of 1 in the figure, the execution operation of the movable body accessory in conjunction with the design variation effect of the decorative design is determined, and in this example, the production is performed using all of the movable body accessories A to D. It has been decided to perform the action. Here, in this embodiment, the movable body accessory A and the movable body accessory B operate in conjunction with each other, and are configured to have meanings such as representing a big hit expectation degree by interlocking the both. In addition, the movable body accessory C and the movable body accessory D operate in conjunction with each other, and are configured such that meanings such as representing the degree of big hit expectation are obtained by interlocking the two. And the movable body accessory A and the movable body accessory C are comprised so that both can interfere. Under such a configuration, when determining the contents of the effect operation, the operation patterns and operation timings of the respective movable body accessories are determined in advance so as to satisfy the requirements for the interlocking operation and the object interference avoidance. Next, at the timing of 2 in the figure, both the movable body accessory A and the movable body accessory B start production operations. On the other hand, the movable body accessory C enters the state of waiting for the rendering operation of the movable body accessory A, and the movable body accessory D that operates in conjunction with the movable body facility C also enters the state of waiting for the rendering operation. Next, at the timing of 3 in the figure, the rendering operation of the movable article A ends. Here, the rendering operation of the movable body accessory C is executed at substantially the same timing as the timing when the rendering operation of the movable body accessory A is completed, and the rendering operation is also performed for both the movable body accessory D. . Then, at the timing 4 in the figure, at the predetermined timing until the symbol variation ends, the rendering operation of the movable body accessory C and the movable body accessory D ends.

  Next, the operation diagram of FIG. 60 will be described. First, the figure is an action diagram when an operation abnormality occurs in the movable body accessory A from the timing 2 in the action diagram of FIG. 59 to the timing 3 in the figure. In order to simplify the description, only the actions related to the movable body accessory A and the movable body accessory C are shown. First, at the timing of 1 in the figure, the movable body accessory A starts the rendering operation based on the predetermined rendering operation pattern, and the movable body accessory C enters the state of waiting for the rendering operation. Next, since an operation abnormality has occurred in the movable body accessory A immediately before the timing 2 in the figure, the current position of the movable body accessory A is different from the current position. Next, at the timing 2 in the figure, the movable body accessory C starts the rendering operation based on a predetermined rendering operation pattern. Here, at this timing, as described above, since the movable body accessory C starts the rendering operation based on the predetermined operation timing, the rendering is performed even in a situation where the movable body accessory A is malfunctioning. The operation starts. Next, at the timing of 3 in the figure, an error determination is performed that compares the position where the movable body accessory A exists with the current position. Then, since it is detected that an operation abnormality has occurred in the movable body accessory A, the execution of the error elimination operation of the movable body accessory A is in a standby state (movable body accessory A error elimination operation start permission flag). . However, since the rendering operation of the movable body accessory C is being executed, the error solving operation of the movable body accessory A is not performed and the execution start standby state is maintained. In this way, even under a situation where the error solving operation needs to be performed, it is possible to avoid the interference between the movable object A and the movable object C. Then, at the timing of 4 in the figure, when the rendering operation of the movable body accessory C is completed, the error elimination operation of the movable body accessory A is executed, and at the timing of 5 in the figure, the movable body role is performed. The abnormal operation of the object A will be eliminated.

  Next, the operation diagram of FIG. 61 will be described. First, the figure shows the action when the symbol variation occurs in the action diagram of FIG. 60 from the timing 4 in the diagram to the timing 5 in the diagram (that is, during the error elimination operation related to the movable object A). FIG. First, at the timing of 1 in the figure, the execution of the error solving operation related to the movable body accessory A is started. Next, at the timing of 2 in the figure, while the operation abnormality of the movable body accessory A is not resolved, the game ball enters the start opening and the symbol variation is started. Here, in this embodiment, in order to avoid a player from misidentifying the error canceling operation as a production operation, the error canceling operation is interrupted during symbol variation. Therefore, at the same timing, the error elimination operation of the movable body accessory A being executed is interrupted, and the movable body accessory A error elimination processing incomplete flag is turned on, so that the movable body accessory A resolves the error. The operation is allowed to start. On the other hand, since the movable body accessories B, C, and D in which no operation abnormality has occurred are in a state in which the rendering operation can be performed, the movable body accessories C and D are in the standby state for starting the rendering operation. However, since the movable body accessory B needs to operate in conjunction with the movable body accessory A, the purpose is to achieve consistency with the movable body accessory A that is in an inexecutable state during the design variation. In this case, the movable body accessory B is not permitted to perform the rendering operation. Next, at the timing of 3 in the figure, the rendering operation of the movable body accessory C is executed, and the rendering operation is also performed on the movable body accessory D, and at a predetermined timing until the symbol variation ends, The production operation of the movable body accessory C and the movable body accessory D is ended. Then, the error solving operation of the movable body accessory A is executed at the timing 4 in the figure, and the abnormal operation of the movable body accessory A is eliminated at the timing 5 in the figure. As described above, the error-resolving operation that is being executed for a certain movable body accessory in which an operation abnormality has occurred is interrupted (or does not start executing) during symbol variation, and the certain movable body accessory is included in the rendering operation. The other movable body accessory that operates in conjunction with the symbol does not execute the rendering operation during the symbol variation.

  Next, the operation diagram of FIG. 62 will be described. First, at the timing of 1 in the figure, a vibration error due to vibration application to the gaming machine is detected on the main side. Here, the main side shifts to the game prohibited state triggered by the detection of the vibration error, and holds the game prohibited state for a predetermined period. Under such circumstances, on the sub-side that has received the information related to the occurrence of the vibration error transmitted from the main side at the timing 1 in the figure, all the movable body accessories A to D special movable preparation operation flags are turned on. . Next, at the timing of 2 in the figure, each of the movable body accessories A to D is forced to the initial position when the movable body accessories A to D special movable preparation operation flag is turned on. Moving. Next, at the timing of 3 in the figure, after detecting that all of the movable body accessories A to D are located at the initial position, all of the movable body accessories A to D special movable operation start permission flags are turned on. . Then, when the flag is turned on, each of the movable body accessories A to D starts to be specially movable based on a predetermined special movable pattern. Next, at the timing of 4 in the figure, the special movement of the movable body accessories A to D based on the predetermined special movable pattern is completed, but since the main side still holds the game prohibited state, Again, based on the predetermined special movable pattern, each of the movable body accessories A to D starts special movement. Also at the timing of 5 in the figure, each of the movable body accessories A to D starts special movement again based on the predetermined special movable pattern, but at the timing of 6 in the figure, which is immediately after that, on the main side. The game prohibition state of is released. Then, on the sub-side that has received the information related to canceling the vibration error transmitted from the main side, the special movement of the movable body accessories A to D is terminated and the normal operation is restored. Thus, in the present embodiment, when an error occurs, the fact that the error has occurred is notified by executing the special movable pattern of the movable body accessory.

  Next, the operation diagram of FIG. 63 will be described. First, at the timing 1 in the figure, the movable body accessory A starts the rendering operation based on a predetermined rendering operation pattern. Next, at timing 2 in the figure, an error determination is performed by comparing the position where the movable body accessory A is present and the current position, and it is detected that an abnormal operation has occurred in the movable body accessory A. Therefore, the error elimination operation of the movable article A is executed. Here, 1 (current value 1) is added to the operation abnormality accumulation counter A that counts the number of occurrences of the operation abnormality when it is detected that the operation abnormality has occurred in the movable article A. The Next, the predetermined error elimination operation ends at the timing 3 in the figure, but since the abnormal operation of the movable article A has not been eliminated, the predetermined error elimination operation is started again. Further, 1 (current value 2) is added to the operation abnormality accumulation counter A. Next, even at the timing 4 in the figure, since the abnormal operation of the movable article A has not been eliminated, a predetermined error elimination operation is started again. Here, 1 (current value 3) is added to the operation abnormality accumulation counter A, and since the counter value becomes equal to or greater than the predetermined value 3, an error notification relating to the movable body accessory A is executed and an operation abnormality accumulation is performed. Counter A is cleared to zero. As described above, when an operation abnormality related to the movable body accessory is detected, a predetermined error elimination operation for eliminating the operation abnormality is repeated, and if the number of repetitions exceeds a predetermined number, an error is detected. Notification is performed.

  Next, the operation diagram of FIG. 64 will be described. First, at the timing of 1 in the figure, the operation contents and the operation timing of the movable body accessory A and the movable body accessory C are determined based on a predetermined performance operation pattern. Next, at the timing 2 in the figure, the movable body accessory A starts a production operation based on a predetermined operation timing. Here, since the movable body accessory A is driven by using two motors as drive sources, an excitation pulse signal is transmitted to each motor. Since the number of drive motors (current value 2) at this timing is less than a predetermined value (3 in this example), the control signal for each motor is maintained at the H level, and the excitation power based on the excitation pulse signal Is applied to each motor. Next, at the timing of 3 in the figure, the movable body accessory C starts the rendering operation before the rendering operation of the movable body accessory A ends. Here, since the operation timing of the movable body accessory A and the movable body accessory C is set so as not to perform such an operation, it is assumed here that a malfunction of the sub-side program has occurred. is doing. Under such circumstances, the rendering operation of the movable article C that is driven by using one motor as a drive source is started, so that the number of drive motors at this timing (current value 3) becomes equal to or greater than a predetermined value. Then, when the number of drive motors becomes equal to or greater than a predetermined value, an excitation pulse signal is transmitted to the one motor, but the control signal is switched from H level to L level. As a result, excitation power is not applied to the one motor, and driving of the movable body accessory C is avoided. Next, at the timing of 4 in the figure, the rendering operation of the movable body accessory A is completed, and the two motors that are the drive source of the movable body accessory A are terminated. Here, since the movable body accessory C is performing an effect operation based on the predetermined operation content, the number of drive motors at this timing (current value 1) is less than the predetermined value, and the movable body accessory C is a drive source of the movable body accessory C. Application of excitation power to a certain motor is started. Then, at the timing of 5 in the figure, the rendering operation of the movable body accessory C based on the predetermined operation content is executed until the rendering operation of the movable body accessory C is completed. As described above, in the present embodiment, when the number of motors currently driven is grasped and the number of motors being driven and the number of newly driven motors are added, the result is a predetermined number or more. Is configured to avoid applying excitation power to the newly driven motor. As a result, even if an unexpected situation occurs due to a malfunction of the sub-side program, it is possible to avoid power supply to the drive source that exceeds the upper limit value of the predetermined excitation power.

  Next, the operation diagram of FIG. 65 will be described. This figure is an example of a change from the viewpoint of avoiding the supply of power to the drive source exceeding the upper limit value of the predetermined excitation power in the operation diagram of FIG. In order to simplify the description, only the actions related to the movable body accessory B and the movable body accessory D are shown. First, in the present embodiment, the movable body accessory B and the movable body accessory D are driven using a solenoid as a drive source, and both may operate at substantially the same timing (see FIG. 62). Under such a configuration, it is possible to control the excitation pulse signals transmitted to the respective solenoids so as not to overlap the H level sections. For example, at the timing 1 in the figure, the operation content and the operation timing of the movable body accessory B and the movable body accessory D are determined based on a predetermined performance action pattern, and at the timing 2 in the figure, the movable body accessory B and the movable body accessory D start production operations at substantially the same timing. Here, until the rendering operation of the movable body accessory B and the movable body accessory D is completed, the sections that are at the H level in the excitation pulse signal overlap for the solenoid that is the driving source of each movable body accessory. It is controlled not to. For example, at the timing of 3 in the figure, an H level excitation pulse signal is transmitted to the solenoid that is the driving source of the movable body accessory B, and at the same time, the solenoid that is the driving source of the movable body accessory D is transmitted. An L level excitation pulse signal is transmitted. On the other hand, at the timing of 4 in the figure, an L level excitation pulse signal is transmitted to the solenoid that is the driving source of the movable body accessory B, and at the same time, the solenoid that is the driving source of the movable body accessory D is transmitted. An H level excitation pulse signal is transmitted. As a result, during the period from the start of the rendering operation of the movable body accessory B and the movable body accessory D to the end of the rendering operation, the total value of the excitation power supplied to each solenoid must not exceed a certain power value. Can be secured.

  Next, the operation diagram of FIG. 66 will be described. First, in the present embodiment, the history information of the excitation pulse signal (or excitation power) transmitted to the driving source of each movable body accessory is configured to be accumulated, and based on the accumulated history information. The excitation power supply period within a predetermined period can be derived. For the sake of simplicity, only the action related to the movable body accessory B is shown. First, at the timing 1 in the figure, the rendering operation of the movable body accessory B is executed based on the predetermined operation content and the operation timing, and at the timing 2 in the diagram, the rendering operation ends. Here, during the execution of the rendering operation of the movable body accessory B, based on the history information of the excitation power supplied to the solenoid that is the drive source of the movable body accessory B, the “excitation power supply period within a predetermined period” When the “/ predetermined period” is derived, the ratio increases in proportion to the excitation power supply period. Further, since the excitation power is not supplied to the solenoid from the timing 2 in the figure to the timing 3 in the figure, the ratio decreases in proportion to the excitation power non-supply period. Next, at the timing of 3 in the figure, the rendering operation of the movable body accessory B is executed based on the predetermined operation content and operation timing at the time of another symbol variation, and at the timing of 4 in the figure, the rendering operation is performed. finish. Originally, it is designed not to supply excessive excitation power to the solenoid, and thus the ratio repeatedly increases and decreases and does not exceed a predetermined value. However, when an unexpected situation occurs due to a malfunction of the sub-side program, it is not limited to this. For example, as shown in the timings 5 and 6 in the figure, the solenoid is turned on in a period when the symbol variation is not executed. On the other hand, it is conceivable that excitation power is supplied. In this embodiment, since the excitation power history information is accumulated even in such a situation, the ratio increases in proportion to the excitation power supply period even in this section. Here, at this timing, since the ratio does not exceed a predetermined value, supply of excitation power to the solenoid is permitted. However, in a situation where such an unexpected situation is repeated (9 to 10 in the figure) or the possibility of a malfunction such as the supply of excitation power to the solenoid continues to increase, the ratio is The predetermined value is exceeded, and the supply of excitation power to the solenoid is stopped (11 in the figure to 12 in the figure). In this way, even if an unexpected situation occurs due to malfunction of the sub-side program, it is possible to avoid the occurrence of overcurrent that leads to burning of the drive source.

  According to the present embodiment, when information indicating that an error has been detected from the main game side error information transmission means is received by the sub game control unit, the variable member managed by the sub game control unit is used. Since it is configured to be able to execute a control that causes a displacement in a specific displacement mode different from that when the game identification information is displayed in a variable manner, it is easy to understand for both the hall personnel and the cheating agent. There is an effect that a pachinko gaming machine provided with a new notification means can be provided.

  Further, regarding the error notification non-target variable member that is a variable member other than the error notification target variable member, the error notification non-target variable member may be used in a situation where the error notification target variable member performs a displacement operation in a specific displacement mode. When the displacement operation is being performed, the displacement operation is stopped, and when the error notification non-target variable member is not performing the displacement operation, the subsequent displacement operation is prohibited. The displacement operation in the specific displacement mode can be executed with the highest priority, and the notification effect can be further enhanced. In addition, by adopting a form of driving a movable object as a notification of vibration error mainly due to fraud, it is possible to easily identify fraud from the outside and improve the deterrent effect against fraud be able to. In this embodiment, only the vibration error is illustrated, but in the case of other errors caused by fraud (such as an error due to magnet detection, an excessive payout error, an error when receiving an abnormal input signal from the lending machine, etc.) Alternatively, error notification may be performed. In that case, it is good also as a different error alerting | reporting aspect corresponding to each error, and good also as a common error alerting | reporting aspect.

  Furthermore, when the error notification target variable member performs a displacement operation in a specific displacement mode, the error notification target variable member is configured to shield the variation display portion of the sub-game identification information, thereby further enhancing the notification effect. There is an effect that can be.

  According to this embodiment, even when it is determined to displace the first variable member and / or the second variable member within a predetermined timing or within a predetermined period, the first variable member or the second variable member is displaced. When the variable member position detecting means cannot detect that the other position is not in the interference position, the movable member can be controlled so as not to execute or cancel one of the displacement operations. There is an effect that it is possible to provide a pachinko gaming machine that can efficiently avoid interference of objects. In addition, in the case of providing a movable body accessory and another movable body accessory that operates in conjunction with the certain movable body accessory, when an abnormal operation of any one of the movable body accessories is detected, By configuring so that the operation of the movable body accessory is prohibited, it is possible to prevent a situation in which the player misidentifies the jackpot reliability due to the abnormal operation of the movable body accessory.

  According to the present embodiment, when the occurrence of an abnormal operation related to the variable member is detected, the unit is configured to output information regarding which unit the variable member in which the abnormal operation has occurred. There is an effect that it becomes easy for the hall operator to determine whether or not to replace. In particular, as shown in this embodiment, by separating the LED wiring for notifying abnormality and the wiring of the variable member (sensor wiring, driving signal wiring, most or all of the power supply wiring), connector contact failure Thus, the possibility that both the notification means and the variable member are abnormal at the same time can be reduced.

  According to the present embodiment, based on the information about the stop identification information of the main game identification information and the information about the change mode transmitted from the main game control unit, the result of the change mode of the main game identification information and the stop identification information Are determined to be consistent, and when it is determined that they are not consistent, as the stop identification information of the secondary game identification information, a plurality of secondary game identifiers different from both the specific mode and the non-specific mode A sub-game that is a combination and can be a sub-game identifier in a specific mode and a non-specific mode as any one of a plurality of predetermined sub-game identifiers as a first sub-game identifier and the remaining sub-game identifiers Since it is configured to execute a control to assign a special mode that is a combination with a special identifier, the sub game control unit detects that the information transmitted from the main game control unit is incorrect information. In the case, while minimizing the impact on the player, it is possible to promptly notifying that the detected. Furthermore, even if command reception abnormalities occur accidentally due to noise, etc., the player can identify them as mere losing patterns, but if a fatal abnormality such as a short circuit or disconnection occurs, the corresponding symbols are displayed continuously. Therefore, it can be used as a specific notification of the cause of the abnormality. In addition, in this embodiment, although it is comprised so that one aspect may be selected from several special aspects as stop identification information of identification information for subgames, it is not limited to this, One predetermined You may comprise so that an aspect may be made into a special aspect. By configuring in this way, restrictions on the data capacity reduction on the side of the secondary game control unit and the loss symbol generation process at the time of non-abnormal operation are relaxed (for example, a determination process such as step 5742 in FIG. 25 is executed). In this case, occurrence of loop processing based on the determination processing can be reduced).

  According to the present embodiment, when the timing for displacing the variable member is reached, the information related to the total number of driving sources in the driving state at the timing or the driving source in the driving state at the timing is applied. After grasping information related to the total value of power, based on the grasped result, the total number as the actual measurement value or the estimated value has reached the predetermined number, or the total value as the actual measurement value or the estimated value is the predetermined value. If it is determined that the variable member that has been scheduled to be newly displaced is determined not to be displaced at that timing, a plurality of drive sources are driven simultaneously. By doing so, it is possible to effectively avoid the supply of electric power exceeding the electric capacity. In this embodiment, the right or wrong driving is determined based only on the power consumption of the movable body accessory provided on the sub-main control board side, but the power consumption on the sub-sub control board side is taken into account. You may comprise so that the right or wrong of a drive may be determined. In addition, the operation information of the launching device, the payout control device controlled on the main control board, the solenoid for driving the winning prize opening, etc. is appropriately transmitted to the sub main control board {or the sub main control board side receiving the operation information The operation on the main control board side is predicted (for example, the sub-main control board side that has received the special game start information predicts the subsequent big winning opening driving pattern based on the information)}, and also considers the information Then, it may be configured to determine whether to drive. In such a case, it is preferable that the drive source of the main game control unit related to the game progress is driven with the highest priority. In particular, in a slot machine to be described later, the game is being played (main reel is being driven). Since the change in power consumption corresponds to the progress of the game, such as the driving stop of the main reel based on the game progress and the drive of the payout control device based on the game result, more efficient performance can be expected.

  According to this embodiment, based on the history information temporarily stored in the variable member drive signal effective period history information temporary storage means, the time value of the input period related to the drive signal for the drive source is X, and the time value of the monitoring period is In addition to being derived as Y, when the ratio of the time value X with respect to the time value Y becomes equal to or greater than a predetermined value, the drive signal output to the drive source is invalidated or limited. Therefore, it is possible to prevent the drive source from being damaged due to burning of the coil portion or the like without requiring a special circuit. In particular, because the output is clamped as an individual control signal, it can function normally even if there is an unexpected bug in the retry control or drive control program due to the occurrence of an abnormality. Cost reduction and space merit can be provided by minimizing the margin width.

  In this embodiment, the case where the movable body accessory is installed in the pachinko gaming machine is illustrated, but the present invention can be applied even when the movable body accessory is installed in the slot machine. is there. Here, a supplementary description of a known slot machine will be given.

  First, in a well-known slot machine, a main board as a main game control section that controls the progress of a game, a sub board as a sub game control section that controls the execution of effects, and a main board for displaying identification information for main games. As a game identification information display section, a plurality of rows (generally three rows) of reels each having a plurality of pieces of identification information arranged on the outer periphery, and a main game start instruction device that can be operated by the player and instruct the game start And a stop button as a main game progress instructing device that can be operated by the player and instructs the progress of the game. The main board has a main game random number acquisition unit for acquiring a main game random number when the start lever is operated, and one or more stop identifications based on the random number acquired by the main game random number acquisition unit. Main game identification information display content determination means for tentatively determining information (for example, display content determination means for internally determining a winning combination such as a small role or a special character), and determination of the main game identification information display content Based on one or a plurality of stop identification information tentatively determined by the means and the operation timing of the stop button, the main stop control information is controlled so as to be fixedly displayed on the reel which is the main game identification information display unit. Game identification information display control means (for example, a reel control means for stopping the reel at a predetermined position based on the internally determined winning combination and the timing when the stop button is pressed); When a predetermined mode is displayed as stop identification information on a reel serving as a game identification information display unit, special game execution control means (for example, “777 etc.”) that controls to shift to a special game is on a predetermined active line The main game side information for transmitting the information related to the main game random number acquired by the main game random number acquisition means to the sub game control unit side. Transmission control means.

  The configuration relating to the movable body accessory of the present embodiment can be applied to the sub game control unit side in the slot machine having such a known configuration. Here, when a movable body accessory is installed in a pachinko gaming machine, the movable body accessory operates based on a variation aspect of symbol variation. On the other hand, when the movable body accessory is installed in the slot machine (for example, the movable body accessory is arranged at a position that does not hinder the visual recognition on the reel display surface), the internal lottery result on the main game control board side { For example, winning combination and gaming state (for example, re-playing probability variation gaming state)} or internal lottery result on the secondary game control board side {for example, assist games (so-called AT games) such as push order and winning small role notification Game state}, or the lottery result display contents on the reel (for example, the arrangement of symbols on the active line). In addition, errors in slot machines include game media (medal) payout abnormality, selector abnormality, setting change (during transition to / in transition to setting change mode), etc., but errors that interrupt the progress of the game. There are many. Although there is a difference in the operation control method of the movable body accessory, it is supplemented that the present invention is not hindered when the movable body accessory is installed in the slot machine. deep. It should be noted that in a slot machine where an error that interrupts the game progress is relatively likely to occur, it is desirable to perform an error-resolving operation of the movable object when an error occurs that interrupts the game progress. It is desirable that the error notification period related to the movable body accessory is set so as to be continuously notified over a predetermined period after the error is released to interrupt the progress of the game.

1000 Main control device, 1100 Game control means 1110 Entrance determination means, 1111 First main game start entrance entrance judgment means 1112 Second main game start entrance entrance judgment means, 1113 Auxiliary game entrance entrance entrance judgment means 1120 Random number Acquisition determination execution means, 1121 First main game random number acquisition determination execution means 1122 Second main game random number acquisition determination execution means, 1123 Auxiliary game random number acquisition determination execution means 1130 Hold control means, 1131 First main game symbol hold means 1131a First Main game symbol hold information temporary storage means, 1132 Second main game symbol hold means 1132a Second main game symbol hold information temporary storage means, 1133 Auxiliary game symbol hold means 1133a Auxiliary game symbol hold information temporary storage means, 1135 Winning lottery means 1135a Special game transition determining means, 1135b winning / no-win lottery table 1135b- First main game success / failure lottery table, 1135b-3 Second main game success / failure lottery table 1140 Symbol content determination means, 1141 First main game content determination means 1141a First main game content determination lottery table, 1142 Second main game Content determination means 1142a Second main game content determination lottery table, 1143 Auxiliary game content determination means 1143a Auxiliary game content determination lottery table, 1150 Display control means 1151 First main game symbol control means, 1151a First main game symbol variation time Management means 1151a-1 First main game symbol variation management timer, 1152 Second main game symbol control means 1152a Second main game symbol variation time management means, 1152a-1 Second main game symbol variation management timer 1154 Main game symbol Hold release control means, 1153 Auxiliary game symbol control means 1153a Auxiliary game Pattern change time management means, 1153a-1 Auxiliary game symbol change management timer 1160 Electric accessory opening / closing control means, 1161 Condition determination means 1162 Open timer, 1170 Special game control means 1171 Condition determination means, 1172 Special game content determination means 1172a Special Game content reference table, 1173 Special game execution means 1174 Special game time management means, 1174a Special game timer 1180 Specific game control means, 1181 Specific game end condition determination means 1181a Time-count counter, 1190 Game state temporary storage means 1191 First main Game state temporary storage means, 1191a First flag temporary storage means 1191b First main game symbol information temporary storage means, 1192 Second main game state temporary storage means 1192a Second flag temporary storage means, 1192b Second main game symbol information temporary storage hand Step 1193 Auxiliary game state temporary storage means, 1193a Auxiliary game related information temporary storage means 1193b Auxiliary game symbol information temporary storage means, 1194 Special game related information temporary storage means 1300 Information transmission control means, 1400 Prize ball payout determination means 1600 Vibration error detection Control means, 1610 input invalidation means 1611 when detecting vibration error, input invalidation state holding period timer, 2000 gaming peripheral equipment 2210 first main game starting port, 2211 first entrance detection device 2130 first main game symbol display device, 2131 First main game symbol display unit 2132 First main game symbol hold display unit, 2110 Second main game start port 2111 Second entrance detection device, 2112 Electric accessory 2230 Second main game symbol display device, 2231 Second main game Symbol display part 2232 2nd main game symbol hold display part, 2120 1st grand prize opening 2121 1st winning detection device, 2122 1st electric winning combination 2220 2nd big winning opening, 2221 2nd winning detection device 2222 2nd electric winning combination, 2410 auxiliary game entrance 2411 entrance detection device, 2420 auxiliary game symbol display Device 2421 Auxiliary game symbol display unit, 2422 Auxiliary game symbol hold display unit 2320 Production display control means (sub-main control board), 2321 Display information reception unit 2321a Main side information temporary storage unit, 2322 Decoration symbol display control unit 2322a Content determination means, 2322a-1 Drawing variation content determination lottery table 2322b Drawing variation mode / design storage means, 2322c Drawing display related information temporary storage means 2322d Drawing special stop symbol content determination means, 2322d-1 Special stop symbol Content determination reference table 2323 Drawing hold information display control means 2323a Drawing hold information temporary storage means 2323a-1 Drawing hold counter, 2324 Production general information temporary storage means 2325 Movable body accessory control means, 2325a Movable object initial action execution control means 2325a-1 Initial motion availability / content determination Means, 2325a-1-1 initial operation content determination reference table 2325a-2 initial operation start control means, 2325a-3 initial operation end control means 2325b movable object error elimination operation execution control means, 2325b-1 error elimination operation availability Content determination means 2325b-1-1 Error resolution operation content determination reference table, 2325b-2 Error resolution operation start control means 2325b-3 Error resolution operation end control means, 2325c Movable object effect operation execution control means 2325c-1 Production operation availability / content determination means, 2325c-1 1 Production operation content determination reference table 2325c-2 Production operation start control means, 2325c-3 Production operation end control means 2325d Movable object action state information temporary storage means, 2325e Movable object abnormality operation monitoring control means 2325e-1 Movable object accessory basic position determination means, 2325e-1-1 Basic position determination reference table 2325e-2 Movable object accessory position consistency confirmation means, 2325e-2-1 Position consistency confirmation content determination reference table 2325e-4 Movable object accessory error notification control means, 2325e-4-1 Permanent movement abnormality accumulation counter 2325f Movable object drive source excitation control means, 2325f-1 Drive source excitation start control means 2325f-2 End of drive source excitation Control means, 2325g Movable object overcurrent avoidance control means 2325g-1 Drive source number upper limiter control Means, 2325g-2 energization time monitoring timer for each drive source 2325g-3, excitation history information accumulation temporary storage means for each drive source, 2325h movable body special movement execution control means 2325h-1 special movement preparation operation execution control means, 2325h-2 Special movable execution control means 2326 Power-on start processing control means, 2327 Sub-side gaming state control means 2310 Effect display means (sub-sub control board), 2311 Decoration symbol display area 2312a First hold display section, 2312b Second hold display section 3000 Prize ball payout control device

Claims (2)

A pachinko gaming machine comprising a main game control unit that controls the progress of the game and a secondary game control unit that controls the execution of the production,
A main game start port where game balls can enter,
A main game identification information display unit in which a change display and a stop display of the main game identification information are executed;
A variable winning opening that can be open and closed;
A secondary game identification information display unit in which a change display and a stop display of the secondary game identification information are executed;
A plurality of variable members that can be displaced;
The main game control unit
The main game random number acquisition means for acquiring the main game random number triggered by the game ball entering the main game start port,
Based on the random number acquired by the main game random number acquisition means, the main game identification information display content determination means for determining the variation mode and stop identification information of the main game identification information displayed on the main game identification information display section;
In accordance with the variation mode determined by the main game identification information display content determination means, the main game identification information display section variably displays the main game identification information, and then is determined by the main game identification information display content determination means. Main game identification information display control means for controlling to display stop identification information;
Special game execution control means for controlling the variable prize opening to shift from the closed state to the special game when the predetermined mode is displayed as the stop identification information in the main game identification information display unit;
Main game side information transmission control means for transmitting information on the main game random number acquired by the main game random number acquisition means to the sub game control unit side,
The secondary game control unit
Sub-game identification information display content for determining a variation mode and stop identification information of the sub-game identification information displayed on the sub-game identification information display section based on information on the main game random number transmitted from the main game control section A determination means;
Based on the variation mode determined by the secondary game identification information display content determination means in a form synchronized with the variation and stop of the primary game identification information on the main game control unit side, the secondary game identification information display unit Sub-game identification information display control means for controlling to display definitely the stop identification information determined by the sub-game identification information display content determination means after variably displaying the game identification information;
A variable member displacement propriety / displacement content determining means for determining whether or not to displace each of a plurality of variable members, and determining the displacement contents for the variable members to be displaced,
Variable member displacement availability / content determination means Based on the displacement content of the variable determination means, the variable member displacement availability / content determination means is a means capable of executing control for displacing the variable member that has been determined to be displaced, and occurred in a gaming machine In a pachinko machine equipped with variable member displacement control means capable of executing control for displacing the variable member based on the content different from the content determined by the variable member displacement allowance / displacement content determination means due to malfunction,
The variable member displacement control means is
When the variable member is determined to be displaced by the variable member displacement propriety / displacement content determination means, the variable member displacement propriety / displacement content determination means is applied to the target drive source that is a drive source for driving the variable member. Variable member drive signal output means for outputting a drive signal over a predetermined output period based on the determined displacement content;
A means for switching between enabling and disabling the drive signal output by the variable member drive signal output means, and when switching to disable the drive signal output to the target drive source, it is variable. Variable member drive signal invalidating means for controlling the drive signal output by the member drive signal output means not to be input to the target drive source;
The variable member drive signal effective period history information is temporarily stored by accumulating history information related to the input period in which the drive signal output from the variable member drive signal output means is input to the target drive source over a specific monitoring period. Storage means;
Based on the history information temporarily stored in the variable member drive signal effective period history information temporary storage means, the time value of the input period is derived as X, the time value of the monitoring period is derived as Y, and the time value Y is used as a reference. The variable member that can be controlled to invalidate or limit the drive signal output to the target drive source by the variable member drive signal invalidating means when the ratio of the time value X is equal to or greater than a predetermined value. A pachinko gaming machine comprising drive signal output capacity limiting means. A main game control unit that controls the progress of the game, a sub game control unit that controls the execution of the production,
A main game identification information display section for displaying the main game identification information;
A main game start instructing device operable by a player and instructing a game start;
A main game progress instructing device operable by the player and instructing the progress of the game;
A slot machine comprising a plurality of displaceable variable members,
The main game control unit
A main game random number obtaining means for obtaining a main game random number triggered by the operation of the main game start instruction device;
Main game identification information display content determination means for tentatively determining one or more stop identification information based on the random number acquired by the main game random number acquisition means;
Based on the one or more stop identification information provisionally determined by the main game identification information display content determination means and the operation timing of the main game progress instructing device, the one stop identification information is stored in the main game identification information display section. Main game identification information display control means for controlling to be confirmed,
Special game execution control means for controlling to shift to a special game when a predetermined mode is displayed as stop identification information in the main game identification information display unit;
Main game side information transmission control means for transmitting information related to the main game random number acquired by the main game random number acquisition means to the sub game control unit side,
The secondary game control unit
Based on the information on the main game random number transmitted from the main game control unit, or independently determines whether or not to displace each of the plurality of variable members, and determines whether or not the variable member is displaced. Content determination means;
Variable member displacement availability / content determination means Based on the displacement content of the variable determination means, the variable member displacement availability / content determination means is a means capable of executing control for displacing the variable member that has been determined to be displaced, and occurred in a gaming machine Variable member displacement control means capable of executing control for displacing the variable member based on the content different from the content determined by the variable member displacement availability / displacement content determination means due to a malfunction, and
The variable member displacement control means is
When the variable member is determined to be displaced by the variable member displacement propriety / displacement content determination means, the variable member displacement propriety / displacement content determination means is applied to the target drive source that is a drive source for driving the variable member. Variable member drive signal output means for outputting a drive signal over a predetermined output period based on the determined displacement content;
A means for switching between enabling and disabling the drive signal output by the variable member drive signal output means, and when switching to disable the drive signal output to the target drive source, it is variable. Variable member drive signal invalidating means for controlling the drive signal output by the member drive signal output means not to be input to the target drive source;
The variable member drive signal effective period history information is temporarily stored by accumulating history information related to the input period in which the drive signal output from the variable member drive signal output means is input to the target drive source over a specific monitoring period. Storage means;
Based on the history information temporarily stored in the variable member drive signal effective period history information temporary storage means, the time value of the input period is derived as X, the time value of the monitoring period is derived as Y, and the time value Y is used as a reference. The variable member that can be controlled to invalidate or limit the drive signal output to the target drive source by the variable member drive signal invalidating means when the ratio of the time value X is equal to or greater than a predetermined value. A slot machine comprising drive signal output capacity limiting means.

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