JP2011104393A - Game machine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a game machine which facilitates finding of an illicit action. <P>SOLUTION: When drive voltage is supplied after a main control unit is removed from a Pachinko machine, output is performed from a Q2 terminal of a flip-flop circuit 762, and when the drive voltage is resupplied thereafter, output is performed from a Q1 terminal of a flip-flop circuit 770. As a result, current is carried between C-E terminals of a transistor circuit 774 to electrically break a fuse 776. When the fuse 776 is electrically broken, a signal is outputted from a Y terminal of a NOT circuit 773 to a display device 560, and the display device 560 is lighted for announcement. Thus, removal of the main control device can be announced, and the possibility of fraudulent action can be easily found out. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a gaming machine represented by a pachinko machine or the like.

  Conventionally, for example, a ROM as a storage device in which each program for playing a game and fixed value data is stored, and an arithmetic processing device for controlling a game based on the program and fixed value data stored in the ROM Pachinko machines (game machines) equipped with an MPU are known. The gaming state of this pachinko machine has a jackpot state in which a large amount of balls as game values are paid out. It is controlled so that a jackpot is generated with a certain probability by referring to it.

JP-A-12-167212

However, in the pachinko machine described above, the lottery processing program and the fixed value data are stored in the ROM. Therefore, the program can be changed to an illegal ROM in which the program and the fixed value data are illegally generated by a specific game method. If the installation hall of the pachinko machine starts operating with the illegal ROM attached, an illegal acter can illegally generate a jackpot by playing a game with a specific game method. Therefore, if it is not possible to discover that an illegal ROM is attached to the pachinko machine, the hall of the pachinko machine suffers a large loss.
The present invention has been made to solve the above-described problems, and an object of the present invention is to provide a gaming machine that can easily find out that an illegal act has been performed.

  In order to achieve this object, the gaming machine according to claim 1 includes a main board on which a connector for controlling a game and electrically connected to another device is mounted, and the main board. The main power supply unit that supplies the drive voltage necessary for the progress of the game to each part of the gaming machine, and the drive voltage can be supplied to a part of the gaming machine even when the supply of the drive voltage by the main power supply unit is cut off A sub-power supply unit, a power supply input unit that is electrically connected to the sub-power supply unit through at least a connector mounted on the main board and supplied with a drive voltage, and a drive voltage is supplied by the main power unit A first input unit to which a signal is input at a timing at which the signal is started, a second input unit to which a signal is input separately from the first input unit, and the timing at which the signal is input to the first input unit A signal corresponding to the input signal of the second input section A signal output unit that continuously outputs the power supply input unit on the condition that a drive voltage is supplied, and at least a part of the signal output unit and the second input unit are electrically connected. A first signal switching circuit, and a state change member that is electrically connected to the signal output unit of the first signal switching circuit and whose state changes irreversibly with the switching of the output signal of the signal output unit as a necessary condition. A first signal is output from the signal output unit when the drive voltage is continuously supplied from the sub power source unit to the power input unit, and the power source is output from the sub power unit after the first signal is output. When the supply of the drive voltage to the input unit is canceled, the output state of the signal output unit is switched, and the second signal is output, and the state of the state change member changes.

  When this gaming machine is installed in the hall and starts business, a driving voltage is supplied from the main power supply unit to each part of the gaming machine. When the hall is closed, the supply of the drive voltage from the main power supply unit is cut off, but the drive voltage is supplied to the power input unit of the first signal switching circuit by the sub power supply unit. Therefore, in a state where the gaming machine is installed in the hall, the driving voltage is continuously supplied to the power input unit, so that the first signal is output from the signal output unit.

  In addition, when a fraudulent person conducts a fraudulent act (exchange of illegal ROM, etc.), after disconnecting the connector, the main board is removed from the gaming machine and replaced with the illegal ROM, and the main board replaced with the illegal ROM is played. Sometimes it is done on the machine. If the electrical connection of the connector is released when an illegal act is performed, the supply of the drive voltage to the power input portion of the first signal switching circuit is interrupted. After that, when the main board is attached to the gaming machine, the driving voltage is supplied again, so that the second signal is output from the signal output unit.

According to the gaming machine of claim 1, when the connection of the connector is released, the signal output from the signal output unit of the first signal switching circuit is switched from the first signal to the second signal, As a result, the state of the state change member changes. Therefore, by checking the state of the state change member, it is possible to know a gaming machine that may have been cheated by a cheating person, and by inspecting the main board of the gaming machine, it is easy to cheat. There is an effect that can be discovered.
Further, since the state of the state change member changes irreversibly, the state is maintained when the main substrate is removed and the state of the state change member changes. Therefore, since it is possible to continuously notify the outside that there is a possibility that an illegal act has been performed, there is an effect that it is possible to make it easier to find a gaming machine in which an illegal act has been performed.

It is a front view of the pachinko machine in one embodiment. It is a perspective view of the pachinko machine in the state where a front frame and a lower plate unit were opened. It is a front view of a game board. (A) is the perspective view of an outer frame, (b) is the perspective view which expanded and showed the metal fitting periphery of the outer frame. It is a front view of the pachinko machine in the state where a front frame and a lower pan set were removed. It is a front view of a ball launch unit. It is a perspective view of a ball launch unit. It is a disassembled perspective view of a ball launch unit. It is a perspective view of the ball launch unit in a state where the opening and closing member is opened. It is a perspective view of the ball launch unit showing the internal configuration of the ball feed mechanism. (A) is a rear view of a front frame, (b) is sectional drawing in the RR line of Fig.11 (a). It is the figure which looked at the exit part of the upper plate which sends out a game ball to a ball | bowl launch unit, and showed it in cross section. It is a front view of a glass unit. It is sectional drawing in the Sa-Sa line of FIG. It is sectional drawing in the Sb-Sb line | wire of FIG. It is sectional drawing in the Sc-Sc line | wire of FIG. It is the elements on larger scale of the glass unit seen from the arrow V direction of FIG. It is a front view of a lower plate unit. It is a rear view of a lower plate unit. It is a rear view of a pachinko machine. It is the figure which showed typically the structure of the control board unit and back pack unit of a pachinko machine back. It is a rear view which shows the state which assembled | attached the game board to the inner frame. It is the perspective view which looked at the inner frame from back. It is the perspective view which looked at the game board from back. It is a perspective view of a support metal fitting. It is a front view which shows the structure of a 1st control board unit. It is a perspective view of a 1st control board unit. It is a disassembled perspective view of a 1st control board unit. It is the disassembled perspective view which looked at the 1st control board unit from the back. It is the enlarged view which expanded and showed the arrow A part of FIG. 26, Fig.30 (a) is a front view, FIG.30 (b) is sectional drawing in sectional line XXXb-XXXb. It is a figure explaining the connection of a connector, Fig.31 (a) shows the state before the connection of a connector, FIG.31 (b) has shown the state after the connection of a connector. It is a front view of a 2nd control board unit. It is a perspective view of a 2nd control board unit. It is a disassembled perspective view of a 2nd control board unit. It is a rear view of the back pack unit seen from the back of the pachinko machine. It is a disassembled perspective view of a back pack unit. It is a disassembled perspective view of a tank rail. It is a front view of a locking unit. It is a front perspective view of a locking unit. It is a back perspective view of a locking unit. It is the block diagram which showed the electrical structure of the pachinko machine. It is the electric circuit diagram which showed roughly the electrical connection state of a main controller and a power supply device. It is the figure which showed the 1st design individually. (A) is the figure which showed typically the area division setting and effective line setting of the display screen, (b) is the figure which illustrated the actual display screen. It is the figure which showed the outline | summary of various counters. It is the flowchart which showed the main process performed by MPU in a main controller. It is the flowchart which showed the normal process performed by MPU in a main controller. It is the flowchart which showed the off symbol counter update process performed in the normal process of FIG. It is the flowchart which showed the 1st symbol variation process performed in the normal process of FIG. It is the flowchart which showed the fluctuation | variation start process performed in the 1st symbol fluctuation | variation process of FIG. It is the flowchart which showed the timer interruption process. It is the flowchart which showed the start winning process performed in the timer interruption process of FIG. It is the flowchart which showed NMI interruption processing. It is the flowchart which showed the main process performed by MPU in a payout discharge control apparatus. It is the flowchart which showed the payout discharge control process performed by MPU in a payout discharge control apparatus. It is the flowchart which showed the prize-ball control process performed by MPU in a payout discharge control apparatus. It is the flowchart which showed the lending control process performed by MPU in a payout discharge control apparatus. It is the flowchart which showed the main process performed by MPU in a display control apparatus. It is a figure showing the state of the input signal of each electronic component or the state of an output signal, and the alerting | reporting state of the display apparatus and error display lamp corresponding to the state. It is the electric circuit diagram which showed schematically the electrical connection state of the main controller of 2nd Embodiment, a power supply device, and the main board removal detection circuit. It is the electric circuit diagram which showed roughly the electrical connection state of the main controller of 3rd Embodiment, and a power supply device. It is the electric circuit diagram which showed roughly the electrical connection state of the main controller of 4th Embodiment, and a power supply device.

  Hereinafter, an embodiment of a pachinko gaming machine (hereinafter simply referred to as “pachinko machine”) will be described in detail with reference to the drawings. FIG. 1 is a front view of the pachinko machine 10, and FIG. 2 is a perspective view of the pachinko machine 10 in which the front frame 14 and the lower dish unit 15 are opened. FIG. 3 is a front view of the game board 16 of the pachinko machine 10. Here, in FIG. 2, for convenience, the game board 16 and the glass unit 17 are omitted.

  As shown in FIGS. 1 and 2, the pachinko machine 10 includes an outer frame 12 having an outer shell formed by a wooden frame 20 (see FIG. 4A) combined in a substantially rectangular shape, and the outer frame 12 and the outer frame 12. And an inner frame 13 formed in the same outer shape. The inner frame 13 is obtained by attaching a passage forming member 36, a ball launching unit 90, and the like to an inner frame base 30 made of synthetic resin having a central window 30a opened in a substantially circular shape at the center thereof. A game board 16 having a large number of nails, winning holes 63, 64, and the like is attached to the inner frame 13 from the back side, and the front surface of the game board 16 is visible from the central window 30a of the inner frame 13. A game ball is played by the game ball flowing down the front of the game board 16.

  In addition, the inner frame 13 is pivotally supported by the outer frame 12 at two upper and lower portions on one side thereof (left side in front view in the pachinko machine 10), and the inner frame 13 is attached so as to be openable to the front front side. On the front side of the inner frame 13, there are provided a front frame 14 that covers the upper side of the front surface and a lower dish unit 15 that covers the lower side of the inner frame 13. The front frame 14 and the lower dish unit 15 open and close the front surface of the inner frame 13. It is attached as possible.

  The front frame 14 is obtained by assembling decorative resin parts, electrical parts, and the like on a synthetic resin front frame base 200, and a substantially circular opening (window 14c) is formed at a substantially central portion thereof. ing. A glass unit 17 (see FIG. 13) having two sheet glasses 151 is disposed on the rear surface side of the front frame 14, and the front surface of the game board 16 is visible on the front side of the pachinko machine 10 through the sheet glass 151. It has become.

  On the front frame 14, an upper plate 201 for storing game balls is formed in a substantially box shape projecting forward and opening the upper surface, and prize balls, rental balls and the like are discharged to the upper plate 201. The bottom surface of the upper plate 201 is formed to be inclined downward to the right of the front view where the ball launch unit 90 for launching the game ball is located, and the game ball thrown into the upper plate 201 is guided to the ball launch unit 90. The

  In the lower tray unit 15 located on the lower side of the upper tray 201, a lower tray 301 for storing game balls that could not be stored in the upper tray 201 is formed in a substantially box shape with the upper surface open at the center. ing. On the right side of the lower plate 301, an operation handle 310 operated by a player to drive a game ball into the front surface of the game board 16 is disposed. Inside the operation handle 310, a launch solenoid 92 of the ball launch unit 90 is provided. And a variable resistor that detects the amount of rotation of the operation handle 310 based on a change in electrical resistance. When the operation handle 310 is rotated clockwise by the player, the touch sensor is turned on and the resistance value of the variable resistor changes corresponding to the operation amount. The firing solenoid 92 is for firing a game ball with a strength corresponding to the resistance value of the variable resistor that changes in accordance with the amount of rotation of the operation handle 310, whereby the jump amount corresponding to the operation of the player Then, a game ball is driven into the front of the game board 16.

  As shown in FIG. 3, the game board 16 includes a wooden base plate 60 cut into a substantially square shape when viewed from the front, a large number of nails and rails 61 and 62 for guiding a game ball, a general winning opening 63, and a liquid crystal display. The first symbol display device 81 and the like configured by a display (hereinafter simply referred to as “LCD”) are assembled. An outer rail 62 formed by bending a strip-shaped metal plate into a substantially arc shape is planted on the front surface of the game board 16, and the strip-shaped metal plate is located at an inner position of the outer rail 62 in the same manner as the outer rail 62. The arc-shaped inner rail 61 formed by the above is planted. The inner periphery of the game board 16 is surrounded by the inner rail 61 and the outer rail 62, and the front and rear are surrounded by the game board 16 and the glass unit 17 (the plate glass 151). A game area in which a game is played is formed by the behavior of.

  The game area is provided with a plurality of general winning ports 63 through which 5 to 15 balls are paid out as prize balls when a game ball wins. Further, a variable display device unit 80 having a first symbol display device 81 is disposed in the central portion of the game area, and the variable display device unit 80 is controlled by a display control device 505 described later, so that a plurality of types can be obtained. A variation display in which the symbols as the identification information vary according to a predetermined order is displayed on the display screen of the first symbol display device 81. Instead of the LCD, for example, the first symbol display device 81 may be configured using a reel or the like.

  Below the variable display unit 80, a first entrance 64 into which a game ball can enter is disposed. When a game ball enters the first entrance 64, the first entrance switch 524 (see FIG. 22) provided on the back side of the game board 16 is turned on, and the symbol is displayed on the first symbol display device 81 described above. Fluctuation display is started. The first entrance 64 is also one of the entrances through which 5 game balls are paid out as prize balls when game balls enter.

  A variable winning device 65 is disposed below the first ball opening 64, and a horizontally-long rectangular specific winning port (large opening) 65a is provided at a substantially central portion thereof. In the pachinko machine 10, a lottery is performed in response to a game ball entering the first entrance, and when the lottery is won, the first symbol display device 81 has a pre-change after the symbol changes. One of the determined symbol combinations is displayed to indicate to the player that the jackpot has been generated, and then the gaming state transitions to a special gaming state in which the game ball is easy to win. As this special gaming state, the special winning opening 65a that is normally closed is opened for a predetermined time (for example, until 30 seconds elapses or 10 game balls are won).

  In the specific winning opening 65a, a normal area and a V zone as a specific area are separately provided. If the game ball passes through the V zone while the specific winning opening 65a is opened, the continuation right is granted. After the establishment of the specific winning opening 65a, the specific winning opening 65a is opened again for a predetermined time. The opening / closing operation of the specific winning opening 65a can be repeated up to 16 times (16 rounds), for example. The state in which the opening / closing operation is performed is a form of a special gaming state advantageous to the player, and the player is given out a larger amount of prize balls than usual in order to give a gaming value (game value). Is done.

  Note that the special gaming state is not limited to the above-described form. When the game area has a large opening that is opened and closed separately from the specific winning opening 65a, and the display result after the change of the first symbol display device 81 matches one of the predetermined symbol combinations, the specific winning opening 65a is opened for a predetermined time, and when the specific winning opening 65a is opened, a large opening provided separately from the specific winning opening 65a is predetermined for a predetermined time when the game ball wins into the specific winning opening 65a. A gaming state that is released a number of times may be formed as a special gaming state.

  Next, the configuration of the pachinko machine 10 will be roughly divided into an outer frame 12, an inner frame 13, a game board 16, a front frame 14, a lower tray unit 15, and a glass unit 17, and then the configuration on the back side of the pachinko machine 10. Will be described. First, the configuration of the outer frame 12 will be described with reference mainly to FIGS. 2 and 4. Here, FIG. 4A is a perspective view of the outer frame 12, and FIG. 4B is an enlarged perspective view of the periphery of the receiving bracket 23 of the outer frame 12.

  As shown in FIG. 2, the pachinko machine 10 is provided with an outer frame 12 that forms an outer shell, and the inner frame 13 is supported by the outer frame 20 so as to be opened and closed. In the game hall, the outer peripheral surface of the outer frame 20 is fixed to an installation location called an island of the game hall. Since the inner frame 13, the front frame 14, and the lower dish unit 15 are configured to be openable to the front side with respect to the outer frame 12, the inner frame 13, the front frame 14, and the lower dish unit 15 are not touched from the front side of the pachinko machine 10. Inspection and adjustment are performed with the inner frame 13 and the like open to the front side with respect to the outer frame 12.

  The outer frame 12 is made of a wooden plate material that forms four sides on the top, bottom, left, and right to form a rectangular wooden frame 20 as a whole, and hinges 21 and 22 and receiving brackets 23 and 23 are attached to the wooden frame 20. is there. The joint portion of the wooden frame 20 is fixed by a detachable fastener such as a small screw, and a part of the wooden frame 20 can be easily reused as compared with a structure that is fixed using a nail or a rivet. Yes. In the present embodiment, the outer dimension of the outer frame 12 is 809 mm (inner dimension of about 710 mm), and the outer dimension of the left and right direction is 518 mm (inner dimension of about 480 mm). The outer frame 12 may be made of a light metal such as aluminum or a resin.

  As shown in FIG. 4A, metal upper hinges 21 and lower hinges 22 are attached to the outer frame 12 at two upper and lower portions on the left side when viewed from the front to support the inner frame 13. The inner frame 13 is supported to be openable and closable by using the side on which the hinges 21 and 22 are provided as an opening / closing axis.

  The metal fittings 23 of the outer frame 12 are screwed into the upper and lower two places on one side of the inner side of the wooden frame 20 and away from the hinges 21 and 22 with screws. Each receiving bracket 23 is formed by bending a metal plate, and as shown in FIG. 4B, a mounting portion 23a that is in close contact with the inner surface of the outer frame 12, and the inner surface side of the outer frame 12 from the mounting portion 23a. An engaging portion 23b that rises vertically toward the end, and a protruding portion 23c that protrudes toward the closing direction side of the inner frame 13 (upper left side in FIG. 4B) at the distal end side of the engaging portion 23b. And. The front end portion of the inner frame collar member 411 (see FIG. 23) formed so as to project from the inner frame 13 in a hook shape is caught in the engaging portion 23 b of the receiving metal 23, and the inner frame 13 is closed.

  The protruding portion 23c of the metal fitting 23 has an inner frame flange toward the inner surface side (the lower left side in FIG. 4B) of the outer frame 12 in a state where the inner frame 13 is closed with respect to the outer frame 12. It is formed so as to protrude more than the length overlapping the tip portion protruding downward of the member 411. For this reason, the movement of the distal end portion of the inner frame collar member 411 toward the inner surface side of the outer frame 12 is restricted by the protruding portion 23c, and the protruding amount of the metal fitting 23 toward the inner surface side of the outer frame 12 is reduced. It is prevented that the inner frame collar member 411 is accidentally detached from the receiving metal fitting 23 due to the shakiness of 13 and the inner frame 13 is inadvertently opened.

  On the lower side of the outer frame 12, a decorative plate 24 formed of a horizontally long rectangular synthetic resin, specifically, an ABS resin plate, is fixed from the back side of the outer frame 12 by screws passing through the wooden frame 20. Yes. Due to the decorative plate 24, most of the outer frame 12 exposed to the front side of the pachinko machine 10 is made of synthetic resin like the inner frame 13, the front frame 14 and the lower plate unit 15, and a sense of unity is provided between the members. Born to improve appearance quality. Although omitted in the present embodiment, different external shapes are shared while sharing the wooden frame 20 which is the wooden portion of the outer frame 12 by applying a pattern following the shape of the lower dish unit 15 on the front surface of the decorative plate 24. Can be manufactured, and the appearance quality of the pachinko machine 10 can be improved while effectively reusing the wooden frame 20.

  On the upper surface of the decorative plate 24, metal sliding plates 25 and 26 are provided at two locations, that is, an end portion on the side separated from the hinge 22 and a central portion. Even if the inner frame 13 in the open state falls downward with respect to the outer frame 12 due to its own weight, when the inner frame 13 is closed, its lower surface is lifted while being rubbed against the sliding plates 25 and 26, and the inner frame 13 Guided to a fixed position. For this reason, it is not necessary for the operator to perform the closing operation while lifting the inner frame 13, and the convenience of the opening / closing operation of the inner frame 13 is enhanced. In addition, compared to the case where a part that guides the inner frame 13 to a fixed position is formed by a resin or wooden part, parts are prevented from being scraped or damaged due to rubbing due to repeated opening and closing operations. The opening / closing operation of the inner frame 13 can be easily performed over a long period of time.

  One of the two sliding plates 25, 26 is provided at an end portion on the side away from the hinges 21, 22 serving as the opening / closing shaft of the inner frame 13. For this reason, both lower end sides of the inner frame 13 are supported by the metal lower hinge 22 and the sliding plate 26, and the inner frame 13 is guided to a fixed position in a more stable state. Further, the other sliding plate 25 is provided at a substantially intermediate position between the hinge 22 and the sliding plate 26, and the most easily depressed portion is guided by the support of the hinge 22 and the sliding plate 26 provided at the end. It becomes. Thus, by providing the two sliding plates 25 and 26 at the end portion and the central portion on the upper surface of the decorative plate 24 on the side away from the hinge 22, the inner frame 13 can be reliably guided at a fixed position, Even if the weight applied to the inner frame 13 increases due to a large amount of game balls entering the upper plate 201 or the lower plate 301, the opening / closing operation of the inner frame can be easily performed.

  On the back side of the upper surface of the decorative plate 24, a rib 27 is provided so as to protrude upward to a position overlapping the lower end portion of the inner frame 13 along the front-rear direction of the pachinko machine 10. In addition, a groove 27 a that is recessed toward the back side along the upper surface of the decorative plate 24 is formed at the base portion of the rib 27, and the upper end portion of the rib 27 is formed so as to protrude toward the front side of the pachinko machine 10. For pachinko machines, fraudulent acts that are performed by inserting a thin plate-like tool or the like through a gap between members are frequently reported. However, in the pachinko machine 10 according to the present embodiment, a tool from the lower side of the inner frame 13 is reported. Since the rib 27 prevents the act of inserting etc., fraudulent acts can be prevented. Further, the tool inserted from between the inner frame 13 and the decorative plate 24 is likely to be fitted into the groove 27a provided at the base portion of the rib 27, which makes it more difficult to cheat.

  The height of the ribs 27 on the upper surface of the decorative plate 24 is set lower than the radius of the game ball with respect to the upper surface of the decorative plate 24. For this reason, even if a game ball is on the upper surface of the decorative plate 24 when the inner frame 13 is closed, the game ball gets over the rib 27 after being sandwiched between the lower end portion of the inner frame 13 and the rib 27. Therefore, the provision of the rib 27 prevents illegal actions, and the game ball is not sandwiched between the rib 27 and the inner frame 13 so that the trouble of reclosing the inner frame 13 does not occur. Convenience for the opening / closing operation can be kept high.

  Next, the inner frame 13 will be described mainly with reference to FIGS. 2 and 5. FIG. 5 is a front view of the pachinko machine 10 with the front frame 14 and the lower dish set 15 removed. In FIG. 5, for convenience, a part of the configuration in the game area on the surface of the game board 16 is shown as blank.

  The inner frame 13 is mainly composed of an ABS resin-made inner frame base 30 formed in a rectangular shape, and a substantially circular central window 30 a is formed at the center of the inner frame base 30. An attachment portion for the game board 16 is provided on the back side of the inner frame base 30, and the game board 16 is detachably attached.

  The inner frame 13 is a door-shaped member that is rotatably supported with respect to the outer frame 12 by the upper hinge 21 and the lower hinge 22 of the outer frame 12 described above. The opening / closing axis of the inner frame 13 extends vertically on the left side of the front view of the pachinko machine 10 provided with the hinges 21, 22, and the inner frame 13 is opened to the front side with the opening / closing axis serving as an axis. The opening / closing axis of the inner frame 13 is set on the side (left side in front view) opposite to the operation handle 310 (see FIG. 1) provided on the right side in front view of the pachinko machine 10 so that the inner frame 13 can be opened more greatly. ing. Normally, in the pachinko hall, the pachinko machines 10 are arranged adjacent to each other. Therefore, when the opening / closing axis is provided on the operation handle 310 side, the operation handle 310 that moves along with the opening of the inner frame 13 moves to the adjacent pachinko machine 10 or the pachinko machine. This is because the amount of opening is limited by contacting a card unit or the like provided between the machines 10.

  An outer peripheral wall 30b is formed on the outer periphery of the inner frame 13 so as to project to the front side, and the front frame 14 and the lower dish unit 15 are disposed inside the outer peripheral wall 30b. That is, in a state where the front frame 14 and the lower dish unit 15 are attached to the inner frame 13, the outer periphery of each side surface of the front frame 14 and the lower dish unit 15 is surrounded by the outer peripheral wall 30 b of the inner frame 13. For this reason, it becomes difficult to insert a wire or a thin plate-like tool between the front frame 14 or the lower tray unit 15 and the inner frame 13, and it is possible to suppress fraud.

  As shown in FIG. 2, a wiring port 30 c is provided through the inner frame base 30 in the upper left portion of the inner frame 13. In the wiring port 30 c, wiring of components used for electrical decoration or the like of the front frame 14 is inserted into the back side of the inner frame 13 and connected to the back side of the game board 16. Rs are formed at the corners of the wiring port 30c, and even if each cord wired in the wiring port 30c is rubbed by the wiring port 30c by opening and closing the front frame 14, it is difficult to be damaged. The game board 16 (base plate 60) is also provided with a wiring port 60a at a position (upper left) corresponding to the wiring port 30c of the inner frame 13, and the gaming board 16 is attached to the inner frame base 30. Wiring is possible.

  On the upper right side of the wiring port 30 c of the inner frame 13, a push button type opening / closing switch 32 protruding in a columnar shape is provided on the front side of the pachinko machine 10. The open / close switch 32 is a switch for detecting the open / closed state of the front frame 14. When the front frame 14 is closed with respect to the inner frame 13, the open / close switch 32 is pressed against the back surface of the front frame 14, and conversely, the front frame 14 is opened with respect to the inner frame 13. If it is, the open / close switch 32 is in a non-pressing protruding state, and detects the open / closed state of the front frame 14. This open / close switch 32 is an island management device that collectively manages lamps generally provided on the upper side of the pachinko machine 10 and a plurality of gaming machines installed in the game hall via an external output terminal on the back side of the pachinko machine 10. Connected to etc. As a result, among the plurality of pachinko machines 10, only the pachinko machine 10 in the open state is turned on specially or a signal is sent to the island management device to enlarge the pachinko machine 10 being opened by the surveillance camera. The security against the unauthorized opening of the pachinko machine 10 is improved.

  A substantially rectangular small window 30d is provided through the inner frame base 30 on the lower right side of the central window 30a of the inner frame 13, and a part of a substantially square is chamfered on the lower left side of the central window 30a. A small window 30 e having a shape is provided through the inner frame base 30. Adhesive spaces K1, K2 (see FIG. 3) for adhering certificate stamps, identification labels, etc. are provided at the left and right corners on the lower side of the game board 16, and are attached to the adhering spaces K1, K2. Since the certificate paper or the like is exposed to the front side of the inner frame 13 through the small windows 30d and 30e of the inner frame 13, the certificate paper or the like can be viewed with the front frame 14 opened. In addition, even after the game board 16 is attached to the inner frame base 30, it is possible to stick a stamp or the like on the sticking spaces K 1 and K 2 of the game board 16 through the small windows 30 d and 30 e.

  The lower side of the central window 30a of the inner frame base 30 is formed in a concave shape with the front side open, and a flat mounting surface 30f is formed on the back side. A ball launching unit 90 for launching a game ball to the front surface of the game board 16, a passage forming member 36 that forms a passage for discharging the game ball to the upper plate 201 and the lower plate 301, and the like are attached to the attachment surface 30f. .

  As shown in FIG. 5, three support fittings 33 to 35 are attached to the left end portion of the inner frame 13 at three locations along the vertical direction as a mechanism for supporting the front frame 14 and the lower dish unit 15. ing. The upper support fitting 33 is provided with a support hole 33a having a notch formed with a U-shaped opening on the front side of the sheet of FIG. 5 and having an inlet formed narrower than the back side. The support hole 33a is stepped. The support bracket 33 on the front frame 14 side formed in a cylindrical shape is fitted.

  The second support bracket 34 from the top is provided with cylindrical projection shafts 34a and 34b that protrude in the vertical direction. The lower left corner of the front frame 14 is rotatably supported by the protrusion shaft 34a protruding upward from the two protrusion shafts 34a and 34b, and the upper left corner of the lower plate unit 15 is internally supported by the protrusion shaft 34b protruding downward. The frame 13 is supported so as to be rotatable.

  The lowermost support fitting 35 is formed by providing a support hole penetrating in a vertical direction in a horizontal metal plate protruding toward the front side of the inner frame 13. A support shaft 308 (see FIG. 19) to which an urging force is applied so as to protrude downward by a spring is provided on the lower side of the left end portion of the lower dish unit 15, and the support shaft 307 is provided in the support hole of the support fitting 35. The lower left corner of the lower plate unit 15 is pivotally supported so as to be rotatable with respect to the inner frame 13.

  Next, the configuration of the game board 16 will be described with reference mainly to FIG. The game board 16 is configured by assembling a base plate 60 formed of a quadrangular plywood with a nail, a windmill, a winning opening 63, and the like, and the inner frame 13 with its peripheral edge abutting against the back side of the inner frame base 30. It is attached to the back side. The front center portion of the game board 16 is exposed to the front side of the inner frame 13 through the central window 30 a of the inner frame base 30. The vertical length of the game board 16 is about 480 mm, and the length in the left-right direction is about 450 mm, which is the same size as the conventional one.

  The game board 16 is provided with the above-described general winning opening 63, first winning opening 64, variable winning device 65, variable display device unit 80, etc. disposed in a through hole formed in the base plate 60 by router processing. It is fixed from the front side of the panel 16 with wood screws or the like. In addition to the above-described winning opening, the game board 16 is provided with an out opening 66 and a second entrance (through gate) 67. The game balls that have not entered any of the winning openings 63, 64, 65a are guided through the out opening 66 to a ball discharge path (not shown). A number of nails are planted on the game board 16 in order to appropriately disperse and adjust the falling direction of the game ball, and various members (instruments) such as a windmill are arranged.

  The variable display device unit 80 includes a light emitting diode (hereinafter abbreviated as “LED”) that displays the second symbol (ordinary symbol) in a variable manner with the passage of the game ball at the second entrance 67 as a trigger. There are provided a two symbol display device 82 and a first symbol display device 81 for variably displaying the first symbol (special symbol) triggered by winning at the first entrance 64. The second symbol display device 82 includes a second symbol display portion 83 and a holding lamp 84, and each time a game ball passes through the second entrance 67, the display symbol 83 displays a second symbol (second symbol). As the symbol “○” and “×” symbol are alternately lit, the variable display is performed, and when the variable display stops at a predetermined symbol (in this embodiment, “○” symbol) The 1 entrance 64 is configured to be activated (opened) for a predetermined time. The number of times that the game ball passes through the second entrance 67 is held up to a maximum of 4 times, and the number of times the game ball is passed is displayed on the hold lamp 84. Note that the variation display of the second symbol is performed by switching on and off of a plurality of lamps in the display unit 83 as in the present embodiment, and a part of the first symbol display device 81 is used. May be performed. Similarly, the hold lamp 84 may be turned on by a part of the first symbol display device 81.

  In addition, when a game ball enters the first entrance 64 while the first symbol display device 81 is performing the variable display of the first symbol, the number of times that the ball has entered is suspended up to four times, The number of times of holding is displayed by the number of lighting of the holding lamp 85. Four holding lamps 85 are provided for the maximum number of holdings, and are arranged symmetrically above the first symbol display device 81. In the present embodiment, the winning entry to the first entrance 64 and the passing through the second entrance 67 are configured to be held up to 4 times each, but the maximum holding number is limited to 4 times. Instead, it may be set to 3 times or less, or 5 times or more (for example, 8 times). In addition, the hold lamp 85 is deleted, and the number of times the variable display is held based on the winning at the first entrance 64 is numerically held in a part of the first symbol display device 81, or the area divided into four is held. You may make it display in a different aspect (for example, a color and a lighting pattern) by the frequency | count.

  The display content of the first symbol display device 81 is controlled by a display control device 505, which will be described later, and for example, three symbol sequences of left, middle, and right are displayed. Each symbol row is composed of a plurality of symbols, and these symbols are vertically scrolled for each symbol row so that the first symbol is variably displayed on the display screen of the first symbol display device 81. In the present embodiment, the first symbol display device 81 is composed of a large liquid crystal display of 8 inch size, and the variable display device unit 80 surrounds the outer periphery of the first symbol display device 81 so as to surround the center frame 86. Is arranged.

  The variable winning device 65 opens and closes a specific winning port 65a formed in a horizontally long rectangular shape at the center thereof. Specifically, a horizontally long rectangular opening / closing plate that covers the specific winning opening 65a, and a solenoid for opening / closing driving the lower side of the opening / closing plate as an axis are provided. The special winning opening 65a is normally closed so that a game ball cannot win or is difficult to win. In the case of a big hit, the solenoid is driven to tilt the opening / closing plate downward and the game ball temporarily forms an open state in which the game ball is likely to win the specific winning opening 65a. It operates so that these states are repeated alternately.

  The two rails 61 and 62 provided on the game board 16 are provided for guiding the game balls launched from the ball launch unit 90 to the upper part of the game board 16. A game ball launched in accordance with the turning operation of the operation handle 310 is guided to the game area via a path sandwiched between the two rails 61 and 62. Both rails 61 and 62 are made of a stainless steel metal band, and the inner rail 61 is fixed to the base plate 60 in a state of being bent into an annular shape excluding the upper right semicircle. The outer rail 62 is fixed to the base plate 60 such that a part (mainly the left side portion) faces the inner rail 61. The inner rail 61 and the outer rail 62 mainly constitute a guide rail, and a ball that guides the game ball to the game area by a portion where the rails 61 and 62 are parallel to each other at a predetermined interval (a portion on the left side). A guide passage is formed.

  A return ball preventing member 68 is attached to the tip of the inner rail 61 (upper left portion in FIG. 3). As a result, it is possible to prevent a situation in which the game ball guided to the upper portion of the game board 16 from the ball guide passage between the inner rail 61 and the outer rail 62 once again returns to the ball guide passage. A resin arc member 70 formed by providing an arc connecting the rails on the inner surface side between the lower right end of the inner rail 61 and the upper right end of the outer rail 62 is a base. The plate 60 is driven and fixed. A return rubber 69 is attached to the front end portion of the outer rail 62 (upper right portion in FIG. 3) at a position corresponding to the maximum flying portion of the game ball. The game ball fired at a predetermined momentum or more hits the return rubber 69 and is bounced back toward the center while the momentum is attenuated.

  In the lower right corner and the lower left corner of the game board 16, there are provided adhering spaces K1, K2 for adhering seals or plates such as stamps. Since the game board 16 itself is provided with sticking spaces K1, K2 such as stamps, the game board 16 can be uniquely identified by the stamps, etc., and the replacement to the illegal game board 16 can be easily found. Can do.

  Next, the game area will be described. The game area is a substantially circular area formed on the front surface of the game board 16 and defined by the two rails 61 and 62 and the arc member 70. In this embodiment, the game area is a guide rail that is a parallel part of the inner rail 61 and the outer rail 62 in the area surrounded by the inner rail 61, the outer rail 62, and the arc member 70 when viewed from the front of the pachinko machine 10. The area is excluded. Therefore, in the case of a game area, the guide rail portion is not included, and the left limit position toward the game area is specified by the inner rail 61 instead of the outer rail 62. Similarly, the right limit position toward the game area is specified by the arc member 62. Further, the lower limit position of the game area is specified by the inner rail 61. Further, the upper limit position of the game area is specified by the outer rail 62.

  In the pachinko machine 10, the distance from the upper end of the game area (the uppermost point of the outer rail 62) to the lower end of the game area (the lowermost point of the inner rail 61) is 445 mm (about 58 mm longer than the conventional product). The distance from the left end (the extreme left position of the inner rail 61) to the right end of the game area (the extreme right position on the inner surface of the arc member 70) is 418 mm (about 50 mm longer than the conventional product). That is, the game area of the pachinko machine 10 is configured to be much larger than that of the past by extending in the left-right direction and the up-down direction. Therefore, a windmill, the second entrance 67, a plurality of nails (such as a guide nail for guiding the game ball to the center), and other accessories can be arranged in various ways, and the behavior of the game ball can be varied. You can make the ball game more interesting.

  Here, the width of the game area is desirably at least 380 mm. More preferably, it is 390 mm or more, 400 mm or more, 410 mm or more, 420 mm or more, 430 mm or more, 440 mm or more, 450 mm or more, and further 460 mm or more. Of course, it may be 470 mm or more. That is, the width of the game area is preferably as large as possible from the viewpoint of expanding the game area. The height of the game area is preferably at least 400 mm. More preferably, it is 410 mm or more, 420 mm or more, 430 mm or more, 440 mm or more, 450 mm or more, and more preferably 460 mm or more. Of course, it is good also as 470 mm or more, 480 mm or more, and 490 mm or more. That is, the height of the game area is preferably as large as possible from the viewpoint of expanding the game area. In addition, about the combination of the said width | variety and height, it is good also as what combined the said numerical value arbitrarily.

  In the present embodiment, the ratio of the area of the game area to the surface of the game board 16 is about 70%, which is much larger than the conventional area ratio. Since the area ratio of the game area to the surface of the game board 16 has been only about 50% in the past, it can be said that the game area is considerably expanded on the premise that the game board 16 is shared. It should be noted that the external shape of the pachinko machine 10 is almost uniform among manufacturers for the convenience of installation in the game hall, and in the situation where the size of the game board 16 must be the same, the surface of the game board 16 as described above. Increasing the ratio of the area of the gaming area to about 20% is very significant from the viewpoint of expanding the gaming area. Here, the ratio is preferably at least 60% or more. More preferably, it is 65% or more, More preferably, it is 70% or more. Further, if it is 75% or more exceeding the case of this embodiment, it is more desirable. Furthermore, it may be 80% or more.

  Further, the ratio of the area of the game area to the area of the front side of the entire pachinko machine 10 is about 40%, which is a much larger area ratio than before. The area ratio of the game area to the area of the front side of the entire pachinko machine 10 is desirably 35% or more. Of course, it may be 40% or more, 45% or more, or 50% or more.

  The second entrances 67 (through gates) located on both sides of the variable display device unit 80 have a guide mechanism for bringing the passed game ball to the center of the game area. This guide mechanism is configured by providing an inclined surface that descends toward the center of the game area below the second entrance 67. As a result, even if the game area is expanded in the left-right direction by providing a large LCD at the center of the game area in the variable display device unit 80, the game ball is moved to the first entrance 64 on the center side of the game area or variable. It is possible to guide to the winning device 65, and as a result, it is difficult to win a game ball due to the expansion of the game area, or the game ball's path is narrowed and the behavior of the game ball becomes monotonous. Can be suppressed.

  Next, the ball launch unit 90, the passage forming member 36, and the relay board 38 which are attached to the lower part on the front side of the inner frame base 30 and constitute a part of the inner frame 13 will be described mainly with reference to FIGS. To do. 6 is a front view of the ball launching unit 90, FIG. 7 is a perspective view thereof, and FIG. 8 is an exploded perspective view thereof. 9 is a perspective view of the ball launching unit 90 in a state where the opening / closing member 102 constituting the ball feeding mechanism 94 is opened, and FIG. 10 is a perspective view of the ball feeding mechanism with the lid member 103 removed from the state of FIG. FIG. 9 is a perspective view of a ball launch unit 90 showing the internal configuration of 94.

  The ball launch unit 90 includes a base plate 91 fixed to the attachment surface 30f at the lower part of the inner frame base 30 with screws, a launch solenoid 92 attached to the base plate 91, and a longitudinal direction of the launch solenoid 92 on one end side of the launch solenoid 92. A launch rail 93 having a substantially M-shaped cross section that is attached and fixed to the base plate 91 so as to extend in parallel with the base plate 91, and guides the game balls one by one to the base end portion (the end portion on the launch solenoid 92 side) of the launch rail 93 A ball feeding mechanism 94 for guiding, and a positioning member 95 (see FIG. 9) attached to the base plate 91 so as to support and position the game ball placed on the base end portion of the firing rail 93 are provided. Yes.

  The base plate 91 is formed by pressing a metal flat plate such as a zinc alloy, and is fixed by screws 96 in a state of being in close contact with the mounting surface 30 f of the inner frame base 30. As shown in FIG. 8, the base plate 91 is provided with a fastening hole for inserting the screw 96, and the boss 91a and the bolt 91b for fixing the firing solenoid 92 and the firing rail 93 are secured. The boss 91c is fixed.

  The mounting position of the base plate 91 is desired to be highly accurate so as to be stable with respect to the inner frame base 30 even when many pachinko machines 10 are manufactured. When the relative position with respect to the game board 16 changes for each pachinko machine 10, the jump amount of the game ball fired by the launch solenoid 92 differs accordingly, and the jump amount of the game ball corresponding to the turning operation of the operation handle This is because each pachinko machine 10 becomes unstable. In the pachinko machine 10 of this embodiment, the base plate 91 is made larger than the conventional one, and the relative mounting position with the inner frame base 30 is stabilized. Specifically, the lower end of the base plate 91 extends below the pivot axis (position indicated by AH in FIG. 5) of the operation handle 310, and the right end thereof is substantially the same as the right end of the game board 16, Its left end extends to the left side from the out port 66 so as to cross the center of the game area, and its upper end extends to a position close to the lower end of the game board 16. Further, the number of screws 96 for fixing the base plate 91 is increased (six) from the conventional one. Further, the fastening position of each screw 96 (see FIG. 5) is separated from the conventional one. For example, the fastening position of the lower screw 96 is below the rotation axis AH of the operation handle 310, and the mounting position is stable. We are trying to make it.

  The launch rail 93 guides the game ball immediately after being fired by the launch solenoid 92, and extends to a boss 91c fixed to the base plate 91 so as to extend linearly while maintaining a predetermined launch angle (launch angle). It is fixed with screws (not shown). A game ball that is launched in accordance with the turning operation of the operation handle 310 is first launched obliquely upward along the launch rail 93, and then through the guide rail formed between the two rails 61 and 62 as described above. Guided to the game area.

  Here, in the case of this pachinko machine 10, it has already been described that the game area is greatly expanded as compared with the conventional case, but in such a configuration, the distance between the launch position of the game ball and the game area becomes closer and the launch rail becomes shorter. It tends to be. If the launch rail 93 is short, the ball guiding distance is reduced and the variation of the launch ball is increased. Therefore, a device for stabilizing the launch ball is required. In this embodiment, the launch position of the game ball is lowered and the inclination angle (launch angle) of the launch rail 93 is made somewhat larger than that of the existing one (that is, the launch rail 93 is raised). The length of the ball is about 240 mm to ensure a sufficiently long ball guiding distance. Thereby, the game ball launched from the launching device can be guided to the guide rail in a more stable state. In this case, in particular, the launch rail 93 is formed to extend from the launch position of the game ball hit by the launch solenoid 92 to a position beyond the center position (out port 66) of the game area.

  Further, in the pachinko machine 10, as a launching device for launching a game ball, a single unit solenoid (launch solenoid) in which a linear solenoid is housed in a case member, instead of a combination of a motor and a launching rod that are generally used conventionally. 92 is adopted. The firing solenoid 92 is provided with a metal plunger 92a disposed in parallel with the firing rail 93 in the longitudinal direction, and a resin cap 92b covering the tip of the plunger 92a. As the material of the cap 92b, a polyester-based thermoplastic elastomer is employed in the present embodiment. While the player is turning the operation handle 310, the firing solenoid 92 repeats excitation and de-excitation every predetermined time, and the plunger 92a is repeatedly moved up and down accordingly. When the plunger 92 a protrudes, the game ball positioned on the firing rail 93 by the positioning member 95 is launched toward an obliquely upward direction toward the firing rail 93. A variable resistor that is linked to the operation handle 310 is connected to the firing solenoid 92, and the protruding speed of the plunger 92a is adjusted based on the operation amount of the operation handle 310 (the stroke amount is substantially constant). The speed and thus the jump amount is adjusted by the rotation amount of the operation handle 310.

  As shown in FIG. 8, the firing solenoid 92 is fixed to a pair of bosses 91a and bolts 91b erected on the base plate 91 by attaching bolts 97 and nuts 98 thereto. The firing solenoid 92 is provided with a fastening hole 92c through which the bolts 91b and 97 are inserted at positions corresponding to the boss 91a and the bolt 91b. In the ball launch unit 90, the height of the launch solenoid 92 relative to the base plate 91 is made different by adjusting the tightening of the bolts 97 and nuts 98 provided above and below the launch solenoid 92, so that the plunger 92a and the launch rail 93 The relative mounting position can be adjusted, and the hitting point of the game ball can be adjusted. Even if there is a variation in manufacturing and assembling of each part at the time of manufacturing the pachinko machine 10, the ball launch unit 90 is assembled to the pachinko machine 10 and then the bolt 97 and the nut 98 are adjusted to reduce the flying amount of the game ball. Can be adjusted. The firing solenoid 92 is entirely disposed inside the outer peripheral edge of the base plate 9l. When the ball launching unit 90 is assembled to the inner frame base 30 from the base plate 91 side, the firing solenoid 92 is another component. It is prevented from being caught and damaged.

  The positioning member 95 is a member for supporting the game ball placed on the right end portion (base end portion) of the firing rail 93 and positioning the game ball at the hitting position, as shown in FIG. The base plate 91 is formed so as to protrude in a columnar shape on the surface side on which the firing rail 93 is provided. The positioning member 95 is provided with a fastening hole penetrating along the axial direction, and the positioning member 95 is screwed to the base plate 91 by inserting a screw into the fastening hole. Here, the fastening hole of the positioning member 95 is formed not at the center of the columnar shape but at an eccentric position. For this reason, it is possible to slightly change the hitting position of the game ball placed on the firing rail 93 by rotating the positioning member 95 appropriately and then tightening the screw, and at the time of manufacturing and manufacturing the pachinko machine 10 Later, it is possible to easily adjust the jump amount of the game ball.

  The ball feeding mechanism 94 feeds the game balls continuously guided from the upper plate 201 one by one to the base end portion of the firing rail 93. The ball feeding mechanism 94 is made of a resin base member 101 fixed to the base plate 91 so as to cover the upper part of the firing solenoid 92, and is pivotally supported on one side (right side in FIG. 6) of the base member 101 to open and close. And a resin opening / closing member 102 configured to be capable of being used. The base member 101 is integrally formed with a locking claw 101a toward the front side where the opening / closing member 102 is provided. The opening / closing member 102 has a locking claw 101a in a closed state overlapping the front surface of the base member 101. A locking hole 102a is formed in which is caught. Normally, the opening / closing member 102 is in a closed state in which one side is pivotally supported by the pedestal member 101 and the other side is locked to the pedestal member 101 by a locking hole 102a and overlaps and is fixed to the front surface of the pedestal member 101. This closed state is released by removing the locking claw 101 a of the base member 101 from the locking hole 102 a of the opening and closing member 102, and the opening and closing member 102 can be opened forward with respect to the base member 101. Further, the opening / closing member 102 can be slid upward to be detached from the pedestal member 101 by opening to the maximum with respect to the pedestal member 101.

  The lower part of the pedestal member 101 is formed in a shape inclined downward toward the front side of the lower dish unit 15 while covering the upper gap between the lower dish unit 15 and the mounting surface 30f of the inner frame base 30. Further, on the left side of the pedestal member 101 when viewed from the front, the passage forming member 36 covers the upper gap between the lower plate unit 15 and the mounting surface 30f of the inner frame base 30 on the left side of the pedestal member 101 and the front surface of the lower plate unit 15. It is formed in a shape that is inclined downward toward the side. For this reason, when the front frame 14 is opened, even if the game ball falls on the part of the ball launching unit 90, the game ball does not enter the back side of the lower dish unit 15 and flows out to the front side. .

  As shown in FIG. 6, an introduction port 102b for introducing a game ball guided from the upper plate 201 is provided at the front end of the opening / closing member 102 as viewed from the front, and the game ball is introduced from the introduction port 102b. Is introduced to the back side of the opening / closing member 102. As shown in FIG. 9, a lid member 103 is detachably attached to the back surface side of the opening / closing member 102, and the lid magnet 103 covers the electromagnet 104 and the delivery member 105. The electromagnet 104 and the delivery member 105 are members that operate to send out the game balls one by one. As shown in FIG. 10, the electromagnet 104 faces upward in the accommodation space recessed in the opening / closing member 102. They are arranged side by side.

  The delivery member 105 is a resin-made member that is pivotally supported by a pin so that one side of the introduction port 102b can swing up and down with respect to the opening / closing member 102, and only one game ball is provided on one side of the introduction port. A holder portion 105a that is recessed so as to be accommodated is provided. A metal piece 106 is attached to the upper side portion connecting the shaft portion through which the pin is inserted and the holder portion 105 a so as to face the electromagnet 104.

  When the electromagnet 104 is turned on (excited), the metal piece 106 is pulled so as to stick to the electromagnet 104, and the delivery member 105 rotates upward. When game balls are continuously introduced from the introduction port 102b, the top game ball is accommodated in the holder portion 105a and the vertical movement is restricted, and the subsequent game balls are supported by the game balls accommodated in the holder portion 105a. The flow is regulated.

  When the electromagnet 104 is turned off (de-energized) in a state where the game ball is accommodated in the holder portion 105a, the delivery member 105 rotates downward by its own weight, and the game ball accommodated in the holder portion 105a flows downward. To do. At this time, since the transition of the subsequent game ball to the holder portion 105 a is restricted by the upper side of the delivery member 105, only one ball accommodated in the holder portion 105 a is sent downward by the vertical movement of the delivery member 105. The game ball delivered downward is guided onto the firing rail 93 via the delivery port 102c (see FIG. 9) formed by the opening / closing member 102 and the lid member 103. Therefore, when the excitation and de-excitation of the electromagnet 104 are repeated, the game balls are guided one by one onto the launch rail 93 in synchronization with the repetition, and the launch solenoid 92 is excited in synchronization with the on / off of the electromagnet 104. Thus, the game balls on the launch rail 93 can be launched one by one toward the game area.

  Next, the passage forming member 36 provided on the front side of the inner frame 13 will be described with reference mainly to FIG. The passage forming member 36 includes a lower tray discharge passage (not shown) for discharging the game balls to the lower plate 301 when the upper plate 201 is full, and a foul ball for discharging the foul balls to the lower plate 301. This is a member for forming a passage (not shown). Here, the foul ball means a game ball that returns to the launch rail 93 side without reaching the entrance of the game area where the return ball prevention member 68 is located because the launch force (launch force) at the time of launch is weak. Yes.

  A gap of about 40 mm is formed between the launch rail 93 and the rails (guidance rails) 61 and 62 on the front surface of the game board 16, and a foul ball passage is provided below the gap. A passage forming member 36 made of a transparent resin is fixed to the mounting surface 30f of the inner frame base 30 with screws on the front surface of the inner frame 13 and on the left side of the ball launch unit 90. The passage forming member 36 is provided with a groove that opens toward the mounting surface 30 f side of the inner frame 13, and a foul ball passage is formed by the groove and the mounting surface 30 f of the inner frame base 30. The foul ball passage joins a lower tray discharge passage that guides game balls overflowing from the upper plate 201 to the lower plate 301 from the middle. A lower tray discharge port 36a that protrudes in a cylindrical shape from the mounting surface 30f toward the front side of the inner frame base 30 is provided at the most downstream portion of the lower tray discharge passage. Is discharged from the lower plate discharge port 36a to the lower plate 301.

  In the middle of the discharge passage, a full tank sensor (not shown) for detecting that the lower tray 301 is full of game balls is provided so as to form a part of the passage bottom surface. When a large amount of game balls are paid out in a short period of time, game balls start to accumulate in the lower plate 301 after the upper plate 201 is full. After that, even if the game balls continue to be paid out, if the game balls on the lower plate 301 are not pulled out, the game balls will start to collect in the discharge passage. It is stopped by the control of the payout and emission control device 611 (see FIG. 23). If the game ball continues to be paid out even if the discharge passage is full, the lower plate 301 overflows and it becomes difficult to continue the game, or the game ball gets stuck in the gear for paying out the game ball This is because problems are likely to occur. When the full tank of the discharge passage is detected by the full tank sensor, an error message “please remove the ball” is repeatedly output from the speaker SP (see FIG. 2) under the control of the payout launch control device 611. The player can be shown that the game balls have accumulated in the lower plate 301, and can be prompted to take out the game balls from the lower plate 301.

  An upper tray discharge port 36b for discharging game balls to the upper plate 201 is provided in the upper left part of the passage forming member 36, and the inner frame base 30 is used for paying out game balls to the upper plate discharge port 36b. There is a payout exit. The payout port of the inner frame base 30 connects the back surface and the front surface of the inner frame base 30 and is connected to a payout device 658 (see FIG. 20) provided on the back surface side of the inner frame 13. The payout opening and the upper tray discharge port 36b communicate with the upper plate 201 in a state in which the front frame 14 is closed, and the game ball is discharged (paid out) to the upper plate 201 through the discharge port and the upper plate discharge port 36b. . An open / close shutter 37 is attached to the upper plate discharge port 36b. When the front frame 14 is opened (the state shown in FIG. 2), the shutter 37 closes the upper plate discharge port 36b by an urging force such as a spring. . When the front frame 14 is closed, the shutter 37 is tilted toward the inner frame base 30 and pushed open by a ball passage rod 241 (see FIG. 2) provided on the back surface of the front frame 14. Therefore, in the present pachinko machine 10 in which the front decorative frame is omitted and the upper plate 201 is directly provided on the front frame 14, the game ball passing through the payout opening of the inner frame base 30 is opened when the front frame 14 is opened. Inconveniences such as spilling down on the front surface of 13 can be prevented.

  On the lower side of the lower plate discharge port 36a in the passage forming member 36, a rib 36c having a length contacting the lower surface of the inner frame 13 is provided, and the mounting surface 30f of the inner frame base 30 formed in a flat plate shape is reinforced. Has been. Further, a gap through which the wiring passes is provided between the rib 36c and the mounting surface 30f, and the rib 36c is used as a holder for electric wiring.

  A relay board 38 is accommodated in the lower left corner of the front surface of the inner frame base 30. On the relay board 38, wiring of electrical components (touch sensor and variable resistor inside the operation handle 310 and the speaker SP) provided in the lower tray unit 15 and a control device (payout launch control) provided on the inner frame 13 side are provided. It is a part which connects the apparatus 611 and the audio | voice lamp control apparatus 562), and the insertion port (not shown) connected with the connector provided in the wiring cord front end by the side of the lower pan unit 13 is provided. Since the electrical connection between the lower tray unit 15 and the inner frame 13 is integrated on the relay board 38, the wiring operation when the lower tray unit 15 is assembled and removed is simplified, and the pachinko machine 10 is assembled and removed. Disassembly is easy. In addition, the relay board 38 is provided with a switch for adjusting the volume of the speaker SP in two levels, and the volume can be easily adjusted without opening the inner frame 13. The wiring from the relay board 38 to the control device provided on the back side of the inner frame 13 is arranged along the lower end of the mounting surface 30f of the inner frame base 30 and on the inner side of the rib 36c of the passage forming member 36. The inner frame base 30 is routed around the back surface of the inner frame 13 through a wiring hole 30 h formed in the lower right front corner of the front surface.

  Next, the configuration of the front frame 14 will be described with reference to FIGS. 1, 2, 11, and 12. FIG. 11A is a rear view of the front frame 14, and FIG. 11B is a cross-sectional view taken along the line RR in FIG. 11A. FIG. 12 is a cross-sectional view of the outlet portion of the upper plate 201 that sends out the game ball to the ball launching unit 90. FIG. 12 (b) shows a state in which the front frame is closed.

  The front frame 14 is mainly configured by a front frame base 200 made of ABS resin formed in a rectangular shape, and the front frame base 30 has a central portion so that most of the game area can be visually recognized from the outside. A window portion 14c having an elliptical opening is provided. Moreover, as shown in FIG. 1, the upper plate | board 201 as a ball receiving tray is integrally provided under the window part 14c. The upper plate 201 temporarily stores the game balls and guides them to the ball launch unit 90 while aligning them in a row. In the conventional pachinko machine, a front decorative frame that can be opened and closed with respect to the inner frame is provided below the front frame, and an upper plate is provided on the front decorative frame, but in this embodiment, the front decorative frame is omitted, An upper plate 201 is provided directly on the frame 14. This is because the front frame 14 of the present embodiment includes a window portion 14c that is largely oval shaped so that a game area formed larger than a conventional pachinko machine can be visually recognized from the outside. The upper plate 201 is integrally formed with the front frame 14 in order to improve the strength of the plate as much as possible. As with the lower plate 301, the upper plate 201 has at least a surface layer formed of flame-retardant ABS resin.

  The window portion 14c of the front frame 14 has a vertically elongated elliptical shape in which the substantially central portion on the left and right sides thereof is curved relatively gently as compared with the upper and lower sides. Since the front frame base 30 forming the window portion 14c is longer in the vertical direction than in the horizontal direction, the front frame base 30 has a narrow width that is easily broken at the top, bottom, left and right of the front frame base 200 while opening the window portion 14c. The part which becomes can be provided comparatively widely, and it is easy to ensure intensity | strength. In addition, you may form in the linear form, without curving the substantially center part of the left-right side of the window part 14c.

  In the present embodiment, the upper end of the opening of the window portion 14c coincides with the uppermost portion of the outer rail 62 (the upper end of the game area), and the shortest distance between the upper end of the opening and the upper end of the front frame 14 (the so-called upper frame portion). The vertical width is about 50 mm. Compared to the prior art having an upper frame width of about 85 mm to 95 mm, the upper frame width is remarkably shortened, so that it is easy to secure the upper area of the game area and the large variable display device unit 80 can be disposed relatively upward. The distance from the upper end of the front frame 14 is desirably 80 mm or less, more desirably 70 mm or less, and further desirably 60 mm or less. Of course, as long as a predetermined strength can be ensured, it may be 50 mm or less.

  Further, the shortest distance between the left end of the window portion 14c and the left end of the front frame 14 when viewed from the front of the pachinko machine 10 (the left-right width of the so-called left side frame portion: shown on the right side in FIG. 11 (a)), The frame width on the opening / closing axis side is set to be relatively large in order to increase the strength and support strength of the front frame 14 itself. In the state where the front frame 14 is closed, the frame width on the opening / closing axis side is set wide so that the left end portion of the outer rail 62 is covered and hidden by the frame portion on the left side of the front frame base 200. For this reason, the outer rail 62 is overlapped with the left side frame portion of the front frame 14 when viewed from the front of the pachinko machine 10, and it is difficult to visually recognize the game ball in front of the entrance of the game area. Here, since the player visually recognizes the game balls showing various behaviors in the game area and enjoys the ball game, even if it is difficult to visually recognize the game ball before entering the game area, there is nothing in the actual game. There will be no hindrance. Therefore, sufficient strength and support strength of the front frame 14 can be ensured without hindering the game. Incidentally, the distance in the left-right direction between the left end position of the outer rail 62 and the left end position of the outer frame 12 when viewed from the front of the pachinko machine 10 is about 30 mm, the right end position of the game area (the inner right end position of the arc member 70) and the outer frame. The distance in the left-right direction with respect to the right end position of 12 is about 45 mm.

  In addition, the front frame 14 is provided with light emitting means such as various lamps around the periphery (for example, a corner portion). These light-emitting means play a role of enhancing the effect of the game during the game by changing or controlling the light-emitting mode by turning on or flashing according to the change in the gaming state at the time of big hit or predetermined reach. As shown in FIG. 1, on the upper side of the window portion 14c and on both the left and right sides thereof, there are provided electric decoration portions 202 to 204 having built-in light emitting means such as LEDs along the periphery of the window portion 14c. In the pachinko machine 10, these illumination parts 202 to 204 function as effect lamps such as jackpot lamps, and each of the illumination parts 202 to 204 is turned on by lighting or blinking of the built-in LEDs at the time of jackpot or reach effect. Alternatively, it blinks to notify that the jackpot is being hit or that the reach is one step before the jackpot.

  Further, as shown in FIG. 1, a prize ball lamp 205 that is turned on while awarding a prize ball is provided in the upper right part of the front frame 14 as viewed from the front. An error display lamp 206 that is turned on when an error occurs is provided. In addition, a small window 207 is formed on the lower side of the right illumination part 204 by attaching a transparent resin from the back side of the front frame base 200 so that the back side of the front frame 14 can be seen. A stamp or the like affixed to the affixing space K1 (see FIG. 3) is visible from the front surface of the pachinko machine 10. In addition, in the pachinko machine 10, a plated member 208 made of ABS resin that is chrome-plated is attached to an area around the electric decoration parts 202 to 204 in order to bring out more gorgeousness. For this chrome plating, trivalent chrome is used in consideration of the production environment and the like, instead of hexavalent chrome which has been widely used conventionally.

  As shown in FIG. 1, a lending operation unit 210 is disposed below the window 14c. The ball lending operation unit 210 is provided with a frequency display unit 211, a ball lending button 212, and a return button 213. When the lending operation unit 210 is operated in a state where a bill or a card is inserted into a card unit (ball lending unit) (not shown) arranged on the side of the pachinko machine 10, a game ball according to the operation Is lent out. Specifically, the frequency display unit 211 is an area in which remaining amount information such as a card is displayed, and a built-in LED is lit to display the remaining amount as a remaining amount information. The ball lending button 212 is operated to obtain a lending ball based on information recorded on a card or the like (recording medium). Is done. The return button 213 is operated when requesting the return of a card or the like inserted into the card unit. A pachinko machine in which game balls are lent directly to the upper plate from a ball lending device or the like without using a card unit, that is, a so-called cash machine, does not require the ball lending operation unit 210. It is also possible to add a decorative seal or the like to the installation portion of the parts so that the component configuration is common. A pachinko machine using a card unit and a cash machine can be shared.

  In the upper right corner on the back side of the front frame 14, as shown in FIG. 11A, a light emitting substrate 214 for LED as a light emitting means is attached to the back surface of the front frame base 200 with screws. In addition, various reinforcing members made of metal are provided on the back side of the front frame 14 so as to surround the window portion 14c. Specifically, metal reinforcing plates 221 to 224 are respectively attached to the back side of the front frame 14 and on the upper and lower and left and right outsides of the window portion 14c. These reinforcing plates 221 to 224 are connected in contact with each other to increase the rigidity and strength of the front frame 14 that has been reduced by the formation of the window portion 14c. Further, the right reinforcing plate 221 is disposed so as to overlap the back side of the light emitting substrate 214 described above, but in order to avoid direct contact between the two, or to prevent the light emitting substrate 214 from being energized. A transparent synthetic resin cover plate 215 is provided between the reinforcing plate 221 and the light emitting substrate 214. Even if a noise or a magnetic field is generated around the reinforcing plates 221 to 224 due to charging, the influence on the light emitting substrate 214 is reduced by the cover plate 215, and malfunctions and failures are suppressed. . A part of the reinforcing plates 221 to 224 is grounded (not shown) so that the reinforcing plates 221 to 224 are not easily charged.

  The reinforcing plate 221 on the right side of the back surface of the front frame 14 is provided with an engaging claw 221a (see FIG. 2) having a hook shape at an intermediate position. The engaging claw 221a is configured to enter a groove 30j formed in the inner frame 13 (inner frame base 30) with the front frame 14 closed. As shown in FIG. 5, a metal stop plate 39 is screwed to the inner frame base 30 so as to cover a part of the groove 30 j, and the front frame 14 is closed with respect to the inner frame 13. In this state, the tip of the engaging claw 221a enters the back side of the retaining plate 39 shown in FIG. Accordingly, the front frame 14 can be prevented from being lifted at an intermediate position on the left side when viewed from the front of the pachinko machine 10, the upper plate 201 is provided on the front frame 14, and the front frame 14 is configured to be large in the vertical direction. Even if the (positions of the support brackets 33 and 34) are largely separated from each other, an illegal act with the front frame 14 floating can be suppressed.

  On the reinforcing plate 222 on the left side of the rear surface of the front frame 14, a pair of upper and lower front frame flange portions 14 a that protrude from the rear surface side of the front frame 14 and are formed in a bowl shape are integrally formed. The front frame 14 is locked by engaging the front frame collar 14 a with the front frame collar 411 of the locking unit 410 provided on the back side of the inner frame 13. The front frame 14 in the locked state is unlocked by performing a predetermined unlocking operation on the cylinder lock 420 with a dedicated key, and is in a state where it can be opened.

  A screw hole through which the screw 225 is inserted is provided in a central portion in the left-right direction of the reinforcing plate 223 on the upper back side of the front frame 14, and a tip portion of the screw 225 is formed as shown in FIG. It is screwed to a plating member 208 provided on the front side of the front frame 14, and the plating member 208 is grounded through a screw 225 and a reinforcing plate 223. Therefore, even if the decorative plating is applied to the front side of the front frame 14, problems due to charging and noise caused by the charging can be suppressed.

  As shown in FIG. 2, a resin-made rail side wall member 226 is provided on the reinforcing plate 224 below the back surface of the front frame 14 at a position facing the firing rail 93. The rail side wall member 226 serves as a side wall of the launch rail 93 when the front frame 14 is closed, and functions so that game balls do not spill from the launch rail 93. Further, on the right side of the rail side wall member 226, a ball passage rod 241 that protrudes from the back surface side of the front frame 14 so as to be continuous with the hole connected to the upper plate 201 is fixed to the front frame base 200 with a screw. When the front frame 14 is closed, the ball passage rod 241 pushes the shutter 37 (see FIG. 2) on the inner frame 13 side to form a game ball flow path to the upper plate 201.

  On the back side of the front frame 14, on the left side of the rail side wall member 226, as shown in FIG. An opening / closing unit 230 is provided on the upper side of the ball outlet 224a. The opening / closing unit 230 closes the ball outlet 224a when the front frame 14 is opened. The ball outlet 224a is provided in the most downstream portion of the upper plate 201, and communicates the upper plate 201 and the introduction port 102b (see FIG. 7) of the ball launch unit 90 when the front frame 14 is closed. The game ball placed on the upper plate 201 is guided to the introduction port 102b of the ball launching unit 90 via the ball outlet 224a.

  Here, the structure of the opening / closing unit 230 will be described with reference to FIG. The opening / closing unit 230 includes a housing 231 as a case member screwed to the lower reinforcing plate 224, and an upper end accommodated in the housing 231 and a lower portion extending along the lower reinforcing plate 224. A thin plate-shaped shielding plate 232 that extends and a rotation lever 233 made of a hard resin that is rotatably fixed to the inner surface of the housing 231 while the upper end of the shielding plate 232 is wound and fixed. ing. The opening / closing unit 230 is integrated with the housing 231 by assembling the shielding plate 232 and the rotation lever 233, and the assembling work on the front frame 14 side is facilitated and simplified.

  The rotation lever 233 is pivotally supported by the housing 231 about a rotation shaft 231a provided on the inner surface of the housing 231 so as to be substantially parallel and substantially horizontal to the lower reinforcing plate 224. The rotation lever 233 includes a plate support portion 233a extending from the rotation shaft 231a toward the reinforcing plate 224 (left side in FIG. 12A), and extending downward from the rotation shaft 231a. In addition, a contact portion 233b that protrudes out of the housing 231 is provided so as to abut a part of the inner frame 13 when the front frame 14 is closed. The inner frame base 30 is provided with a protrusion 30k (see FIG. 5) that protrudes from the attachment surface 30f to the front surface, and the contact portion 233b is provided so as to contact the protrusion 30k. Since the contact portion 233b extends in a direction substantially orthogonal to the opening / closing direction of the front frame 14 (left and right direction in FIG. 12A) with respect to the rotation shaft 231a, the contact portion is closed when the front frame 14 is closed. When the 233b is pressed by the inner frame 13, the rotation lever 233 is easy to rotate, and the operation over a long period of time is ensured.

  The shielding plate 232 is formed of an elastic thin plate-like metal piece (for example, a stainless steel thin plate), and one end is fixed to the plate support portion 233a (the end portion on the front frame 14 side) of the rotating lever 233, The lower end 232a which is the other end is a free end. The lower end 232a of the shielding plate 232 is formed wider than the ball outlet 224a as shown in FIG. Therefore, the ball outlet 224a is reliably covered by the lower end portion 232a of the shielding plate 232 so that the elastic deformation in the middle portion of the shielding plate 232 is facilitated and the operation resistance is lowered, so that the game ball flows out of the ball outlet 224a. The shielding plate 232 can surely prevent it. Note that the width of the lower end 232a may be narrower than the ball outlet 224a, but it is preferable to set the width to be equal to or greater than the same in order to prevent an erroneous outflow of the game ball, and the lower end of the shielding plate 232 from the ball outlet 224a. It is preferable to widen the width of 232a.

  If the lower end 232a of the shielding plate 232 is narrower than the ball outlet 224a, the shielding plate 232 enters the ball outlet 224a, the lower end of the shielding plate 232 collides with the game ball in the ball outlet 224a, and the shielding plate 232 is deformed. And damage is likely to occur. In the pachinko machine 10, the lower end portion 232a of the shielding plate 232 is wider than the ball outlet 224a. Deformation and damage are prevented.

  Here, on the lower side of the ball outlet 224a, as shown in FIG. 12 (a), a passage leading from the upper plate 201 to the lower plate 301 and a closing plate 234 for closing the passage are provided. 234 is movable to the front side of the pachinko machine 10 (left side in FIG. 12A). When the closing plate 234 moves to the front side, the upper plate 201 and the lower plate 301 communicate with each other, and the game ball flows down to the lower plate 301. In this case, if the lower end portion 232a of the shielding plate 232 is narrower than the bulb outlet 224a, the lower end portion 232a may enter the bulb outlet 224a to cause clogging. By forming the lower end 232a of the shielding plate 232 wider than the bulb outlet 224a, the communication between the upper plate 201 and the lower plate 301 can be ensured, and the occurrence of clogging of the bulb can be suppressed.

  The shielding plate 232 of the opening / closing unit 230 is supported by the reinforcing plate 224 and the plate support portion 233a of the rotating lever 233 in a state where a flat thin plate is elastically deformed and bent downward. For this reason, the shielding plate 232 is in a state of pressing the reinforcing plate 224 so as to return to the original flat state by the elastic force. When the front frame 14f is in the open state (the state shown in FIG. 12A), the ball outlet 224a is closed while being pressed by the shielding plate 232, and the game ball is prevented from flowing out.

  When the front frame 14f is in the open state, as shown in FIG. 12A, the front end side (lower end side) of the contact portion 233b of the turning lever 233 faces the back side of the front frame 14 (right side in FIG. 12A). Projecting. In this state, the rotation lever 233 is such that the contact portion 233b protrudes to the back side of the front frame 14 with the rotation shaft 231a as the center (FIG. 12 (FIG. 12). a) (counterclockwise direction), and stops at a position (first rotation position) in contact with a part of the housing 231 (stopper portion 231b).

  In the state in which the rotation lever 233 is disposed at the first rotation position, the shielding plate 232 is in a state of hanging down to a position where the lower end portion 232a closes the upper portion of the bulb outlet 224a. In this state, the flow of the game balls in the upper plate 201 is restricted by the shielding plate 232, and the game balls do not flow out from the ball outlet 224 a to the back side of the front frame 14. Therefore, even if the front frame 14 is opened while the game balls are stored in the upper plate 201, the game balls in the upper plate 201 can be prevented from flowing out by the shielding plate 232.

  Further, the housing 231 is provided with a pressing portion 231c that abuts against a portion between one end portion and the lower end portion 232a of the shielding plate 232 supported by the rotation lever 233 and presses the shielding plate 232 toward the reinforcing plate 224. It has been. For this reason, the shielding plate 232 is more strongly pressed toward the reinforcing plate 224, so that the game ball is guided to the ball outlet 224a vigorously, or there are a lot of game balls in the upper plate 201 so that the shielding plate 232 is opened. Even when the force increases, the game ball is more reliably received and the outflow of the game ball from the ball outlet 224a is surely prevented.

  When the front frame 14 is closed from the state shown in FIG. 12A, as shown in FIG. 12B, the contact portion 233b of the rotating lever 233 is pressed while being in contact with the protrusion 30k of the inner frame 13. To the front frame 14 side. Thereafter, as the front frame 14 is closed, the pivot lever 233 pivots in the direction entering the housing 231 from the first pivot position shown in FIG. 12A (clockwise direction in FIG. 12B). When the front frame 14 is completely closed (that is, the front frame collar portion 14a is engaged with the front frame collar member 412 of the locking unit 410), the position is pushed into the housing 231 to the maximum (second position). ). As the rotation lever 233 rotates, the plate support portion 233a of the rotation lever 233 moves to the side (upper side) away from the ball outlet 224a.

  In the state where the rotation lever 233 is disposed at the second rotation position, the shielding plate 232 is further distorted along the plate surface of the reinforcing plate 224 while being further distorted by the rise of the plate support portion 233a of the rotation lever 233. Slide upward. The lower end 232a of the shielding plate 232 that has covered the ball outlet 224a rises to a position where the game ball can pass through the ball outlet 224a. When there is a game ball in the upper plate 201, the game ball sequentially flows out from the ball outlet 224a toward the introduction port 102b of the ball launch unit 90. Therefore, as long as the game balls are continuously supplied to the upper plate 201, the game balls can be continuously fired toward the game area by the ball launch unit 90.

  When the front frame 14 is released from the closed state, the rotation lever 233 (contact portion 233b) is released from the pressing by the protrusion 30k of the inner frame 13, and is restored from the second rotation position by the restoring force of the shielding plate 232. It is displaced to the 1 rotational position. With the displacement of the turning lever 233, the shielding plate 232 slides down on the plate surface of the reinforcing plate 224, the ball outlet 224a is closed at the lower end 232a of the shielding plate 232, and the game ball from the ball outlet 224a Is prevented from flowing out. That is, since the ball outlet 224a is closed along with the opening of the front frame 14, the store clerk at the game hall is worried about the outflow of the game ball in the upper plate 201 when the front frame 14 is opened and the work such as inspection is performed. The front frame 14 can be easily opened without any problems.

  Next, the glass unit 17 attached to the back surface of the front frame 14 will be described with reference to FIGS. FIG. 13 is a front view of the glass unit 17. 14 is a cross-sectional view taken along line Sa-Sa in FIG. 13, FIG. 15 is a cross-sectional view taken along line Sb-Sb in FIG. 13, and FIG. 16 is a cross-sectional view taken along line Sc-Sc in FIG. It is. FIG. 17 is a partially enlarged view of the glass unit 17 as seen from the direction of arrow V in FIG.

  The glass unit 17 in the present embodiment is not formed by attaching rectangular plate glasses to the front frame separately in front and rear pairs as in the prior art, but as a whole, two plate glasses 151 having a round shape are integrated (assembled). And then attached to the front frame 14. The glass unit 17 substantially corresponds to the shape of the window portion 14c (see FIG. 1) of the front frame 14, and is provided so as to surround a pair of front and rear plate glasses 151 that are substantially circular and have the same shape, and the periphery of the plate glasses 151. The holding frame 153 is provided.

  The holding frame 153 is made of ABS resin, and is formed in an annular shape along the outer shape of the plate glass 151 with a substantially “h” -shaped cross section as shown in FIG. For this reason, on both sides of the holding frame 153 (upper and lower sides in FIG. 14), a holding portion for the plate glass 151 formed in a pair of bowl-shaped cross sections is formed, and the outer periphery of each plate glass 151 is surrounded by the holding frame 153. The outer peripheral edge on the one surface side is disposed in contact with the holding frame 153. The holding frame 153 and the plate glass 151 are respectively bonded and fixed by an adhesive (bonded with a hot-melt adhesive or the like), and the two plate glasses 151 are integrated with a predetermined interval by a holding frame 153 interposed therebetween. It becomes.

  As shown in FIG. 13, the holding frame 153 is formed in a shape that bulges outward on one side (lower left side in FIG. 13), and a part of the plate glass 151 also bulges so as to cover the bulged portion. The shape is out. This bulging portion serves as a cover that covers a part of the guide rail (the lower left portion in FIG. 3) formed by the outer rail 62 and the inner rail 61 on the surface of the game board 16, and the front surface of the game board 16 in the guide rail portion. The outflow of game balls to the side is regulated.

  In addition, the holding frame 153 is provided with a partition wall 153a that divides an area between the two glass sheets 151 in a portion that bulges outward on one side (lower left side in FIG. 13). A storage portion 154 is formed between the two plate glasses 151 by the partition wall 153 a, and a drying tool 155 that absorbs moisture is provided in the storage portion 154 to prevent moisture condensation and fogging. The drying tool 155 includes a casing that forms a storage space inside with a pair of two case members facing each other, and a desiccant on the grains that are housed in the casing. The casing is partitioned into a plurality of rooms by partition walls (not shown), and a desiccant is accommodated in each room. Examples of the desiccant include zeolite and silica gel. The casing is formed with a large number of small holes that communicate with the inside and outside of the casing, and the air in the space sealed or nearly sealed by the two glass plates 151 is efficiently dehumidified, thereby preventing the occurrence of condensation. It has become so. The partition wall 153a and the drying tool 155 of the holding frame 153 are arranged on the outer peripheral side of the opening formed by the window portion 14c of the front frame 14, and the drying tool 155 and the like unnecessary for decoration of the pachinko machine 10 are externally provided. Is not visible.

  As shown in FIG. 15, the holding frame 153 is provided with an escape hole 153 b that communicates the internal space surrounded by the two plate glasses 151 and the holding frame 153 with the outside. This escape hole 153b is provided in order to make the bonding and fixing of the plate glass 151 easy and reliable. Adhesive is injected into the entrance of the escape hole 153b, dried and hardened. Further, the inner surface of the escape hole 153b is formed in a tapered shape (conical shape) in which the inner diameter gradually decreases from the outside (the lower side in FIG. 13) to the inside of the holding frame 153, and when the adhesive is injected from the outside. The escape hole 153b is easily blocked.

  Here, the process of assembling the glass unit 17 will be described with a focus on the portion where the two glass plates 151 are bonded and fixed to the holding frame 153 in particular. One plate glass 151 is placed, and the holding frame 153 is bonded and fixed to the plate glass 151. Next, after the drying tool 155 is set in the housing portion 154, the second sheet glass 151 is bonded and fixed to the holding frame 153.

  The second sheet glass 151 is pressed with a strong force in order to make the bonding more reliable. However, the air between the two sheet glasses 151 may be compressed during the pressing. If the air is strongly compressed, there is a concern that the plate glass 151 may be peeled off from the holding frame 153 after bonding due to the expansion of the air. In this respect, in the present embodiment, since air can enter and exit between the glass plates 151 and the outside through the escape holes 153b, the air is compressed even if the second glass plate 151 is pressed during adhesion fixing. Thus, a situation in which the plate glass 151 peels from the holding frame 153 due to the expansion of air does not occur.

  After the two plate glasses 151 are bonded to the holding frame 153, an adhesive is injected into the escape hole 153b, and is dried and cured after a while. As a result, a sealed space is formed between the glass plates 151, and the intrusion of moisture, dust, etc. is restricted, and the hygroscopic effect by the drying tool 155 is enhanced to improve the visibility of the game area. it can.

  The holding frame 153 is provided with mounting portions 153c that protrude outward at a plurality of locations on the periphery thereof. Each attachment portion 153c is formed in the same shape, and each attachment portion 153c is provided with an insertion hole 153d along the surface direction of the plate glass 151 as shown in FIG. Further, a metal plate 161 as a thin washer having a small-diameter hole 161a at a position corresponding to the insertion hole 153d is held on one surface (the upper surface in FIG. 16) of the attachment portion 153c by a small screw 162. It is fixed to the frame 153. Further, an attachment screw 163 for attaching the glass unit 17 to the front frame 14 is provided so as to be inserted through the insertion hole 153 d and the small diameter hole 161 a of the metal plate 161.

  As shown in FIG. 16, the mounting screw 163 includes a shaft portion 163a formed in a cylindrical shape with a smooth surface, a male screw portion 163b integrally formed on the distal end side of the shaft portion 163a, and a proximal end side of the shaft portion 163a. It is formed by the operation part 163c provided in this. The shaft portion 163a is formed to have a smaller diameter than the small diameter hole 161a of the metal plate 161, while the operation portion 163c is formed to be larger. The male screw portion 163b has substantially the same outer diameter as the small-diameter hole 161a of the metal plate 161, and has an outer diameter larger than that of the small-diameter hole 161a and a smaller valley diameter. For this reason, the mounting screw 163 can be mounted by screwing the male screw portion 163b into the small diameter hole 161a of the metal plate 161, and can be moved through the length of the shaft portion 163a (stroke amount) through the metal plate 161. Thus, the holding frame 153 cannot be removed.

  As shown in FIG. 17, the operation portion 163c of the mounting screw 163 is formed in a cylindrical shape having a diameter larger than that of the shaft portion 163a, and its outer peripheral surface is processed to be jagged by a fine groove 163c2 extending in the axial direction. In addition, a cross-shaped groove 163c1 is provided at the center of the end surface of the operation portion 163c, and the mounting screw 163 can be rotated by a tool such as a Phillips screwdriver. For this reason, even if the outer peripheral surface of the operation part 163c is pinched with a fingertip, even if a predetermined tool is inserted into the cross-shaped groove 163c1, the attaching screw 163 can be rotated. Therefore, the attachment / detachment operation of the glass unit 17 can be performed without a tool, and can be performed more easily and reliably when there is a tool. The mounting screw 163 is configured to be screwed into the metal plate 161 so that it cannot be removed from the holding frame 153. May be easily removable. Further, a locking washer such as a spring washer may be provided between the mounting screw 163 (operation unit 163c) and the metal plate 162. Further, the outer diameter shape of the operation portion 163c is not limited to the above-described shape, and may be formed so as to be easily rotated by hand, for example, a so-called thumb screw having portions projecting in a plate shape on both sides of the shaft. good.

  On the back side of the front frame 14, as shown in FIG. 11A, there are provided attachments 227 in which female screws are formed at a plurality of locations corresponding to attachment portions 153 c provided on the glass unit 17. The attachment 227 is a metal member that is formed in a boss (cylindrical) shape and has an internal thread on which an attachment screw 163 can be screwed, and is screwed or press-fitted into a predetermined position of the front frame base 200. Each is fixed. The glass unit 17 is attached and fixed to the rear surface of the front frame 14 by fixing the attachment portions 153 c to the attachments 227 by the attachment screws 163.

  Further, on the back side of the front frame 14, as shown in FIG. 2, three ribs 200 a to 200 c that protrude to the back side along a part of the outer peripheral shape of the holding frame 153 are integrally formed with the front frame base 200. Has been. The lower ribs 200b and 200c are provided so as to protrude larger than the upper rib 200a at the two lower portions of the window portion 14c of the front frame base 200. When the glass unit 17 is attached, the lower ribs 200b and 200c are attached to support the lower side. To assist. The upper rib 200a and the lower rib 200c are integrally formed with a locking projection that protrudes toward the center of the window portion 14c at the leading end of each rib in the protruding direction. At the time of attachment, the glass projection 17 can be temporarily fixed by fitting the engaging protrusion into a recess provided on the outer peripheral edge of the holding frame 153.

  Next, returning to FIG. 11A, the configuration of the front frame 14 will be described. Support metal fittings 228 and 229 are attached at two upper and lower positions as a support mechanism of the inner frame 13 on the right side end portion of the rear surface of the front frame 14 (left end portion in front view of the pachinko machine 10). The front frame 14 is releasably attached to the inner frame 13 by assembling the support brackets 228 and 229 on the front frame 14 side to the support brackets 33 and 34 (see FIG. 5) on the inner frame 13 side.

  More specifically, the support bracket 228 on the upper side of the front frame 14 has a substantially rod shape, and is formed in a stepped columnar shape whose upper diameter is thicker than the lower diameter. As described above, the support bracket 33 on the upper side of the inner frame 13 is provided with the support hole 33a having a notch opened on the front side of the inner frame 13, and the width of the notch of the support hole 33a is set to the front frame. 14 is narrower than the upper diameter of the upper support fitting 228 and wider than the lower diameter. For this reason, when the lower part (small diameter part) of the upper support metal fitting 228 is fitted in the support hole 33a and then the support metal fitting 228 is slid downward, the large diameter part of the support metal fitting 228 is fitted in the support hole 33a. The support fitting 228 cannot be removed from the support hole 33a.

  The lower support bracket 229 on the lower side of the front frame 14 is fixed to the back side of the front frame 14 with screws, and is bent from the back side to the lower end surface. The support fitting 229 is provided with a support hole 229a that opens upward on the lower end surface of the front frame 14, and the support hole 229a has a protruding shaft formed by the support fitting 34 on the inner frame 13 side. The front frame 14 is rotatably supported with respect to the inner frame 13.

  As a procedure for mounting the front frame 14 to the inner frame 13, first, the lower portion (small diameter portion) of the support fitting 228 on the upper side of the front frame 14 is inserted into the support hole 33a through the notch. Next, the front frame 14 is slid downward after the support hole 229a on the lower side of the front frame 14 is positioned on the protruding shaft 34a of the support fitting 34 on the lower side of the inner frame 13. The support metal 228 on the upper side of the front frame 14 has a large-diameter portion fitted into the support hole 33a and cannot be removed. Installation is complete.

  Next, the lower plate unit 15 will be described with reference mainly to FIGS. 18 and 19. 18 is a front view of the lower plate unit 15, and FIG. 19 is a rear view thereof. The lower plate unit 15 is obtained by attaching a lower plate 301, an operation handle 310, and the like to an ABS resin lower plate base 300 formed in a horizontally long rectangular shape.

  As shown in FIG. 18, the lower tray unit 15 is provided with a lower tray 301 as a ball receiving tray at a substantially central portion, and is discharged from the lower tray discharge port 36a (see FIG. 2) on the inner frame 13 side through the discharge port 301a. The played game balls are configured to be stored in the lower plate 301. The lower plate 301 is formed by sticking a flame retardant ABS resin formed as a separate component to the lower plate base 300 to the surface. Although it is not necessary to form all of the lower plate 301 with flame-retardant ABS resin, at least the surface portion of the lower plate 301, that is, the surface layer of the lower plate 301 and the front panel 302 at the back of the lower plate 301 are made of ABS resin. It is preferable to form. Since there is a risk that the lit cigarette will be left on the lower plate 301, it is possible to prevent damage to the pachinko machine 10 and the occurrence of fire by forming at least its surface portion with flame retardant ABS resin. It is. The front panel 302 is provided with a number of speaker holes 303 for outputting sound from the speaker SP, and the speaker SP is screwed at a position corresponding to the speaker hole 303 on the back side of the lower plate unit 15. It is fixed by.

  In the lower part of the front of the lower plate 301, a ball removal lever 304 is provided for operation when the game balls stored in the lower plate 301 are discharged downward. The ball release lever 304 is always urged to the right, and by sliding it to the left against the urge, the bottom opening formed on the bottom surface of the lower plate 301 opens, A game ball naturally falls from the bottom opening and is discharged. The operation of the ball pulling lever 304 is normally performed in a state where a box (generally referred to as “a thousand box”) for receiving the game balls discharged from the lower plate 301 is placed below the lower plate 301.

  As described above, the operation handle 310 is disposed on the right side of the lower plate 301, and the ashtray 305 is attached on the left side of the lower plate 301. The ashtray 305 is configured to be rotatable in the front and back directions together with a shaft that is rotatably attached to the lower tray base 300. A metal plate 306 is provided on the back surface side of the lower plate unit 15 so as to cover the entire back surface, and the rigidity and strength of the lower plate unit 15 itself are enhanced.

  The lower pan unit 15 is attached to the inner frame 13 so as to be openable and closable. Like the inner frame 13 and the front frame 14, the lower pan unit 15 can be opened to the front side with the left side when viewed from the front of the pachinko machine 10 as an opening / closing axis. Yes. The lower dish unit 15 is provided with a support hole 307 on the upper left side of the front view and a support shaft 308 on the lower left side of the front view. When the support hole 307 and the support shaft 308 of the lower plate unit 15 are assembled to the support brackets 34 and 35 (see FIG. 5) on the inner frame 13 side, the lower plate unit 15 is attached to the inner frame 13 so as to be opened and closed. Is done.

  The support hole 307 and the support shaft 308 will be described in more detail. The support hole 307 is configured by a hole drilled in a portion where the upper end portion of the sheet metal 306 is folded back, and protrudes downward in the support bracket 34 on the inner frame 13 side. The protruding shaft 34b to be inserted can be inserted. The support shaft 307 is composed of a substantially inverted L-shaped projection that can be projected and retracted in the vertical direction, and is always maintained in a state of projecting downward by a spring (not shown) covered by the sheet metal 306.

  As a mounting procedure for the lower plate unit 15, first, the protruding shaft 34 b on the inner frame 13 side is inserted into the support hole 307 to fix the upper side of the lower plate unit 15 to the inner frame 13. After that, the support shaft 308 is brought into an immersion state against the urging force of the spring, and then the tip of the support shaft 308 is aligned with the support hole of the support fitting 35 provided on the lower side of the inner frame 13. When the positions of the support shaft 308 and the support hole match, the support shaft 308 is fitted into the support hole by the biasing force of the spring, and the mounting of the lower dish unit 15 is completed.

  The sheet metal 306 of the lower dish unit 15 is formed with a lower dish engaging portion 15a formed in a substantially rectangular shape and arranged in two upper and lower portions on the left side of the back surface. The lower plate unit 15 is locked by engaging the lower plate engaging portion 15 a with the lower plate hook member 413 of the locking unit 410 provided on the back side of the inner frame 13. The lower plate unit 15 in the locked state is unlocked by performing a predetermined unlocking operation with the dedicated key on the cylinder lock 420 and is in a state where it can be opened.

  Here, the lower plate 301 and the operation handle 310 of the pachinko machine 10 in which the lower plate unit 15 is arranged are conventionally formed as a part of the inner frame 13 and cannot be opened to the front side. 14 is configured so as to cover the front side of the inner frame 13 up to the lower end portion of the upper plate 201 formed by 14. On the front side of the inner frame 13 covered with the front frame 14, a game board 16 that forms a game area and a ball launch unit 90 that launches a game ball toward the game area are arranged side by side, When only the front frame 14 is opened forward and the lower plate 301 and the operation handle 310 are not opened, the arrangement position of the ball launching unit 90 is limited to the lower end portion of the upper plate 201, and the game is formed on the upper side. It was difficult to enlarge the area.

  In the pachinko machine 10 according to the present embodiment, since the lower plate unit 15 is configured to be openable to the inner frame 13 in addition to the front frame 14, the ball launch unit 90 is placed on the back side of the lower plate 301 and the operation handle 310. It can be arranged on the lower side so as to overlap, and accordingly, the game area of the game board 16 can be formed larger vertically. Moreover, since the lower plate unit 15 can be opened, in addition to the back surface side at the lower end portion of the inner frame 13, various types are provided on each surface of the lower surface portion of the lower plate unit 15 and the front surface side of the inner frame 13 at the lower end portion. Components and wiring can be accommodated, and the degree of freedom in designing the components and wiring is increased. Further, when working on the lower side of the lower plate 301 or the operation handle 310, for example, when the ball clogging in the passage connecting the upper plate 201 and the lower plate 301 is eliminated, or the rear side of the lower plate 301 is positioned. In the case of checking a full tank sensor for detecting a full tank state, the lower tray unit 15 is opened, and the inner frame 13 is fixed to the outer frame 12 so that each of the inner frames 13 can be viewed from the front side. Work can be done. When the inner frame 13 is opened, it is difficult to work because the inner frame 13 swings with respect to the outer frame 12, but the work performed on the inner frame 13 by opening the lower tray unit 15 is fixed by the inner frame 13. It is simple because it can be done in the state that has been done.

  Further, the inner frame 13, the front frame 14, and the lower plate unit 15 are formed by assembling other members to the respective members (the inner frame base 30, the front frame base 200, and the lower plate base 300) as a base. In the present embodiment, the base members 30, 200, 300 are all made of synthetic resin, specifically, ABS resin. By forming each of these base members 30, 200, and 300 with a synthetic resin, it is possible to cope with a more complicated shape by forming the base member with metal, and decorations are formed by forming characters, patterns, etc. on the front surface of the pachinko machine 10. While improving the performance, an attachment part or the like of the mating part is integrally formed on the back surface side to reduce the production cost. In addition, the ABS resin is generally inexpensive and has a good paste such as plating and is excellent in decorativeness. Therefore, it is easy to form a decoration subjected to surface treatment at a low cost on the front surface of the pachinko machine 10. Furthermore, the ABS resin has an advantage of high impact resistance, so that the player falls down and collides with the front surface of the pachinko machine 10, or a player who is dissatisfied with the game result strikes the front surface of the pachinko machine 10. Even so, the ABS resin is suitable as a material for the base members 30, 200, and 300 because the resin is less likely to be damaged and the player is injured.

  The base members 30, 200, 300 and the decorative plate 24 of the outer frame 13 are all formed of ABS resin, which is the same material. For this reason, when at least two members of the base members 30, 200, 300 and the decorative plate 24 are formed in the same color, the degree of fading or discoloration is equivalent due to deterioration over time. Therefore, it is possible to reduce the difference in chromaticity of the front surface of the pachinko machine 10 constituted by a plurality of members over a long period of time and maintain a good quality appearance. In particular, it is preferable that the base members 30, 200, 300 and the decorative plate 24 of the outer frame 13 are made of the same material up to the manufacturer and material grade in order to maintain a good quality appearance.

  Next, the configuration of the back side of the pachinko machine 10 will be described with reference to FIGS. FIG. 20 is a rear view of the pachinko machine 10, and FIG. 21 is a diagram schematically showing the configuration of the control board unit and the back pack unit on the back of the pachinko machine 10. 22 is a rear view showing a state in which the game board 16 is assembled to the inner frame 13, FIG. 23 is a perspective view of the inner frame 13 viewed from the rear, and FIG. 24 is a perspective view of the game board 16 viewed from the rear. FIG. FIG. 25 is a perspective view of the support fitting 535.

  On the back side of the pachinko machine 10, various control boards are arranged side by side in the vertical and horizontal directions, and are placed one after the other. Further, a game ball supply device (payout unit) for supplying game balls or a resin A protective cover is attached. In the present embodiment, various control boards are divided and mounted on two mounting bases to form two control board units, and these control board units are individually mounted on the inner frame 13 or the back surface of the game board 16. In this case, the main board 582 (see FIG. 30) and the sound lamp control board are mounted on one mounting base to form a unit, and the dispensing control board and the power supply board are mounted on the other mounting base to form a unit. Yes. Here, for convenience, the former unit is referred to as a “first control board unit 501”, and the latter unit is referred to as a “second control board unit 502”. Further, the back pack 651 and the dispensing unit 652 forming the protective cover part are also integrated as one unit, and this unit is referred to as a “back pack unit 503” here. The detailed configuration of each unit 501 to 503 will be described later.

  The first control board unit 501, the second control board unit 502, and the back pack unit 503 are configured to be detachable without using any tools or the like in units of units. It is configured to be openable and closable with respect to the inner frame 13 or the back surface of the game board 16. This is also a device for making it possible to easily check a hidden configuration or the like even if the units 501 to 503 and other configurations are arranged one behind the other.

  As shown in FIG. 21, the units 501 to 503 are arranged side by side and attached. The first control board unit 501 is substantially L-shaped, and is arranged at the approximate center of the pachinko machine 10, and the second control board unit 502 is arranged below the first control board unit 501. Further, the back pack unit 503 is disposed in a region partially overlapping the upper portion of the first control board unit 501.

  The first control board unit 501 is provided with a support shaft part M1 at the left end as viewed from the back of the pachinko machine 10, and the first control board unit 501 can be opened and closed around the axis A of the support shaft part M1. It has become. Further, the first control board unit 501 is provided with a fastening portion M2 made of a ny latch or the like at the right end portion thereof (that is, the opposite side of the support shaft portion M1, more specifically, the open end side), and a locking claw portion at the upper end portion. M3 is provided, and the first control board unit 501 is fixedly held on the main body of the pachinko machine 10 (the back surface of the game board 16) by the support shaft part M1, the fastening part M2, and the locking claw part M3.

  The second control board unit 502 is provided with a support shaft part M4 at the right end when viewed from the back of the pachinko machine 10, and the second control board unit 502 can be opened and closed around the axis B of the support shaft part M4. It has become. Further, the second control board unit 502 is provided with a fastening portion M5 made of a ny latch or the like at the left end portion thereof (that is, the opposite side of the support shaft portion M4, more specifically, the open end side), and this support shaft portion M4. The second control board unit 502 is fixed and held on the main body of the pachinko machine 10 (the back surface of the inner frame 13) by the fastening portion M5.

  The back pack unit 503 is provided with a support shaft part M6 at the right end when viewed from the back of the pachinko machine 10, and the back pack unit 503 can be opened and closed around an axis C by the support shaft part M6. Further, the back pack unit 503 is provided with a fastening portion M7 made of a ny latch or the like at the left end portion thereof (that is, on the opposite side of the support shaft portion M6, more specifically, at the open end side), and rotates at the upper end portion and the lower end portion, respectively. Locking parts M8 and M9 are provided, and the back pack unit 503 is fixed to the main body of the pachinko machine 10 (the back surface of the inner frame 13) by the support shaft part M6, the fastening part M7 and the locking parts M8 and M9. Retained.

  The development directions of the units 501 to 503 are not the same, and the first control board unit 501 is left-opened when viewed from the back of the pachinko machine 10, whereas the second control board unit 502 and the back pack unit 503 are It is configured to open on the right.

  Here, the back side structures of the inner frame 13 and the game board 16 will be described with reference to FIGS. As shown in FIG. 22, the game board 16 is installed in a square frame-shaped installation area surrounded by the inner frame base 30, and includes three locking fixtures 511 provided on the left and right sides of the inner frame 13, It is fixed so as not to drop off by a total of four locking fixtures 511 and 512 with a resin-made locking fixture 512 provided substantially at the lower center of the frame 13. The locking fixtures 511 and 512 can be manually rotated, and can be switched between a fixed position (lock position) and a fixed release position (unlock position). FIG. 22 shows a state where the locking fixtures 511 and 512 are in the locked position. The locking fixtures 511 at the three left and right sides of the game board 16 are configured by L-shaped metal fittings formed by bending metal pieces so that the game board 16 does not protrude outward from the inner frame 13 in a state where the game board 16 is fixed. ing. The locking fixture 512 at one lower portion of the game board 16 is formed of a resin I-shaped fastener.

  A variable display device unit 80 is disposed in the center of the back surface of the game board 16. The variable display device unit 80 is provided with a frame cover 513 made of resin (for example, made of ABS) that covers the center frame 86 (see FIG. 3) from behind, and is provided at the rear end of the frame cover 513. The first symbol display device 81 as a liquid crystal display device and the display control device 505 are detachably attached in a state where they are overlapped in the front-rear direction. In the frame cover 513, an LED control board for driving LEDs and the like built in the center frame 86 are disposed.

  A back frame set 515 is attached to the back surface of the game board 16 so as to surround the variable display device unit 80. The back frame set 515 is a thin resin-molded product (for example, made of ABS) provided so as to stick to the back surface of the game board 16, and a game ball collecting mechanism for collecting game balls won in various winning openings. Is formed. Specifically, below the back frame set 515, the above-described general winning opening 63, the first winning opening 64, and the discharge opening for discharging the winning balls to the variable winning device 65 (see FIG. 3) to the back side of the game board 16. And a collection passage 516 that gathers at one location on the downstream side is formed. A discharge passage board 517 made of resin (for example, made of polycarbonate resin) is attached below the game board 16, and the discharge passage board 517 is used to guide the discharge ball to the outside of the pachinko machine 10. A discharge passage 518 is formed. Therefore, as exemplified by the phantom line in FIG. 22, all the game balls won in the general winning opening 63 and the like are gathered through the collection passage 516 of the back frame set 515, and further, the discharge passage 518 of the discharge passage board 517 is formed. Through the pachinko machine 10. In addition, the out port 66 (see FIG. 3) similarly leads to the discharge passage 518, and the game balls that have not won any winning opening are discharged to the outside of the pachinko machine 10 through the discharge passage 518.

  In the above configuration, with the lower end surface of the game board 16 as a boundary, a back frame set 515 (collection passage 516) is provided on the upper side, and a discharge passage board 517 (discharge passage 518) is provided on the lower side. The game board 16 is provided without overlapping (overlapping) in the front-rear direction. Therefore, when the game board 16 is removed from the inner frame 13, there is no inconvenience that the discharge passage board 517 prevents the game board 16 from being removed.

  Since the discharge passage board 517 is provided just behind the upper plate 201 on the front surface of the pachinko machine 10, a wire or the like is inserted from the ball discharge port (the upper plate discharge port 36b in FIG. 2) leading to the upper plate 201. Furthermore, an illegal act of causing the wire or the like to enter the game area side through a gap between the inner frame 13 and the discharge passage board 517 can be considered. Therefore, the discharge passage board 517 of the pachinko machine 10 is provided with a plate 519 extending in front of the pachinko machine 10 so as to almost integrally overlap the inner frame 13 around the back side of the upper plate 201. Therefore, even if a wire or the like tries to enter from the gap between the inner frame 13 and the discharge passage board 517, the wire or the like is obstructed by the plate 519, and it becomes very difficult for the wire or the like to enter the game area. As a result, an illegal act such as forcibly opening the variable winning device 65 (large opening) with a wire or the like can be prevented.

  In addition, on the back surface of the game board 16, a winning detection mechanism for detecting the entrance (passing) of a game ball to various winning openings is provided. Specifically, a prize opening switch 521 is provided at a position corresponding to the general prize opening 63 on the front side of the game board 16, and a specific area switch 522 and a count switch 523 are provided in the variable prize winning device 65. The specific area switch 522 is a switch for determining that a game ball won in the variable winning device 65 in the big hit state has entered a specific area (an area for determining whether or not to continue the big hit state), and the count switch 523 It is a switch to count. A first entrance switch 524 is provided at a position corresponding to the first entrance 64 and a second entrance switch 525 is provided at a position corresponding to the second entrance 67.

  The prize opening switch 521 and the second ball opening switch 525 are connected to the board relay board 526 through electric wiring (including a cable connector) (not shown), and the board relay board 526 is further connected to a main board 582 (main control) described later. Connected to the device 561) via electrical wiring. Further, the specific area switch 522 and the count switch 523 are connected to the large opening relay board 527 via electric wiring, and the large opening relay board 527 is connected to the main board 582 via electric wiring. On the other hand, the first entrance switch 524 is directly connected to the main board 582 without going through the relay board.

  Although not shown in the drawings, the variable winning device 65 includes a large opening solenoid for opening the specific winning opening (large opening) 65a and a winning ball sorting plate solenoid for guiding the winning ball to a specific area. The first entrance 64 is provided with a first entrance solenoid for opening the electric accessory. Moreover, in this embodiment, since the solenoid 92 is employ | adopted as a launching device which launches a game ball, the launching device is collectively arranged on the front side of the inner frame 13. For this reason, compared with the conventional combination of a motor and a launcher, a launching device is not arranged on the back side of the inner frame 13, and the space on the back side of the inner frame 13 is effectively used as a space for other parts such as a control board. Can do.

  The detection results detected by the winning detection mechanism are taken into a main board 582, which will be described later, and a payout command (the number of game balls to be paid out) corresponding to the winning situation is sent from the main board 582 to the payout control board. Sent. Then, a predetermined number of game balls are paid out by the output of the payout control board. In such a case, a conventional method (so-called evidence ball method) in which game balls won in various winning openings are once collected in a winning ball processing device and paid out after the winning ball processing device confirms the presence of winning balls one by one in order. Unlike the above, the pachinko machine 10 according to the present embodiment electrically senses the winning of the game ball for each of the winning holes, and pays out immediately (that is, the pachinko machine 10 abolishes the winning ball processing device). is doing). Therefore, even if there are a lot of game balls to be paid out, the payout can be carried out quickly.

  An attachment mechanism for attaching the first control board unit 501 is provided in the back frame set 515 fixed to the back surface of the game board 16 with screws. Specifically, as the attachment mechanism, a support fitting 531 extending in the vertical direction is attached to the lower left corner of the back surface of the game board 16 with a screw, and the support fitting 531 has a pair of upper and lower support holes 531a on the same axis. Is formed. In addition, a pair of upper and lower fastening holes (ny latch holes) 532 are provided in the lower right portion of the back of the game board 16 (see FIG. 22), and a locking claw piece 533 is provided in the upper left portion.

  An attachment mechanism for attaching the second control board unit 502 and the back pack unit 503 is provided on the back surface of the inner frame 13. Specifically, as shown in FIG. 22, a long support metal fitting 535 shown in FIG. 25 is attached to the rear right end portion of the inner frame 13.

  The support metal fitting 535 has a long plate-like metal fitting body 536, and support holes 537 for the second control board unit 502 are formed at two lower positions so as to stand up from the metal fitting body 536, and Support hole portions 538 for the back pack unit 503 are formed at two upper positions. Coaxial support holes are formed in the support hole portions 537 and 538, respectively. In addition, as an attachment mechanism for the second control board unit 502, as shown in FIG. 22, the inner frame 13 has a pair of upper and lower tightening holes (nai latch holes) 539 at the left end below the game board 16 installation area. Is provided. Further, as an attachment mechanism for the back pack unit 503, the inner frame 13 is provided with a pair of upper and lower fastening holes (ny latch holes) 540 at the left end portion of the installation area of the game board 16. It should be noted that the support bracket for the second control board unit 502 and the support bracket for the back pack unit 503 can be provided by separate members. Further, as a mounting mechanism for the back pack unit 503, three rotary fixing tools 541 to 543 are provided on the inner frame 13, and the back pack unit 503 is provided between the fixing tools 541 to 543 and the game board 16. Is supported by being sandwiched.

  In addition, in the lower right part of the game board 16 on the back side of the inner frame 13, as shown in FIG. 23, a game ball paid out from a payout unit 652 to be described later is either the upper plate 201, the lower plate 301 or the discharge passage 518. A game ball distribution unit 545 is provided for distributing the game balls. The game ball distribution unit 545 is provided with three openings side by side, the left opening 545a communicates with the upper plate 201, the central opening 545b communicates with the lower plate 301, and the right opening 545c includes It is configured to communicate with the discharge passage 518.

  At the lower end of the inner frame 13, a large number of speaker holes 546 are formed as a part of the inner frame base 300, which are perforated at positions overlapping the back side of the speaker SP attached to the lower dish unit 15. Even if the diaphragm (cone) vibrates during the sound output of the speaker SP, the vibration is released to the back side of the pachinko machine 10 through the speaker hole 546, so that a resonance sound is generated between the inner frame 13 and the lower dish unit 15. Is suppressed. It is preferable that the area of the opening formed by the speaker hole 546 be equal to or larger than the area of the diaphragm of the speaker SP in the area overlapping the back surface side of the speaker SP in order to suppress the resonance sound. However, in order to increase the rigidity and strength, it is preferable that the opening area of the speaker hole 546 and the area of the diaphragm of the speaker SP are the same or substantially the same.

  Next, the first control board unit 501 will be described with reference to FIGS. 26 is a front view of the first control board unit 501, FIG. 27 is a perspective view of the unit 501, FIG. 28 is an exploded perspective view of the unit 501, and FIG. 29 is a view of the unit 501 from the back. FIG.

  The first control board unit 501 has a mounting base 551 having a substantially L shape, and the main control device 561 and the sound lamp control device 562 are mounted on the mounting base 551. Here, the main controller 561 is an MPU 701 (see FIG. 39) as a one-chip microcomputer that controls the main control of the game, and a main board removal that can detect whether the main board 582 on which the main controller 561 is mounted has been removed. A main circuit board 582 including a detection circuit 706, a port for communicating with various devices, a random number generator used in various lotteries, a clock pulse generation circuit used for time counting and synchronization, and the like. The main substrate 582 is housed in a substrate box 563 made of a transparent resin material or the like. The substrate box 563 includes a substantially rectangular parallelepiped box base and a box cover that covers the opening of the box base. The box base and the box cover are connected by a sealing unit 564 (sealing means) so that they cannot be opened, and the substrate box 563 is thereby sealed.

  As long as the sealing unit 564 is configured to connect the box base and the box cover so that they cannot be opened, any configuration can be applied. Here, as shown in FIG. The box base and the box cover are connected so that they cannot be opened by inserting a locking claw into the long hole of the sealing member. Sealing processing by the sealing unit 564 prevents unauthorized opening after the sealing, and makes it possible to detect such a situation early and easily even if unauthorized opening is performed. It is possible to perform the opening / sealing process again even after the operation. That is, the sealing process is performed by inserting the locking claw into the long hole of at least one sealing member among the five sealing members constituting the sealing unit 564. When the substrate box 563 is opened due to a failure of the accommodated main substrate 582, the connection between the sealing member into which the locking claw is inserted and the other sealing member is cut. Thereafter, when the sealing process is performed again, the locking claws are inserted into the long holes of the other sealing members. If the history of opening the substrate box 563 is left in the substrate box 563, it can be easily found that the unauthorized opening has been performed by looking at the substrate box 563.

  Further, the main control device 561 is provided with a reset switch 559 and a display device 560. When the reset switch 559 is operated, an output signal is input to the main board removal detection circuit 706. The pachinko machine 10 is configured such that when the main board removal detection circuit 706 confirms that the main controller 561 has been removed, the display controller 505 notifies the outside. The reset switch 559 is a switch for canceling notification by the display control device 505. As shown in FIG. 26, a part of the reset switch 559 is exposed so that it can be operated from the outside of the substrate box 563. In the present embodiment, the reset switch 559 is a push button type switch, but a key switch to which a key can be inserted and removed may be used. In the case where the reset switch 559 is configured by a key switch, it is possible to reduce an operation by an unspecified person (for example, a fraudulent person) easily by having only a specific person have a key.

  The display device 560 is disposed in the substrate box 563 and is formed of a light emitting diode. The display device 560 is configured to light up when power is supplied from the outside a predetermined number of times (in this embodiment, twice) after the main substrate 582 is once removed. Further, since the display device 560 is turned on to indicate that the main board 582 has been removed, the display device 560 is disposed in the board box 563 in order to reduce unauthorized turning off.

  The sound lamp control device 562 includes, for example, an MPU as a one-chip microcomputer for controlling sound and lamp display in accordance with an instruction from the main control device 561 or the display control device 505, and a sound lamp control board including various ports. The sound lamp control board is housed in a board box 565 made of a transparent resin material or the like. A power relay board 566 is mounted on the sound lamp control device 562, and a drive voltage supplied from a power supply board described later is output to the display control device 505 and the sound lamp control device 562 via the power relay board 566. The

  The mounting base 551 is formed of a colored (for example, green, blue, etc.) resin material (for example, made of polycarbonate resin), and has two substrate mounting surfaces 552 and 553 that are flat on the surface. These substrate mounting surfaces 552 and 553 extend in a direction orthogonal to each other, and are formed with a step in the front-rear direction. However, the mounting base 551 may be a colorless transparent or translucent resin molded product.

  On one board mounting surface 552, the main control device 561 is arranged in a landscape orientation, and on the other board mounting surface 553, an audio lamp control device 562 (audio lamp control board) is placed in a portrait orientation. Be placed. In particular, the main control device 561 is disposed on the front side of the pachinko machine 10 when viewed from the rear, and the sound lamp control device 562 is disposed on the back side thereof. In this case, since the substrate mounting surfaces 552 and 553 are formed with steps in the front-rear direction, the control devices 561 and 562 are mounted in a state where the main controller 561 and the sound lamp controller 562 are mounted on the substrate mounting surfaces 552 and 553. Are arranged with a part of them stacked one after the other. That is, as can be seen in FIG. 27 and the like, the main controller 561 is arranged in a state where a part thereof (in the present embodiment, about 1/3 of the left side in FIG. 26) is floated. Therefore, the sound lamp control device 562 can be expanded to an area overlapping with the main control device 561, and it is possible to cope with an increase in the size of the control board and to install each control device efficiently. Further, when the first control board unit 501 is mounted on the game board 16, a space is secured behind the board mounting surface 552 so that the variable winning device 65 and its electric wiring can be installed without difficulty.

  As shown in FIGS. 28 and 29, the board mounting surface 552 for the main board 582 has horizontally elongated through holes 554 at two places on the left and right. Correspondingly, the substrate box 563 of the main controller 561 is provided with rotational fixing tools 567 at two positions on the left and right sides of the back surface thereof. When the main controller 561 is mounted on the board mounting surface 552, the fixing tool 567 is passed through the through hole 554 of the board mounting surface 552, and the fixing tool 567 is rotated in this state to lock the main control apparatus 561. The Therefore, even if the main controller 561 is arranged in a state where the main controller 561 is floated as described above, it is possible to avoid inconveniences such as dropping off of the main controller 561. In addition, the main control device 561 cannot be removed unless the fixture 567 is unlocked from the back side of the first control board unit 501 (board mounting surface 552). it can.

  As shown in FIG. 27 and the like, the mounting base 551 is provided with a pair of upper and lower support shafts 556 on the left end surface, and these support shafts 556 are attached to the support fitting 531 on the game board 16 side (see FIG. 24). Thus, the first control board unit 501 is supported to be openable and closable with respect to the game board 16. In addition, the mounting base 551 is provided with a pair of upper and lower nai latches 557 as fasteners at the right end portion and a horizontally long opening 558 at the upper end portion thereof, and the nai latch 557 is connected to a to-be-fastened hole 532 (see FIG. 22) and the locking claw piece 533 (see FIG. 24) on the game board 16 side is locked in the opening 558 at the upper end portion, whereby the first control board unit 501 is fixed to the game board 16. . The support fitting 531 and the support shaft 556 correspond to the support shaft portion M1 in FIG. 21, the fastened hole 532 and the ny latch 557 correspond to the fastening portion M2, and the locking claw piece 533 and the opening 558 correspond to the locking claw portion M3, respectively. To do.

  Here, the electrical connection between the main controller 561 and the power supply 612 will be described with reference to FIGS. 30 and 31. 30 is an enlarged view showing an arrow D portion of FIG. 26, FIG. 30 (a) is a front view, and FIG. 30 (b) is a sectional view taken along a sectional line XXXb-XXXb. FIGS. 31A and 31B are diagrams for explaining connector connection. FIG. 31A shows a state before the connector is connected, and FIG. 31B shows a state after the connector is connected.

  As shown in FIG. 30, a main controller 561 including a main board 582 and a board box 563 is equipped with a connector 580 that is electrically connected to the power supply device 612. The board box 563 that covers the main board 582 is formed with an opening 563a that exposes a part of the connector 580 to the outside. The opening 563a is formed on the mounting surface 582a side of each electronic component (not shown) of the main board 582. Is formed.

  The connector 580 includes conductive electrode rods 581a to 581d and an outer wall 583 that covers the electrode rods 581a to 581d. The electrode rods 581a to 581d extend from the mounting surface 582a side of the main substrate 582 on which each electronic component is mounted to the back surface 582b side of the main substrate 582, and are electrically connected to each electronic component on the back surface 582b. Each voltage is supplied to each electronic component of the control device 561.

  In this embodiment, since the connector 580 is directly attached to the substrate 582, the opening 563a of the substrate box 563 is formed on the mounting surface 582a side of each electronic component of the main substrate 582. Even when 580 is not directly attached to the mounting surface 582a of the main board 582, the opening 563a may be formed in accordance with the position of the connector 580.

  Next, the plug-in connector 584 that is inserted into the connector 580 will be described with reference to FIG. The plug connector 584 includes electric wires 585a to 585d corresponding to the electrode rods 581a to 581d, and an outer wall 586 covering the electric wires 585a to 585d. The electric wires 585a to 585d are connected to an electrode receiving member (not shown) that is electrically connected to the power supply device 612 and electrically connected to the electrode rods 581a to 581b, and the plug-in connector 584 is inserted into the connector 580. In this state, the electrode rods 581a to 581d are electrically connected to the electrode receiving member, whereby each voltage is supplied to each electronic component.

  The plug-in connector 584 has a pair of convex portions 586 a that are convex outward from the outer periphery of the outer wall 586. The protrusions 586 a are formed in a direction substantially orthogonal to the insertion direction (arrow E direction) of the plug-in connector 584 into the connector 580 and are formed on both sides of the outer wall 586. The insertion connector 584 is configured such that the total length a of the insertion connector 584 including the pair of convex portions 586a is longer than the linear distance b of the opening 563a in the direction along the total length a of the insertion connector 584 ( (See FIG. 31 (b)). Therefore, in a state where the insertion connector 584 is inserted into the connector 580, the convex portion 586a and the outer edge of the opening 563a overlap each other when viewed in the direction of arrow E.

  Therefore, when a fraudulent person tries to open the board box 563 in order to cheat on the main board 582, the protrusion 586 a of the plug-in connector 584 becomes an obstacle, so the plug-in connector 584 is removed from the connector 580. . Furthermore, when the main controller 561 is to be removed from the pachinko machine 10, the electric wires 585 a to 585 d are in the way, so that the insertion connector 584 can be easily pulled out from the connector 580.

  In addition, since it is sufficient that the insertion connector 584 is removed from the connector 580 when an unauthorized person tries to open the board box 563, the convex portion may be configured as one. The insertion connector 584 is formed in a substantially rectangular parallelepiped shape, but the shape may be any shape, but the opening is a shape along the outer shape (outer wall 586) excluding the convex portion of the insertion connector. It is preferable to comprise. In addition, the convex portion 586a of the insertion connector 584 is preferably formed so as to be larger than the sum of the gaps between the opening 563a and the insertion connector 584 in one direction orthogonal to the arrow E direction.

  Next, the second control board unit 502 will be described with reference to FIGS. 32 to 34. 32 is a front view of the second control board unit 502, FIG. 33 is a perspective view of the unit 502, and FIG. 34 is an exploded perspective view of the unit 502.

  The second control board unit 502 has a horizontally long mounting base 601, on which a payout / discharge control device 611, a power supply device 612, and a card unit connection board 613 are mounted. As is well known, the payout / release control device 611 and the power supply device 612 include a control board including an MPU as a one-chip microcomputer that forms the center of control, various ports, and the like. With a control board (payout launch control board) constituting the payout launch control device 611, the payout control of prize balls and rental balls and the ball launch unit 90 (launch solenoid 92 and electromagnet 104 according to the operation of the operation handle 310 by the player). ) Is performed. On a control board (power supply board) constituting the power supply device 612, a predetermined drive voltage required by various control devices and the like is generated and output.

  The card unit connection board 613 is electrically connected to the ball lending operation unit 210 on the front surface of the pachinko machine 10 and a card unit (not shown). Is. Note that the card unit connection board 613 is not required in a cash machine in which game balls are lent directly to the upper plate from a ball lending device or the like without using a card unit.

  The payout / discharge control device 611, the power supply device 612, and the card unit connection substrate 613 are configured to be accommodated in substrate boxes 615 to 617 made of a transparent resin material, respectively. In particular, in the dispensing discharge control device 611, similarly to the main control device 561 described above, the box base and the box cover that constitute the substrate box 615 (encapsulating means) are connected by the sealing unit 619 (sealing means) so that they cannot be opened, As a result, the substrate box 615 is sealed.

  A state return switch 621 is provided at the right end of the payout launch control device 611. For example, when the state return switch 621 is pressed when a payout error occurs, such as a ball jam in the payout motor 658a, the payout motor 658a is rotated forward and reverse to eliminate the ball jam (return to a normal state). It is like that. An operation knob 622 of a variable resistor that adjusts the firing force of the firing solenoid 92 is provided at the left end of the payout firing control device 611. When the operation shaft 622 is rotated clockwise, the firing solenoid 92 is excited. When the operating shaft 622 is rotated counterclockwise, the exciting current (or voltage) of the firing solenoid 92 is lowered and the firing force is also lowered.

  The power supply device 612 is provided with a RAM erase switch 623. This pachinko machine 10 has a backup function, so that even if a power failure occurs, it maintains the state at the time of a power failure, and can be restored to the state at the time of a power failure when returning from a power failure (power recovery) It has become. Accordingly, if the power supplied from the outside is shut off in a normal procedure (for example, at the time of the opening of the hall), the state before the power shut-off is stored and retained. The external power is turned on while pressing.

  The mounting base 601 is made of, for example, a colorless and transparent resin molded product, and flat board mounting surfaces 602 and 603 are provided on both the left and right sides of the surface. The power supply device 612 is mounted on the left board mounting surface 602, and the card unit connection board 613 is mounted on the right board mounting surface 603. The payout launch control device 611. A part thereof is mounted on the substrate box 616 of the power supply device 612 in an overlapping manner.

  As shown in FIG. 32, the mounting base 601 is provided with a pair of upper and lower support shafts 605 at its right end, and these support shafts 605 are formed in the support hole 538 (see FIG. 23) on the inner frame 13 side. By inserting from above, the second control board unit 502 is supported to be openable and closable with respect to the inner frame 13. In addition, the mounting base 601 is provided with a pair of upper and lower nai latches 606 as fasteners at the left end, and the second latch 606 is fitted into the tightened hole 539 (see FIG. 23) on the inner frame 13 side. The control board unit 502 is fixed to the inner frame 13 so that it cannot be opened and closed. The support hole portion 537 and the support shaft 605 correspond to the support shaft portion M4 in FIG. 21, and the fastened hole 539 and the ny latch 606 correspond to the fastening portion M5, respectively.

  Next, the configuration of the back pack unit 503 will be described with reference to FIGS. 35 and 36. FIG. 35 shows the back pack unit 503 viewed from the back of the pachinko machine 10, and FIG. 36 shows an exploded perspective view thereof. The back pack unit 503 is formed by integrating a resin-formed back pack 651 and a game ball payout unit 652.

  The back pack 651 is integrally formed of, for example, ABS resin, and includes a substantially flat base portion 653 and a protective cover portion 654 that protrudes rearward from the pachinko machine 10 and has a horizontally long substantially rectangular parallelepiped shape. The protective cover portion 654 has a shape in which the left and right side surfaces and the upper surface are closed and only the lower surface is opened, and has a size sufficient to surround at least the variable display device unit 80 (however, in the present embodiment, the above-mentioned audio The lamp control device 562 is also enclosed. A large number of ventilation holes 654 a are provided on the back surface of the protective cover portion 654. Each of the vent holes 654a is formed to be elongated and provided so that the ends of the vent holes 654a are adjacent to each other at a relatively close position. Therefore, the back surface of the back pack 651 can be easily opened by cutting the resin portion between the adjacent vent holes 654a. For this reason, predetermined | prescribed test | inspection etc. can be easily implemented by cut | disconnecting the resin part between ventilation holes 654a, and exposing the display control apparatus 505 grade | etc., Inside.

  A payout unit 652 is fixed to the back pack 651 with a screw so as to bypass the protective cover portion 654. The payout unit 652 is located at the uppermost part of the back pack 651 and is connected to the lower side of the tank 655 and the lower side of the tank 655. The tank rail 656 is gently inclined, the case rail 657 is connected to the downstream side of the tank rail 656 in the vertical direction, and is provided at the most downstream portion of the case rail 657. A payout device 658 for paying out game balls. The game balls supplied from the island facilities of the game hall are sequentially replenished to the tank 655, and a required number of game balls are paid out by the payout device 658 as appropriate. The game balls paid out by the payout device 658 are supplied to the upper plate 201 and the like through a payout passage (not shown) built in the lower end portion of the back pack 651.

  A vibrator 660 for applying vibration to the tank rail 656 is attached to the tank rail 656. Therefore, if a ball clogging occurs near the tank rail 656, the ball clogging can be eliminated by driving the vibrator 660. Since this vibrator 660 is unitized, it can be easily attached to the side of the tank rail 656.

  Here, the configuration of the tank rail 656 will be described in detail with reference to FIG. FIG. 37 is an exploded perspective view of the tank rail 656. The tank rail 656 has a rail body 661 having an elongated bowl shape that opens upward, and a ball receiving portion 662 that is formed to be inclined in an arc shape on one side is provided at the start end of the rail body 661. . By this ball receiving portion 662, the game ball dropped from the tank 655 is smoothly taken into the rail body 661. In addition, the rail body 661 is provided with a partition wall 663 extending in the longitudinal direction, and the game balls are divided into two hands by the partition wall 663. The two ball passages partitioned by the partition wall 663 are slightly wider than the diameter of the game ball. On the bottom surface of each spherical passage partitioned by the partition wall 663, an opening 665 is provided that opens downward at both ends of the passage.

  In addition, a rectifying plate 667 is disposed on the rail main body 661 so as to cover the ceiling portion on the downstream side. The rectifying plate 667 is disposed so as to be gradually closer to the bottom so as to limit the height of the passage in the tank rail 656 toward the downstream side. Further, on the upstream side of the current plate, a movable rectifying weight that moves in a pendulum manner along the flow direction so as to contact only the upper game ball among the game balls flowing down in a highly stacked state and restrict the flow down (Not shown) is provided to hang down. Even if the game balls flow from the upstream portion of the tank rail 356 in a stacked state, the game balls in the tank rail 656 flow down while being aligned by the rectifying weight.

  The rail body 661 is formed of a black conductive polycarbonate resin, whereas the rectifying plate 667 is formed of a transparent polycarbonate resin so that the inside of the passage can be easily seen. Further, the rectifying plate 667 is detachably provided, and maintenance in the tank rail 656 can be easily performed by removing the rectifying plate 667.

  Returning to FIG. 35 and FIG. The payout unit 652 includes a payout relay board 681 that relays a payout command signal from the payout launch control apparatus 611 to the payout apparatus 658, and a power switch board 682 for taking in the main power from the outside. The power switch board 682 is supplied with, for example, AC 24V main power via a voltage converter, and is turned on or off by switching the power switch 682a.

  The members that form the path of the game ball from the tank 655 to the payout path are all formed of a conductive resin material (for example, conductive polycarbonate resin) and grounded (grounded) at a part thereof. Yes. Thereby, generation | occurrence | production of the noise by charging of a game ball is suppressed.

  In addition, as shown in FIG. 35, the back pack 651 is provided with a pair of upper and lower support shafts 685 at the right end thereof, and the support shafts 685 are supported on the support holes 538 on the inner frame 13 side (see FIG. 23). The back pack unit 503 is supported so that it can be opened and closed with respect to the inner frame 13. In addition, the back pack 651 is provided with a pair of upper and lower nai latches 686 as fasteners at the left end portion, and is provided with a locking hole 687 at the upper end portion, and the nai latch 686 is connected to the fastening hole 540 ( The back pack unit 503 is fixed to the inner frame 13 so that it cannot be opened and closed by engaging with the fixing member 542 (see FIG. 23) on the inner frame 13 side in the locking hole 687. As shown in FIG. 35, a tank 355 for storing a game ball is provided on the left side of the locking hole 687, and this portion is not used for the fixing tool 542 and the locking hole 687. This is because it is firmly fixed. When the fixture 542 is fixed, the back pack unit 503 is also fixed to the inner frame 13 by the fixtures 541 and 543 (see FIG. 23) at the upper left corner and the lower right corner of the inner frame 13. The support hole portion 538 and the support shaft 685 correspond to the support shaft portion M6 in FIG. 21, the fastened hole 540 and the ny latch 686 correspond to the fastening portion M7, and the fixture 542 and the locking hole 687 correspond to the locking portion M8. . Further, the fixture 543 corresponds to the locking portion M9.

  Next, a locking device for locking the inner frame 13 to the outer frame 12 and locking the front frame 14 and the lower plate unit 15 to the inner frame 13 will be described with reference to FIGS. 38 is a front view of the locking unit 410, FIG. 39 is a front perspective view of the locking unit 410, and FIG. 40 is a rear perspective view of the locking unit 410. In addition, in order to avoid complication of drawing, the coil spring is abbreviate | omitted and shown in FIGS. 38-40.

  The locking device is engaged with a locking unit 410 that is vertically disposed on the back side of the inner frame 13 and on the right side of the pachinko machine 10 in front view, and a flange member 411 to 413 that is slidably provided on the locking unit 410. And an engaging portion that maintains the inner frame 13 and the front frame 14 in a closed state. As the engaging portion, the metal fitting 23 of the outer frame 12, the front frame flange portion 14a of the front frame 14, and the lower plate engaging portion 15a of the lower plate unit 15 are applicable.

  A cylinder lock 420 having a key hole 421 is provided at the lower center of the locking unit 410 when viewed from the front. The locking of the inner frame 13 and the locking of the front frame 14 are released by inserting a dedicated key into the key hole 421 of the cylinder lock 420 and performing a predetermined operation.

  The locking unit 410 includes an eaves base 414 formed vertically and eaves members 411 to 413 that are slidably provided on the eaves base 414 and engage with the inner frame 13, the front frame 14, and the lower dish unit 15. I have. The eaves base 414 is formed in a substantially L-shaped cross section by an attachment plate 415 in which a plurality of attachment holes are formed, and a support plate 416 that is orthogonal to the attachment plate 415 and supports the eaves members 411 to 413 and the like. The locking unit 410 is fixed to the inner frame 13 by tightening the mounting plate 415 of the flange base 414 with a screw at an end portion on the back surface side of the inner frame 13 and separated from the opening / closing shaft (left end portion in rear view).

  The attachment plate 415 of the heel base 414 is provided with an insertion port 415a having a vertically long substantially rectangular shape at the upper and lower portions thereof. When the front frame 14 is closed, the front end portion of the front frame collar portion 14a enters the insertion port 415a.

  A plate-like sliding rod 417 formed vertically along the supporting plate 416 is disposed inside the supporting plate 416 of the rod base 414 so as to be slidable in the vertical direction. In addition, a hook member (an inner frame hook member) 411 that is slidably supported by the support plate 416 while being always pulled downward by a coil spring (not shown) is disposed at two upper and lower portions of the hook base 414. Yes. The inner frame hook member 411 is formed in a hook shape with a tip portion protruding downward, and is hooked on the receiving bracket 23 of the outer frame 12 to lock the inner frame 13. The inner frame collar member 411 engages with the sliding collar 417 and slides upward only when the sliding collar 417 moves upward from the neutral position. The sliding rod 417 is urged downward by a reaction force having substantially the same magnitude as the pulling force of the coil spring that urges the inner frame collar member 411.

  The upper and lower two inner frame collar members 411 can move upward independently. When the inner frame collar member 411 is moved and unlocked with a wire or the like, both inner frames are removed. The scissor member 411 must be moved upward. Even if only one side is moved upward, the other inner frame flange member 411 remains hooked on the receiving metal fitting 23 of the outer frame 12. For this reason, an unauthorized unlocking operation becomes difficult and crime prevention is improved. Further, the inner frame collar member 411 moves upward as the sliding collar 417 slides upward. The sliding rod 417 slides upward in conjunction with the clockwise operation with the dedicated key for the cylinder lock 420, and the locked state of the inner frame 13 can be released by the operation of the dedicated key. .

  Further, at two upper and lower portions of the flange base 414, a flange member (front frame flange member) 412 supported slidably by the mounting plate 415 and the support plate 416 while being always pulled upward by a coil spring (not shown). It is arranged. The front frame collar member 412 is formed by bending a metal plate into a U-shaped cross section, and a vertically long rectangular locking port 412a is formed on the surface on the mounting plate 415 side. Further, the front frame flange member 412 has the locking port 412a overlapping the insertion port 415a formed in the mounting plate 415, and the lower end of the locking port 412a is positioned above the insertion port 415a in the neutral state. Is arranged.

  When the front frame 14 is closed, the front frame flange portion 14a enters the insertion port 415a and also enters the locking port 412a. The lower end of the locking port 412a is disposed at a position that contacts the protruding portion at the tip of the front frame flange portion 14a, and the front frame flange member 412 is pushed down by the front frame flange portion 14a and slides downward. When the protruding portion at the front end of the front frame flange portion 14a completely enters the locking port 412a, the front frame flange member 412 is raised and returned to the original position by the pulling force of the coil spring, and is caught by the front frame flange portion 14a. The front frame 14 is locked so as not to be opened. Further, the front frame collar member 412 moves downward as the sliding collar 417 slides downward. The sliding rod 417 slides downward in conjunction with the counterclockwise operation with the dedicated key with respect to the cylinder lock 420, and, like the inner frame 13, the front frame 13 is locked by operating the dedicated key. Is released.

  The interlocking mechanism between the cylinder lock 420 and the sliding rod 417 will be described. As shown in FIG. 40, the lock shaft of the cylinder lock 420 has two protrusions that enter the notch of the sliding rod 417 by the rotation operation. A cam plate 420a is attached. When the dedicated key is inserted clockwise into the key hole 421 of the cylinder lock 420 and rotated clockwise (clockwise in FIG. 38), the lower protrusion of the cam plate 420a enters the notch of the sliding rod 417. The sliding rod 417 is pushed upward. On the other hand, when the dedicated key is rotated counterclockwise (counterclockwise in FIG. 38) in a state where it is inserted into the key hole of the cylinder lock 420, the upper projection of the cam plate 420a enters the notch of the sliding rod 417. Then push down the sliding rod 417 downward. In this way, the inner frame collar member 411 and the front frame collar member 412 interlocked with the sliding collar 417 can be moved by freely sliding the single sliding collar 417 up and down by rotating the dedicated key. The locked state with respect to the inner frame 13 and the front frame 14 locked for each of the flange members 411 and 412 can be released by operating. Therefore, compared with the case where a plurality of sliding rods are respectively configured to be interlocked with the lock shaft of the cylinder lock, the component configuration is simplified, and the manufacturing cost can be reduced.

  A heel member (lower plate heel member) 413 that is slidably supported by the support plate 416 while being always pulled upward by a coil spring (not shown) is disposed below the heel base 414. The lower plate cage member 413 is for engaging the lower plate engaging portion 15a (see FIG. 19) provided in the lower plate unit 15 to lock the lower plate unit 15, and is located in the center along the vertical direction. The upper and lower two flanges 413a that protrude to the front side from the upper part and the lower part and further protrude from the front end part are hooked on the lower dish engaging part 15a to restrict the opening of the lower dish unit 15.

  At the upper end of the lower plate ridge member 413, an operation portion 413b formed so as to be protruded to the front side is provided, so that the lower plate ridge member 413 can be pushed downward with a fingertip or the like. ing. The operation unit 413b of the lower dish unit 15 is always disposed at a position covered by the front frame 14, and can be exposed and operated only when the front frame 14 is opened.

  When opening the lower tray unit 13 in the closed state, first, the front frame 14 is opened so that the operation portion 413b of the lower tray unit 15 can be operated. After that, when the operation unit 413b is pressed against the biasing force of the coil spring and the lower plate cage member 413 is moved downward, the lower plate engagement unit 15a provided on the lower plate unit 15 side and the lower plate cage member The engagement state of the 413 with the flange portion 413a is released, and an unlocked state in which the lower plate unit 15 can be opened simply by pulling it forward is possible.

  Next, the electrical configuration of the pachinko machine 10 will be described with reference to FIG. FIG. 41 is a block diagram showing an electrical configuration of the pachinko machine 10. The main controller 561 is equipped with an MPU 701 as a one-chip microcomputer that is an arithmetic unit. The MPU 701 includes a ROM 702 that stores various control programs executed by the MPU 701 and fixed value data, and a memory that temporarily stores various data when the control program stored in the ROM 702 is executed. A certain RAM 703 and other various circuits such as an interrupt circuit, a timer circuit, and a data transmission / reception circuit are incorporated.

  The RAM 703 is configured to hold (backup) data by being supplied with a backup voltage from the power supply device 612 even after the drive voltage supplied from the power supply device 612 is cut off. The RAM 703 temporarily stores various data and the like. A backup area 703a is provided in addition to a memory and an area for storing data.

  The backup area 703a is a stack when power is shut down (including when a power failure occurs, and so on) when the external power source is shut off due to the occurrence of a power failure or the like, and the drive voltage supplied to the main controller 561 is shut off. This is an area for storing pointers, registers, I / O, and other values. When the power is turned on (including power-on due to power failure cancellation, the same applies hereinafter), the pachinko machine is based on the information in the backup area 703a. The state of the machine 10 is restored to the state before the power cut-off. Writing to the backup area 703a is executed when the power is shut off by the NMI interrupt process (see FIG. 53), and restoration of each value written to the backup area 703a is executed when the drive voltage is supplied to the main controller 561. This is performed in the process (see FIG. 46). Note that the power failure signal SG1 from the power failure monitoring circuit 742 is input to the NMI terminal (non-maskable interrupt terminal) of the MPU 701 when the power is interrupted due to the occurrence of a power failure or the like. Is input immediately, the NMI interrupt process as a power failure process is immediately executed.

  An input / output port 705 is connected to the MPU 701 of the main controller 561 via a bus line 704 including an address bus and a data bus. The input / output port 705 is connected to a RAM erase switch circuit 743, a main board removal detection circuit 706, a payout / release control device 611, a display control device 505, and other switches not shown.

  The main board removal detection circuit 706 is disposed on the same board as the MPU 701 and is supplied with a common drive voltage and a backup voltage from the power supply device 612. Therefore, when the entire board box 563 or only the main board 582 is removed, the supply of each voltage to the main board removal detection circuit 706 is also cut off at the same time. Further, a reset switch 559 and a display device 560 are electrically connected to the main board removal detection circuit 706.

  The payout launch control device 611 controls payout of prize balls and rental balls by a payout motor 658a. The MPU 711 that is an arithmetic unit includes a ROM 712 that stores a control program executed by the MPU 711, fixed value data, and the like, and a RAM 713 that is used as a work memory or the like.

  Like the RAM 703 of the main control device 561, the RAM 713 of the payout launch control device 611 is configured to hold (backup) data by being supplied with a backup voltage from the power supply device 612 even after the pachinko machine 10 is powered off. The RAM 713 is provided with a backup area 713a in addition to a memory and an area for temporarily storing various data.

  The payout launch control device 611 controls the launch of the ball launch unit 90 (the launch solenoid 92 and the electromagnet 104) according to the operation of the operation handle 310 by the player. The launch solenoid 92 and the electromagnet 104 have predetermined conditions. Driving is allowed when it is in place. Specifically, it corresponds to the amount of rotation of the operation handle 310 on the condition that the touch sensor detects that the player is touching the operation handle 310 and the firing stop switch for stopping the firing is not operated. Then, the launch solenoid 92 is excited, and the game ball is launched with a strength corresponding to the operation amount of the operation handle 310.

  The backup area 713a has a stack pointer, each register, I / O, etc. at the time of power interruption when the power supply from the outside is cut off due to the occurrence of a power failure or the like, and the drive voltage supplied to the main controller 561 is cut off. The area of the pachinko machine 10 is restored to the state before power-off based on the information in the backup area 713a when the power is turned on. Writing to the backup area 713a is executed when the power is shut off by the NMI interrupt process, and restoration of each value written to the backup area 713a is performed when the drive voltage is supplied to the payout discharge control device 611 (FIG. 54). See). As with the MPU 701 of the main controller 561, the power failure signal SG1 is input to the NMI terminal of the MPU 711 from the power failure monitoring circuit 742 when the power is interrupted due to the occurrence of a power failure or the like. When input to the MPU 711, an NMI interrupt process as a power failure process is immediately executed.

  An input / output port 715 is connected to the MPU 711 of the payout / release control device 611 via a bus line 714 composed of an address bus and a data bus. A RAM erase switch circuit 743, a main controller 561, a payout motor 658a, a firing solenoid 92, an electromagnet 104, and the like are connected to the input / output port 715, respectively.

  The display control device 505 displays a variation display of the second symbol (ordinary symbol) on the second symbol display device (LED) 82 and a variation display of the first symbol (special symbol) on the first symbol display device (LCD) 81. It is something to control. The display control device 505 includes an MPU 721, a ROM (program ROM) 722, a work RAM 723, a video RAM 724, a character ROM 725, an image controller 726, an input port 727, two output ports 728 and 729, a bus line. 730 and 731. The output side of the main controller 561 is connected to the input side of the input port 727, and the MPU 721, ROM 722, work RAM 723, and image controller 726 are connected to the output side of the input port 727 and the output port via the bus line 729. 728 is connected. A second symbol display device 82 and an audio lamp control device 562 are connected to the output side of the output port 728. Further, an output port 729 is connected to the image controller 726 via a bus line 731, and the first symbol display device 81 is connected to the output side of the output port 729.

  The MPU 721 of the display control device 505 controls the display contents of the first symbol display device 81 and the second symbol display device 82 based on the symbol display command transmitted from the main control device 561. The ROM 722 is a memory for storing various control programs and fixed value data executed by the MPU 721, and the work RAM 723 is for temporarily storing work data and flags used when the MPU 721 executes various programs. Memory.

  The video RAM 724 is a memory for storing display data displayed on the first symbol display device 81, and the display content of the first symbol display device 81 is changed by rewriting the contents of the video RAM 724. The character ROM 725 is a memory for storing character data such as symbols displayed on the first symbol display device 81. The image controller 726 adjusts the timings of the MPU 721, the video RAM 724, and the output port 729 to intervene in reading and writing data, and also reads display data stored in the video RAM 724 from the character ROM 725 at a predetermined timing. It is displayed on the symbol display device 81.

  The power supply unit 612 includes a power supply unit 741 for supplying a drive voltage to each part of the pachinko machine 10, a power failure monitoring circuit 742 for monitoring the interruption of the power supply from the outside due to a power failure or the like, and a RAM erase switch having a RAM erase switch 623 A circuit 743. The power supply unit 741 supplies necessary voltages to the main control device 561, the payout / discharge control device 611, and the like through a drive voltage supply path (not shown). As its outline, the power supply unit 741 takes in a voltage of 24 volts AC supplied from the outside, and a voltage of 12 volts as a driving voltage for driving various switches, solenoids, motors, etc. or 5 volts for logic. , A backup voltage for RAM backup, and the like, and supply these 12 volt voltage, 5 volt voltage, and backup voltage to the main controller 561, the payout launch controller 611, and the like.

  The power failure monitoring circuit 742 is a circuit for outputting a power failure signal SG1 to each NMI terminal of the MPU 701 of the main controller 561 and the MPU 711 of the payout launch controller 611 when the power supply from the outside is interrupted due to the occurrence of a power failure or the like. The power failure monitoring circuit 742 monitors the voltage of DC stable 24 volts, which is the maximum voltage output from the power supply unit 741, and determines that a power failure (power shutdown) occurs when this voltage is less than 22 volts. Power failure signal SG1 is output to main controller 561 and payout launch controller 611. Based on the output of the power failure signal SG1, the main controller 561 and the payout launch controller 611 recognize the occurrence of the power failure and execute the NMI interrupt process. The power supply unit 741 outputs a voltage of 5 volts, which is a drive voltage of the control system, for a time sufficient for executing the NMI interrupt processing even after the DC stable voltage of 24 volts becomes less than 22 volts. Is maintained at a normal value. Therefore, main controller 561 and payout launch controller 611 can normally execute and complete the NMI interrupt process.

  The RAM erase switch circuit 743 is a circuit that outputs a RAM erase signal SG2 for clearing backup data to the main control device 561 and the payout / release control device 611 when the RAM erase switch 623 is pressed. When the RAM erase signal SG2 is input when the pachinko machine 10 is turned on, the main controller 561 and the payout launch controller 611 clear the data in the respective backup areas 703a and 713a.

  Next, the configuration of the main board removal detection circuit 706 will be described with reference to FIG. FIG. 42 is an electric circuit diagram schematically showing an electrical connection state between main controller 561 and power supply device 612. In particular, the main board removal detection circuit 706 shows the configuration of electronic components. In the power supply device 612, a power supply unit 741 is schematically shown to indicate the supply state of the drive voltage and the backup voltage. In the following description, “H level” and “L level” are voltage values greater than or equal to a predetermined value, and signals that allow each electronic component to confirm an input signal are H level and are voltage values less than a predetermined value. A signal in which each electronic component cannot confirm an input signal is represented as an L level.

  First, the power supply unit 741 of the power supply device 612 will be described. As described above, the power supply unit 741 generates a 5V drive voltage for logic. When the drive voltage supply switch 760 that is turned on in conjunction with the operation of the power switch 682a is turned on, the backup power supply capacitor 761 is charged. The drive voltage supply switch 760 includes two switches, a switch for supplying a drive voltage of 5 V to the drive voltage supply path Vcc and a switch for supplying a drive voltage for charging to the backup power supply capacitor 761. The switch is opened and closed at substantially the same timing. The drive voltage supply switch 760 may be a switch that is not actually operated, but a relay contact that is electrically connected when the power switch 682a is turned on and power is normally supplied.

  In a state where the power switch 682a is operated and the drive voltage supply switch 760 is turned on, each voltage of 5V is supplied to the drive voltage supply path Vcc and the backup voltage supply path Vbb, and the drive voltage is supplied to the main controller 561. On the other hand, in the state where the drive voltage supply switch 760 is turned off, the supply of voltage through the drive voltage supply path Vcc is cut off, but the backup voltage charged in the backup power supply capacitor 761 is mainly transmitted via the backup voltage supply path Vbb. It is supplied to the control device 561.

  The backup voltage is supplied to the backup power supply capacitor 761 by charging the drive voltage and discharging the charged voltage. For example, a backup voltage is supplied by connecting a lithium battery or other battery. It is good to do.

  The drive voltage supply path Vcc supplies drive power to the electronic components of the MPU 701 and the main board removal detection circuit 706 and is connected to one end of the reset switch 559. The backup voltage supply path Vbb supplies a backup voltage to the backup area 703a of the RAM 703 and the CPU 762 of the main board removal detection circuit 706, respectively. The power supply device 612 supplies each voltage to the main control device 561 via the connector 580 and the plug connector 584. As described above, when the cheating person tries to open the board box 563 in order to cheat the main control device 561, the convex portion 586a of the plug-in connector 584 becomes an obstacle, so the connector 584 is inserted from the connector. Is easily removed. Therefore, when the plug connector 584 is removed from the connector by an unauthorized person, the supply of each voltage to the main controller 561 is cut off.

  Next, the configuration of the main board removal detection circuit 706 will be described. The main board removal detection circuit 706 mainly includes flip-flop circuits 762 and 770, OR circuits 763 and 771, an AND circuit 772, a NOT circuit 773, a transistor circuit 774, and fuses 775 and 776.

  The flip-flop circuits 762 and 770 are known D-type flip-flops, and are a D terminal to which an input signal is input, a CK terminal to which a clock signal is input, a Q1 terminal and a Q2 terminal as output terminals, and a backup. It is composed of a Vbb terminal to which voltage is supplied and a GND terminal connected to the ground. The flip-flop circuits 762 and 770 output a signal output corresponding to the input state of the D terminal at the timing when the clock signal is input to the CK terminal from the Q1 and Q2 terminals, and a backup voltage is supplied to the Vbb terminal. The output state is maintained while Note that since the flip-flop circuits 762 and 770 are known electronic components, detailed description thereof is omitted.

  The OR circuit 763 includes an A terminal, a B terminal, and a C terminal to which an input signal is input, and a Y terminal that outputs an H level when an H level input signal is input to any of the A to C terminals. It is composed of a Vcc terminal to which a drive voltage is supplied and a GND terminal connected to the ground. The OR circuit 771 includes an A terminal and a B terminal to which an input signal is input, a Y terminal that outputs an H level when an H level input signal is input to either the A or B terminal, and a drive voltage. It is composed of a supplied Vcc terminal and a GND terminal connected to the ground. Since the OR circuits 763 and 771 are known electronic components, detailed description thereof is omitted.

  The AND circuit 772 is supplied with a driving voltage and an A terminal and a B terminal to which an input signal is input, a Y terminal that outputs an H level when an H level input signal is input to both the A and B terminals, and a drive voltage. And a GND terminal connected to the ground. Since the AND circuit 772 is a known electronic component, a detailed description thereof is omitted.

  The NOT circuit 773 includes an A terminal to which an input signal is input, a Y terminal that performs an inverted output with respect to the input signal input to the A terminal (that is, the Y terminal if the input signal at the A terminal is L level). H level output, and if the input signal at the A terminal is at the H level, the L level output is performed), and a Vcc terminal to which a drive voltage is supplied and a GND terminal connected to the ground. Yes. Note that since the NOT circuit 773 is a known electronic component, a detailed description thereof will be omitted.

  The transistor circuit 774 is a known NPN transistor, and includes a B (base) terminal, an E (emitter) terminal, and a C (collector) terminal. Since the transistor circuit 774 is a known electronic component, detailed description thereof is omitted.

  The fuse 775 is configured such that the conduction state is cut off when the drive voltage supplied from the power supply device 612 is supplied for a predetermined time. In the present embodiment, the current value flowing through the fuse 775 is configured to be approximately 1.2 times the rating of the fuse 775, so that the conduction state of the fuse 775 is interrupted after a predetermined time. Note that the fuse 775 is selected so that the conduction state is cut off when the drive voltage is supplied for a predetermined time continuously for approximately one hour. The predetermined time can be easily changed by appropriately selecting the fuse 775. On the other hand, the fuse 776 is configured such that the conduction state is interrupted early when the current value of the drive voltage supplied by the power supply device 612 exceeds a predetermined value. In other words, electrical conduction is cut off in a shorter time than the fuse 775.

  The main board removal detection circuit 706 of FIG. 42 includes resistors R1, R2, R3, and R4. The resistors R1 to R4 are provided for inputting a normal signal to each electronic component and for preventing damage to each electronic component. However, the resistors R1 to R4 are well-known techniques, and thus detailed description thereof is omitted.

  Here, the electrical connection of the electronic components described above will be described. First, the drive voltage supply path Vcc is connected to the Vcc terminals of the OR circuits 763, 771, the AND circuit 772, and the NOT circuit 773, and supplies a drive voltage to each electronic component.

  The drive voltage supply path Vcc is connected to one end of the reset switch 559 and one end of each of the fuses 775 and 776. The other end of the reset switch 559 is connected to the A terminal of the OR circuit 763 and also connected to GND via the resistor R1. The other end of the fuse 775 is connected to the B terminal of the OR circuit 763 and to the GND via the resistor R2. The other end of the fuse 776 is connected to the C terminal of the transistor 774, is connected to the A terminal of the NOT circuit 773, and is connected to GND via the resistor R3.

  The backup voltage supply path Vbb is connected to the Vbb terminals of the flip-flop circuit 762 and the flip-flop circuit 770. Therefore, when the drive voltage supply switch 760 is turned on, the drive voltage is supplied to the flip-flop circuits 762 and 770, and when the drive voltage supply switch 760 is turned off, the backup voltage is supplied to the flip-flop circuits 762 and 770. To be supplied. Accordingly, the output state of the flip-flop circuits 762 and 770 can be maintained even after the supply of the driving voltage is interrupted by the power supply device 612.

  The CK terminals of the flip-flop circuits 762 and 770 are directly connected to the MPU 701. The signal input to the CK terminal is a clock signal that is transmitted after initial setting and a payout permission command are transmitted (S101, S102) in a main process (see FIG. 46) performed by the main controller 561 described later. SG3, and its clock signal SG3 is a one-pulse signal that maintains the H level for a predetermined time. When the clock signal SG3 is input to the CK terminal, the flip-flop circuits 762 and 770 output signals corresponding to the input of the D terminal from the Q1 terminal and the Q2 terminal.

  For example, when the clock signal SG3 is input to the CK terminal in a state where an input signal of 5V (H level) is input to the D terminal, output is made from the Q1 terminal and output is not made from the Q2 terminal. That is, the Q1 terminal becomes H level and the Q2 terminal becomes L level. Further, when the clock signal SG3 is input to the CK terminal in a state where there is no input to the D terminal (L level), no output is made from the Q1 terminal and an output is made from the Q2 terminal. That is, the Q1 terminal becomes L level and the Q2 terminal becomes H level.

  The D terminal of the flip-flop circuit 762 is connected to the Y terminal of the OR circuit 763, and the Q1 terminal of the flip-flop circuit 762 is connected to the C terminal of the OR circuit 763. Since the OR circuit 763 outputs an H level from the Y terminal when any of the inputs is at an H level, when an H level output is performed from the Q1 terminal of the flip-flop circuit 762, the H from the Q1 terminal is output. The level output is input to the D terminal via the OR circuit 763. Therefore, when an H level signal is output from the Q1 terminal of the flip-flop circuit 762, the D terminal of the flip-flop circuit 762 can be maintained at the H level while the backup voltage is supplied.

  The Q2 terminal of the flip-flop circuit 762 is connected to the D terminal of the flip-flop circuit 770, to the A terminal of the AND circuit 772, and to the B terminal of the OR circuit 771. Accordingly, the input to the D terminal of the flip-flop circuit 770 becomes the H level when an H level output is made from the Q2 terminal of the flip-flop circuit 762.

  The Q1 terminal of the flip-flop circuit 770 is connected to the B terminal of the AND circuit 772. The AND circuit 772 outputs an H level from the Y terminal when both the A and B terminals are at the H level, so that an H level output is performed from the Q2 terminal of the flip-flop circuit 762 and the flip-flop circuit 770. When an H level output is made from the Q1 terminal, an H level output is made from the Y terminal of the AND circuit 772.

  The B terminal of the transistor circuit 774 is connected to the Y terminal of the AND circuit 772, and the E terminal of the transistor circuit 774 is connected to GND. Further, as described above, the C terminal of the transistor circuit 774 is connected to the other end of the fuse 776. When a current flows between the B terminal and the E terminal (hereinafter abbreviated as “B-E terminal”), the transistor circuit 774 is between the C terminal and the E terminal (hereinafter abbreviated as “between the CE terminal”). Is electrically conducted, and when an H level output is made from the Y terminal of the AND circuit 772, a current flows between the CE terminals.

  The A terminal of the NOT circuit 773 is connected to the C terminal of the transistor circuit 774 and the other end of the fuse 776, and the Y terminal of the NOT circuit 773 is connected to one end of the display device 560 and connected to the A terminal of the OR circuit 771. It is connected. Since the NOT circuit 773 performs an inverted output with respect to the input, when the A terminal is at the L level, the H terminal outputs an H level. That is, the NOT circuit 773 outputs an H level from the Y terminal when the electrical conduction state of the fuse 776 is cut off.

  The Y terminal of the OR circuit 771 is connected to the input / output port 705. When there is an H level input from either the Q2 terminal of the flip-flop circuit 762 or the Y terminal of the NOT circuit 773, the Y terminal An H level main board removal signal SG4 is output. The main board removal signal SG4 is a signal for informing the display control apparatus 505 that the main board 582 has been removed, and the display control apparatus 505 confirming the input of the main board removal signal SG4 The lamp control device 562 is instructed to notify the outside, and the error display lamp 206 (see FIG. 1) displays an error. Moreover, it is good also as what alert | reports by the other electrical decoration parts 202-204 and a speaker, and it is good also as what alert | reports that the main control apparatus 561 was removed by the 1st symbol display apparatus 81. FIG. The main board removal signal SG4 may be input to the MPU 701. In this case, each process performed in the main controller 561 is stopped or each process performed in the main controller 561 is stopped. It is good to do.

  Next, the operation of the main board removal detection circuit 706 will be described with reference to FIG. FIG. 59 is a diagram showing the state of the input signal or output signal of each electronic component and the notification state of the display device 560 and the error display lamp 206 corresponding to the state. The input signal and the output signal are expressed as “H” when the signal is input and output, and “L” when the signal is not input and output. The display device 560 and the error display lamp 206 are The state where the notification is performed is represented as “ON”, and the state where the notification is not performed is represented as “OFF”.

  When power is supplied to the main control device 561 and a drive voltage is supplied from the power supply device 612, the drive voltage is supplied to each electronic component. The 5V drive voltage is input to the B terminal of the OR circuit 763 via the fuse 775, so that the B terminal becomes H level, and as a result, the Y terminal of the OR circuit 763 becomes H level and a signal is output. The output from the Y terminal of the OR circuit 763 is input to the D terminal of the flip-flop circuit 762, and the D terminal becomes H level.

  After that, when the clock signal SG3 is input to the CK terminal of the flip-flop circuit 706 and the CK terminal becomes H level, the Q1 terminal of the flip-flop circuit 762 becomes H level and the C terminal of the OR circuit 763 becomes H level. In the OR circuit 763, when any one of the A to C terminals becomes H level, the Y terminal becomes H level and a signal is output. Therefore, the input to the D terminal of the flip-flop circuit 762 is continued, and the flip-flop circuit In 762, the output state in which the Q1 terminal becomes H level and the Q2 terminal becomes L level is continued. Therefore, since the L level output is performed from the Q2 terminal of the flip-flop circuit 762, the A terminal of the AND circuit 772 becomes the L level, the notification by the display device 560 is not performed, and the B terminal of the OR circuit 771 becomes the L level. Notification by the error display lamp 206 is not performed (the state of the circled number 1 in FIG. 59). Therefore, even if the main board 582 is removed at the factory inspection stage, notification is not performed as long as the fuse 775 is electrically connected. it can. The fuse 775 is cut off when the drive voltage is continuously supplied for a predetermined time, but is not cut off because the time in the inspection stage of the factory is several minutes.

  Next, the case where the pachinko machine 10 is installed in the hall and approximately one hour or more has elapsed will be described. In this case, the fuse 775 is electrically cut off, but since the backup voltage is supplied to the flip-flop circuit 762 even after the drive voltage is cut off, the output from the Q1 terminal of the flip-flop circuit 762 is maintained. The Therefore, when the drive voltage is supplied again and the drive voltage is supplied to the OR circuit 763, an H level output is made from the Y terminal of the OR circuit 763. Therefore, as long as the backup voltage is continuously supplied to the flip-flop circuit 762, the notification by the display device 560 and the error display lamp 206 is not performed.

  Here, a case where the main controller 561 (substrate box 563) is removed from the pachinko machine 10 will be described. As described above, when the main control device 561 is removed from the pachinko machine 10, when the plug-in connector 584 is removed from the connector 580, the supply of each voltage to the main control device 561 is cut off.

  When the main control board 561 is removed from the pachinko machine 10, the supply of the backup voltage supplied to the flip-flop circuit 762 is cut off, and the flip-flop circuit 762 is initialized. That is, when power is supplied from the outside and the clock signal SG3 is input to the CK terminal of the flip-flop circuit 762, the D terminal of the flip-flop circuit 762 is at the L level, so that the Q2 terminal of the flip-flop circuit 762 is at the H level. And a signal is output. Therefore, the D terminal of the flop flop circuit 770, the A terminal of the AND circuit 772, and the B terminal of the OR circuit 771 are at the H level. Since the AND circuit 772 outputs an H level from the Y terminal when the A and B terminals are at the H level, the Y terminal is at the L level in this state. On the other hand, the OR circuit 771 outputs an H level from the Y terminal when either one of the A and B terminals becomes an H level, so that the Y terminal becomes an H level, and as a result, the error display lamp 206 performs notification. (The state of the circled number 2 in FIG. 59). Therefore, when the main control device 561 is removed, the error display lamp 206 is notified, so that it can be easily confirmed that the main control device 561 has been removed.

  Thereafter, when the supply of power is cut off and the power is supplied again, and the clock signal SG3 is input to the CK terminal of the flip-flop circuit 770, the D terminal of the flip-flop circuit 770 is at the H level. The Q1 terminal becomes H level. Since the Q1 terminal of the flip-flop circuit 770 is connected to the B terminal of the AND circuit 772, both the A and B terminals of the AND circuit 772 are at the H level, and as a result, an H level output is performed from the Y terminal ( The state of the circled number 3-1 in FIG. 59).

  When an H level output is made from the Y terminal of the AND circuit 772, the input goes to the B terminal of the transistor circuit 774 at an H level. In the transistor circuit 774, when the B terminal becomes the H level, a current flows between the CE terminals, so that the driving voltage via the fuse 776 flows to the GND via the CE terminal of the transistor 774. Since the E terminal of the transistor circuit 774 is directly connected to the GND, the current flows more easily than the input to the A terminal of the NOT circuit 773 and the connection to the GND via the resistor R3. Therefore, an extremely large current flows in the fuse 776 compared to the rated value, so that the electrical continuity state is cut off, and the A terminal of the NOT circuit 773 becomes L level. Since the NOT circuit 773 performs an inverted output with respect to the input, an H level output is made from the Y terminal (the state of the circled numbers 3-2 in FIG. 59), the display device 560 is turned on, and the main control device 561 is removed. Can be notified.

  Further, since the Y terminal of the NOT circuit 773 is connected to the A terminal of the OR circuit 771, the main board removal signal SG4 that is at the H level is output from the Y terminal of the OR circuit 771. As described above, the main board removal signal SG4 is output if the output from the Q2 terminal of the flip-flop circuit 762 is at the H level, but after the main controller 561 is removed, the power supply is repeatedly cut off and supplied. In this case, the output is performed, so that it can be surely notified that the main controller 561 has been removed.

  Note that since the fuse 774 cannot be restored once it is cut off, it is necessary to replace the fuse 774 in order to cancel the lighting of the display device 560. That is, since the lighting of the display device 560 can be maintained, it is possible to reliably notify that the main control device 561 has been removed.

  Next, a method for canceling the lighting of the error display lamp 206 will be described. The error display lamp 206 can be released only when the fuse 776 is electrically conductive. This is because when the fuse 776 is electrically cut off, the output continues from the Y terminal of the NOT circuit 773, so that the H-level main board removal signal SG4 is continuously output from the Y terminal of the OR circuit 771. It is.

  As described above, when the H level is output from the Q2 terminal of the flip-flop circuit 762, the H level main board removal signal SG4 is output from the Y terminal of the OR circuit 771, and the error display lamp 206 is lit. It suffices if the D terminal of the flip-flop circuit 762 is at the H level when the clock signal SG3 is input to the CK terminal. In other words, by operating the reset switch 559 when power is turned on from the outside, the error display lamp 206 can be turned off. When the reset switch 559 is operated, a signal based on the operation is input to the A terminal of the OR circuit 763 and input from the Y terminal of the OR circuit 763 to the D terminal of the flip-flop circuit 762. As a result, in the flip-flop circuit 762, the Q1 terminal becomes H level and the Q2 terminal becomes L level. Therefore, by operating the reset switch 559, the error display lamp 206 can be turned off (the state of the circled number 4 in FIG. 59). Therefore, the notification of the error display lamp 206 can be canceled by a simple operation.

  Note that when the reset switch 559 is operated when output is performed from the Q2 terminal of the flip-flop circuit 762, the Q2 terminal of the flip-flop circuit 762 and the flip-flop circuit 770 are controlled depending on the timing of the clock signal input to the CK terminal. An H level signal is output from the Q1 terminal, and an H level output is output from the Y terminal of the AND circuit 772. However, since the flip flip circuit 762 changes the output state from the Q1 terminal based on the operation of the reset switch 559, the current flows between the CE terminals of the transistor 774 for a short time, and the fuse 776 is electrically cut off. Never do.

  Here, with reference to FIG. 43 and FIG. 44, the 1st symbol displayed on the 1st symbol display apparatus 81 and the display content of the 1st symbol display apparatus 81 are demonstrated. FIG. 43 is a diagram individually showing the first symbol, FIG. 44 is a diagram for explaining a display screen of the first symbol display device 81, and FIG. FIG. 44B is a diagram schematically illustrating an actual display screen.

  The first symbol is composed of ten types of main symbols with numbers from “0” to “9” and one type of sub-pattern of petal shape formed smaller than this main symbol. As shown in FIG. 43 (a) to FIG. 43 (i), each main symbol is configured by attaching numbers “0” to “9” on the rear symbol made of a wooden box, of which an odd number ( In the main symbols with 1, 3, 5, 7, 9), large numbers are added almost to the front of the wooden box. On the other hand, the main symbols with even numbers (0, 2, 4, 6, 8) are attached to the front of the wooden box almost to the full, and attached symbols imitating characters such as furoshiki and helmets, An even number is small in green on the lower right side of the attached symbol and is added so as to be displayed on the front side of the attached symbol.

  Moreover, although mentioned later for details, in the pachinko machine 10 of this embodiment, it is comprised so that a big hit may generate | occur | produce when the same main symbol is prepared. In this case, the main symbol to which the odd number is added corresponds to a “high probability symbol”, and when the high probability symbols all come together and the jackpot is reached, the special winning state 65a is released a predetermined number of times over a predetermined time period. After that, it shifts to a high probability state. On the other hand, the main symbol to which an even number is added corresponds to a “low probability symbol”, and when the low probability symbols are all in a big win, the special game state is entered, but in such a case, the high probability state is not entered. . Here, the high probability state is a state in which the combination of the first symbol becomes a jackpot as a combination of the predetermined probability variation symbols, and the subsequent jackpot probability is increased as added value, that is, when so-called probability variation (probability change). Say. Further, the normal state (low probability state) refers to a time when the probability of hitting is not probable, and refers to a state where the probability of jackpot is normal, that is, a state where the probability of jackpot is lower than that during probability change.

  Next, the display screen of the first symbol display device 81 will be described. As shown in FIG. 44 (a), the display screen of the first symbol display device 81 is roughly divided into two vertically, and the lower 2/3 is the main display area Dm in which the first symbol is variably displayed. The upper third is a sub display area Ds for displaying a notice effect and a character.

  In the main display area Dm, three symbol rows Z1, Z2, and Z3 of left, middle, and right are displayed. In each of the symbol rows Z1 to Z3, the above-described first symbols are displayed in a prescribed order. That is, in each symbol row Z1 to Z3, main symbols are arranged in ascending or descending numerical order, and one sub symbol is arranged between each main symbol. For this reason, a total of 20 first symbols of 10 main symbols and 10 sub-symbols are set in each symbol row, and each symbol row Z1 to Z3 is scrolled from top to bottom with periodicity. The display is changed. In particular, the left symbol row Z1 is arranged so that the numbers of the main symbols appear in descending order, and the middle symbol row Z2 and the right symbol row Z3 are arranged so that the numbers of the main symbols appear in ascending order.

  In the main display area Dm, the first symbols are displayed in the upper, middle, and lower three rows for each symbol row Z1 to Z3. Accordingly, the first symbol display device 81 displays a total of nine first symbols of 3 rows × 3 columns. In the main display area Dm, five effective lines, that is, an upper line L1, a middle line L2, a lower line L3, a right rising line L4, and a left rising line L5 are set. In each game, the variable display stops in the order of the left symbol row Z1 → the right symbol row Z3 → the middle symbol row Z2, and the combination of jackpot symbols on any active line at the time of the stop (in this embodiment, A jackpot moving image is displayed as a jackpot if the same combination of main symbols is arranged.

  The sub display area Ds is horizontally long above the main display area Dm, and is further equally divided into three notice areas Ds1 to Ds3 in the left-right direction. Here, the left and right notice areas Ds1, Ds3 are normally covered with a double-open opaque door that is electrically opened and closed by a solenoid, and sometimes the solenoid is excited and the door is opened to the front side. The display area is visible to the player. The center notice area Ds2 is a display area that is always visible without being covered by the door.

  On the actual display screen, as shown in FIG. 44B, a total of nine main symbols and sub-designs of the first symbol are displayed in the main display area Dm. In the sub display area Ds, the left and right doors are closed, and the left and right notice areas Ds1, Ds3 are covered and the display screen cannot be visually recognized. If either one of the left and right doors or both doors are opened during the variable display, a video is displayed in the left and right notice areas Ds1 and Ds3, and it is easy for the player to change to a big hit than usual. It is suggested. In the center notice area Ds2, a predetermined character (a boy with a bee in this embodiment) usually performs a predetermined action and sometimes performs a special action different from the predetermined action or another character appears. The announcement effect is performed by putting out. The display screen of the first symbol display device 81 is basically divided into upper and lower display areas Dm, Ds, but displays the first symbol, characters, etc. larger across the display areas Dm, Ds. A display effect can be performed.

  Next, the operation of the pachinko machine 10 configured as described above will be described. In the present embodiment, the MPU 701 in the main control device 561 uses various counter information during the game to perform jackpot lottery, setting the symbol display of the first symbol display device 81, and the like. Specifically, As shown in FIG. 45, when the jackpot random number counter C1 used for the jackpot lottery, the jackpot symbol counter C2 used for the selection of the jackpot symbol of the first symbol display device 81, and the first symbol display device 81 fluctuate and change. Reach random number counter C3 used for reach lottery, random number initial value counter CINI used for initial value setting of jackpot random number counter C1, variation type counters CS1, CS2 used for variation pattern selection of the first symbol display device 81, , Left, middle and right out symbol counters CL, CM, CR used to set each out symbol in the left, middle and right columns It is set to be there. The second symbol random number counter C4 is used for the lottery of the second symbol display device 82.

  Among these, the counters C1 to C3, CINI, CS1, and CS2 are loop counters that each add 1 to the previous value and return to 0 after reaching the maximum value. Further, the out symbol counters CL, CM, CR are configured such that register values are added using the R register (refresh register) in the MPU 701, and as a result, the numerical values change randomly. Each counter is updated at short time intervals, and the updated value is appropriately stored in a counter buffer set in a predetermined area of the RAM 703. The RAM 703 is provided with a holding ball storage area composed of one execution area and four holding areas (holding first to fourth areas). Each value of the jackpot random number counter C1, the jackpot symbol counter C2 and the reach random number counter C3 is stored in accordance with the winning timing of the game ball.

  For details of each counter, the jackpot random number counter C1 is configured such that, for example, 1 is sequentially added within a range of 0 to 676, and after reaching the maximum value (that is, 676), it returns to 0. In particular, when the jackpot random number counter C1 makes one round, the value of the random number initial value counter CINI at that time is read as the initial value of the jackpot random number counter C1. The random number initial value counter CINI is configured as a loop counter that is updated in the same range as the jackpot random number counter C1 (value = 0 to 676), and is updated once per timer interrupt and within the remaining time of normal processing. Will be updated repeatedly. The jackpot random number counter C1 is updated periodically (once every timer interruption in the present embodiment), and stored in the reserved ball storage area of the RAM 703 at the timing when the game ball wins the first entrance 64. The number of random number values that are jackpots is set at low probability and high probability, and the number of random numbers that are jackpots at low probability is 2, and the value is “337,673”. There are 10 random numbers that are big hits at high probability, and the values are “67, 131, 199, 269, 337, 401, 463, 523, 601, 661”.

  The jackpot symbol counter C2 determines a symbol when the fluctuation of the first symbol display device 81 is stopped in the case of a jackpot. In the present embodiment, the first symbol display device 81 has five effective lines. Since 10 kinds of specific symbols (main symbols) are set, 50 (0 to 49) counter values are prepared. In other words, the jackpot symbol counter C2 is configured so that one by one is added in order within the range of 0 to 49, and after reaching the maximum value (that is, 49), it returns to 0. The jackpot symbol counter C2 is updated periodically (once every timer interruption in this embodiment), and stored in the reserved ball storage area of the RAM 703 at the timing when the game ball wins the first entrance 64.

  For example, the reach random number counter C3 is incremented one by one within a range of 0 to 238, for example, and reaches a maximum value (that is, 238) and then returns to 0. In the present embodiment, the reach random number counter C3 causes the last stop symbol to stop after the reach has occurred by shifting the last stop symbol by only one before and after the reach symbol, and the last stop symbol after the reach has occurred. “Reach other than front / rear out” and stop “complete out” that does not occur reach. For example, the reach random number counter C3 = 0, 1 corresponds to the front / rear out of reach, the reach random number counter C3 = 2-21 corresponds to the reach other than the front / rear out, and the reach random number counter C3 = 22-238 corresponds to the complete out. The reach lottery may be set individually according to the state of the lottery probability of the first symbol display device 81, the number of suspended balls at the start of change, and the like. The reach random number counter C3 is updated periodically (once every timer interruption in this embodiment), and stored in the reserved ball storage area of the RAM 703 at the timing when the game ball wins the first entrance 64.

  Of the two variation type counters CS1 and CS2, one variation type counter CS1 is incremented one by one within a range of 0 to 198, for example, and reaches a maximum value (that is, 198) and then returns to 0. On the other hand, the other variation type counter CS2 is, for example, incremented one by one within a range of 0 to 240, and returns to 0 after reaching the maximum value (that is, 240). In the following description, CS1 is also referred to as “first variation type counter”, and CS2 is also referred to as “second variation type counter”.

  The first variation type counter CS1 determines the reach type of the first symbol, such as so-called normal reach, super reach, premium reach, and other rough symbol variation modes, and the second variation type counter CS2 determines the final stop symbol ( In the present embodiment, a more detailed symbol variation mode such as an elapsed time (in other words, the number of variation symbols) until the middle symbol) stops is determined. Therefore, a variety of variation patterns can be easily realized by combining these variation type counters CS1 and CS2. It is also possible to determine the symbol variation mode only by the first variation type counter CS1, or to determine the symbol variation mode similarly by combining the first variation type counter CS1 and the stop symbol. The variation type counters CS1 and CS2 are updated once every time a normal process to be described later is executed once, and are repeatedly updated even within the remaining time in the normal process. Then, the buffer values of the variation type counters CS1 and CS2 are acquired when the variation pattern is determined when the first symbol display device 81 starts the variation of the first symbol.

  The left, middle and right off symbol counters CL, CM and CR are used to determine the stop symbol of the left symbol row Z1, the middle symbol row Z2 and the right symbol row Z3 when the big hit lottery is missed. There are 20 first symbols in total, including the main symbol and the sub symbol, in each row of each column, so 20 counter values (0 to 19) are prepared for each. The left, upper, middle and lower symbols are determined by the out symbol counter CL, the upper, middle and lower symbols are determined by the out symbol counter CM, and the right symbol column is determined by the out symbol counter CR. The top, middle and bottom symbols are determined.

  In this embodiment, the values of the counters CL, CM, and CR are randomly updated by using the numerical value of the R register built in the MPU 701. That is, when each outlier symbol counter CL, CM, CR is updated, the lower 3 bits of the R register are added to the previous value, and when the addition result exceeds the maximum value, the current value is determined by subtracting 20. The Each outlier symbol counter CL, CM, CR is updated within the normal processing so that the update times do not overlap, and the combination of these outlier symbol counters CL, CM, CR is the reach of the RAM 703 front / rear symbol symbol buffer, reach other than front / rear out It is stored in either the symbol buffer or the completely off symbol buffer. Then, when determining the variation pattern at the start of variation of the first symbol, the buffer value of any one of the front and rear outreach symbol buffer, the reach symbol buffer other than front and rear outlier and the completely out symbol symbol buffer is acquired according to the value of the reach random number counter C3. The

  In addition, the magnitude | size and range of each counter are only examples, and can be changed arbitrarily. However, if importance is attached to irregularity, it is desirable that the jackpot random number counter C1, the reach random number counter C3, and the variation type counters CS1 and CS2 are all different prime numbers and are not synchronized in any case.

  The second symbol random number counter C4 is configured, for example, as a loop counter that increments one by one within a range of 0 to 250 and returns to 0 after reaching the maximum value (that is, 250). The second symbol random number counter C4 is updated periodically (once every timer interruption in the present embodiment), and it is detected that the game ball has passed either the left or right second entrance (through gate) 67. Get when it is done. The number of random number values to be won is 149, and the range is “5 to 153”.

  Next, each control process executed by the MPU 701 in the main controller 561 will be described with reference to the flowcharts of FIGS. 46 to 53. The MPU 701 is roughly divided into a main process that is started when the power is turned on, and a timer interrupt process that is started periodically (in this embodiment, at a cycle of 2 milliseconds (hereinafter referred to as “ms”)). And an NMI interrupt process activated by the input of the power failure signal SG1 to the NMI terminal. For convenience of explanation, the timer interrupt process and the NMI interrupt process will be described first, and then the main process will be described.

  FIG. 51 is a flowchart showing the timer interrupt process. The timer interrupt process is executed by the MPU 701 of the main controller 561 every 2 ms, for example. In the timer interruption process, first, reading process of various winning switches is executed (S601). That is, the state of various switches (excluding the RAM erase switch 623) connected to the main controller 561 is read, and the state of the switch is determined and the detection information (winning detection information) is stored. Next, the random number initial value counter CINI is updated (S602). Specifically, the random number initial value counter CINI is incremented by 1 and cleared to 0 when the counter value reaches the maximum value (676 in this embodiment). Then, the update value of the random number initial value counter CINI is stored in the corresponding buffer area of the RAM 703.

  Further, the jackpot random number counter C1, the jackpot symbol counter C2 and the reach random number counter C3 are updated (S603). Specifically, the jackpot random number counter C1, the jackpot symbol counter C2 and the reach random number counter C3 are each incremented by 1 and their counter values reach the maximum values (in the present embodiment, 676, 49 and 238, respectively). Each time it is cleared to 0. Then, the updated values of the counters C1 to C3 are stored in the corresponding buffer area of the RAM 703. After that, a start winning process is performed in accordance with winning in the first entrance 64 (S604).

  The start winning process will be described with reference to the flowchart of FIG. First, it is determined from the detection information of the operation port switch 524 whether or not the game ball has won (start winning) at the first entrance 64 (S701). If it is determined that the game ball has won the first entrance 64 (S701: Yes), is the number N of pending action balls of the first symbol display device 81 less than the upper limit (4 in the present embodiment)? It is determined whether or not (S702). If there is a winning at the first entrance 64 and the number N of activated balls is less than 4 (S702: Yes), the number N of activated balls is incremented by 1 (S703), and further updated in step S603. The values of the jackpot random number counter C1, the jackpot symbol counter C2, and the reach random number counter C3 are stored in the first area among the empty reserved areas in the reserved ball storage area of the RAM 703 (S704). On the other hand, there is no winning at the first entrance 64 (S701: No), or even if there is a winning at the first entrance 64, if the number N of operational reserves is not less than 4 (S702: No). , S703 and S704 are skipped, and the start winning process is terminated. After the start winning process is completed, the MPU 701 once ends the timer interrupt process.

  In addition, when the game ball wins the first entrance 64 (start winning), the first symbol display device 81 starts the variable display of the first symbol, but after the start winning, There is a restriction that a predetermined time (for example, 5 seconds) must elapse before the symbol changes and the symbol stops. Therefore, in the start winning process, when a start winning is confirmed, a timer for measuring the elapsed time after the start winning is set after each counter value storing process (S704). Specifically, since the start winning process is executed in a cycle of 2 ms, for example, in order to measure an elapsed time of 5 seconds, a numerical value “2500” is set in the timer, and the timer value is incremented by 1 for each start winning process. Subtract. This timer value is stored and managed in the reserved ball storage area of the RAM 703 together with the values of the respective counters C1 to C3. In setting the first symbol variation pattern, which will be described later, the timer value is referred to, and a variation pattern is set according to the remaining time (so that the symbol variation is stopped after a predetermined time has elapsed).

  FIG. 53 is a flowchart showing the NMI interrupt process. The NMI interrupt process is executed by the MPU 701 of the main controller 561 when the power of the pachinko machine 10 is shut off due to the occurrence of a power failure or the like. By this NMI interrupt processing, the state of the main controller 561 at the time of power shut-off is stored in the backup area 703a of the RAM 703. That is, when the power of the pachinko machine 10 is cut off due to the occurrence of a power failure, the power failure signal SG1 is output from the power failure monitoring circuit 742 to the NMI terminal of the MPU 701 in the main controller 561, and the MPU 701 interrupts the control being executed. NMI interrupt processing is started. The NMI interrupt processing program in FIG. 53 is stored in the ROM 702 of the main controller 561. For a predetermined time after the power failure signal SG1 is output, power is supplied from the power supply unit 741 so that the processing of the main controller 561 can be executed, and the NMI interrupt processing is executed within this predetermined time.

  In the NMI interrupt process, first, the used register is saved in the backup area 703a of the RAM 703 (S801), and the value of the stack pointer is stored in the backup area 703a (S802). Further, the occurrence information of the power shutdown is set in the backup area 703a (S803), and a power shutdown notification command indicating that the power is shut off is transmitted to another control device (S804). A RAM determination value is calculated and stored in the backup area 703a (S805). The RAM determination value is, for example, a checksum value at the work area address of the RAM 703. Thereafter, access to the RAM 703 is prohibited (S806), and the infinite loop is continued until the power supply is completely shut down and the processing cannot be executed.

  The above NMI interrupt process is executed in the same manner in the payout / release control device 611. With this NMI interrupt process, the state of the payout / release control device 611 at the time of power interruption due to the occurrence of a power failure or the like changes the backup area 713a of the RAM 713. Is remembered. Similarly, the power supply unit 741 supplies power so that the process of the payout / discharge control device 611 can be executed for a predetermined time after the power failure signal SG1 is output. That is, when the power of the pachinko machine 10 is cut off due to the occurrence of a power failure or the like, the power failure signal SG1 is output from the power failure monitoring circuit 742 to the NMI terminal of the MPU 711 in the payout and emission control device 611, and the MPU 711 interrupts the control being executed. Then, the NMI interrupt process of FIG. 53 is started. The contents are the same as described above, except that the power-off notification command is not transmitted in step S804.

  FIG. 46 is a flowchart showing a main process executed by the MPU 701 in the main controller 561. This main process is started by a reset at power-on. In the main process, first, an initial setting process associated with power-on is executed (S101). Specifically, in order to set a predetermined value in the stack pointer and wait for the sub-side control devices (sound lamp control device 562, payout launch control device 611, etc.) to become operable. , Wait processing (for example, about 1 second) is executed. Next, a payout permission command is sent to the payout launch control device 611 (S102), and a pulsed clock signal SG3 is sent to the flip-flop circuits 762 and 770 of the main board removal detection circuit 706 (S120). Then, access to the RAM 703 is permitted (S103). That is, since the clock signal SG3 is transmitted to the main board removal detection circuit 706 after the power is turned on to the main controller 561 and a predetermined time has elapsed, the supply of the drive voltage to the main board removal detection circuit 706 is finished. After that, the clock signal SG3 is transmitted. Therefore, the flip-flop circuits 762 and 770 can accurately perform output corresponding to the stored information. In the process of S102, an operation permission command is transmitted also to the display control device 505, and when the operation permission command is received, the display control device 505 is in an operable state.

  The transmission of the clock signal SG3 performed in the process of S120 is performed after the initial setting process of the main controller 561 and after the operation permission command is transmitted to each of the controllers 611 and 505. The main board removal detection circuit When the main board removal signal SG4 transmitted from 706 is output, the control devices 561, 611, and 505 are in an operable state, so that the main board removal signal SG4 can be reliably received and a reliable notification is made. It can be performed.

  Thereafter, it is determined whether or not the RAM erase switch 623 provided in the power supply device 612 is turned on (S104). If it is turned on (S104: Yes), processing is performed to clear (erase) the backup data. The process proceeds to S114. On the other hand, if the RAM erasure switch 623 is not turned on (S104: No), it is further determined whether or not the information on occurrence of power interruption is stored in the backup area 703a of the RAM 703 (S105). (S105: No), since backup data is not stored, in this case as well, the process proceeds to S114. If the occurrence information of power shutdown is stored in the backup area 703a (S105: Yes), the RAM judgment value is calculated (S106), and the calculated RAM judgment value is not normal (S107: No), that is, calculated. If the RAM determination value does not match the RAM determination value stored when the power is shut off, the backed up data has been destroyed. In such a case as well, the process proceeds to S114. As described above, the RAM determination value is, for example, a checksum value at the work area address of the RAM 703. Instead of the RAM determination value, the validity of the backup may be determined based on whether or not the keyword written in a predetermined area of the RAM 703 is correctly stored.

  As described above, in the pachinko machine 10, when RAM data is initialized when the power is turned on, for example, at the start of business in a hall, the power is turned on while pressing the RAM erase switch 623. Therefore, if the RAM erase switch 623 is pressed, the process proceeds to the RAM initialization process (S114 to S116). Similarly, when the occurrence information of the power shutdown is not set, or when a backup abnormality is confirmed by the RAM determination value (checksum value or the like), the process proceeds to initialization processing (S114 to S116) of the RAM 703 in the same manner. That is, in the RAM initialization process from S114, the used area of the RAM 703 is cleared to 0 (S114), and the initial value of the RAM 703 is set (S115). Thereafter, the interrupt is permitted (S116), and the process proceeds to normal processing described later.

  On the other hand, if the RAM erase switch 623 is not turned on (S104: No), the occurrence information of power shutdown is stored (S105: Yes), and the RAM judgment value (checksum value etc.) is normal ( (S107: Yes), the process proceeds to S108, and a process at the time of power recovery (a process at the time of power-off restoration) is executed. That is, in the power recovery process, the stack pointer at the time of power interruption is restored (S108), and the information on occurrence of power interruption is cleared (S109). Next, a power-return command for returning the sub-side control device to the gaming state at the time of power-off is transmitted (S110), and the used register is returned from the backup area 703a of the RAM 703 (S111). Further, it is confirmed whether or not the interrupt is permitted before the power is turned off (S112). If the interrupt is permitted (S112: Yes), the interrupt is permitted (S113), while the interrupt is prohibited when the power is turned off. If it is in the state (S112: No), the processing is returned to the address before the power is shut off while the interruption is prohibited.

  Next, normal processing will be described with reference to the flowchart of FIG. In this normal process, the main process of the game is executed. As an outline, each process of S201 to S207 is executed as a periodic process with a period of 4 ms, and the counter update process of S209 and S210 is executed in the remaining time.

  In the normal processing, first, output data such as a command updated in the previous processing is transmitted to each control device on the sub side (S201). Specifically, the presence / absence of winning detection information is determined, and if there is winning detection information, a winning ball payout command corresponding to the number of game balls acquired is transmitted to the payout launch control device 611. Further, a stop symbol command, a variation pattern command, a confirmation command, and the like are transmitted to the display control device 505 when the first symbol display device 81 displays the variation of the first symbol. In addition, after the start of the first symbol variation, each time normal processing is performed in the following order: variation pattern command → stop symbol command for left symbol column Z1 → stop symbol command for middle symbol column Z2 → stop symbol command for right symbol column Z3 The commands are transmitted one by one (that is, one every 4 ms), and the confirmation command is transmitted at the end of the fluctuation time.

  Next, each value of the variation type counters CS1 and CS2 is updated (S202). Specifically, the variation type counters CS1 and CS2 are incremented by 1, and are cleared to 0 when the counter values reach the maximum values (198 and 240 in this embodiment). Then, the update values of the variation type counters CS 1 and CS 2 are stored in the corresponding buffer area of the RAM 703. Further, the outlier counters CL, CM, and CR of the left symbol row Z1, the middle symbol row Z2, and the right symbol row Z3 are updated by the off symbol counter updating process (S203).

  Here, the off symbol counter update processing will be described with reference to FIG. First, it is determined whether or not it is the update time of the out symbol counter CL of the left symbol row Z1 (S301), and if it is the update time (S301: Yes), the out symbol counter CL of the left symbol row Z1 is updated (S303). . Next, if it is not the update time of the left symbol row Z1 (S301: No), it is determined whether it is the update time of the out symbol counter CM of the middle symbol row Z2 (S302), and if it is the update time (S302: Yes). ), The outlier symbol counter CM of the middle symbol row Z2 is updated (S304). Furthermore, if it is not the update time of the middle symbol row Z2 (S302: No), the update symbol counter CR of the right symbol row Z3 is updated because it is the update time of the right symbol row Z3 (S305).

  In updating outlier symbol counters CL, CM, and CR in each of the processes of S303 to S305, the value of the lower 3 bits of the R register is added to the previous counter value, and 20 is added when the addition result exceeds the maximum value. Subtraction is performed, and the result of the calculation is taken as the current value of the symbol counters CL, CM, CR. According to the update process of CL, CM, CR, the outlier counters CL, CM, CR of the left symbol row Z1, the middle symbol row Z2, and the right symbol row Z3 are sequentially updated one by one in one normal process. Therefore, the update times of the counter values do not overlap. Thus, every time the normal process is executed three times, the set symbol counters CL, CM, and CR are updated for one set.

  Thereafter, it is determined whether or not the combination of the updated off symbol counters CL, CM, and CR is a jackpot symbol combination (S306). finish. If it is not a jackpot symbol combination (S306: No), it is determined whether or not it is a reach symbol combination (S307). If it is a reach symbol combination (S307: Yes), then it is a front-rear reach. It is determined whether or not there is (S308). If it is a combination of front and rear detach reach (S308: Yes), the combination of the detachment symbol counters CL, CM and CR at that time is stored in the front and rear detach reach symbol buffer of the RAM 703 (S309). If the detachment symbol counters CL, CM, CR are a combination of reach other than front / rear detachment (S308: No), the combination of the detachment symbol counters CL, CM, CR at that time is stored in the reach symbol buffer other than front / rear detachment in the RAM 703 (S310). ). If the combination of outlier symbol counters CL, CM, CR is not a combination of jackpot symbol (S306: No) and not a combination of reach symbols (S307: No), the combination of outlier symbol counters CL, CM, CR is a reach symbol. In such a case, the combination of the off symbol counters CL, CM, CR is stored in the complete off symbol buffer of the RAM 703 (S311).

  After completion of the off symbol counter CL, CM, CR update process (S203), the process returns to the normal process of FIG. A first symbol variation process for performing variation display of the first symbol by the one symbol display device 81 is executed (S205). By this first symbol variation process, jackpot determination, variation setting of the first symbol, and the like are performed. Details of the first symbol variation process will be described later with reference to FIG.

  After the end of the first symbol variation process, a large opening opening / closing process for opening or closing the specific winning opening (large opening) 65a of the variable winning device 32 is executed in the case of the big win state (S206). That is, the specific winning opening 65a is opened for each round of the big hit state, and it is determined whether the maximum opening time of the specific winning opening 65a has elapsed or whether a predetermined number of game balls have been won in the specific winning opening 65a. When any of these conditions is met, the specific winning opening 65a is closed. At this time, the specific winning opening 65a is allowed to be continuously opened on condition that the game ball has passed the specific area, and this is repeatedly executed for a predetermined number of rounds.

  Next, display control of the second symbol (for example, “◯” or “x” symbol) by the second symbol display device 82 is executed (S207). Briefly, on the condition that the game ball has passed through the second entrance (through gate) 67, the value of the second symbol random number counter C4 is acquired at the timing of passing and the second symbol display device 82. In the display unit 83, the second symbol variation display is performed. Then, the lottery of the second symbol is carried out based on the value of the second symbol random number counter C4, and when the winning state of the second symbol is reached, the electric accessory attached to the first entrance 64 is released for a predetermined time. Although not shown, the second symbol random number counter C4 is also updated by the timer interrupt process shown in FIG. 51, like the jackpot random number counter C1, the jackpot symbol counter C2, and the reach random number counter C3.

  Thereafter, it is determined whether or not the execution timing of the next normal process has been reached, that is, whether or not a predetermined time (4 ms in the present embodiment) has elapsed since the start of the previous normal process (S208). If (S208: Yes), the process proceeds to S201, and the processes after S201 described above are repeatedly executed.

  On the other hand, if the predetermined time has not yet elapsed from the start of the previous normal processing (S208: No), the random number initial is within the remaining time until the predetermined time is reached, that is, until the next normal processing execution timing. The value counter CINI and the variation type counters CS1 and CS2 are repeatedly updated (S209, S210). First, the random number initial value counter CINI is updated (S209). Specifically, the random number initial value counter CINI is incremented by 1 and cleared to 0 when the counter value reaches the maximum value (676 in this embodiment). Then, the update value of the random number initial value counter CINI is stored in the corresponding buffer area of the RAM 703. Next, the fluctuation type counters CS1 and CS2 are updated (S210). Specifically, the variation type counters CS1 and CS2 are incremented by 1, and are cleared to 0 when the counter values reach the maximum values (198 and 240 in this embodiment). Then, the update values of the variation type counters CS 1 and CS 2 are stored in the corresponding buffer area of the RAM 703.

  Here, since the execution time of each process of S201-S207 changes according to the state of the game, the remaining time until the next normal process execution timing is not constant and varies. Therefore, it is possible to update the random number initial value counter CINI (that is, the initial value of the big hit random number counter C1) at random by repeatedly executing the update of the random number initial value counter CINI using the remaining time. The variation type counters CS1 and CS2 can also be updated at random.

  Next, the first symbol variation process (S205) will be described with reference to the flowcharts of FIGS. In the first symbol variation process, first, it is determined whether or not a big hit is currently being made (S401). The jackpot includes the jackpot game displayed on the first symbol display device 81 in the jackpot and the middle of a predetermined time after the jackpot game ends. As a result of the determination, if it is a big hit (S401: Yes), this processing is terminated as it is.

  If it is not a big hit (S401: No), it is determined whether or not the first symbol display device 81 is displaying the variation of the first symbol (S402). No), it is determined whether or not the number N of actuated balls of the first symbol display device 81 is greater than 0 (S403). If the number N of active suspension balls is 0 (S403: No), this process is ended as it is. If the number of the operation holding balls N> 0 (S403: Yes), the operation holding ball number N is decremented by 1 (S404), and the data stored in the holding ball storage area is shifted (S405). This data shift process is a process of sequentially shifting the data stored in the reserved first to fourth areas of the reserved ball storage area to the execution area side, and the reserved first area → execution area, reserved second area → The data in each area is shifted such as the first hold area, the third hold area → the second hold area, the fourth hold area → the third hold area. After the data shift process, the first symbol variation start process is executed (S406). The variation start process will be described later with reference to FIG.

  In the process of S402, when the variation of the first symbol is being displayed (S402: Yes), it is determined whether or not the variation time has elapsed (S407). The variation time of the first symbol is determined according to the variation pattern of the first symbol, and the execution of the process of S408 is skipped until the variation time has elapsed (S407: No). On the other hand, if the fluctuation time of the first symbol elapses (S407: Yes), the confirmation command set for the confirmation of the stop symbol is set (S408), and this process is terminated.

  Next, the variation start process will be described with reference to the flowchart of FIG. In the fluctuation start process (S406), first, it is determined whether or not a big hit is made based on the value of the big hit random number counter C1 stored in the execution area of the reserved ball storage area (S501). Whether or not the jackpot is determined is based on the relationship between the jackpot random number counter value and the mode at that time. As described above, “337,673” is a winning value among the numerical values 0 to 676 of the jackpot random number counter C1 at the normal low probability, and “67, 131, 199, 269, 337, 401, 463, 523” at the high probability. “601, 661” is the winning value.

  When it is determined that the game is a big hit (S501: Yes), the symbol corresponding to the value of the jackpot symbol counter C2 stored in the execution area of the reserved ball storage area, that is, the jackpot symbol is the value of the jackpot symbol counter C2 and the symbol. The symbol is obtained based on a table (not shown) representing the corresponding relationship, and the symbol is set as a stop symbol command (S502). At this time, the numbers 0 to 49 of the jackpot symbol counter C2 correspond to any of the 50 jackpot symbols on all five active lines, and any one of the 50 jackpot symbols is set in the stop symbol command. Is done. Among these jackpot symbols, when a predetermined specific symbol (in this embodiment, an odd-numbered main symbol) is arranged, the process proceeds to a probabilistic state, but a symbol that is not a specific symbol (in this embodiment, even number) When the numbers are aligned with the main symbols), the state does not shift to the probability variation state.

  Next, the variation pattern of the first symbol until it stops at the jackpot symbol is determined, and the variation pattern is set in the variation pattern command (S503). At this time, the values of the variation type counters CS1 and CS2 stored in the counter buffer of the RAM 703 are checked, and the reach type such as normal reach, super reach, premium reach, and other rough types are determined based on the value of the first variation type counter CS1. And the elapsed time until the final stop symbol (in this embodiment, middle symbol Z2) stops after occurrence of reach based on the value of the second variation type counter CS2 (in other words, the number of variable symbols) ) Etc. to determine a finer pattern variation mode. The relationship between the numerical value of the first variation type counter CS1 and the reach pattern and the relationship between the numerical value of the second variation type counter CS2 and the stop symbol time are respectively defined in advance by a table or the like. However, the variation pattern can be set using only the value of the first variation type counter CS1 without using the value of the second variation type counter CS2. Whether to set the pattern or to set the pattern with both values of both variation type counters CS1 and CS2 is appropriately determined according to the value of the first variation type counter CS1 and the game conditions each time. The same applies to the setting of the fluctuation pattern in the case of performing front / rear out of reach display, reach display other than front / rear out, and complete out of display described later.

  If it is determined in step S501 that the game is not a big hit (S501: No), it is determined whether or not a reach has occurred based on the value of the reach random number counter C3 stored in the execution area of the reserved ball storage area ( If a reach has occurred (S504: Yes), it is also determined whether or not the front / rear reach has been reached based on the value of the reach random number counter C3 (S505). In the present embodiment, the value of the reach random number counter C3 is any one of 0 to 238, of which “0, 1” corresponds to the out-of-front reach and “2-21” corresponds to the reach other than the back-and-forth out- “22 to 238” corresponds to no reach (complete detachment).

  When front / rear out of reach has occurred (S505: Yes), the left, middle, and right out of symbol counters CL, CM, CR stored in the front / rear out of reach design buffer of the RAM 703 are set as stop symbol commands ( S506). In addition, a variation pattern for displaying the front / rear out of reach is determined, and the variation pattern is set in the variation pattern command (S507). At this time, similarly to the processing of S503, the values of the variation type counters CS1 and CS2 stored in the counter buffer of the RAM 703 are checked, and the normal reach, super reach, and premium reach are determined based on the value of the first variation type counter CS1. The reach type (such as the middle symbol in the present embodiment) is stopped after the occurrence of the reach based on the value of the second variation type counter CS2 In other words, a more detailed symbol variation mode such as the number of variation symbols) is determined.

  When a reach other than front / rear out is generated (S505: No), each value of left, middle and right out of symbol counters CL, CM, CR stored in the reach symbol buffer other than front / rear out of RAM 703 is set as a stop symbol command. (S508). Further, a variation pattern for reach display other than front / rear deviation is determined, and the variation pattern is set in a variation pattern command (S509). At this time, the variation pattern is determined based on the values of the variation type counters CS1 and CS2 stored in the counter buffer of the RAM 703, as in the process of S503.

  If neither big hit nor reach (S501: No, S504: No), the left, middle, and right out symbol counters CL, CM, and CR stored in the complete out symbol buffer of the RAM 703 are stopped. The symbol command is set (S510). Also, a variation pattern for complete out-of-range display is determined, and the variation pattern is set as a variation pattern command (S511). At this time, the variation pattern is determined based on the values of the variation type counters CS1 and CS2 stored in the counter buffer of the RAM 703, as in the process of S503. As described above, when the setting of the stop symbol command and the variation pattern command is completed in any of the big hit, the reach occurrence, and the non-reach occurrence, this processing is ended.

  Next, with reference to FIG. 54, payout and launch control executed by the MPU 711 in the payout launch control device 611 will be described. FIG. 54 is a flowchart showing a main process of the payout / discharge control device 611, and this main process is started by a reset at power-on.

  First, initial setting processing accompanying power-on is executed (S901). Specifically, a predetermined value set in advance is set in the stack pointer, and an interrupt mode is set. Next, it waits for reception of the payout permission command transmitted from the main controller 561 (S902: No). When a payout permission command is received (S902: Yes), RAM access is permitted (S903), and an external interrupt vector is set (S904).

  Thereafter, data backup processing is executed for the RAM 713 in the MPU 711. Specifically, it is determined whether or not the RAM erase switch 623 provided in the power supply device 612 is pressed (S905). If it is turned on (S905: Yes), the backup data is cleared (erased). The process proceeds to S915. On the other hand, if the RAM erasure switch 623 is not turned on (S905: No), it is further determined whether or not the power interruption occurrence information is stored in the backup area 713a of the RAM 713 (S906). (S906: No), since the backup data is not stored, in this case as well, the process proceeds to S915. If the occurrence information of power shutdown is stored in the backup area 713a (S906: Yes), the RAM judgment value is calculated (S907), and the calculated RAM judgment value is not normal (S908: No), that is, calculated. If the RAM determination value does not match the RAM determination value stored when the power is shut off, the backed up data has been destroyed. In such a case as well, the process proceeds to S915. As described above, the RAM determination value is a checksum value at a work area address of the RAM 713, for example. Instead of the RAM determination value, the validity of the backup may be determined based on whether or not the keyword written in a predetermined area of the RAM 713 is correctly stored.

  In the RAM initialization process from S915, the used area of the RAM 713 is cleared to 0 (S915), and the initial value of the RAM 713 is set (S916). Thereafter, the MPU 711 peripheral device is initialized (S917), an interrupt is permitted (S918), and the process proceeds to a payout launch control process described later.

  On the other hand, if the RAM erase switch 623 has not been pressed (S905: No), the occurrence information of the power shutdown has been set (S906: Yes), and the RAM judgment value (checksum value etc.) is normal ( S908: Yes), processing at power recovery (processing at power-off restoration) is executed. That is, the stack pointer at the time of power shutdown is restored (S909), and the information on occurrence of power shutdown is cleared (S910). The MPU 711 peripheral device is initialized (S911), and the used register is restored from the backup area 713a of the RAM 713 (S912). Further, it is confirmed whether or not the interrupt is permitted before the power is turned off (S913). If the interrupt is permitted (S913: Yes), the interrupt is permitted (S914), while the interrupt is prohibited when the power is turned off. If it is in the state (S913: No), the processing is returned to the address before the power is shut off while the interruption is prohibited.

  Next, with reference to the flowchart of FIG. 55, the payout / emission control process will be described. This payout launch control process is executed following the main process of the payout launch control device 611. In the payout launch control process, first, a command from the main control device 561 is acquired, and the total number of prize balls is stored (S1001). Next, the touch control of the operation handle and the state of the rotation amount are detected, and a firing control process for exciting the firing solenoid 92 and the electromagnet 104 as necessary is performed (S1002). Next, as a result of checking the state return switch 621, when it is determined that the state return operation starts, the state return operation is executed (S1003).

  Thereafter, the setting of the lower plate full state or the lower plate full state is executed according to the change in the state of the lower plate 301 (S1004). That is, when the lower pan 301 is detected based on the detection signal of the lower pan full switch, the lower pan full state is set when the lower pan is full, and when the lower pan full is not reached. , Set the lower pan full release state. Further, the setting of the tank ball absence state or the tank ball absence release state is executed according to the change in the state of the tank ball (S1005). In other words, the tank ball no switch state is determined based on the detection signal of the tank ball no switch, and when there is no tank ball, the setting of the tank ball no state is executed. Perform configuration. Thereafter, the presence / absence of the state to be notified is determined, and if there is a state to be notified, the 7-segment LED provided in the payout launch control device 611 is notified (S1006).

  Next, prize ball payout processing is executed by each processing of S1007 to S1009. That is, if the prize ball is not paid out and the total number of prize balls stored in the process of S1001 is not 0 (S1007: No, S1008: No), the prize ball control process shown in FIG. 56 is started (S1009). . On the other hand, if the prize ball cannot be paid out (S1007: Yes) or if the total number of prize balls is 0 (S1008: Yes), the process proceeds to the lending and payout process. The prize ball control process will be described later.

  In the rental ball payout processing of S1010 to S1012, if the ball payout is not possible and a loan ball payout request is received from the card unit (S1010: No, S1011: Yes), the ball rental shown in FIG. Control processing is started. On the other hand, if the rental ball cannot be dispensed (S1010: Yes) or if a rental ball dispensing request has not been received (S1011: No), the subsequent ball removal process is executed (S1013). The ball rental control process will be described later.

  In the ball removal process (S1013), the state return switch 621 is checked to execute the ball removal process by driving the dispensing motor 658a on the condition that the ball removal disabled state is not set and the ball removal operation is not started. Subsequently, the control of vibrator 660 (vibrating motor control) is executed on the condition that the ball is clogged (S1014). Thereafter, the process returns to the top of the payout / release control process, and thereafter, the process described above is repeated.

  Next, the prize ball control process shown in FIG. 56 will be described. In the winning ball control process, firstly, the payout motor 658a is driven to rotate in the forward direction to pay out the winning ball (S1101). Whether the rotation of the payout motor 658a is normal is determined based on the detection result of the payout rotation sensor (S1102). If not normal (S1102: No), the payout motor 658a is driven to execute a retry process and the payout motor 658a. The stop process is executed (S1103), and then the process returns to the payout launch control process of FIG.

  If the rotation of the payout motor 658a is normal (S1102: Yes), it is determined from the detection result of the payout count switch whether or not the game ball is normally counted (S1104). If the game ball count is not normal (S1104: No), the payout motor 658a is driven to execute a retry process and the payout motor 658a is stopped (S1105). Return to.

  Further, if the game ball count is normal (S1104: Yes), it is determined whether or not the game ball count by the payout count switch has reached the total number of prize balls and the payout is completed (S1106). If completed (S1106: Yes), a stop process of the payout motor 658a is executed (S1107), and then the process returns to the payout launch control process of FIG. On the other hand, if the payout has not been completed (S1106: No), the process returns to the payout launch control process of FIG.

  The lending control process shown in FIG. 57 will be described. In the ball lending control process, first, the payout motor 658a is driven to rotate in the reverse direction to pay out a lending ball (S1201). Whether the rotation of the payout motor 658a is normal or not is determined based on the detection result of the payout rotation sensor (S1202). The stop process is executed (S1203), and then the process returns to the payout launch control process of FIG.

  If the rotation of the payout motor 658a is normal (S1202: Yes), it is determined from the detection result of the payout count switch whether or not the game ball is normally counted (S1204). If the game ball count is not normal (S1204: No), the payout motor 658a is driven to execute a retry process, and the payout motor 658a is stopped (S1205). Return to.

  Further, if the game ball count is normal (S1204: Yes), it is determined whether or not the game ball count by the payout count switch has reached a predetermined number (25) and the payout is completed ( If the payout has been completed (S1206: Yes), the payout motor 658a is stopped (S1207), and the process returns to the payout launch control process of FIG. On the other hand, if the payout has not been completed (S1206: No), the process returns to the payout launch control process of FIG.

  Next, a main process executed by the MPU 721 in the display control apparatus 505 will be described with reference to FIG. FIG. 58 is a flowchart showing main processing executed by the MPU 721 in the display control apparatus 505.

  The main processing of the display control device 505 is executed by supplying a drive voltage from the power supply device 612. First, each processing is executed (S1300). In each process, the operation of the pachinko machine 10 such as the process of making the apparatus operable when the reception of the operation permission command is confirmed and confirming the reception, the sound output of the speaker by the sound lamp control device 562, the lighting of the lamp, etc. Processing, processing for displaying a display symbol by the first symbol display device 81 and the second symbol display device 82, and the like are performed.

  When each processing is completed, it is confirmed whether or not the main board removal signal SG4 is input from the main board removal detection circuit 706 (S1301). If the main board removal signal SG4 is not input (S1301: No) ), The process returns to the process of S1300, and each process is repeatedly executed. If the main board removal signal SG4 is input (S1301: Yes), it is determined that the main board 582 on which the main controller 561 is mounted has been removed. Is notified (S1302), and the main process is terminated.

  In the notification process, the voice lamp control device 562 is instructed to notify that the main control device 561 has been removed. When the sound lamp control device 562 receives an instruction from the display control device 505, the sound lamp control device 562 notifies the error display lamp 206. The first symbol display device 81 may display a symbol or a character that recognizes that the main control device 562 has been removed. Even when the main control device 561 is removed, the display control device 505, the main control device 561, and the payout launch control device continue to perform each control, so that the notification by the error display lamp 206 can be reliably performed. it can.

  As described above, in the pachinko machine 10 according to the present embodiment, when the main controller 561 is removed, an output is made from the Q2 terminal of the flip-flop circuit 762, and after that, when the drive voltage is supplied again, the flip-flop circuit 770. Output from the Q1 terminal, and as a result, the fuse 776 is electrically disconnected. When the fuse 776 is electrically cut off, the display device 560 is turned on to notify. Therefore, it can be surely notified that main controller 561 has been removed. When main controller 561 is removed, there is a possibility that legitimate MPU 701 (ROM 702) has been replaced with an unauthorized one. The pachinko hall will suffer a great loss. However, in the pachinko machine 10 according to the present embodiment, since it is possible to reliably notify that the main control device 561 has been removed, it is possible to reduce the loss of the pachinko hall. In addition, since the fuse 776 is configured so as not to be restored and the display device 560 continuously performs notification unless it is replaced, it is possible to reliably notify that the main control device 561 has been removed.

  Further, the main board 582 is covered with the board box 563, and each voltage is supplied by inserting the plug connector 584 into the connector 580 exposed to the outside of the board box 563 through the opening 563a of the board box 563. It is supplied to the control device 561. Further, the insertion connector 584 has a convex portion 586a, and the total length a of the insertion connector 584 is longer than the linear distance b of the opening 563a (see FIG. 31). In the state of being inserted into the convex portion 586, the convex portion 586a and the outer edge of the opening 563a overlap each other when viewed in the direction of arrow E. Therefore, when the cheating person tries to open the board box 563 in order to cheat the main control device 561, the convex portion 586a of the plug-in connector 584 becomes an obstacle. 584 is removed. When the plug-in connector 584 is removed from the connector, the supply of each voltage to the main control device 561 is cut off, so that the supply of the backup voltage to the Vbb terminals of the flip-flop circuits 762 and 770 is cut off. After that, when the main control device 561 is attached to the pachinko machine 10 and each voltage is supplied, the output state of the flip-flop circuits 762 and 770 is changed and notification is performed by the display device 560 and the error display lamp 206. It is possible to accurately determine that the control device 561 may have been cheated.

  Further, when the main controller 561 is removed and an output is made from the Q2 terminal of the flip-flop circuit 762, the error display lamp 206 notifies the main controller 561 before the fuse 776 is electrically cut off. It is possible to notify the outside that 561 has been removed. Therefore, when a specific person removes the main control device 561 due to repair or the like and the power is supplied without operating the reset switch 559, the user can be prompted to operate the reset switch 559.

  Next, a second embodiment will be described with reference to FIG. FIG. 60 is an electric circuit diagram schematically illustrating an electrical connection state of the main control device 561, the power supply device 612, and the main board removal detection circuit 706 according to the second embodiment. In addition, the same code | symbol is attached | subjected to the part same as 1st Embodiment, and the description is abbreviate | omitted.

  As shown in FIG. 60, the main board removal detection circuit 706 of the second embodiment is mounted on a main board removal detection board 764 which is a different board from the main board 582 of the main controller 561. The drive voltage and the backup voltage are supplied to the main board removal detection board 764 via the power relay port 765 of the main controller 561. The connection between the main board removal detection board 764 and the main board 582 and the connection between the power supply device 612 and the main board 582 are the same as the configuration in which the connector 580 and the plug-in connector 584 are connected through the opening 563a. When an unauthorized person attempts to open the board box 563, a connector for connecting the main controller 561 and the power supply 612, the main controller 561, and the main board removal are configured. Both connections with the connector that connects the outer detection board 764 are released, and the supply of each voltage to the main board removal detection board 764 is cut off. Therefore, it is possible to accurately determine that there is a possibility that an illegal act has been performed on the main board 582. Further, since each voltage to the main board removal detection board 764 is cut off only by disconnecting one of the connectors, a more accurate determination can be made.

  As described above, when the main control device 561 is removed, the supply of the backup voltage of the flip-flop circuit 762 is cut off as in the first embodiment, so that the drive voltage is supplied and the flip-flop is supplied. When the clock signal SG3 is input to the CK terminal of the flip-flop circuit 762, output is performed from the Q2 terminal of the flip-flop circuit 762. After that, when the drive voltage is supplied again, output is performed from the Q1 terminal of the flip-flop circuit 770. As a result, the fuse 776 is electrically cut off and the display device 560 is turned on. Therefore, the same effects as those of the first embodiment are obtained.

  In the second embodiment, since the main board removal detection circuit 706 and the main board 582 are separate boards, the main board removal detection circuit 706 is difficult to see in the back view of the pachinko machine 10. It can also be arranged. In this configuration, since it is possible to reduce the presence of the main board removal detection circuit 706 by a person who performs an illegal act, it is possible to reliably notify when an illegal act is performed.

  Next, a third embodiment will be described with reference to FIG. FIG. 61 is an electric circuit diagram schematically illustrating an electrical connection state between the main control device 561 and the power supply device 612 according to the third embodiment. In addition, the same code | symbol is attached | subjected to the part same as 1st Embodiment, and the description is abbreviate | omitted.

  In the third embodiment, the reset switch 559 operated to change the output states of the Q1 terminal and the Q2 terminal of the flip-flop circuit 762 (the Q1 terminal is set to the H level and the Q2 terminal is set to the L level). Instead, the output state of the flip-flop circuit 762 changes when the RAM erase switch 623 is operated. Therefore, the RAM erase switch circuit 743 of the power supply device 612 and the A terminal of the OR circuit 763 are connected, and a signal is input to the D terminal of the flip-flop circuit 762 when the RAM erase switch 623 is operated.

  In the third embodiment, an OR circuit 777 is provided. Since the RAM erase switch 623 is operated to erase the storage in the backup areas 703a and 713a of the RAMs 703 and 713, it is necessary to output the RAM erase signal SG2 to the main controller 561 and the payout / release controller 611. Therefore, the RAM erase switch circuit 743 is connected to the B terminal of the OR circuit 766, and the Y terminal of the OR circuit 766 is connected to the input / output port 705. When the RAM erase switch 623 is operated, the input / output port is operated. A RAM erase signal SG2 is input to each of the control devices 561 and 611 via 705.

  Further, when the main circuit board removal signal SG4 is output from the OR circuit 771, the backup voltage supplied to the main controller 561 is cut off, so that the failure of the power supply device 612 or the backup voltage supply path Vbb. It is conceivable that the wire breaks or the main controller 561 is removed. Therefore, since an abnormality has occurred in the pachinko machine 10, the pachinko machine 10 may not be able to perform normal control. Therefore, in order to prevent malfunction of the pachinko machine 10, the Y terminal of the OR circuit 771 and the A terminal of the OR circuit 777 are connected to erase the memory in the backup areas 703a and 713a.

  As described above, in the third embodiment, since the RAM erase switch 623 can change the output state of the flip-flop circuit 762 to cancel the notification by the error display lamp 206, it is necessary to newly provide a reset switch. There is no need to change the design of each board box. Therefore, it is possible to prevent the manufacturing cost of the pachinko machine 10 from increasing.

  When the main controller 561 is removed, the supply of the backup voltage of the flip-flop circuit 762 is cut off as in the first embodiment, so that an output is made from the Q2 terminal of the flip-flop circuit 762. The After that, when the drive voltage is supplied again, an output is made from the Q1 terminal of the flip-flop circuit 770. As a result, the fuse 776 is cut off and the display device 560 is turned on. Therefore, the same effects as those of the first embodiment are obtained.

  In the third embodiment, the main board removal detection circuit 706 is mounted on the main board 582 of the main controller 561. However, as in the second embodiment, the main board removal detection board is provided. The main board removal detection circuit 706 may be mounted on 764.

  Next, a fourth embodiment will be described with reference to FIG. FIG. 62 is an electric circuit diagram schematically showing an electrical connection state between the main control device 561 and the power supply device 612 according to the fourth embodiment. In addition, the same code | symbol is attached | subjected to the part same as 1st Embodiment, and the description is abbreviate | omitted.

  In the fourth embodiment, a plurality of flip-flop circuits 770 are provided. The Q2 terminal of the flip-flop circuit 762 is connected to the D terminal of the flip-flop circuit 770A, and the Q1 terminal of the flip-flop circuit 770A is connected to the D terminal of the flip-flop circuit 770B (not shown). That is, the Q1 terminal of the flip-flop circuit 770 and the D terminal of the adjacent flip-flop circuit 770 are connected in series by the number of flip-flop circuits 770.

  The Q2 terminal of the flip-flop circuit 762 and each Q1 terminal of the flip-flop circuit 770 are connected to any one of the B terminal to the Z terminal of the AND circuit 780. As the AND circuit 780, an AND circuit 770 having input terminals corresponding to the number of the flip-flop circuits 762 and the flip-flop circuits 770 is selected.

  As described in the first embodiment, after the main controller 561 is removed and output is made from the Q2 terminal of the flip-flop circuit 762, the drive voltage is supplied and the clock signal SG3 is inputted to the CK terminal. Is output from the Q1 terminal of the flip-flop circuit 770A. Further, when the drive voltage is supplied again, an output is made from the Q1 terminal of the adjacent flip-flop circuit 770B. That is, when the driving voltage corresponding to the number of flip-flop circuits 770 is supplied after the output from the Q2 terminal of the flip-flop circuits 762, the Q1 terminals of all the flip-flop circuits 770 become H level. The fuse 776 is electrically cut off, and the display device 560 is turned on.

  Therefore, according to the fourth embodiment, by changing the number of flip-flop circuits 770, it is possible to easily change the number of times the drive voltage is supplied and the notification by the display device 560. For example, when the operation procedure for repairing the main control device 561 is determined and a drive voltage is supplied a predetermined number of times, a flip-flop circuit 770 corresponding to the predetermined number of times may be provided. With this configuration, since the fuse 776 is not electrically disconnected without operating the reset switch 559 every time, smooth repair can be performed.

  When the main controller 561 is removed, the supply of the backup voltage of the flip-flop circuit 762 is cut off as in the first embodiment, so that an output is made from the Q2 terminal of the flip-flop circuit 762. The Thereafter, when the driving voltage is supplied again a predetermined number of times, the Q1 terminal of each flip-flop circuit 770 becomes H level, and as a result, the fuse 776 is electrically cut off and the display device 560 is turned on. Therefore, the same effects as those of the first embodiment are obtained.

  The present invention has been described above based on one embodiment. However, the present invention is not limited to the above embodiment, and various modifications and improvements can be easily made without departing from the spirit of the present invention. Can be inferred.

  For example, in the first embodiment, the reset switch 559 is provided in the board box 563, but the reset switch 559 may be provided in a place that is difficult to see in the back view of the pachinko machine 10. In this configuration, even if the existence of the reset switch 559 is known, the arrangement position cannot be visually recognized. Therefore, it takes time to search for the reset switch 559. Therefore, since it takes time to replace an illegal ROM or to attach a device that generates an illegal jackpot, it is possible to prevent an illegal act from being performed.

  In each of the above embodiments, when the main control device 561 is removed for notification, the error display lamp 206 is notified by the instruction of the audio lamp control device 562. However, the Q2 of the flip-flop circuit 762 is used. Notification may be performed by connecting a light emitting diode to the terminal.

  Further, in each of the above embodiments, when the fuse 776 is cut off, the display device 560 is turned on for notification, but notification based on the main board removal signal SG4 output from the Y terminal of the OR circuit 771. Just as good. Since the fuse 776 is configured so as not to be restored once it is cut off, the main board removal signal SG4 can be continuously output, and reliable notification can be performed.

  In each of the above embodiments, the notification by the display device 560 is changed from the off state to the on state of the LED, but may be changed from the off state to the blinking state. It may be changed. In other words, the state change may be any change as long as the change can be known to the outside.

  Further, in each of the above embodiments, the clock signal SG3 is transmitted from the MPU 701. However, when a predetermined time elapses after the power supply device 612 is connected to the CK terminal and the power supply device 612 supplies the drive voltage, the clock signal SG3 is transmitted. The signal SG3 may be transmitted. In this configuration, since the clock signal SG3 can be transmitted from the power supply device 612, the clock signal SG3 can be reliably transmitted after the supply of the drive voltage is completed. Accordingly, since the clock signal SG3 can be prevented from being input to the CK terminal before the flip-flops 762 and 770 rise, output corresponding to the input of the D terminal can be accurately performed.

  In each of the above embodiments, the output state of the CPU 762 is configured by combining the H level output and the L level output that are output from one output terminal. And a state in which no signal is output) may be combined. Further, the outputs of a plurality of output terminals may be combined to constitute an H level state and an L level state, or the outputs of a plurality of output terminals may be combined to constitute an on state and an off state. . Furthermore, the output state may be configured by combining H level and L level with on and off.

  Further, as shown in the above embodiment, the variable display, which is a kind of dynamic display, is not limited to the one that scrolls the symbol as identification information in the vertical direction on the display screen of the first symbol display device 81, It may be performed by moving and displaying symbols along a predetermined route such as a horizontal direction or an L shape. In addition, the dynamic display of the identification information is not limited to the display of variation of the symbol. For example, one or a plurality of characters may be displayed in various manners together with the symbol or displayed in a variety of manners separately from the symbol. The effect display etc. which are displayed are also included. In this case, one or more characters are used as identification information together with the symbols or separately from the symbols.

  You may implement this invention in the pachinko machine etc. of a type different from the said embodiment. For example, the present invention may be applied to a so-called second type pachinko gaming machine having a winning device having a special area such as a V zone. Further, in addition to the pachinko machine, the game machine may be implemented as another game machine such as an alepacchi or a sparrow ball.

  You may implement this invention in the pachinko machine etc. of a type different from the said embodiment. For example, once a big hit, a pachinko machine that raises the expected value of the big hit until a big hit state occurs (for example, two times or three times) including that (for example, a two-time right item, a three-time right item) May also be implemented. Further, after the jackpot symbol is displayed, it may be implemented as a pachinko machine that generates a special game that gives a player a predetermined game value on the condition that a ball is won in a predetermined area. Further, the present invention may be implemented in a pachinko machine that has a special area such as a V-zone and has a special gaming state as a necessary condition for winning a ball in the special area. Further, in addition to the pachinko machine, the game machine may be implemented as various game machines such as an alepatchi, a sparrow ball, a slot machine, a game machine in which a so-called pachinko machine and a slot machine are integrated.

  In the slot machine, for example, a symbol is changed by operating a control lever in a state where a symbol effective line is determined by inserting coins, and a symbol is stopped and confirmed by operating a stop button. Is. Accordingly, the basic concept of the slot machine is that it is provided with a display device for confirming and displaying the identification information after variably displaying the identification information string composed of a plurality of identification information, and resulting from the operation of the starting operation means (for example, the operation lever). The variation display of the identification information is started, and the variation display of the identification information is stopped and fixedly displayed due to the operation of the operation means for stop (for example, the stop button) or when a predetermined time elapses. It is a slot machine that generates a special game that gives a player a predetermined game value on the condition that the combination of identification information at the time is a specific condition. In this case, the game medium is typically a coin, medal, etc. Take as an example.

  In addition, as a specific example of a gaming machine in which a pachinko machine and a slot machine are fused, a display device is provided that displays a symbol after a symbol string composed of a plurality of symbols is variably displayed, and has a handle for launching a ball. What is not. In this case, after throwing a predetermined amount of spheres based on a predetermined operation (button operation), for example, the change of the symbol is started due to the operation of the operation lever, for example, due to the operation of the stop button, or With the passage of time, the variation of the symbol is stopped, and a special game that gives a predetermined game value to the player is generated on the condition that the determined symbol at the time of stoppage is a so-called jackpot symbol. In this case, a large amount of balls are paid out to the lower tray.

  Below, the gaming machine and the modification of the present invention are shown. A board that controls the game and is equipped with a connector for electrical connection with other devices, and supplies the drive voltage necessary for the progress of the game, including the main board, to each part of the gaming machine A main power supply unit, a sub power supply unit capable of supplying a drive voltage to a part of the gaming machine even when the supply of the drive voltage by the main power supply unit is cut off, and at least the main board for the sub power supply unit A power input part to which a drive voltage is supplied by being electrically connected via a connector mounted on the first power supply, and a first input part to which a signal is input at a timing when the supply of the drive voltage is started by the main power supply part; In addition to the first input unit, a signal corresponding to the input signal of the second input unit at a timing at which a signal is input to the first input unit, On condition that the drive voltage is supplied to A first signal switching circuit having a signal output unit that continuously outputs, wherein at least a part of the signal output unit and the second input unit are electrically connected, and a signal of the first signal switching circuit A state change member that is electrically connected to the output unit and whose state changes irreversibly on the basis of switching of the output signal of the signal output unit, and a drive voltage is supplied from the sub power supply unit to the power input unit If the first signal is output from the signal output unit and the supply of the drive voltage from the sub power supply unit to the power input unit is canceled after the output of the first signal, the signal output unit The gaming machine 1 is characterized in that the state of the state change member changes as a result of the output state being switched and the second signal being output.

  When this gaming machine is installed in the hall and starts business, a driving voltage is supplied from the main power supply unit to each part of the gaming machine. When the hall is closed, the supply of the drive voltage from the main power supply unit is cut off, but the drive voltage is supplied to the power input unit of the first signal switching circuit by the sub power supply unit. Therefore, in a state where the gaming machine is installed in the hall, the driving voltage is continuously supplied to the power input unit, so that the first signal is output from the signal output unit.

  According to the gaming machine 1, when a fraudster performs a fraudulent act (such as exchanging a fraudulent ROM), after disconnecting the connector, the main board is removed from the gaming machine and replaced with the fraudulent ROM. In some cases, the main board is attached to the gaming machine. If the electrical connection of the connector is released when an illegal act is performed, the supply of the drive voltage to the power input portion of the first signal switching circuit is interrupted. After that, when the main board is attached to the gaming machine, the driving voltage is supplied again, so that the second signal is output from the signal output unit.

  Therefore, when the connection of the connector is canceled by an unauthorized person, the signal output from the signal output unit of the first signal switching circuit is switched from the first signal to the second signal, and as a result, the state change member The state changes. Therefore, by checking the state of the state change member, it is possible to know a gaming machine that may have been cheated by a cheating person. By inspecting the main board of the gaming machine, it is easy to cheat. Can be found in.

  Further, since the state of the state change member changes irreversibly, the state is maintained when the main substrate is removed and the state of the state change member changes. Therefore, since it is possible to continuously notify the outside that there is a possibility that an illegal act has been performed, it is possible to make it easier to find a gaming machine in which an illegal act has been performed.

  In the gaming machine 1, the signal output unit of the first signal switching circuit may be electrically connected to at least one of a display unit that performs visual notification or an audio unit that performs audio notification. With this configuration, it is indicated that the main board may be removed from the gaming machine by changing the state of the display means or the state of the sound means according to the output state of the signal output unit. Can suggest. Further, one of the display means may be a lamp, the lamp may be changed from being turned off to being lit or blinking, and one of the display means may be a liquid crystal display device, and the display mode of the liquid crystal display device May be changed from a display based on a normal game to a display suggesting that the main board has been removed from the gaming machine. Also, one of the sound means may be a speaker, and the speaker may be changed from silent to a state in which sound is output. In this configuration, the state changes visually or audibly, so that it can be known with certainty that the main board may have been removed from the gaming machine, and the connector is removed and illegal actions are performed on the main board. Easily find gaming machines that may have been. Further, the lamp may be changed from being turned on or blinking to being turned off, and the state of the speaker may be changed from a state in which sound is output to silence. Furthermore, it is good also as what changes the state by operating the movable member with which shape change provided in the gaming machine is operated. It is also possible to check the output state by inspecting the signal output section of the first signal switching circuit with a tester or the like.

  Further, in the gaming machine 1, the first output and the second output output from the signal output unit are configured such that, when the signal output unit is configured by one output terminal, the one output terminal is H level (predetermined) Including an output state that outputs an L level (a signal that is equal to or higher than a level) or an L level (a signal that is equal to or lower than a predetermined level), and an output state that is ON (a state where a signal is output) or OFF (a state where no signal is output) . In other words, an off state in which no signal is output is also a signal output from the signal output unit. Further, when the signal output unit is constituted by a plurality of output terminals, the state of the plurality of output terminals includes an output state in which ON or OFF and an output of H level or L level are combined.

  Further, the state change member whose state changes irreversibly may be a conduction means that cuts off the conduction path when the current value of the drive voltage is equal to or greater than a predetermined value, or a measurement means that measures time. It is good also as what is comprised so that a conduction | electrical_connection path may be interrupted | blocked when predetermined time passes using the electronic component which has. Further, the first conduction means may be constituted by a general-purpose component fuse, or a known circuit protector that cuts off electrical conduction by a mechanical structure when the drive voltage is continuously supplied for a predetermined time. It is good also as what comprises, and it is good also as what consists of a conduction | electrical_connection member by which a conduction | electrical_connection state will be interrupted | blocked irreversibly when the plate-shaped or rod-shaped member which electrically conducts is cut off. Furthermore, it is good also as what has a member from which a color changes irreversibly when a conduction | electrical_connection state is interrupted | blocked. Since the state change member changes irreversibly, the gaming machine can be returned to the original state by replacement.

  In the gaming machine 1, the main board includes storage means for storing information associated with the progress of the game performed on the main board, and the supply of drive voltage by the main power supply unit is cut off in the storage means. The gaming machine 2 is characterized in that a drive voltage of the sub power supply unit is supplied to retain stored information even after the game.

  According to the gaming machine 2, when the supply of the drive voltage by the main power supply unit is cut off, the storage unit stores information before the drive voltage is cut off, so that the drive voltage by the main power supply unit is supplied again It is possible to return to the state before the drive voltage is cut off. Further, since the drive voltage is supplied to the storage means by the sub power supply unit, the power supply unit supplied to the storage unit and the control unit can be shared, and a new power supply unit is installed to hold the storage unit information. There is no need to prepare.

  In the gaming machine 1 or 2, the game machine 1 or 2 includes first conduction means that is cut off from an electrical conduction state when the driving voltage is continuously supplied for a predetermined time, and the first conduction means and the first signal switching circuit A second input unit is electrically connected, and the first signal switching circuit receives a signal from the first input unit in a state where a signal is input to the second input unit via the first conduction unit. The gaming machine 3 is configured to output a first signal from the signal output unit when input.

  According to the gaming machine 3, when the signal is input to the first input unit in a state where the signal through the first conduction means is input to the second input unit, the first signal switching circuit Since the first signal is output, the first signal can be output from the signal output unit for a predetermined time during which the electrical conduction state of the first conduction unit is interrupted. For example, assuming that the first signal is output from the signal output unit is a normal state, the normal state can be maintained while the first conduction unit is conducting. Therefore, if the first conduction means having a predetermined time longer than the time required for the inspection stage of the factory is used, a normal state can be maintained even if the main board is removed in the inspection stage. Therefore, since it is possible to reduce the change in the state of the state change member in the inspection stage, it is not necessary to replace the state change member every time the main board is removed, and work efficiency can be improved.

  The electrical continuity may be cut off by using a conduction means that cuts off the conduction path when the current value of the drive voltage becomes a predetermined value or more, or an electronic component having a measurement means for measuring time. It is good also as what is comprised so that a conduction | electrical_connection path | route may be interrupted | blocked when predetermined time passes using. Further, the first conduction means may be constituted by a general-purpose component fuse, or a known circuit protector that cuts off electrical conduction by a mechanical structure when the drive voltage is continuously supplied for a predetermined time. It is good also as what comprises, and it is good also as what consists of a conduction | electrical_connection member by which a conduction | electrical_connection state will be interrupted | blocked irreversibly when the plate-shaped or rod-shaped member which electrically conducts is cut off.

  In the gaming machine 3, the first conduction means is configured such that when the drive voltage is continuously supplied for a predetermined time and the electrical conduction state is cut off, the conduction state cannot be restored from the cutoff to the conduction state. A gaming machine 4 characterized by being.

  According to the gaming machine 4, the first conduction means is configured such that when the drive voltage is continuously supplied for a predetermined time and the electrical conduction state is cut off, the conduction state cannot be restored from the cutoff to the conduction. Therefore, after the conduction state of the first conduction means is cut off, the state of the state change member is reliably changed when the connection of the connector of the main board is released. Therefore, by providing the first conduction means, not only the work efficiency in the inspection stage of the factory is improved, but also whether or not the main board is removed after the conduction state of the first conduction means is cut off is accurately determined. can do.

  Any one of the gaming machines 1 to 4 includes switch means configured to be operable from the outside, and the switch means and the second input portion of the first signal switching circuit are electrically connected, and the first signal The switching circuit outputs a first signal from the signal output unit when a signal is input to the first input unit in a state where the switch means is operated to the second input unit and a signal is input. The gaming machine 5 is configured as described above.

  According to the gaming machine 5, when a driving voltage is supplied in a state where the switch means is operated, a signal is input to the first input unit while a signal is input to the second input unit, and the first signal switching circuit A first signal is output from the signal output unit. For example, assuming that the first signal is output from the signal output unit is normal, the switch means is operated even if the main board is removed and the second signal is output from the signal output unit. Can return to normal. In some cases, the main board may be removed at the inspection stage in the factory or at the repair of the gaming machine. In such a case, the second signal is output from the signal output unit and the state of the state change member changes. If the drive voltage is supplied while operating, the output from the signal output unit can be made the first signal, so that the state of the state change member can be prevented from changing. Therefore, it is not necessary to replace the state change member every time the main board is removed in the inspection stage or repair, and the work efficiency can be improved.

  It should be noted that the switch unit may be disposed at a location where visual recognition is difficult on the back surface of the gaming machine. In this configuration, since the switch means cannot be discovered at an early stage unless the structure of the gaming machine is known in detail, it is possible to prevent an unauthorized person from performing an unauthorized act.

  The switch means may be a push button type switch or a select type switch. In particular, in a select-type switch, a key switch that can be inserted and removed may be used. That is, as long as it has a configuration in which a signal is output when operated, its shape and structure are not limited.

  In the gaming machine 5, the switch means is constituted by a key receiving member having a key hole that can be rotated by a specific key member and into which the key member can be inserted and removed, and the key member is inserted into the key hole and rotated. Then, the gaming machine 6 is characterized in that a signal is inputted to the second input portion of the first signal switching circuit.

  According to the gaming machine 6, the switch means is constituted by a key receiving member having a key hole that can be rotated by a specific key member and that the key member can be inserted and removed. When a specific key member is inserted into the keyhole and rotated, a signal is input to the second input portion of the first signal switching circuit. Therefore, if the key member can be stored in a state where it is removed from the key receiving member, and the key member is stored only by a specific person (for example, a person concerned with a hall or a manufacturer), the switch means can be easily operated. It can reduce that the output state of an output part is changed.

  In the gaming machine 5 or 6, the main board includes storage means for storing information associated with the progress of a game performed on the main board, and the switch means is electrically connected to the main board, and the storage means A gaming machine 7, which is an initialization switch operated to initialize information stored in the game machine 7.

  According to the gaming machine 7, the switch means is composed of an initialization switch that initializes information stored in the storage means, so that the output state of the signal output unit of the first signal switching circuit is changed. The switch can also be used as a switch for initializing the storage information of the storage means. The initialization switch also has a role to release the abnormality when an abnormality occurs in a gaming machine, and is equipped with a general gaming machine. It is possible to reduce the increase. The storage means of the gaming machine 7 and the storage means of the gaming machine 2 may be the same.

  In any of the gaming machines 1 to 7, a first input / output circuit having a plurality of input terminals and an output terminal that outputs when a signal is input to at least one of the input terminals, and the drive voltage is predetermined A first conduction means for interrupting an electrical conduction state when supplied continuously for a period of time; and a switch means configured to be operable from the outside. The signal output section of the first signal switching circuit, one end of the first conduction means, and one end of the switch means are connected to each other, and the output terminal of the first input / output circuit is the second of the first signal switching circuit. The first signal switching circuit is connected to an input unit, and the signal is input to the first input unit in a state where a signal output from the output terminal of the first input / output circuit is input to the second input unit. From the signal output unit, the first Game machine 8, characterized in that it is configured to output a signal.

  According to the gaming machine 8, the signal output of the first signal switching circuit, one end of the first conduction means, and one end of the switch means are connected to the input terminal of the first input / output circuit, respectively, and the output terminal of the first input / output circuit. To the second input section of the first signal switching circuit. The first input / output circuit outputs from the output terminal when a signal is input to at least one input terminal. Therefore, when the first conduction means is electrically conducted, or when the switch means is operated. Output is performed from the output terminal. When a signal is input to the first input unit in a state in which a signal from the output terminal of the first input / output circuit is input to the second input unit, the first signal switching circuit receives a first signal from the signal output unit. Output a signal. Therefore, when the first signal is output from the signal output unit, if the signal is input to the input terminal of the first input / output circuit, the state in which the first signal is output from the signal output unit is maintained. can do. Therefore, since the first signal is output from the signal output unit until the connector on the main board is removed and the supply of the drive voltage is interrupted, the state of the state change member changes while the drive voltage is supplied. Can be prevented. Further, when the supply of the drive voltage is released, if the first conduction means is electrically conducted or the switch means is not operated, the second output from the signal output unit of the first signal switching circuit is performed. Since the signal is output, it is possible to accurately determine when there is a possibility that an illegal act has been performed. Note that the first conduction means of the gaming machine 3 and the first conduction means of the gaming machine 8 may be the same, and the switching means of the gaming machines 5 to 7 and the switching means of the gaming machine 8 are the same. It is good as a thing.

  In any one of the gaming machines 1 to 8, a first notification means that is electrically connected to the signal output unit of the first signal switching circuit and changes the mode according to the output state of the signal output unit and performs notification. A gaming machine 9 characterized by comprising.

  According to the gaming machine 9, the first notification means for performing notification by changing the mode according to the output state of the signal output unit of the first signal switching circuit is electrically connected to the signal output unit of the first signal switching circuit. Since it is connected, the output state of the first signal switching circuit can be known by the first notification means. Therefore, when a fraudulent act is performed, notification is performed by the first notification means, so that it is possible to discover that there is a possibility that the fraudulent act has been performed more accurately.

  A board that controls the game and is equipped with a connector for electrical connection with other devices, and supplies the drive voltage necessary for the progress of the game, including the main board, to each part of the gaming machine A main power supply unit and a sub power supply unit capable of supplying a drive voltage to a part of the gaming machine even when the supply of the drive voltage by the main power supply unit is cut off, and at least with respect to the sub power supply unit A power input portion that is electrically connected via a connector mounted on the main board and is supplied with a drive voltage, and a first signal that is input at a timing when the drive voltage is supplied by the main power source. A signal corresponding to an input signal of the second input unit at a timing at which a signal is input to the first input unit, a second input unit to which a signal is input separately from the input unit, and the first input unit; Driving voltage to the power input unit A gaming machine comprising a plurality of signal switching circuits having a signal output section that outputs continuously on condition of supply, wherein one signal switching circuit of the plurality of signal switching circuits includes its own signal output section and The other signal switching circuit other than the first signal switching circuit is electrically connected to the second input section of the self, and the signal output section of another signal switching circuit is connected in series to the second input section of the self. In addition, the other signal switching circuit is connected to the signal output unit of the last signal switching circuit connected farthest from the first signal switching circuit, and the output signal of the signal output unit is switched. As a necessary condition, a state change member whose state changes irreversibly is provided, and when a drive voltage is continuously supplied from the sub power supply unit to the power input unit, the first signal is output from the signal output unit of the last signal switching circuit. Output and its first signal After the output, the supply of the drive voltage from the sub power supply unit to the power input unit of the last signal switching circuit is released, and then the drive voltage from the main power supply unit is again supplied to the power input unit at least two times or more When the signal is supplied a number of times and a signal is input to the first input portion of the last signal switching circuit, the output state of the last signal switching circuit is switched, and a second signal is output to change the state of the state change member. A gaming machine 10 characterized by:

  When this gaming machine is installed in the hall and starts business, a driving voltage is supplied from the main power supply unit to each part of the gaming machine. When the hall is closed, the supply of drive voltage from the main power supply unit is cut off, but the drive voltage is supplied to the power input unit of the signal switching circuit by the sub power supply unit. Therefore, in a state where the gaming machine is installed in the hall, the driving voltage is continuously supplied to the power input unit, so that the first signal is output from the signal output unit of the last signal switching circuit.

  According to the gaming machine 10, when a fraudulent person performs a fraud (such as exchanging a fraudulent ROM), after disconnecting the connector, the main board is removed from the gaming machine and replaced with the fraudulent ROM, and the illegal ROM The main board may be attached to the gaming machine. When the electrical connection of the connector is released for the purpose of fraud, the supply of drive voltage by the sub power supply unit is cut off. After that, when the connector is connected and the drive voltage from the main power supply unit is supplied, the signal output of one signal switching circuit is switched to the second output, and the second output is the second input unit of the other signal switching circuit. Is input. Next, when the drive voltage by the main power supply unit is cut off and then supplied again, the signal output unit of the other signal switching circuit switches to the second output, and the second output of the signal switching circuit in which the second output is connected in series 2 is input to the input unit. That is, the signal output unit of the signal switching circuit connected in series is switched to the second output one by one every time the driving voltage is interrupted and supplied repeatedly by the main power supply unit. When the number of times corresponding to the number of signal switching circuits connected in series is cut off and supplied by the main power supply unit, the signal output unit of the last signal switching circuit is switched to the second output, and as a result, the state change member The state of changes.

  Therefore, by checking the state of the state change member, it is possible to know a gaming machine that may have been cheated by a cheating person, and by inspecting the main board of the gaming machine, it is easy to cheat. Can be found in.

  Moreover, since the state of the state change member changes irreversibly, the state change member must be replaced each time the state is changed by supplying a single drive voltage. However, the state change member has a plurality of signal switching circuits. When the drive voltage is supplied a predetermined number of times, the state of the state change member can be changed. That is, the number of times of supply of the drive voltage that changes the state of the state change member can be set to the number corresponding to the number of signal switching circuits connected in series, thereby reducing the work of replacing the state change member each time. be able to. Further, the predetermined number of times that the state of the state change member changes can be easily changed by changing the number of signal switching circuits.

  Further, since the state of the state change member changes irreversibly, the state is maintained when the main substrate is removed and the state of the state change member changes. Therefore, since it is possible to continuously notify the outside that there is a possibility that an illegal act has been performed, it is possible to make it easier to find a gaming machine in which an illegal act has been performed.

  In addition, in the gaming machine 10, “... the other signal switching circuit has the signal output unit of another signal switching circuit connected in series to its second input unit” means that the signal output unit of the other signal switching circuit Is connected to the second input portion of the next signal switching circuit, the signal output portion of the signal switching circuit is also connected to the second input portion of the next signal switching circuit, and the second input portion, the signal switching circuit, This means that the connection is repeated. In addition, “the last signal switching circuit connected farthest from one signal switching circuit” does not mean the signal switching circuit farthest from the one signal switching circuit, but is connected in series. This means a signal switching circuit having the most remote electrical connection among the signal switching circuits.

  The configuration described as the gaming machines 2 to 9 described above may be added to the gaming machine 10, thereby providing a gaming machine that achieves the effects of the gaming machine 10 and the gaming machines 2 to 9. it can. In this case, the “first signal switching circuit” of the gaming machines 3, 5, 8, 9 corresponds to the “1 signal output circuit” of the gaming machine 10.

  In the gaming machine 10, the state change member is configured by second conduction means that is cut off from an electrical conduction state when a current value greater than or equal to a predetermined value flows, and the second conduction means is at least the last conduction means. When the second signal is output from the signal output unit of the last signal switching circuit and electrically connected to the signal output unit of the signal switching circuit, a current greater than a predetermined value flows and the electrical continuity is interrupted A gaming machine 11 configured to be configured as described above.

  According to the gaming machine 11, the state change member is electrically connected to at least the signal output unit of the last signal switching circuit, and when the second signal is output from the signal output unit of the second signal switching circuit, A current greater than the value flows and electrical conduction is interrupted. Therefore, it can be determined whether the main board has been removed based on the electrical conduction state of the second conduction means. Since the electrical conduction state can be reliably determined to be conductive or interrupted, it is possible to accurately determine that the main board may have been removed.

  The second conduction means uses an electronic component having detection means for detecting that the current value is equal to or greater than a predetermined value, and interrupts the conduction path when a current value greater than the predetermined value is detected by the detection means. It is good also as what comprises. Further, the second conduction means may be constituted by a general-purpose component fuse, or a known circuit protector that cuts off electrical conduction by a mechanical structure when the drive voltage is continuously supplied for a predetermined time. It is good also as what comprises, and it is good also as what consists of a conduction | electrical_connection member by which a conduction | electrical_connection state will be interrupted | blocked irreversibly when the plate-shaped or rod-shaped member which electrically conducts is cut off.

  In the gaming machine 10 or 11, the gaming machine 12 is provided with second notification means for performing notification by changing the mode when the electrical conduction of the second conduction means is interrupted.

  According to the gaming machine 12, since the notification is performed by the second notification means when the electrical conduction of the second conduction means is interrupted, the fact that the conduction state of the second conduction means has been interrupted is surely notified. Can do. Since the state of the second conduction unit changes irreversibly, the notification by the second notification unit is continuously performed. Therefore, it is possible to reliably notify that there is a possibility that an illegal act has been performed, and it is also possible to prompt the replacement of the second conduction means.

  Here, the first notification unit of the gaming machine 9 and the second notification unit of the gaming machine 12 may perform notification by changing a visual or auditory state. For example, the lamp may be changed from being turned off to being lit or blinking, or the display mode of the liquid crystal display device may be changed from a display based on a normal game to a display suggesting that an illegal act has been performed. The speaker may be changed from silent to a state in which sound is output. In this configuration, since the notification changes visually or audibly, it is possible to reliably notify that an illegal act has been performed. Further, the lamp may be changed from being turned on or blinking to being turned off, and the state of the speaker may be changed from a state in which sound is output to silence.

  The gaming machine 12 includes an input / output inversion circuit that performs an output inverted with respect to the input, and the second conduction means is electrically connected to an input terminal of the input / output inversion circuit and the input / output inversion circuit of the input / output inversion circuit. A gaming machine 13 characterized in that the second notification means is electrically connected to an output terminal.

  According to the gaming machine 13, the input / output inversion circuit performs output inverted with respect to the input, and the second conduction means is electrically connected to the input terminal and the second notification means is electrically connected to the output terminal. Connected. Therefore, when the conduction state of the second conduction unit is cut off and no signal is input to the input terminal of the input / output inversion circuit, a signal is output from the output terminal to the second notification unit. Therefore, by interposing the input / output inversion circuit between the second conduction means and the second notification means, the configuration for making the second notification means notify can be simplified.

  In the gaming machine 13, an output terminal of the input / output inverting circuit and a signal output unit of the first signal switching circuit are connected to an input terminal, and a signal line for instructing notification to the first notification means is connected to the output terminal. The second input / output circuit, and the second input / output circuit receives a second signal from the signal output section of the first signal switching circuit when a signal is output from the output terminal of the input / output inversion circuit. The gaming machine 14 is characterized in that when there is at least one input in the case where the is output, the output is performed from the output terminal.

  According to the gaming machine 14, the input terminal of the second input / output circuit is connected to the output terminal of the input / output inversion circuit and the signal output unit of the first signal switching circuit, and the output terminal of the second input / output circuit is A signal line for instructing notification to the first notification means is connected. The second input / output circuit has at least one input when the output is made from the output terminal of the input / output inverting circuit and when the second signal is outputted from the signal output unit of the first signal switching circuit. Output from the output terminal. Therefore, not only when the second signal is output from the first signal switching circuit, but also when the notification by the second notification means is performed, the notification is performed by the first notification means. It is possible to tell more accurately that there is a possibility.

  In any of the gaming machines 1 to 14, each of the signal switching circuits is mounted on the main board, and the main board is encapsulated by an encapsulating member, and the sub power supply unit is external to the encapsulating member. A gaming machine 15, which is arranged in the above.

  According to the gaming machine 15, in order to replace an electronic component mounted on the main board with an unauthorized electronic component by a fraudulent person, the enveloping member on one side on which the electronic component is mounted is opened. Since the electric wire of the plug-in connector becomes an obstacle when opening the enveloping member, the connection of the connector is easily released by an unauthorized person. Each signal switching circuit is mounted on the main board and the main board is encapsulated by the encapsulating member, and the sub power supply unit is disposed outside the encasing member, so that the encapsulating member is removed from the gaming machine. For this reason, when the connection of the connector is released, the supply of the drive voltage to the main board by the sub power supply unit is cut off.

  In any one of the gaming machines 1 to 14, at least the main substrate is encapsulated by an encapsulating member, and each of the signal switching circuits and the sub power supply unit is disposed outside the encapsulating member and the main substrate. The drive voltage is supplied to each signal switching circuit via a connector that connects each signal switching circuit and the main board and a connector that connects the sub power supply unit and the main board. A gaming machine 16 characterized by that.

  According to the gaming machine 16, when at least one of the connector that connects the main board and each signal switching circuit and the connector that connects the main board and the sub power supply unit is released, the signal is supplied to the signal switching circuit. Therefore, the switching of the signal output from the signal output unit of each signal switching circuit can be easily found and the crime prevention property is improved.

  In the gaming machine 16, the board on which each of the signal switching circuits is mounted and the main board are disposed at positions separated from each other.

  According to the gaming machine 17, since the board on which each signal switching circuit is mounted and the main board are arranged at positions separated from each other, an unauthorized person discovers the board on which each signal switching circuit is mounted. Can be difficult.

  In any one of the gaming machines 15 to 17, the game machine includes an insertion connector that is inserted into a connector of the main board and is connected to at least the auxiliary power supply unit via an electric wire, and the encapsulating member includes the insertion connector An gaming machine 18 having an opening for insertion into a connector.

  According to the gaming machine 18, when a fraudulent person tries to remove the enveloping member from the gaming machine in order to cheat on the main board, the electric wire of the plug connector becomes an obstacle to the removing operation of the enveloping member. Therefore, it is easy for an unauthorized person to remove the plug connector from the connector.

  In the gaming machine 18, the connector of the main board is mounted on a mounting surface on which electronic components for controlling the game are mounted, and the opening of the encapsulating member is formed on the mounting surface side on which the electronic components are mounted. A gaming machine 19 characterized by

  According to the gaming machine 19, in order for a fraudster to replace an electronic component mounted on the main board with an unauthorized electronic component, an attempt is made to open the enveloping member on the mounting surface side on which the electronic component is mounted. In this case, since the electric wire of the plug connector becomes an obstacle when the encapsulating member is opened, the plug connector is easily pulled out from the connector by an unauthorized person.

  As electronic components for controlling the game, a storage device storing a program for controlling the game, an arithmetic device for executing the program, and a storage device for storing the program are integrally formed. It is preferable to use a central processing unit.

  In the gaming machine 18 or 19, the insertion connector includes a convex portion that is formed so as to be overlapped with the outer edge of the opening in the insertion direction of the insertion connector in a state of being inserted into the connector of the main board. A gaming machine 20 characterized by

  According to the gaming machine 20, when a fraudulent person tries to open the enveloping member in order to cheat on the main board, the convex portion of the insertion connector overlaps with the outer edge of the opening. Since the outer edge of the plug and the convex portion of the plug connector interfere with each other, it is easy for an unauthorized person to remove the plug connector from the connector.

  In the gaming machine 20, the convex portion is formed so as to protrude along the longitudinal direction of the insertion connector in the insertion direction view.

  According to the gaming machine 21, since the convex portion is convexly formed along the longitudinal direction of the insertion connector, the insertion including the convex portion is compared with the case where the convex portion is convexly formed along the short direction. The total length of the connector is increased. Therefore, even if the enveloping member or the insertion connector is rotated or slanted by an unauthorized person, it is difficult to open the enclosing member without causing the convex portion to interfere with the enclosing member near the outer edge of the opening. Can do.

  In the gaming machine 20 or 21, the convex portion has a linear length of the insertion connector including the convex portion longer than a maximum linear distance among straight lines connecting the inner sides of the outer edges of the opening in the insertion direction view. The gaming machine 22 is characterized by being convexly formed to a certain length.

  According to the gaming machine 22, since the linear length of the insertion connector including the convex portion is longer than the maximum linear distance connecting the inside of the outer edge of the opening, the enveloping member or the insertion connector is rotated or slanted by an unauthorized person. Even if it makes it, it can make difficult the operation | work which opens a covering member, without making a convex part interfere with the covering member used as the outer edge vicinity of opening.

  The gaming machine 23 according to any one of the gaming machines 20 to 22, wherein the convex portion of the insertion connector is formed on both sides of the insertion connector in the insertion direction view.

  According to the gaming machine 23, since the convex portions are formed on both sides of the insertion connector, even if the enveloping member or the insertion connector is rotated or slanted by a fraudulent person, the convex portion is formed at the outer edge of the opening. It is possible to make it difficult to open the encapsulating member without interfering with the enclosing member in the vicinity.

  In any one of the gaming machines 18 to 23, the opening of the enveloping member is formed in a shape along the outer shape of the plug-in connector in the insertion direction view, and the convex portion is 1 piece perpendicular to the insertion direction. A gaming machine 24, wherein the gaming machine 24 is formed so as to be larger than a sum of gaps between the opening and the insertion connector in the direction.

  According to the gaming machine 24, since the convex portion is formed larger than the sum of the gaps between the opening and the insertion connector in one direction orthogonal to the insertion direction, the enveloping member or the insertion connector is rotated by the fraudster. Or even if it makes it diagonal, it can make difficult the operation | work which opens a covering member, without making a convex part interfere with the covering member used as the outer edge vicinity of opening.

  Any one of the gaming machines 1 to 24, wherein the gaming machine is a pachinko gaming machine. Above all, the basic configuration of a pachinko gaming machine is provided with an operation handle, and a ball is launched into a predetermined game area according to the operation of the operation handle, and the ball is placed in an operation port disposed at a predetermined position in the game area. As a necessary condition for winning a prize (or passing through the operating port), the identification information dynamically displayed on the display device is confirmed and stopped after a predetermined time. In addition, when a special gaming state occurs, a variable winning device (specific winning opening) disposed at a predetermined position in the gaming area is opened in a predetermined manner so that a ball can be won, and a value corresponding to the number of winnings is obtained. Examples include those to which values (including data written on magnetic cards as well as premium balls) are given.

  In any one of the gaming machines 1 to 24, the gaming machine is a slot machine. Above all, the basic configuration of the slot machine is “equipped with variable display means for confirming and displaying the identification information after dynamically displaying an identification information string composed of a plurality of identification information, and for operating the starting operation means (for example, an operation lever). As a result, the dynamic display of the identification information is started, and the dynamic display of the identification information is stopped due to the operation of the stop operation means (stop button) or after a predetermined time has elapsed. The game machine is provided with special game state generating means for generating a special game state advantageous to the player on the condition that the confirmed identification information is specific identification information. In this case, examples of the game media include coins and medals.

  The gaming machine 27 according to any one of the gaming machines 1 to 24, wherein the gaming machine is a fusion of a pachinko gaming machine and a slot machine. Among them, the basic configuration of the merged gaming machine includes “a variable display means for confirming and displaying the identification information after dynamically displaying an identification information string composed of a plurality of identification information, and a starting operation means (for example, an operation lever). Due to the operation of the identification information, the change of the identification information is started, and the dynamic display of the identification information is stopped due to the operation of the operation means for stop (for example, the stop button) or when a predetermined time elapses. Special game state generating means for generating a special game state advantageous to the player on the condition that the fixed identification information at the time of stoppage is specific identification information, and using a ball as a game medium, and the identification information The game machine is configured such that a predetermined number of balls are required at the start of the dynamic display, and a large number of balls are paid out when the special gaming state occurs.

10 Pachinko machines (game machines)
206 Error indicator lamp (part of the first notification means)
505 Display control device (part of first notification means)
559 Reset switch (switch means)
560 display device (second notification means)
561 Main controller (part of the board that controls the game)
562 Audio lamp control device (part of first notification means)
563 Substrate box (encapsulation member)
563a Opening 582 Main board (board for game control)
583 Connector 584 Plug-in connector 586a Protrusion 623 RAM erase switch (switch means, initialization switch)
703a Backup area (storage means)
741 Power supply unit (main power supply unit, sub power supply unit)
761 Capacitor for backup power supply (sub power supply part)
762 Flip-flop circuit (first signal switching circuit)
763 OR circuit (first input / output circuit)
764 Main board removal detection board (Board different from main control board)
770 Flip-flop circuit (signal switching circuit)
770A to 770Z flip-flop circuit (signal switching circuit)
771 OR circuit (second input / output circuit)
772 AND circuit 773 NOT circuit (input / output inversion circuit)
775 fuse (first conduction means)
776 fuse (second conduction means, state change member)

Claims (1)

A main board on which a connector for controlling a game and having a connector for electrical connection with another device is mounted;
A main power supply unit that supplies a driving voltage necessary for the progress of the game including the main board to each part of the gaming machine;
A sub power supply unit capable of supplying a drive voltage to a part of the gaming machine even in a state where the supply of the drive voltage by the main power supply unit is interrupted,
A power supply input unit that is electrically connected to the sub power supply unit via at least a connector mounted on the main board and is supplied with a drive voltage, and a timing at which the drive voltage supply is started by the main power supply unit A first input unit to which a signal is input, a second input unit to which a signal is input separately from the first input unit, and a timing at which a signal is input to the first input unit. A signal output unit that continuously outputs a signal corresponding to the input signal on condition that a drive voltage is supplied to the power input unit, and at least a part of the signal output unit and the second input unit, A first signal switching circuit to which are electrically connected;
A state change member that is electrically connected to the signal output unit of the first signal switching circuit and that changes the state irreversibly with the switching of the output signal of the signal output unit as a necessary condition;
When the drive voltage is continuously supplied from the sub power supply unit to the power input unit, the first signal is output from the signal output unit, and after the output of the first signal, the sub power supply unit to the power input unit When the supply of the drive voltage is released, the output state of the signal output unit is switched, and a second signal is output to change the state of the state change member.

Images