JP2008142128A - Game machine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To prevent a front door from being fraudulently opened with a forged front door key or a fraudulent implement. <P>SOLUTION: A pass signal receiving part 91 and a pass signal storage device 92 constitute an external device pass signal receiving/storing means for receiving and storing pass information transmitted from a pass signal generation management device 931. A projection part 675 and a phototransistor 673 constitute a front door key pass information reading means for reading the pass information stored in a door key 600. A pass signal determination device 93 compares the pass signal stored in the pass signal storage device 92 with the pass signal read by the phototransistor 673, and connects/disconnects a front door cylinder lock rotor 612 and a front side slave shaft 803 based on the result of comparison. With this structure, the fraudulent opening of the front door using the forged front door key or fraudulent implement can be prevented. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a gaming machine capable of locking a front door that closes an opening of a housing.

  Conventionally, in a gaming machine such as a slot machine or a pachinko machine, in order to prevent the opening / closing door (front door) attached to the front surface of the main body frame (housing) via a hinge from being opened and closed illegally. Generally, a locking device is provided (see, for example, Patent Document 1). This type of locking device has a cylinder lock attached to the front door, a hook biased by a coil spring, and an interlocking mechanism that mechanically interlocks the cylinder lock and the hook, and is provided in the housing. The hook is urged by a coil spring to the receiving bracket and locked in a state where the door is closed. When unlocking such a locking device, the cylinder lock is unlocked with a key, the hook is moved via the interlocking mechanism, and the hook is unlocked. The front door can be opened and closed.

  On the other hand, in the slot machine, the setting change of the winning combination winning probability (the payout probability of the game medium to be paid out in the game) is performed by a setting change input unit incorporated in the power supply device or the like. The setting change input unit includes, for example, a setting change button for selecting one from the winning probabilities of 6 stages, a display unit for confirming the current setting, and a predetermined confirmation switch for changing and confirming the setting value. Etc. To change the winning probability winning setting change, insert a dedicated setting key into the keyhole provided on the power supply, etc., and rotate the setting key in the specified direction until the setting change is valid Let Then, by turning on the power of the slot machine and selecting and operating the setting change button, a predetermined switch operation can be performed to confirm and execute the setting change of the winning combination winning probability. Since the setting key is held and owned only by a specific store clerk, manager, or person in charge at the game hall, the player or the like cannot change the setting (see, for example, Patent Document 2).

JP 2005-124849 A JP 2006-55596 A

  However, in a conventional gaming machine, a fraudulent front door key or a cylinder lock attached to the front door is unlocked by a fraudulent device by a fraudulent person, the front door is illegally opened, and a medal is stolen. In some cases, the winning combination winning probability setting display or setting change was illegally performed.

  The present invention has been made in view of these conventional problems, and an object of the present invention is to provide a gaming machine that can prevent the front door from being illegally opened by a forged front door key or an unauthorized device.

  In order to solve the above-described problem, the invention according to claim 1 is configured such that a housing having an opening on the front side and the housing is rotatably attached to the housing so that the opening can be opened and closed. A random number is acquired in response to a predetermined first gaming operation, a lottery means for drawing a winning combination based on the acquired random value, a winning combination drawn by the lottery means and a predetermined second And a game medium payout means for paying out game media from the inside to the outside of the front door based on the gaming operation of the front door, the game machine being provided on the front door and having a cylindrical shape It has a door cylinder lock body and a front door key fitting portion that engages with a front door key that stores path information, and is inserted into the cylinder of the front door cylinder lock body, and is locked in the cylinder. In either state or rotatable state, the front door key fitting The cylinder lock rotor for the front door that releases the locked state in the cylinder by fitting the part with the front door key, and mechanically intermittent with the cylinder lock rotor for the front door inside the front door A driven shaft that is arranged in a possible manner and rotates in conjunction with the front door cylinder lock rotor in a state of being connected to the front door cylinder lock rotor, and a cam plate fixedly attached to the driven shaft; A front door lock mechanism that fixes the front door to the housing and releases the fixation in conjunction with rotation of the cam plate, and an external device that receives and stores path information transmitted from the external device Pass signal reception storage means, front door key path information read means for reading path information stored in the front door key, and pass signal and front door key path information read means stored in the front door key path signal reception storage means Path signal Comparing, characterized in that it comprises a disconnecting means for performing intermittent between the response to this comparison result and the front door for a cylinder lock rotor and the driven shaft.

  According to the gaming machine of claim 1, the interrupting means compares the pass signal stored in the front door key pass signal reception storage means with the pass signal read by the front door key pass information reading means, and corresponds to the comparison result. Thus, since the front door cylinder lock rotor and the driven shaft are intermittently connected, it is possible to prevent the front door from being illegally opened by a forged front door key or an unauthorized device.

  According to the gaming machine of the present invention, it is possible to prevent the front door from being illegally opened by a forged front door key or a fraudulent device, so that the game medium can be prevented from being stolen and the winning combination winning probability setting display It is possible to prevent unauthorized changes to settings.

  Hereinafter, a preferred embodiment of a gaming machine according to the present invention will be described with reference to the drawings, taking a slot machine as an example. FIG. 1 is a perspective view showing the external structure of the slot machine 1. FIG. 2 shows the internal structure of the slot machine 1 with the front door 3 opened. FIG. 3 is a block diagram showing a control system of the slot machine 1.

  In FIG. 1, a slot machine 1 can be opened and closed by attaching a housing 2 that is a substantially rectangular box having an opening in the front, and a hinge mechanism that is pivotally attached to the housing 2. And a front door 3 that is closed in a state.

  The front side of the front door 3 is roughly divided into an upper panel portion 4 and a lower panel portion 5, which are integrally formed of hard plastic as a so-called decorative board designed to enhance the visual effect. Further, below the lower panel portion 5, there is provided a medal tray portion 6 integrally formed with a medal tray 6a for storing medals (game media) to be paid out at the time of winning a prize.

  An operation console 7 is integrally formed between the upper panel portion 4 and the lower panel portion 5 so as to protrude toward the player and on which switches for performing game operations are arranged. In addition, the upper panel part 4, the console 7, the lower panel part 5, and the medal tray part 6 face the player side, and these constitute a "front panel part".

  A panel surface 41 formed of a hard plastic plate or the like is provided at the center of the upper panel portion 4. A substantially rectangular transparent display window 42 is formed substantially at the center of the panel surface 41, and the three reels 101a, 101b, 101c of the reel unit 100 provided in the housing 2 are viewed through the display window 42. .

  Here, in the reel unit 100 installed in the housing 2, cylindrical reels 101a, 101b, and 101c are arranged in the rotation axis direction, respectively, and the outer circumferential surfaces of the reels 101a, 101b, and 101c are arranged in the circumferential direction. A plurality of types of symbols are drawn along. The player can visually recognize three symbols in the vertical direction drawn on three rows of reels through the display window 42.

  In addition, on the panel surface 41, a game state display unit 43 that displays information on the game state such as an internal winning for a winning combination by turning on a lamp (not shown) provided on the back side, and the same as this An operation assist display section 44 that displays information related to assisting game operations by turning on the lamp, a numerical information display section 45 that displays the number of medals credited (stored) in the slot machine 1, and a medal earned by winning a prize A numerical information display unit 400 that displays numerically the setting of the number and the lottery probability of the winning combination is provided around the display window 42.

  In the upper part of the upper panel unit 4, there are a center and left effect lighting units 46, 47a, 47b that incorporate lamps such as high-intensity light emitting diodes, and an effect release that incorporates a speaker that generates sound effects relating to the game. Sound parts 48a and 48b are arranged.

  The slot machine 1 is formed so as to enhance the visual effect in the game by turning on or blinking the above-described plurality of effect lighting units 46, 47a, 47b and the like as the game progresses.

  In addition, a liquid crystal display device 49 is disposed between the production sound emitting portions 48a and 48b as a production device for a gaming machine facing a display window 49a formed by fitting a transparent hard plastic plate or the like. . In addition, the liquid crystal display device 49 mainly displays information relating to video and games (games) related to game effects.

  A medal insertion part 71 is provided on the upper right side of the console 7. The medal insertion unit 71 has a medal insertion slot 72 for inserting medals. In addition, two bet buttons 73 and 74 that are push button switches are provided on the left side of the upper surface of the console 7.

  The bet buttons 73 and 74 are button switches for presenting the number of medals to bet on one game of the slot machine. In the slot machine 1, when the game is started, the bet button 73 is pressed, so that one medal is bet on the game from the stored medals. Similarly, when the bet button 74 is pressed, medals are bet on three corresponding games. The bet button 74 is particularly called a “max bet button” because it bets the maximum number of medals.

  On the left side of the front surface of the console 7, a start lever 75 for instructing the start of rotation of the reels 101a, 101b, and 101c is provided. The start lever 75 is provided with a swingable operation rod having a spherical operation knob at the tip, and is turned on when the operation rod is tilted, and automatically when the hand is released from the operation rod by the biasing force of the spring. It is formed of a switch unit that returns to a position and is turned off.

  In the center of the console 7, stop buttons 76a, 76b, and 76c for instructing to stop the rotation of the reels 101a, 101b, and 101c are arranged in parallel corresponding to the arrangement of the reels.

  Further, in the left corner of the front surface of the console 7, an instruction is given to cancel and pay out the medals bet on the game, and the medal credit means 203 (see FIG. 3) to be described later settles the medals stored internally. A checkout button 77 is provided for instructing the payout.

  A front door cylinder lock 78 is embedded in the front right side of the console 7. The front door cylinder lock 78 is provided with a key hole 79 into which a front door key for unlocking the front door 3 is inserted. When an administrator or the like of the slot machine 1 inserts a predetermined key into the key hole 79 and performs an unlocking operation, the front door 3 attached to the housing 2 can be opened forward by a hinge mechanism, and the front door 3 can be opened. These are automatically locked when closed to the housing 2 side.

  The lower panel portion 5 is provided with a display panel 51 for displaying a picture of an appearing character and the like so that the player can recognize the model type of the slot machine 1. On the left and right sides of the display panel 51, left and right effect lighting units 52a and 52b are provided.

  The medal tray portion 6 disposed below the lower panel portion 5 has a medal payout opening 61 for discharging medals at the time of winning a prize, a medal tray 6a for storing the paid out medals, and a speaker for generating an effect sound effect. And left and right effect sound emitting sections 62a and 62b are arranged.

  Next, the internal structure of the housing 2 and the back surface structure of the front door 3 will be described with reference to FIG.

  In FIG. 2, an opening 8 is provided in front of the housing 2. A main control board 20 housed in a hard plastic board case 210 is attached to the upper part of the opening 8. The main control board 20 includes a CPU (microcomputer) that centrally controls the overall operation of the slot machine 1.

  A reel unit 100 including reels 101a, 101b, and 101c is provided in the center of the housing 2. The reel unit 100 is positioned and attached to a predetermined frame so that the reels 101a, 101b, and 101c face the display window 42 of the front door 3 when the front door 3 is closed to the housing 2 side. Note that each of the reels 101a, 101b, and 101c is rotationally driven by a built-in stepping motor.

  Further, on the upper part of the reel unit 100, a spinning device board for sending a four-phase drive pulse signal to the stepping motor that rotationally drives each reel is attached, and the main control board 20 is rotated to the spinning device board. By sending drum drive (excitation) pulse data, each reel is controlled to rotate, brake and stop.

  Below the reel unit 100, a hopper device 21, an auxiliary storage unit 22 for storing medals overflowing from the hopper device 21, and a main power supply device 23 are provided. On the right side inside the main power supply device 23, a power supply device substrate 24 corresponding to a so-called switchboard is provided. On the front surface of the main power supply device 23, a power switch 81, a reset button 82, a setting lock 83, and the like are provided. The setting lock 83 is provided with a setting key operation detection switch 88 (see FIG. 3) for detecting the operation of the setting key by detecting the operation of the setting lock 83. The front surface of the main power supply device 23 is normally covered with a transparent door 84.

  The main power supply device 23 is supplied with electric power from the outside of the casing 2 through the through-hole 10 formed in the wall surface 9 on the back side of the casing 2, and generates electric power having a predetermined voltage value from the supplied electric power. Then, it is supplied to the components of the slot machine 1 such as the main control board 20 and the hopper device 21.

  Further, an external concentration terminal board 25 that can be connected to a management computer called a “hall computer” installed in the game hall is attached to the inner wall on the upper right side of the housing 2.

  In the vicinity of the front end of the right inner wall of the housing 2, plate-like fixed plates 26 and 27 that are engaged with movable hooks 303 and 304 (see FIG. 4) of a locking device unit 300 described later, and rollers 312 ( A horizontal surface portion 28 is provided on which (see FIG. 4) moves.

  Next, the light emission drive units 30, 31 a, and 31 b are disposed on the back side upper portion of the front door 3. In the light emission drive units 30, 31a, 31b, a plurality of high-intensity light-emitting diodes that are light sources of the effect illumination units 46, 47a, 47b are arranged, and a drive circuit for driving the light-emitting diodes to emit light is mounted.

  Speakers 32a and 32b are attached to the upper part on the back side of the front door 3 so as to face the above-described sound emitting portions for production 48a and 48b. A liquid crystal display device 49 is attached between the speakers 32a and 32b. Further, a sub-control board 40 formed of an electric circuit board and housed in a hard plastic board case 220 is attached to the back side of the liquid crystal display device 49.

  The main control board 20 and the sub control board 40 are control boards that control the operation of the slot machine 1.

  A panel plate 50 having a transparent display window 42 for allowing the reels 101a, 101b, and 101c to be viewed is disposed below the sub-control board 40, and a start lever 75 on the front side is disposed below the display window 42. A central display board 33 is provided which functions as a relay board for transferring output signals of operation switches such as (see FIG. 1) and stop buttons 76a, 76b, 76c (see FIG. 1) to the main control board 20. A setting change button 86 is provided on the right side of the rear plate surface of the central display substrate 33 (the right side in this case indicates the right side when viewed from the front of the front door 3). The setting change button 86 is covered with a transparent cover 87 that can be opened and closed by a hinge mechanism. A path signal receiving unit 91 is provided slightly to the right of the center of the rear plate surface of the central display substrate 33.

  The path signal receiving unit 91 is covered with an electromagnetic wave shielding cover 95 that can be opened and closed by a hinge mechanism. The electromagnetic wave shielding cover 95 is made of a metal that hardly transmits electromagnetic waves. The reason why the electromagnetic wave shielding cover 95 is provided here is to prevent the path signal receiving unit 91 from receiving noise or unauthorized radio waves when the front door 3 is closed with respect to the housing 2.

  A path signal storage device 92, a path signal determination device 93, and a solenoid drive circuit 94 are provided on the right side of the front plate surface of the central display substrate 33.

  The path signal receiving unit 91 is electrically connected to the path signal storage device 92 through the wiring pattern and the through hole of the central display substrate 33. The path signal storage device 92 is electrically connected to the path signal determination device 93 via the wiring pattern of the central display substrate 33. The pass signal determination device 93 is electrically connected to the solenoid drive circuit 94 via the wiring pattern of the central display substrate 33. In addition, a solenoid 96 (see FIG. 14) in a front door cylinder lock 78 described later is connected to the solenoid drive circuit 94 via a corresponding lead wire.

  A front door cylinder lock 78 is provided diagonally to the right of the central display board 33. A cam plate 309 described later is provided at the rear end of the front door cylinder lock 78.

  On the right side of the back surface of the front door 3, a front door locking mechanism 310 is provided that fixes the front door 3 to the housing 2 in conjunction with the rotation of the cam plate 309 and releases the fixing. Yes. The front door locking mechanism 310 is a constituent element of the locking device unit 300 described later, and is interlocked with the reset operation of the front door cylinder lock 78. The front door lock mechanism 310 is provided with a photo sensor 311 that detects an operation linked to a reset operation of the front door cylinder lock 78.

  A medal sorting device 34 is attached below the central display substrate 33. The medal sorting device 34 is a device that determines and distributes the suitability of medals inserted into the medal insertion unit 71. Further, the medal sorting device 34 has a built-in medal sensor, and when a normal medal is inserted in a standby state of the game or the like, and the medal sensor detects this medal, a signal indicating acceptance of medal insertion is sent to the main control board. 20 to send.

  Below the main body of the medal sorting device 34, a guide member 35 that guides regular medals distributed by the medal sorting device 34 to the hopper device 21 provided in the housing 2 and removed by the medal sorting device 34. A guide member 36 that guides the medal (or foreign matter) that has been made to the medal discharge port 61 is provided. In addition, a guide member 37 that guides medals discharged from the hopper device 21 to the medal discharge port 61 is provided at the lower part on the back side of the front door 3. Further, adjacent to the medal discharge port 61, speakers 38a and 38b facing the sound emitting sections 62a and 62b for effects described above are attached.

  Note that the overall operation of the slot machine 1 is comprehensively controlled by the main control board 20 provided on the housing 2 side, and the sub control board 40 includes the liquid crystal display device 49 and the sound emission units 48a and 48b for effects. , 62a, 62b, etc., mainly control related to game effects such as effect sound effect control using the speakers 32a, 32b, 38a, 38b.

  Next, a control system provided in the slot machine 1 will be described with reference to the block diagram of FIG.

  In FIG. 3, the main control board 20 includes a CPU 200 and a storage unit 201.

  The storage unit 201 includes a semiconductor memory such as a ROM and a RAM, and stores a system program 202 for a slot machine game in advance. The main control board 20 performs overall control of the overall operation of the slot machine 1 by the CPU 200 executing arithmetic processing according to the system program 202 stored in the storage unit 201.

  The storage unit 201 is provided with medal credit means 203. The medal credit means 203 stores a credit that is the number of medals stored in the slot machine 1 in a memory.

  The main control board 20 includes bet buttons 73 and 74, a start lever 75, stop buttons 76a, 76b, and 76c, a settlement button 77, operation switches such as a power switch 81, a reset button 82, a setting change button 86, and a photo sensor 311. The detection switches such as the setting key operation detection switch 88, the medal sensor 34a of the medal sorting device 34, the medal payout device such as the hopper device 21, and the sub control board 40 and the numerical information display unit 400 are connected via a harness. ing. The setting key operation detection switch 88 is provided in the main power supply device 23 and is interlocked with the setting lock 83.

  The main control board 20 detects an operation related to the game based on the operation switches and an output signal from the medal sensor 34a of the medal sorting device 34.

  When the operation mode is the medal bet standby state and the medal sensor 34a detects a medal, the main control board 20 adds the detected medal to the bet number of the game.

  The main control board 20 adds the detected medal to the credit of the medal credit means 203 when the medal sensor 34a detects the medal when the operation mode is in the medal credit input standby state. Here, the medal bet standby state indicates a state in which, after one game is finished, the player waits for a bet to bet on the game. The medal credit input standby state indicates a state in which the medal credit means 203 reaches the maximum value (50) after the medal is bet on the game.

  The main control board 20 inputs detection signals from the reference position sensors 120a, 120b, and 120c provided on the reels 101a, 101b, and 101c, and grasps the rotation position that serves as the reference of each reel, and then applies the detection signal to the spinning device board 130. Predetermined rotating drum drive pulse data is sent out. The rotating device substrate 130 controls the rotation and stopping of the reels 101a, 101b, and 101c by rotating the stepping motors 110a, 110b, and 110c in accordance with the rotating drive pulse data from the main control substrate 20. ing.

  The main control board 20 pays out a predetermined number of medals to the medal tray 6a by controlling the hopper device 21 when a winning is confirmed.

  Further, when the settlement button 77 is operated, the main control board 20 cancels the medals bet on the game and pays them out to the hopper device 21, and medal credit means 203 (see FIG. 3) stores the medals stored internally. The hopper device 21 pays out medals for the number of credits before the settlement.

  The sub-control board 40 is based on the control signal from the main control board 20, the liquid crystal display device 49 (see FIG. 1), the lighting units for production 46, 47 a, 47 b, 52 a, 52 b (see FIG. 1), and the sound emission for production By controlling and driving the production devices 230 such as the speakers 32a, 32b, 38a, and 38b of the units 48a, 48b, 62a, and 62b (see FIG. 1), an effect that appeals to the player's visual and auditory senses according to the progress of the game Is going.

  On the other hand, a winning lottery table 204 and an internal lottery flag 205 are stored in the storage unit 201 of the main control board 20. The main control board 20 is provided with a random number generator 206 for generating random value data connected to the CPU 200. For example, the CPU 200 obtains a random value from the random number generator 206 at the time when the operation of the start lever 75 is detected and refers to the winning lottery table 204 to lottery the winning combination or lose assigned to the obtained random number value. To do. If there is a winning combination corresponding to the random number value, the CPU 200 wins the lottery result using the winning combination as the winning combination of the game, and stores the winning combination in the internal lottery flag 205 of the storage unit 201. Here, the lottery method of winning combination is called “internal lottery”.

  The winning lottery table 204 has a plurality of combinations of winning combinations corresponding to random numbers according to the settings from 1 to 6, and the setting changing means for changing the winning lottery probability described later according to the operation. The winning combination corresponding to the random value can be changed.

  Next, an outline of the game operation in the slot machine 1 will be described.

  The slot machine 1 enters a standby state when a prize is won in a previous game and a medal payout is completed, or when a loss is confirmed in the previous game. In this standby state, the liquid crystal display device 49 or the like produces an effect in a standby mode that suggests the state to the player and prompts a game operation. Next, when the player inserts a medal into the medal insertion unit 71 or presses one of the bet buttons 73 and 74, the slot machine 1 enters the game from the medal (credit) stored inside. A predetermined number of medals are bet and a game is prepared.

  When the start lever 75 is tilted and the game is started in the game preparation state, the main control board 20 starts to rotate the three reels 101a, 101b, and 101c all at once and executes the internal lottery described above. The result of the internal lottery is stored in the internal lottery flag 205.

  Next, when one of the stop buttons 76a, 76b, and 76c is pressed by the player, the reels 101a, 101b, and 101c are stopped, and the main control board 20 displays the symbols displayed on the stopped reels and the above-described symbols. It is determined whether or not the symbol combination related to the winning combination corresponding to the internal lottery flag 205 matches.

  When these symbol combinations match and the winning combination is confirmed, the slot machine 1 controls the medal credit means 203 by the main control board 20 until the credit number of the internally stored medal reaches a predetermined number. Then, a medal with a predetermined number of payouts according to the type of the combination is added to the number of credits. Further, when the addition result of the number of payouts and the number of credits exceeds the predetermined number, the slot machine 1 pays out the surplus number of medals to the medal tray 6a.

  Next, the locking device unit 300 using the front door lock mechanism 310, which is a main part of the present embodiment, will be described with reference to FIGS.

  FIG. 4 is an exploded perspective view of the locking device unit 300. FIG. 5 is a perspective view of the locking device unit 300 as seen from the back side in the assembled state. FIG. 6 is a perspective view of the locking device unit 300 as seen from the front side in the assembled state. FIG. 7 is an exploded perspective view showing the front door cylinder lock 78 and its peripheral portion of the locking device unit 300. FIG. 8 is an exploded perspective view showing the movable hook 303 of the locking device unit 300 and its peripheral portion. FIG. 9 is a perspective view of the front door cylinder lock 78 of the locking device unit 300 and its peripheral portion as seen from the back side in an assembled state. FIG. 10 is a perspective view of the front door cylinder lock 78 of the locking device unit 300 and its peripheral portion as seen from the front side in an assembled state. FIG. 11 is a side view of the front door cylinder lock 78 of the locking device unit 300 and its peripheral portion as seen from the left side in an assembled state. FIG. 12 is a perspective view of the movable hook 303 of the locking device unit 300 and its peripheral portion as seen from the back side in an assembled state. FIG. 13 is a perspective view of the front door key 600. FIG. 14 is a cross-sectional view of the front door cylinder lock 78. FIG. 15 is a perspective view showing the front and rear clutch disks 801 and 802 and their peripheral parts. FIG. 16 is a block diagram showing a pass signal unlocking management system 900. FIG. 17 is a cross-sectional view showing a state in which the front door cylinder lock 78 can be unlocked. FIG. 18 is a perspective view of a state in which an operation for unlocking the front door cylinder lock 78 of the locking device unit 300 and its peripheral portion has been performed. FIG. 19 is a perspective view of a state in which an operation for unlocking the movable hook 303 of the locking device unit 300 and its peripheral portion has been performed. FIG. 20 is a perspective view of the movable hook 303 of the locking device unit 300 and the periphery thereof viewed from the back side in a state where the reset operation has been performed. FIG. 21 is a perspective view of the movable hook 303 of the locking device unit 300 and the periphery thereof viewed from the front side in a state where the reset operation has been performed.

  In FIG. 4, the locking device unit 300 includes a main body frame 301, a connecting rod 302, upper and lower movable hooks 303 and 304, an operating rod 305, a damper plate 306, coil springs 307 and 308, a cam plate 309, A front door cylinder lock 78, a photo sensor 311 and a roller 312 are provided, and these members are assembled with screws 314, 315 and rivets 501, 502,.

  The main body frame 301, the connecting rod 302, the upper and lower movable hooks 303 and 304, the operating rod 305, the damper plate 306, the coil springs 307 and 308, the cam plate 309, and the rivets 501, 502,. The front door locking mechanism 310 described above is configured.

  The main body frame 301 is formed by bending a metal plate material having a predetermined shape, and the support plate portion 330 is perpendicular to the attachment plate portion 321 at one side edge in the longitudinal direction of the vertically long attachment plate portion 321. It is formed upright. A connecting rod 302 is disposed inside the main body frame 301 so as to be movable between a locking position and an unlocking position along the support plate portion 330. The support plate portion 330 is divided into an upper support plate portion 331, an intermediate support plate portion 341, and a lower support plate portion 351.

  Further, the main body frame 301 has a reinforcing piece 361 (see FIG. 5 and FIG. 6) that is linear and narrow from the other side edge in the longitudinal direction of the mounting plate portion 321 to the lower end. It is formed to stand vertically on the same side as the portion 330.

  The attachment plate portion 321 has a wide width portion 322 (see FIG. 7) in which the upper portion and the lower portion have the same width and the intermediate portion connected to the intermediate support plate portion 341 is expanded in the width direction. Therefore, the upper support plate portion 331, the intermediate support plate portion 341, and the lower support plate portion 351 are parallel to each other, and these support plate portions 331, 341, and 351 and the reinforcing piece 361 are parallel to each other. Yes. On the other hand, the connecting rod 302 is made of a metal plate and has a length in the vertical direction slightly shorter than the length in the vertical direction of the support plate 330.

  4 and 8, a rivet hole 332 and an escape hole 333 are formed in the upper part of the support plate portion 331 above the main body frame 301 so as to penetrate the plate surface. On the other hand, a rivet insertion hole 382 and a rivet hole 383 are formed in the base end portion 381 of the movable hook 303 so as to penetrate the plate surface. Near the upper end of the connecting rod 302, a rivet insertion hole 391 is formed through the plate surface. A locking claw 384 for locking to the fixed plate 26 (see FIG. 2) is formed on the upper side of the movable hook 303.

  The rivet 501 is inserted into the rivet insertion hole 382 of the movable hook 303, inserted into the rivet hole 332 of the support plate 331, and the tip of the cylinder protruding from the rivet hole 332 is caulked, as shown in FIG. As described above, the movable hook 303 is pivotally supported on the upper portion of the support plate portion 331 in a rotatable state.

  4 and 8, the rivet 502 is inserted into the rivet insertion hole 391 of the connecting rod 302, inserted into the rivet hole 383 of the movable hook 303, and the tip of the cylinder protruding from the rivet hole 383 is caulked. Thus, as shown in FIG. 12, the connecting rod 302 is pivotally supported by the base end portion 381 of the movable hook 303 in a rotatable state.

  4 and 7, rivet holes 352 and 353 and escape holes 354 are formed in the support plate portion 351 below the main body frame 301 through the plate surface. On the other hand, a rivet insertion hole 412 and a rivet hole 413 are formed in the base end portion 411 of the movable hook 304 so as to penetrate the plate surface. Near the lower end of the connecting rod 302, a rivet insertion hole 392 is formed through the plate surface. A locking claw 414 for locking to the fixed plate 76 (see FIG. 2) is formed on the upper side of the movable hook 304. The roller 312 has a rivet insertion hole 420 at the center of rotation.

  The cylinder of the rivet 503 is inserted into the rivet insertion hole 412 of the movable hook 304, inserted into the rivet hole 352 of the support plate portion 351, and the tip of the cylinder protruding from the rivet hole 352 is caulked, as shown in FIG. As described above, the movable hook 304 is pivotally supported by the support plate portion 351 in a rotatable state.

  4 and 7, the rivet 504 is inserted into the rivet insertion hole 392 of the connecting rod 302, inserted into the rivet hole 413 of the movable hook 304, and the tip of the cylinder protruding from the rivet hole 413 is caulked. Thus, as shown in FIG. 9, the vicinity of the lower end of the connecting rod 302 is pivotally supported by the base end portion 411 of the movable hook 304 in a rotatable state.

  4 and 7, the rivet 507 is inserted into the rivet insertion hole 420 of the roller 312, inserted into the rivet hole 353 of the support plate portion 351, and the tip of the cylinder protruding from the rivet hole 353 is caulked. As shown in FIG. 9, the roller 312 is pivotally supported by the support plate 351 in a rotatable state.

  Next, the mounting plate portion 321 will be described in detail.

  In FIG. 4, a plurality of set screw insertion holes 323 are formed in the mounting plate portion 321 so as to be able to attach the locking device unit 300 to the right side of the back surface of the front door 3 (see FIG. 2). .

  4 and 7, a lock attachment hole 324 is formed in the wide portion 322 of the attachment plate portion 321 corresponding to the intermediate support plate portion 341. Screw holes 325 and 326 are formed above and below the lock attachment hole 324 of the wide portion 322, respectively. On the other hand, screw insertion holes 372 and 373 are formed in the flange portion 371 of the front door cylinder lock 78.

  A front door cylinder lock 78 is inserted into the lock mounting hole 324.

  The screws 314 and 315 are inserted into the screw insertion holes 372 and 373 in a state where the screw insertion holes 372 and 373 of the flange portion 371 and the screw holes 325 and 326 of the wide portion 322 are aligned. By screwing into the screw holes 325 and 326, as shown in FIG. 9, the flange portion 371 is fixed to the wide portion 322 with screws.

  4 and 7, a cam plate 309 is screwed by a screw 375 on a small diameter portion 836 (see FIG. 14) of a rear driven shaft 804 (see FIG. 14) that is a lock shaft of the front door cylinder lock 78. It is attached with. The cam plate 309 has a first protrusion 431 and a second protrusion 432 extending in the radial direction. The cam plate 309 moves the connecting rod 302 from the locked position to the unlocked position, and moves the operating rod 305 from the non-operating position to the operating position.

  In addition, an extended portion 342 (see FIGS. 10 and 11) that extends in the width direction (outside) of the mounting plate portion 321 is formed on the lower side of the support plate portion 341. A photo sensor 311 such as a photoelectric switch used for resetting the slot machine 1 is screwed to the projecting portion 342. As shown in FIG. 7, the photosensor 311 includes a light emitting unit 347 and a light receiving unit 348.

  4 and 7, the connecting rod 302 is made of a metal plate, and the intermediate portion is movable so as to move along the upper support plate portion 331, the intermediate support plate portion 341, and the lower support plate portion 351. A step 393 having a predetermined length is formed by being bent toward the support plate 341. That is, the connecting rod 302 includes a vertical plate portion 394, an inclined plate portion 395, a vertical plate portion 396, an inclined plate portion 397, and a vertical plate portion 398 in this order from the top, and the inclined plate portion 395 and the vertical plate portion 396. The inclined plate portion 397 constitutes a step portion 393.

  4 and 8, the above-described rivet insertion hole 391 is formed in the upper portion of the upper vertical plate portion 394 in the vicinity of the upper end of the vertical plate portion 396.

  4 and 7, a hook 421 that hooks the upper end of the coil spring 307 is formed on the lower portion of the upper vertical plate portion 394 so as to protrude in a direction opposite to the direction in which the step portion 393 is formed.

  In addition, the connecting rod 302 has a slit 422 formed from a lower side at a predetermined interval from the hook 421 of the upper vertical plate portion 394 to an upper portion of the inclined portion 395, and the vertical plate portion 396 from the vicinity of the lower end of the inclined portion 395. An escape hole 423 is formed over the upper portion of the. Further, the vertical plate portion 396 is formed with an engagement hole 424, a slit 425, a rivet hole 426, and a step portion 427. The step portion 427 is formed so as to protrude to the support plate portion 330 side of the vertical plate portion 396, and a notch portion 445 of a damper plate 306 described later is engaged with the step portion 427. A notch 428 for passing the hook 444 of the damper plate 306 is formed on the front side of the lower portion of the vertical plate portion 396.

  A hook 429 for hooking the lower end of the coil spring 308 is formed on the inclined plate portion 397.

  On the other hand, an operating rod 305 and a damper plate 306 are inserted in this order from the support plate portion 341 between the support plate portion 341 of the main body frame 301 and the step portion 393 of the connecting rod 302.

  The damper plate 306 is made of a metal plate material having a length substantially equal to the vertical length of the vertical plate portion 396 of the connecting rod 302. A cam shape 441 on which the first protrusion 431 of the cam plate 309 slides is formed on the front side of the damper plate 306. A rivet insertion hole 442 and a through portion 443 are formed through the plate surface at the upper and lower intermediate portions of the damper plate 306. A hook 444 is formed on the front side of the lower portion of the damper plate 306 so as to protrude toward the connecting rod 302 side. A notch 445 is formed on the rear side of the lower portion of the damper plate 306.

  The rivet 505 is inserted into the rivet insertion hole 442 of the damper plate 306 and inserted into the rivet hole 426 of the vertical plate portion 396 of the connecting rod 302, and the tip of the cylinder protruding from the rivet hole 426 is caulked. The damper plate 306 is pivotally supported by the vertical plate portion 396 of the connecting rod 302 in a rotatable state.

  The operating rod 305 is made of a metal plate and is bent so as to be movable along the upper support plate portion 331 and the intermediate support plate portion 341. That is, the operating rod 305 has a vertical plate portion 451, an inclined plate portion 452, and a vertical plate portion 453 in order from the top, and the inclined plate portion 452 extends from the lower end of the vertical plate portion 451 to the intermediate support plate portion 341. Inclined towards.

  A slit 454 extending in the vertical direction is formed in the vertical plate portion 451 of the operating rod 305.

  A hook 455 that hooks the lower end of the coil spring 307 is formed on the inclined plate portion 452 so as to protrude toward the connecting rod 302.

  An engagement hole 456 is formed in the upper part of the vertical plate portion 453.

  A sliding portion 457 for positioning the front and rear with respect to the main body frame 301 is formed below the middle portion of the rear side of the vertical plate portion 453.

  A light shielding piece 458 for operating the photosensor 311 is formed at the lower portion of the front side of the vertical plate portion 453 so as to be bent toward the intermediate support plate portion 341.

  On the other hand, a bulging portion 334 to be inserted into the slit 454 of the vertical plate portion 451 of the operating rod 305 is formed at the lower portion of the support plate portion 331 above the main body frame 301. The bulging portion 334 and the slit 454 restrict the range in which the support plate portion 331 slides in the vertical direction with respect to the main body frame 301.

  An escape hole 343 is formed in the upper portion of the intermediate support plate portion 341 of the main body frame 301 for releasing the first protrusion 431 and the second protrusion 432 of the cam plate 309 when the cam plate 309 rotates. Yes.

  In addition, a bulging portion 344 that bulges toward the connecting rod 302 side is formed in an intermediate portion of the intermediate support plate portion 341.

  The bulging portion 344 is configured to slide with the sliding portion 457 of the operating rod 305, and the operating rod 305 is sandwiched between the wide portion 322 of the mounting plate portion 321. A rivet hole 345 is formed at the center of the bulging portion 344.

  In addition, a slit 346 into which the light shielding piece 458 of the operating rod 305 is inserted is formed in the intermediate portion of the support plate portion 341.

  The cylinder of the rivet 506 is inserted into the slit 425 of the connecting rod 302, inserted into the through portion 443 of the damper plate 306, inserted into the rivet hole 345 of the main body frame 301, and the tip of the cylinder protruding from the rivet hole 345 is caulked. As a result, the connecting rod 302 is attached to the main body frame 301 so as to be slidable in the vertical direction, and the range of the rotation angle of the damper plate 306 relative to the connecting rod 302 is restricted.

  Hereinafter, the assembled state of the locking device unit 300 will be described.

  In FIG. 5, when the locking device unit 300 is assembled, the upper and lower movable hooks 303 and 304 can be rotated around the rivets 501 and 503 on the upper and lower portions of the support plate 330 of the main body frame 301, respectively. It is attached in a state.

  The upper movable hook 303 is connected to the upper part of the connecting rod 302 through a rivet 503 in a rotatable state. The lower movable hook 304 is connected to the lower part of the connecting rod 302 through a rivet 504 in a rotatable state. The connecting rod 302 is attached to the main body frame 301 so as to be slidable in the vertical direction by a rivet 506.

  In FIG. 9, the operating rod 305 and the damper plate 306 are arranged in order from the support plate portion 341 between the support plate portion 341 of the main body frame 301 and the step portion 393 of the connecting rod 302. The damper plate 306 is attached to the step 393 of the connecting rod 302 so as to be rotatable about the rivet 505. The rotation angle of the damper plate 306 is restricted by the notch 445 (see FIG. 7) being locked to the step 427 of the connecting rod 302.

  The operating rod 305 is attached to the main body frame 301 so as to be slidable in the vertical direction within a predetermined range by the bulging portions 334 and 344 (see FIG. 7) of the main body frame 301 and the connecting rod 302.

  The hook 455 of the operating rod 305 protrudes outside through the slit 422 of the connecting rod 302. A coil spring 307 is attached between the hook 421 of the connecting rod 302 and the hook 455 of the operating rod 305.

  The coil spring 307 urges the connecting rod 302 upward with respect to the operating rod 305 and also urges the operating rod 305 downward with respect to the connecting rod 302.

  In a state where the lower end of the slit 454 (see FIG. 7) of the operating rod 305 is locked to the bulging portion 334 (see FIG. 7) of the main body frame 301, the connecting rod 302 is lowered with respect to the main body frame 301 by the coil spring 307. Be energized.

  In a state where the upper end of the slit 425 (see FIG. 7) of the connecting rod 302 is locked to the rivet 506 attached to the main body frame 301, the operating rod 305 is biased upward with respect to the main body frame 301 by the coil spring 307.

  The hook 444 of the damper plate 306 protrudes outward through the notch 428 of the connecting rod 302. A coil spring 308 is attached between the hook 429 of the connecting rod 302 and the hook 444 of the damper plate 306.

  The coil spring 308 biases the damper plate 306 in a direction in which the cam shape 441 of the damper plate 306 pushes the first protrusion 431 of the cam plate 309.

  In a state where the front door cylinder lock 78 is locked, the first protrusion 431 of the cam plate 309 is inserted into the escape hole 423, and the second protrusion 432 of the cam plate 309 is inserted into the engagement hole 424 of the connecting rod 302. ing. An engagement hole 456 of the operating rod 305 is disposed in the back of the escape hole 423.

  Hereinafter, the front door key 600 will be described in detail.

  In FIG. 13, the front door key 600 is formed with fitting portions 602 and 603 that are fitted to the front door cylinder lock rotor 612 on one side and the other side of the plate-like portion 601. The fitting portions 602, 603 are formed with a plurality of concave and convex portions 604, 605, abutting against a plurality of lock plates 651, 652,. A wide knob 610 is formed on the base end side of the front door key 600.

  The knob unit 610 is provided with a path signal receiving unit 901 and a path signal storage / transmission device 902. The path signal receiving unit 901 is covered with a synthetic resin cover 911 having radio wave transparency. The path signal receiving unit 901 and the path signal storage / transmission device 902 are electrically connected by lead wires 912 and 913 provided in the knob unit 610. The path signal storage / transmission device 902 has a battery as a power source. A long hole 914 for attaching a key holder or passing a string is formed near the base end of the knob 610.

  A protrusion insertion hole 915 is formed at the tip of the plate-like portion 601. A push switch 903 is provided behind the protrusion insertion hole 915.

  A notch 916 is formed between the protruding portion insertion hole 915 of the plate-like portion 601 and the fitting portion 603. A light emitting diode 904 is attached to the notch 916.

  The push switch 903 and the path signal storage / transmission device 902 are electrically connected by lead wires 917 and 918 provided in the plate-like portion 601 and the knob portion 610.

  The light emitting diode 904 and the path signal storage / transmission device 902 are electrically connected by lead wires 919 and 920 provided in the plate-like portion 601 and the knob portion 610.

  In FIG. 14, the front door cylinder lock 78 includes a flange portion 371, a front door cylinder lock body 611, a front door cylinder lock rotor 612, a clutch mechanism 800, and a solenoid 96.

  The flange portion 371 is attached and fixed to the wide portion 322 (see FIG. 4) of the main body frame 301 (see FIG. 4).

  The front door cylinder lock body 611 is formed in a cylindrical shape and is fixed to the front surface of the flange portion 371.

  The front door cylinder lock rotor 612 has a setting key fitting portion 630 that fits into the fitting portions 602 and 603 of the front door key 600, and is inserted into the cylinder of the front door cylinder lock body 611. It is in one of the locked state and the rotatable state in the cylinder, and the fitting part 630 is fitted into the fitting parts 602 and 603 of the front door key 600 so that the inside of the cylinder Release the locked state.

  The front door cylinder lock body 611 includes a front surface portion 631, a cylindrical portion 632, a fixing member 633, and a cylindrical portion 634.

  The front door cylinder lock rotor 612 has a large diameter portion 641, a medium diameter portion 642, and a small diameter portion 643 in order from the front side.

  The cylindrical portion 632 of the front door cylinder lock body 611 is fixed to the opening 635 on the front side of the fixing member 633 by caulking. A front surface portion 631 is inserted into an opening 636 in front of the cylindrical portion 632 and is fixed by caulking. The cylindrical portion 632 covers the intermediate portion 606 of the front door key 600. A keyhole 79 is formed in the front surface portion 631.

  A reverse flange portion 644 is formed on the inner periphery behind the fixing member 633, and the inner diameter portion 642 of the front door cylinder lock rotor 612 is pivotally supported in the through hole 645 inside the reverse flange portion 644. It has become. A ring 646 is attached to the small diameter portion 643 of the front door cylinder lock rotor 612. The ring 646 is locked by a locking fitting 647 so that it cannot move backward.

  The large-diameter portion 641 of the front door cylinder lock rotor 612 is provided with a plurality of lock plates 651, 652... Movable in the radial direction of the large-diameter portion 641. The plurality of lock plates 651, 652,... Are urged alternately in the radial direction from one end to the other by a spring (not shown), and the front door key 600 is not inserted into the key hole 79. The front door cylinder lock rotor 612 is locked to the front door cylinder lock body 611 in a state where the front door cylinder lock rotor 611 cannot be rotated by being fitted into lock grooves 648 and 649 formed on the outer peripheral portion of the door cylinder lock rotor 612. ing.

  Are formed with key insertion holes 661, 662,... At positions corresponding to the concave and convex portions 604, 605,.

  When the front door key 600 is inserted into the key hole 79 of the front surface portion 631, the concave and convex portions 604, 605... Abut on the opposite ends of the key insertion holes 661, 662,. , 662... Move, and the front ends of the lock plates 651, 652... Are flush with the outer periphery of the large-diameter portion 641 of the front door cylinder lock rotor 612, so that the front door cylinder lock rotor 612 and the front door cylinder are aligned. The lock with the lock body 611 is released, and the front door cylinder lock rotor 612 can be rotated together with the front door key 600.

  The large-diameter portion 641 of the front door cylinder lock rotor 612 is located at a position facing the light emitting diode 904 in a state where the fitting portion 630 is fitted with the fitting portions 602 and 603 of the front door key 600. A through-hole 671 for passing light from is formed. The fixing member 633 of the front door cylinder lock body 611 allows light from the light emitting diode 904 to pass to a position facing the through-hole 671 in a state where the front door cylinder lock rotor 612 is locked to the front door cylinder lock body 611. For this purpose, a through hole 672 is formed.

  A phototransistor 673 as a light receiving element is attached to the through hole 672.

  The phototransistor 673 is electrically connected to the pass signal determination device 93 (see FIGS. 2 and 16) via the harness 674.

  A protrusion 675 is provided at the back of the fitting portion 630 of the front door cylinder lock rotor 612.

  The protruding portion 675 is inserted into the protruding portion insertion hole 915 of the plate-like portion 601 in a state where the fitting portion 630 is fitted with the plate-like portion 601 of the front door key 600 and presses the pressing switch 903. ing.

  On the other hand, a clutch mechanism 800 is provided behind the small-diameter portion 643 of the front door cylinder lock rotor 612.

  The clutch mechanism 800 includes front and rear clutch disks 801 and 802, front and rear driven shafts 803 and 804, a ring-shaped member 805, and a coil spring 806, and most of the clutch mechanism 800 is housed in a cylindrical portion 634.

  The front clutch disk 801 is formed in a disk shape by a mold using a metal such as an aluminum alloy as a material.

  Sawtooth-shaped clutch teeth 811 (see FIG. 15) are formed at the rear edge of the front clutch disk 801.

  A screw insertion hole 812 is formed at the center of the clutch disk 801.

  A screw hole 813 is formed in the rear end surface of the small diameter portion 643. The screw 814 is inserted into the screw insertion hole 812 of the clutch disk 801 and screwed into the screw hole 813, thereby fixing the clutch disk 801 to the rear end face of the small diameter portion 643 with screws.

  The rear clutch disk 802 is made of a material (non-magnetic material) that is not attracted by a magnet such as fiber reinforced plastic in a disk shape by a mold.

  Sawtooth-shaped clutch teeth 821 (see FIG. 15) are formed at the front edge of the rear clutch disk 802.

  At the center of the rear surface of the rear clutch disk 802, a cylindrical shaft portion 822 is integrally formed of the same material as that of the rear clutch disk 802 main body.

  A screw hole 823 is formed in the rear end surface of the shaft portion 822.

  The front driven shaft 803 is a rod-like material (ferromagnetic material) that is strongly attracted to a magnet such as steel.

  The front driven shaft 803 has a male screw part 831, a columnar part 832, a flange part 833, and a quadrangular columnar part 834 in order from the front side. The male screw portion 831 is screwed into the screw hole 823 of the rear clutch disk 802 and tightened to fix the front driven shaft 803 to the rear clutch disk 802.

  The rear driven shaft 804 is formed by forming a metal such as an aluminum alloy into a rod shape.

  The rear driven shaft 804 has a large diameter portion 835 and a small diameter portion 836 in order from the front side.

  A square hole 837 into which the quadrangular prism-shaped portion 834 is inserted is formed on the front end surface of the large diameter portion 835.

  The square hole 837 is formed so that the inner peripheral shape thereof coincides with the outer peripheral shape of the square columnar portion 834. With such a structure, the front driven shaft 803 can slide back and forth with respect to the rear driven shaft 804, and the front and rear driven shafts 803 and 804 rotate in conjunction with the central axis in the front and rear direction as a rotation axis. It is like that.

  The rear side of the small-diameter portion 836 of the rear driven shaft 804 is inserted into a through hole 374 formed in the flange portion 371 and protrudes rearward of the flange portion 371, and a cam plate 309 is provided with a screw 375 at the tip of the small-diameter portion 643. It is fixed with screws.

  Further, locking metal fittings 841 and 842 are attached to the narrow diameter portion 836 at the front and rear positions of the flange portion 371. The front and rear positions of the rear driven shaft 804 with respect to the flange portion 371 are kept constant by the locking fittings 841 and 842.

  Hereinafter, the screwing structure of the cam plate 309 will be described in detail.

  The cam plate 309 is formed with an elliptical fitting hole 433 that penetrates the plate surface. A fitting convex portion 839 is formed at the tip of the small diameter portion 836 via a step portion 838. The fitting convex portion 839 is formed so that the outer peripheral shape coincides with the elliptical shape of the fitting hole 433, and is inserted into the fitting hole 433 of the cam plate 309 to be fitted. The small diameter portion 836 has a screw hole 840 formed along the rotation axis of the small diameter portion 836 from the end face of the fitting convex portion 839. A screw portion 375 a of the screw 375 is screwed into the screw hole 840. A screw head 375 b of the screw 375 is formed to have a larger diameter than the fitting hole 433.

  In a state where the fitting convex portion 839 and the fitting hole 433 of the cam plate 309 are fitted, the screw portion 375a of the screw 375 is screwed into the screw hole 840, and the screw 375 is tightened, the cam plate 309 is connected to the step portion 838. The state is fixed to the narrow diameter portion 836 by being sandwiched between the screw heads 375b. Since the outer peripheral shape of the fitting convex portion 839 and the inner peripheral shape of the fitting hole 433 are formed in an elliptical shape, the cam plate 309 does not rotate with respect to the small diameter portion 836.

  The solenoid 96 is inserted into the cylinder of the cylindrical portion 634 and is fixed by screws with screws 851. The solenoid 96 is disposed around the connecting portion at the boundary between the shaft portion 822 of the rear clutch disk 802 and the front driven shaft 803 and the front and rear thereof. A ring-shaped member 805 is fixed by screws 852 behind the solenoid 96 in the cylinder of the cylindrical portion 634. A cylindrical portion 832 of the driven shaft 803 is inserted into the through hole 853 at the center of the ring-shaped member 805. With this structure, the ring-shaped member 805 supports the driven shaft 803.

  A coil spring 806 is inserted between the flange portion 833 of the front driven shaft 803 and the ring-shaped member 805. The coil spring 806 biases the flange portion 833 of the front driven shaft 803 rearward, that is, the rear driven shaft 804 side.

  On the other hand, a through hole 860 is formed in the cylindrical portion 634. One end of the harness 861 is connected to the solenoid drive circuit 94 (see FIGS. 2 to 16), and the connector 862 on the other end is electrically connected to the solenoid 96 through the through hole 860.

  Next, the pass signal unlocking management system 900 will be described.

  In FIG. 16, a pass signal unlocking management system 900 includes a pass signal generation management device 931, a front door cylinder lock 78, a front door key 600, a pass signal receiving unit 91, a pass signal storage device 92, The signal determination device 93, a solenoid drive circuit 94, and a phototransistor 673 are configured.

  The path signal generation management device 931 generates a different path signal a1 every day, and transmits it with an electromagnetic wave from the signal transmission unit.

  The pass signal receiving unit 901 of the front door key 600 receives and demodulates the electromagnetic wave pass signal a1 from the pass signal generation management device 931, and outputs it to the pass signal storage / transmission device 902 as a digital pass signal b1. The pass signal storage / transmission device 902 has a flash memory, and stores the digital pass signal b1 from the pass signal receiving unit 901 of the front door key 600 in the flash memory. When the push switch 903 is turned on, the pass signal storage / transmission device 902 reads the pass signal b1 stored in the flash memory, amplifies it, and supplies it to the light emitting diode 904, thereby causing the light emitting diode 904 to output a light pass signal. .

  In the phototransistor 673, the fitting portion 630 of the front door cylinder lock body 611 is fitted with the fitting portions 602 and 603 of the front door key 600, and the through-hole 672 of the front door cylinder lock rotor 612 is the front door. When the cylinder lock body 611 is located at a position facing the through hole 672 of the fixing member 633, the light from the light emitting diode 904 is received and photoelectrically converted to generate a pass signal c1 of an electric signal to determine the pass signal. Supply to device 93.

  On the other hand, the path signal receiving unit 91 provided in the slot machine 1 receives and demodulates the electromagnetic wave path signal a1 from the path signal generation management device 931, and outputs it to the path signal storage device 92 as a digital path signal d1. . The path signal storage device 92 has a flash memory, and stores the digital path signal d1 from the path signal receiving unit 91 in the flash memory.

  When the pass signal c1 is supplied from the phototransistor 673, the pass signal determination device 93 reads the pass signal d1 from the flash memory of the pass signal storage device 92, and compares the pass signal d1 with the pass signal c1 from the phototransistor 673. If they match, a clutch-on signal e1 is supplied to the solenoid drive circuit 94 for 20 seconds. The solenoid drive circuit 94 causes a current to flow through the solenoid 96 when the clutch-on signal e1 is supplied from the pass signal determination device 93.

  Hereinafter, the operation of the pass signal unlocking management system 900 will be described.

  First, a state before the pass signal determination device 93 permits the unlocking of the cylinder lock 78 will be described.

  In a state where the unlocking of the cylinder lock 78 is not permitted, the pass signal determination device 93 controls the solenoid drive circuit 94 to be off so that no current flows through the solenoid 96. Accordingly, as shown in FIG. 14, the front driven shaft 803 is pressed against the rear driven shaft 804 by the biasing force of the coil spring 806, and the clutch teeth 811 and 821 of the front and rear clutch disks 801 and 802 are separated. Even if the front door cylinder lock rotor 612 rotates, the rear clutch disk 802, the front and rear driven shafts 803 and 804, and the cam plate 309 do not rotate, and the pass signal unlocking management system 900 unlocks the cylinder lock 78. Is not allowed.

  Next, the operation when the pass signal is stored in the pass signal storage / transmission apparatus 902 of the slot machine 1 shown in FIG. 16 will be described.

  In this case, first, the operator opens the electromagnetic wave shielding cover 95 from the back side of the front door 3 with the front door 3 (see FIG. 1) opened from the housing 2 (see FIG. 1), and opens the path signal receiving unit 91. Expose. Next, the operator operates the path signal generation management device 931 and transmits the path signal a1 from the signal transmission unit of the path signal generation management device 931 to the path signal reception unit 91 by electromagnetic waves.

  Thereby, the path signal a1 of the electromagnetic wave from the path signal generation management device 931 is stored in the path signal storage / transmission device 92 as the digital path signal c1 via the path signal receiving unit 91. If the previous pass signal is stored in the flash memory of the flash memory, the pass signal storage / transmission device 92 erases the previous pass signal from the flash memory when the new pass signal c1 is supplied.

  Next, the operation when the pass signal is stored in the pass signal storage / transmission device 902 of the front door key 600 will be described.

  In this case, first, the operator brings the signal transmission unit of the pass signal generation management device 931 closer to the pass signal reception unit 901 of the front door key 600, operates the pass signal generation management device 931, and signals from the pass signal generation management device 931. The path signal a1 is transmitted from the transmission unit to the path signal reception unit 901.

  As a result, the electromagnetic wave path signal a1 from the path signal generation management device 931 is stored in the flash memory of the path signal storage / transmission device 902 as the digital path signal b1 via the path signal receiving unit 901. If the previous path signal is stored in the flash memory, the path signal generation management device 931 deletes the previous path signal from the flash memory when the new path signal c1 is supplied.

  Here, the person who operates the game facility stores the pass signal in the pass signal storage / transmission device 902 of the slot machine 1 and the pass signal storage / transmission device 902 of the front door key 600 every day before the game facility is opened. The operation of storing the pass signal is performed.

  Next, from the state in which the front door 3 (see FIG. 1) is closed with respect to the housing 2 (see FIG. 1) and locked by the cylinder lock 78, the pass signal determining device 93 performs the pass signal determination and the cylinder. The operation until the unlocking of the lock 78 is permitted and the front door 3 of the housing 2 is opened will be described.

  In this case, the operator prepares the front door key 600 storing the same pass signal as the pass signal storage / transmission device 902 of the slot machine 1 by the pass signal generation management device 931.

  Next, as shown in FIG. 14, the operator inserts the regular front door key 600 into the key hole 79 of the front door cylinder lock 78.

  As a result, the phototransistor 673 receives a light pass signal from the light emitting diode 904 through the through hole 671 of the front door cylinder lock rotor 612 and the through hole 672 of the front door cylinder lock body 611 and photoelectrically converts it. Then, a pass signal c1 of the electric signal is generated and supplied to the pass signal determination device 93. As a result, the pass signal determination device 93 matches the comparison result between the pass signal d1 read from the flash memory of the pass signal storage device 92 and the pass signal c1 from the phototransistor 673. Is supplied for 20 seconds, and current is supplied to the solenoid 96 for 20 seconds.

  As a result, the solenoid 96 sucks the columnar portion 832 of the driven shaft 803 forward, and as a result, the square columnar portion of the front driven shaft 803 from the square hole 837 of the rear driven shaft 804 as shown in FIG. 834 moves forward by a predetermined distance, the clutch teeth 811 and 821 of the front and rear clutch disks 801 and 802 are engaged, the front and rear clutch disks 801 and 802 are connected, and the front door cylinder lock rotor 612 is connected to the cam plate 309. To do. Thereby, the unlocking of the cylinder lock 78 is permitted by the pass signal unlocking management system 900.

  On the other hand, in the front door cylinder lock 78, when the regular front door key 600 is completely inserted into the key hole 79, the front ends of the lock plates 651, 652,... Are the large diameter portions 641 of the front door cylinder lock rotor 612. The front door cylinder lock rotor 612 and the front door cylinder lock main body 611 are unlocked, and the front door cylinder lock rotor 612 can be rotated together with the front door key 600.

  The front door cylinder lock 78 is inserted into the key hole 79 and the front door key 600 is rotated within 20 seconds from the state in which the unlocking of the cylinder lock 78 is permitted by the pass signal unlocking management system 900. The front door cylinder lock rotor 612, the front and rear clutch disks 801 and 802, the front and rear driven shafts 803 and 804, and the cam plate 309 rotate.

  Hereinafter, the operation of the locking device unit 300 by the turning operation of the front door key 600 will be described.

  When the front door cylinder lock 78 is in the locked state, as shown in FIGS. 9 to 12, the connecting rod 302 is at the lowest position in the slidable range with respect to the main body frame 301. 302, the upper side of the damper plate 306 is at the most forward position, and the operating rod 305 is at the uppermost position in the slidable range with respect to the main body frame 301, and the light emitting portion 347 of the photosensor 311 (FIG. 11). The light shielding piece 458 is separated from between the light receiving portion 348 (see FIG. 11).

  When the front door key 600 inserted into the key hole 79 is rotated clockwise within 20 seconds from the state in which the unlocking of the cylinder lock 78 is permitted by the pass signal unlocking management system 900, FIG. As shown in FIG. 4, on the rear side of the locking device unit 300, the cam plate 309 rotates clockwise, and the second protrusion 432 of the cam plate 309 pushes up the engagement hole 424 of the connecting rod 302, On the other hand, the connecting rod 302 is slid upward, and as shown in FIGS. 18 and 19, the movable hooks 303 and 304 are rotated in the direction in which the locking claws 384 and 414 are lowered, and the fixed plates 26 and 27 (see FIG. 2). ) Is released from the movable hooks 303 and 304. As a result, the front door 3 can be opened with respect to the housing 2.

  After the front door key 600 is rotated clockwise, when the application of the force to the front door key 600 is stopped, the connecting rod 302 slides downward with respect to the main body frame 301 by the biasing force of the coil spring 307, and is locked. The device unit 300 returns to the locked state shown in FIGS.

  When the front door key 600 inserted into the key hole 79 is rotated counterclockwise, it is rotated counterclockwise of the cam plate 309 on the rear side of the locking device unit 300 and the first protrusion of the cam plate 309 is detected. With the portion 431 inserted into the escape hole 423 of the connecting rod 302, the cam shape 441 (see FIG. 7) of the damper plate 306 slides, and as shown in FIG. 20, the upper side of the damper plate 306 protrudes backward. The damper plate 306 is rotated in the direction to be moved, the engaging hole 456 of the operating rod 305 is pushed down, and the operating rod 305 is slid downward with respect to the main body frame 301. As shown in FIG. A light shielding piece 458 is inserted between the light emitting unit 347 and the light receiving unit 348, the photo sensor 311 is operated, and the game state of the slot machine 1 is reset to the main control board 20 shown in FIG. I make.

  When the front door key 600 is rotated counterclockwise as shown in FIG. 20 and the force applied to the front door key 600 is stopped, the operating rod 305 is moved against the main body frame 301 by the biasing force of the coil spring 307. The damper plate 306 is slid upward and the damper plate 306 is rotated by the urging force of the coil spring 308 so that the upper side of the damper plate 306 moves forward, and the locking device unit 300 returns to the locked state shown in FIGS. .

  When 20 seconds have passed without the front door key 600 being rotated from the state where the unlocking of the cylinder lock 78 is permitted by the pass signal unlocking management system 900, the cylinder lock 78 is 14 and the locking device unit 300 maintains the locked state shown in FIGS.

  Next, an operation in a case where a person who performs an illegal act attempts to open the front door 3 with respect to the housing 2 using a forged front door key will be described.

  In this case, a person who performs an illegal act first stores a pass signal that has been forged and previously obtained in an unauthorized manner in the front door key.

  Next, as in the case of FIG. 14, the operator forges the front door key into the key hole 79 of the front door cylinder lock 78. As a result, the phototransistor 673 generates a pass signal c1 of an electric signal by forging the light received by the front door key and performing photoelectric conversion, and supplies it to the pass signal determination device 93. Since the pass signal stored in the flash memory 92 is changed every day before the store is opened, the pass signal d1 read from the flash memory of the pass signal storage device 92 and the phototransistor 673 in the pass signal determination device 93. The comparison result with the pass signal c1 does not match, and the pass signal determination device 93 does not permit the unlocking of the cylinder lock 78 and maintains the state of FIG. Further, the pass signal determination device 93 does not permit the unlocking of the cylinder lock 78 even when the phototransistor 673 does not receive light, and maintains the state of FIG.

  For this reason, the front door cylinder lock 78 rotates the front door cylinder lock rotor 612 and the front clutch disc 801 by inserting a counterfeit front door key or an improper instrument into the key hole 79 and rotating the front door key. However, the rear clutch disk 802, the front and rear driven shafts 803 and 804, and the cam plate 309 do not rotate in the locked position, and the locking device unit 300 maintains the locked state shown in FIGS. 2 cannot open the front door 3.

  With the configuration and operation described above, the housing 2 has the opening 8 in the front.

  The front door 3 is attached so as to be rotatable with respect to the housing 2, thereby closing the opening 8 in a state where the opening 8 can be opened and closed.

The CPU 200, the winning lottery table 203, and the random number generator 205 serve as lottery means for acquiring a random value in response to a predetermined first game operation and drawing a winning combination based on the acquired random value.
The first game operation is an operation of turning on the lever 75.

  The CPU 200 and the hopper device 21 serve as game medium payout means for paying out game media from the inside to the outside of the front door 3 based on the winning combination selected by the lottery means and the predetermined second game operation. Yes.

  The second game operation is an on operation of the stop buttons 76a, 76b, and 76c.

  The front door cylinder lock body 611 is formed in a cylindrical shape and provided on the front door 3.

  The front door cylinder lock rotor 612 has a front door key fitting portion 630 that engages with the front door key 600 storing the path information, and is inserted into the cylinder of the front door cylinder lock body 611. In the locked state and in the rotatable state, the front door key fitting portion 630 is engaged with the front door key 600 so that the locked state in the cylinder is achieved. To release.

  The front and rear driven shafts 803 and 804 are disposed inside the front door 3 so as to be mechanically connectable with the front door cylinder lock rotor 612 and connected to the front door cylinder lock rotor 612 in the state where the front door is connected. It rotates in conjunction with the door cylinder lock rotor 612.

  The cam plate 309 is fixedly attached to the rear driven shaft 804.

  The front door locking mechanism 310 fixes the front door 3 to the housing 2 and releases the fixation in conjunction with the rotation of the cam plate 309.

  The path signal generation management device 931 is an external device.

  The path signal receiving unit 91 and the path signal storage device 92 are external device path signal reception storage means for receiving and storing path information transmitted from the path signal generation management device 931.

  The protrusion 675 and the phototransistor 673 serve as a front door key path information reading unit that reads out the path information stored in the front door key 600.

  The pass signal determination device 93, the solenoid drive circuit 94, the solenoid 96, and the front and rear clutch disks 801 and 802 include a pass signal stored in the front door key path signal reception storage means and a pass signal read by the front door key path information reading means. , And corresponding to the result of the comparison, the front door cylinder lock rotor 612 and the front driven shaft 803 are used as an intermittent means.

  As described above, according to the slot machine 1 of the present embodiment, the pass signal determination device 93 uses the protrusion 675 and the phototransistor 673 to periodically update the pass signal stored in the front door key 600. Read using. The read pass signal is compared with a periodically updated pass signal stored in the pass signal storage device 92 of the slot machine 1, and the front door cylinder lock rotor 612 and the front side driven are corresponding to the comparison result. Intermittent connection with the shaft 803 can prevent the front door 3 from being illegally opened, thereby preventing theft of game media and illegally displaying and changing the winning probability winning probability setting. Can be prevented.

  In the embodiment shown in FIGS. 1 to 21, the pass signal stored in the front door key 600 and the pass signal storage device 92 of the slot machine 1 is updated every day, but the update cycle is 6 hours. Various applications are possible depending on the situation.

  The present invention can be applied not only to slot machines but also to other gaming machines such as pachinko machines and arrangement balls using medals.

FIG. 1 is a perspective view showing an external structure of a slot machine according to an embodiment of the present invention. FIG. 2 shows the internal structure of the slot machine according to the embodiment of the present invention. FIG. 3 is a block diagram showing a slot machine control system according to an embodiment of the present invention. FIG. 4 is an exploded perspective view of the locking device unit according to the embodiment of the present invention. FIG. 5 is a perspective view of the locking device unit according to the embodiment of the present invention as seen from the back side in the assembled state. FIG. 6 is a perspective view of the locking device unit according to the embodiment of the present invention as seen from the front side in the assembled state. FIG. 7 is an exploded perspective view showing the front door cylinder lock and its peripheral portion of the locking device unit according to the embodiment of the present invention. FIG. 8 is an exploded perspective view showing the movable hook and its peripheral part of the locking device unit according to the embodiment of the present invention. FIG. 9 is a perspective view of the front door cylinder lock of the locking device unit according to the embodiment of the present invention and its peripheral portion as seen from the back side. FIG. 10 is a perspective view of the front door cylinder lock of the locking device unit according to the embodiment of the present invention and its peripheral portion as seen from the front side. FIG. 11 is a side view seen from the left side of the assembled state of the front door cylinder lock 78 and its peripheral part of the locking device unit according to the embodiment of the present invention. FIG. 12 is a perspective view of the movable hook of the locking device unit according to the embodiment of the present invention and its peripheral portion as seen from the back side in an assembled state. FIG. 13 is a perspective view of a front door key according to an embodiment of the present invention. FIG. 14 is a cross-sectional view of a front door cylinder lock according to an embodiment of the present invention. FIG. 15 is a perspective view showing the front and rear clutch disks and their peripheral parts according to an embodiment of the present invention. FIG. 16 is a block diagram showing a pass signal unlocking management system according to an embodiment of the present invention. FIG. 17 is a cross-sectional view showing a state where the front door cylinder lock according to the embodiment of the present invention can be unlocked. FIG. 18 is a perspective view showing a state in which an operation for releasing the locking of the front door cylinder lock and its peripheral portion of the locking device unit according to the embodiment of the present invention has been performed. FIG. 19 is a perspective view of a state in which an operation for unlocking the movable hook of the locking device unit and its periphery is performed according to an embodiment of the present invention. FIG. 20 is a perspective view seen from the back side in a state where the movable hook of the locking device unit according to the embodiment of the present invention and the reset operation of the periphery thereof are performed. FIG. 21 is a perspective view seen from the front side in a state where the movable hook of the locking device unit according to one embodiment of the present invention and the peripheral portion thereof are reset.

Explanation of symbols

1 ... slot machine, 2 ... housing, 3 ... front door, 4 ... upper panel,
5 ... Lower panel, 6 ... Medal tray, 6a ... Medal tray,
7 ... console, 8 ... opening, 9 ... wall surface, 10 ... through hole, 20 ... main control board,
21 ... Hopper device, 22 ... Auxiliary storage unit, 23 ... Main power supply device,
24 ... power supply device board, 25 ... external concentration terminal board, 26, 27 ... fixing plate,
28 ... Horizontal plane part, 30, 31a, 31b ... Light emission drive part,
32a, 32b, 38a, 38b ... speaker, 33 ... central display board,
34 ... Medal sorting device, 34a ... Medal sensor, 35 ... Guide member,
36 ... Guide member, 37 ... Guide member, 38a, 38b ... Speaker,
40 ... Sub-control board, 41 ... Panel surface, 42 ... Display window,
43 ... Game state display section, 44 ... Operation assist display section,
45 ... Numerical information display part, 46, 47a, 47b ... Illumination part for effects,
48a, 48b, 62a, 62b ... production sound emitting part,
49 ... Liquid crystal display device, 49a ... Display window, 50 ... Panel plate,
51 ... Display panel, 52a, 52b ... Right and left lighting units,
61: Medal payout exit, 62a, 62b ... Production sound emitting part,
71: Medal slot, 72: Medal slot,
73, 74 ... Bet button, 75 ... Start lever,
76a, 76b, 76c ... Stop button, 77 ... Checkout button,
78 ... Cylinder lock for front door, 79 ... Key hole, 81 ... Power switch,
82 ... Reset button, 83 ... Setting lock, 84 ... Door,
85: Front door opening detection switch, 86 ... Setting change button,
87 ... Transparent cover, 88 ... Setting key operation detection switch,
91 ... Pass signal receiving unit, 92 ... Pass signal storage device,
93 ... Pass signal determination device, 95 ... Electromagnetic wave shielding cover, 96 ... Solenoid,
100 ... reel unit, 101a, 101b, 101c ... reel,
110a, 110b, 110c ... stepping motors,
130 ... Spindle device substrate, 200 ... CPU, 201 ... Storage unit,
202 ... system program, 203 ... medal credit means,
204 ... Winning lottery table, 205 ... Internal lottery flag,
206 ... random number generator, 220 ... substrate case,
300 ... Locking device unit, 301 ... Main body frame,
302 ... Connecting rod 303, 304 ... Movable hook 305 ... Actuating rod
306 ... damper plate, 307, 308 ... coil spring, 309 ... cam plate,
310: Front door locking mechanism, 311 ... Photo sensor, 312 ... Roller,
314, 315 ... screw, 321 ... mounting plate part, 322 ... wide part,
323 ... Screw insertion hole, 324 ... Lock mounting hole, 325, 326 ... Screw hole,
330 ... support plate part, 331, 341, 351 ... support plate part,
332 ... rivet hole, 334 ... bulge part, 342 ... overhang part,
343 ... escape hole, 344 ... bulge, 345 ... rivet hole,
346 ... slit, 347 ... light emitting part, 348 ... light receiving part,
352, 353 ... rivet holes, 354 ... escape holes,
361 ... reinforcing piece, 371 ... flange part, 372, 373 ... screw insertion hole,
374 ... through hole, 375 ... screw, 375a ... thread portion,
375b ... Screw head, 381 ... Base end, 382 ... Rivet insertion hole,
383 ... Rivet hole, 384 ... Locking claw, 391 ... Rivet insertion hole,
392 ... Rivet insertion hole, 393 ... Stepped portion, 394 ... Vertical plate portion,
395 ... inclined plate part, 396 ... vertical plate part, 397 ... inclined plate part,
398 ... Vertical plate part, 400 ... Numerical information display part, 411 ... Base end part,
412 ... Rivet insertion hole, 413 ... Rivet hole, 414 ... Locking claw,
420 ... Rivet insertion hole, 421 ... Hook, 422 ... Slit,
424 ... engaging hole, 425 ... slit, 426 ... rivet hole,
427 ... Step, 428 ... Notch, 429 ... Hook,
431 ... 1st protrusion, 432 ... 2nd protrusion, 433 ... fitting hole,
441 ... cam shape, 442 ... rivet insertion hole, 443 ... penetrating part,
444 ... Hook, 445 ... Notch, 451 ... Vertical plate,
452 ... Inclined plate portion, 453 ... Vertical plate portion, 454 ... Slit,
455 ... hook, 456 ... engagement hole, 457 ... sliding part, 458 ... light shielding piece,
501, 502, 503, 504, 505, 506, 507 ... Rivet,
600 ... front door key, 601 ... plate-like part, 602, 603 ... fitting part,
604, 605 ... uneven portion, 606 ... middle portion, 610 ... picking portion,
611 ... Cylinder lock body for front door, 612 ... Cylinder lock rotor for front door,
612 ... Cylinder lock rotor for front door, 630 ... Setting key fitting part,
631 ... Front part, 632 ... Cylindrical part, 633 ... Fixing member,
634 ... cylindrical portion, 635, 636 ... opening, 641 ... large diameter portion,
642 ... Medium diameter part, 643 ... Small diameter part, 644 ... Reverse flange part,
645 ... through hole, 646 ... ring, 647 ... locking metal fitting,
651, 652 ... lock plate, 648, 649 ... lock groove,
651, 652 ... lock plate, 661, 662 ... key insertion hole,
671 ... through hole, 672 ... through hole, 673 ... phototransistor,
674 ... Harness, 675 ... Projection, 800 ... Clutch mechanism,
801, 802 ... clutch disk, 803, 804 ... driven shaft,
805 ... Ring-shaped member, 806 ... Coil spring, 811 ... Clutch teeth,
812 ... Screw insertion hole, 813 ... Screw hole, 814 ... Screw,
821 ... Clutch teeth, 822 ... Shaft, 823 ... Screw hole,
831 ... male screw part, 832 ... cylindrical part, 833 ... flange part,
834 ... Quadrangular prism shape part, 835 ... Large diameter part, 836 ... Small diameter part,
837 ... Square hole, 838 ... Step part, 839 ... Fitting convex part, 840 ... Screw hole,
841, 842 ... locking metal fittings, 851 ... screws, 852 ... screws,
853 ... through hole, 900 ... pass signal unlocking management system,
901... Path signal receiving unit, 902.
903 ... Press switch, 904 ... Light emitting diode,
911 ... Cover, 912, 913 ... Lead wire, 914 ... Long hole,
915 ... projection insertion hole, 916 ... notch,
917, 918, 919, 920 ... lead wire,
931 ... Pass signal generation management device

Claims (1)

A housing having an opening on the front;
A front door that is pivotally attached to the housing so as to close the opening in an openable / closable state;
Lottery means for acquiring a random value in response to a predetermined first game operation, and drawing a winning combination based on the acquired random value;
A gaming machine comprising game medium payout means for paying out game media from the inside to the outside of the front door based on a winning combination and a predetermined second game operation drawn by the lottery means,
Provided on the front door, a cylinder lock body for the front door formed in a cylindrical shape,
It has a front door key fitting portion that fits with a front door key that stores path information, and is inserted into a cylinder of the front door cylinder lock body, and is in a locked and fixed state and a rotatable state in the cylinder. A front door cylinder lock rotor that is in one of the states, and the front door key fitting portion is engaged with the front door key to release the locked state in the cylinder,
It is disposed inside the front door so as to be mechanically connectable with the front door cylinder lock rotor, and rotates in conjunction with the front door cylinder lock rotor while being connected to the front door cylinder lock rotor. A driven shaft,
A cam plate fixedly attached to the driven shaft;
A front door lock mechanism for fixing the front door to the housing and releasing the fixation in conjunction with rotation of the cam plate;
External device path signal reception storage means for receiving and storing path information transmitted from the external device;
Front door key path information reading means for reading path information stored by the front door key;
The pass signal stored in the front door key pass signal reception storage means is compared with the pass signal read by the front door key path information reading means, and the front door cylinder lock rotor and the driven shaft are corresponding to the comparison result. And a discontinuity means for discontinuity between the game machine and the game machine.

Images