JP2017144083A - Game machine - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a game machine capable of easily preventing a fraudulent member from entering from a token outlet, and hardly causing jamming of tokens when putting out tokens.SOLUTION: The game machine includes: a hopper unit 280 for putting out tokens; a token guide passage 266 for guiding the tokens put out from the hopper unit 280 to a tray 161; and a token outlet 155 for discharging the tokens guided by the token guide passage 266 to the tray 161. The token guide passage 266 includes a token accumulation area a4 capable of accumulating the tokens. The token accumulation area a4 includes a rightward area a45 capable of discharging the tokens in a standing state via the token outlet 155 to the tray 161, and a central area a43 that cannot discharge the tokens in the standing state via token outlet 155 to the tray 161.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a gaming machine represented by a spinning machine (slot machine).

  2. Description of the Related Art Conventionally, there is a gaming table represented by a slot machine that has been devised to prevent an unauthorized member from entering through a discharge port for paying out gaming medals (for example, Patent Document 1).

JP 2012-50725 A

  However, since the slot machine shown in Patent Document 1 narrows the passage of game medals by the dummy passage, there is a possibility that medals are clogged inside the housing when a plurality of game medals are paid out at high speed. .

  SUMMARY OF THE INVENTION An object of the present invention is to provide a game machine that can easily prevent unauthorized members from entering from a medal discharge port and is less likely to cause clogging of medals when paying out medals.

The above purpose is
A hopper unit for paying out medals,
A medal guiding path for guiding a medal paid out from the hopper unit to a tray;
A discharge port for discharging the medal guided by the medal guiding path to the tray;
A game machine equipped with
The medal guiding path has a medal retention area where medals can be retained,
The medal retention area is
A first region that can be discharged to the tray through the discharge port in a state where a medal stands up;
A second region that cannot be discharged to the tray through the discharge port in a state where a medal stands up,
The first region is a region that is provided adjacent to a first wall portion of the wall portions forming the medal residence region, and has a lateral width longer than the thickness of the medal,
The second region is a region that is provided close to the first region and has a second bottom surface that is higher than the first bottom surface that is the bottom surface of the first region.
This is achieved by a game stand characterized by that.

  According to the present invention, it is possible to easily prevent the intrusion of an unauthorized member, and it is possible to realize a game table in which medal clogging hardly occurs at the medal discharge port.

FIG. 2 is an external perspective view of the slot machine 100 according to the embodiment of the present invention as viewed from the front side (player side). FIG. 4 is a circuit block diagram of a control unit of the slot machine 100 according to one embodiment of the present invention. FIG. 3A is a diagram showing a planar arrangement of symbols arranged on each reel (left reel 110, middle reel 111, and right reel 112) of the slot machine 100 according to the embodiment of the present invention. (B) It is a figure which shows the kind of winning combination (including an operating combination) of the slot machine 100 by one embodiment of this invention, the symbol combination corresponding to each winning combination, and the action | operation or payout of each winning combination. 4 is a flowchart showing a flow of main processing of the main control unit 300 of the slot machine 100 according to the embodiment of the present invention. 4 is a flowchart showing a timer interrupt process performed by the main control unit 300 of the slot machine 100 according to the embodiment of the present invention. FIG. 4 is a diagram for explaining the flow of processing in the first sub-control unit of the slot machine 100 according to the embodiment of the present invention, wherein (a) is a flowchart of main processing executed by the CPU 404 of the first sub-control unit 400; (B) is a flowchart of the command reception interrupt process of the first sub-control unit 400, and (c) is a flowchart of the timer interrupt process of the first sub-control unit 400. FIG. 10 is a diagram for explaining the flow of processing in the second sub-control unit 500 of the slot machine 100 according to the embodiment of the present invention, where (a) shows the main processing executed by the CPU 504 of the second sub-control unit 500; It is a flowchart. (B) is a flowchart of command reception interrupt processing of the second sub-control unit 500. (C) is a flowchart of the timer interrupt process of the second sub-control unit 500. (D) is a flowchart of image control processing of the second sub-control unit 500. FIG. 3 is a front view showing the slot machine 100 with the front door 102 of the slot machine 100 according to the embodiment of the present invention opened. FIG. 6 is an exploded perspective view of the front door 102 and the medal guiding path 266 of the slot machine 100 according to the embodiment of the present invention as viewed from the upper right front to the lower left rear. 5 is an exploded perspective view of a medal discharge port constituting member 1550 having a medal discharge port 155 and a medal tray 161 of the slot machine 100 according to the embodiment of the present invention. FIG. It is a front view of the medal guiding path 266 of the slot machine 100 according to one embodiment of the present invention. It is a disassembled perspective view of the medal guiding path 266 of the slot machine 100 according to the embodiment of the present invention. FIG. 46 is a perspective view of a medal guiding path 266 of the slot machine 100 according to the embodiment of the present invention. It is a view illustrating a medal receiving member 266b of the slot machine 100 according to the embodiment of the present invention. It is a figure explaining a part of problem which the slot machine 100 by one embodiment of this invention solves. It is a front view of a state in which the medal discharge port constituting member 1550 provided with the medal discharge port 155 and the medal guiding path 266 of the slot machine 100 according to the embodiment of the present invention are combined. FIG. 17 is a cutaway end view of the medal discharge port constituting member 1550 provided with the medal discharge port 155 and the medal guide path 266 taken along lines AA and BB in FIG. It is a diagram illustrating a cancel chute member 266a of the slot machine 100 according to the embodiment of the present invention. An example of the movement state of the medal M paid out from the hopper unit 280 in a state where the medal discharge port constituting member 1550 having the medal discharge port 155 and the medal guide path 266 are combined in the slot machine 100 according to the embodiment of the present invention. It is a figure explaining. In the state where the medal discharge port constituting member 1550 having the medal discharge port 155 and the medal guide path 266 of the slot machine 100 according to the embodiment of the present invention are combined, the position of the opening of the medal staying area a4 and the medal discharge port 155 It is a figure explaining a relationship. It is a figure explaining the cancellation chute member 266a of the slot machine 100 of one embodiment of the present invention. It is a front view of the cancel chute member 266a of the slot machine 100 of one embodiment of the present invention. It is a diagram illustrating a cancel chute member 266a of the slot machine 100 according to the embodiment of the present invention. FIG. 38 is a view for explaining an example of a modification of the example in which the medal discharge port constituting member 1550 having the medal discharge port 155 and the medal guide path 266 of the slot machine 100 according to the embodiment of the present invention are combined. FIG. 38 is a view for explaining an example of a modification of the example in which the medal discharge port constituting member 1550 having the medal discharge port 155 and the medal guide path 266 of the slot machine 100 according to the embodiment of the present invention are combined. FIG. 38 is a view for explaining an example of a modification of the example in which the medal discharge port constituting member 1550 having the medal discharge port 155 and the medal guide path 266 of the slot machine 100 according to the embodiment of the present invention are combined. It is a figure explaining an example of the modification of the medal guide way 266 of the slot machine 100 by one embodiment of this invention.

  Hereinafter, with reference to the drawings, a gaming machine according to an embodiment of the present invention (for example, a spinning machine such as a slot machine 100 or a ball game machine) will be described in detail. First, the basic configuration of the slot machine 100 will be described with reference to FIG. FIG. 1 is an external perspective view of the slot machine 100 as viewed from the front side (player side).

  A slot machine 100 shown in FIG. 1 includes a main body 101 and a front door 102 that is attached to the front surface of the main body 101 and can be opened and closed with respect to the main body 101. Three reels (left reel 110, middle reel 111, right reel 112) having a plurality of types of symbols arranged on the outer peripheral surface are housed inside the center of the main body 101 (not shown), and rotate inside the slot machine 100. It is configured to be able to. These reels 110 to 112 are rotationally driven by a driving device such as a stepping motor.

  In this embodiment, an appropriate number of symbols are printed on the belt-like member at equal intervals, and the reels 110 to 112 are configured by attaching the belt-like member to a predetermined circular cylindrical frame member. When viewed from the player, three symbols on the reels 110 to 112 are displayed in the vertical direction from the symbol display window 113 so that a total of nine symbols can be seen. Then, by rotating the reels 110 to 112, the combination of symbols that can be seen by the player varies. That is, each of the reels 110 to 112 functions as a display device that displays a plurality of combinations of symbols in a variable manner. In addition to the reel, an electronic image display device such as a liquid crystal display device can also be used as such a display device. In this embodiment, three reels are provided in the center of the slot machine 100. However, the number of reels and the installation position of the reels are not limited to this.

  Backlights (not shown) for illuminating individual symbols displayed on the symbol display window 113 are arranged on the rear surfaces of the reels 110 to 112. It is desirable that the backlight is shielded for each symbol so that the individual symbols can be illuminated evenly. In the slot machine 100, an optical sensor (not shown) including a light projecting unit and a light receiving unit is provided in the vicinity of each of the reels 110 to 112. The light projecting unit and the light receiving unit of the optical sensor are provided. A light shielding piece of a certain length provided on the reel passes between the two. Based on the detection result of the sensor, the position of the symbol on the reel in the rotation direction is determined, and the reels 110 to 112 are stopped so that the target symbol is displayed on the winning line.

  The winning line display lamp 120 is a lamp that indicates an effective winning line. The effective pay line is determined in advance by the number of medals bet as a game medium. There are 5 winning lines. For example, when one medal is bet, the middle horizontal winning line is valid, and when two medals are betted, the upper horizontal winning line and the lower horizontal winning line are added 3 When a book is valid and three medals are bet, five lines including a right-down winning line and an upper-right winning line are valid as winning lines. Note that the number of winning lines is not limited to five. For example, when one medal is bet, the middle horizontal winning line, the upper horizontal winning line, the lower horizontal winning line, and the lower right winning line The five winning lines and the upper right winning line may be set as effective winning lines, or the same number of winning lines may be set as effective winning lines regardless of the number of bets.

  The notification lamp 123 is, for example, a lamp that informs the player that a specific winning combination (specifically, a bonus) has been won internally in an internal lottery to be described later, or that a bonus game is in progress. The game medal insertable lamp 124 is a lamp for notifying that the player can insert a game medal. The replay lamp 122 informs the player that the current game can be replayed (the medal need not be inserted) when winning a replay which is one of the winning combinations in the previous game. It is a lamp. The reel panel lamp 128 is an effect lamp.

  The bet buttons 130 to 132 are buttons for inserting a predetermined number of medals (referred to as credits) stored electronically in the slot machine 100. In this embodiment, each time the bet button 130 is pressed, a maximum of 3 cards are inserted, 2 when the bet button 131 is pressed, and 3 when the bet button 132 is pressed. It has become so. Hereinafter, the bet button 132 is also referred to as a MAX bet button. The game medal insertion lamp 129 lights up the number of lamps corresponding to the number of inserted medals, and when a prescribed number of medals are inserted, the game start is informed that the game can be started. The lamp 121 is turned on.

  The medal slot 141 is an slot for a player to insert a medal when starting a game. That is, the medal can be inserted electronically by the bet buttons 130 to 132, or an actual medal can be inserted (insertion operation) from the medal insertion slot 141. is there. The stored number display 125 is a display for displaying the number of medals stored electronically in the slot machine 100. The game information display 126 is a display for displaying various types of internal information (for example, the number of medals paid out during a bonus game) as numerical values. The payout number display 127 is a display for displaying the number of medals to be paid out to the player as a result of winning a winning combination. The stored number display 125, the game information display 126, and the payout display 127 are 7-segment (SEG) displays.

  The start lever 135 is a lever type switch for starting the rotation of the reels 110 to 112. That is, when the desired medal number is inserted into the medal insertion slot 141 or when the bet buttons 130 to 132 are operated and the start lever 135 is operated, the reels 110 to 112 start to rotate. The operation on the start lever 135 is referred to as a game start operation.

  The stop button unit 136 is provided with stop buttons 137 to 139. The stop buttons 137 to 139 are button-type switches for individually stopping the reels 110 to 112 that have started rotating by the operation of the start lever 135, and are associated with the reels 110 to 112. Hereinafter, the operation on the stop buttons 137 to 139 is referred to as a stop operation, the first stop operation is referred to as a first stop operation, the next stop operation is referred to as a second stop operation, and the last stop operation is referred to as a third stop operation. Note that a light emitter may be provided in each of the stop buttons 137 to 139, and when the stop buttons 137 to 139 can be operated, the light emitter can be turned on to notify the player.

  The medal return button 133 is a button that is pressed to remove a medal when the inserted medal is jammed. The adjustment button 134 is a button for adjusting the medals electronically stored in the slot machine 100 and the bet medals and discharging them from the medal discharge port 155. The door key hole 140 is a hole into which a key for unlocking the front door 102 of the slot machine 100 is inserted.

  Below the stop button unit 136 is provided a title panel 162 for displaying the model name and pasting various types of certificate. A medal discharge port 155 and a medal tray 161 are provided at the lower part of the title panel 162. Details of the medal tray 161 and the medal outlet 155 will be described later.

  The sound hole 180 is a hole for outputting the sound of a speaker provided inside the slot machine 100 to the outside. The side lamps 144 provided on the left and right portions of the front door 102 are decorative lamps for exciting games. An effect device 160 is disposed above the front door 102, and a sound hole 143 is provided above the effect device 160. The effect device 160 includes a shutter (shielding device) 163 including two right shutters 163a and a left shutter 163b that can be opened and closed in a horizontal direction, and a liquid crystal display device 157 (effect image) disposed on the back side of the shutter 163. And a display screen of the liquid crystal display device 157 appears on the front side (player side) of the slot machine 100 when the right shutter 163a and the left shutter 163b are opened horizontally outward in front of the liquid crystal display device 157. It has become. It should be noted that the display device is not limited to a liquid crystal display device, and any display device capable of displaying various effect images and various game information may be used. , A reel (drum), or a display device including a projector and a screen. Further, the display screen has a rectangular shape and is configured so that the player can visually recognize the entire display screen. In the case of this embodiment, the display screen is rectangular, but may be square. In addition, a decorative object (not shown) may be provided on the periphery of the display screen, and a part of the peripheral edge of the display screen may be hidden by the decorative object, so that the display screen looks irregular. In the present embodiment, the display screen is a flat surface, but may be a curved surface.

  Next, the circuit configuration of the control unit of the slot machine 100 will be described in detail with reference to FIG. This figure shows a circuit block diagram of the control unit.

  The control unit of the slot machine 100 can be broadly divided into main effects according to a main control unit 300 that controls the progress of the game and a command signal (hereinafter simply referred to as “command”) transmitted by the main control unit 300. And a second sub-control unit 500 that controls various devices based on a command transmitted from the first sub-control unit 400.

<Main control unit>
First, the main control unit 300 of the slot machine 100 will be described. The main control unit 300 includes a basic circuit 302 that controls the entire main control unit 300. The basic circuit 302 includes a CPU 304, control program data, lottery data used in the internal lottery of a winning combination, and reel stop. ROM 306 for storing position, RAM 308 for temporarily storing data, I / O 310 for controlling input / output of various devices, counter timer 312 for measuring time, number of times, and the like WDT (watchdog timer) 314 is mounted. Note that other storage devices may be used for the ROM 306 and the RAM 308, and this is the same for the first sub-control unit 400 and the second sub-control unit 500 described later. The CPU 304 of the basic circuit 302 operates by inputting a clock signal of a predetermined period output from the crystal oscillator 316b as a system clock. Further, when the power is turned on, the CPU 304 transmits the frequency division data stored in the predetermined area of the ROM 306 to the counter timer 312. The counter timer 312 sets the interrupt time based on the received frequency division data. An interrupt request is transmitted to the CPU 304 at every interrupt time. In response to this interrupt request, the CPU 304 monitors each sensor and transmits a drive pulse. For example, when the clock signal output from the crystal oscillator 316b is set to 8 MHz, the frequency division value of the counter timer 312 is set to 1/256, and the data for frequency division of the ROM 306 is set to 47, the interrupt reference time is 256 × 47 ÷ 8 MHz. = 1.504 ms.

  The main control unit 300 uses a random number generation circuit 318 used as a hardware random number counter that changes a numerical value in the range of 0 to 65535 each time a clock signal output from the crystal oscillator 316a is received (this circuit includes two And a start signal output circuit 338 that outputs a start signal (reset signal) when the power is turned on. The CPU 304 receives a start signal from the start signal output circuit 338. When it is input, game control is started (main control main process described later is started).

  Further, the main control unit 300 includes a sensor circuit 322, and the CPU 304 is inserted from various sensors 320 (a bet button 130 sensor, a bet button 131 sensor, a bet button 132 sensor, and a medal insertion slot 141 at every interruption time. Medal reception sensor, start lever 135 sensor, stop button 137 sensor, stop button 138 sensor, stop button 139 sensor, checkout button 134 sensor, medal payout sensor for medals paid out from the medal payout device 280, index sensor for reel 110 , The index sensor of the reel 111, the index sensor of the reel 112, etc.).

  When the sensor circuit 322 detects the H level of the start lever sensor, it outputs a signal indicating this detection to the random value generation circuit 318. The random value generation circuit 318 that has received this signal latches the value at that timing and stores it in a register that stores the random value used for the lottery.

  Two medal acceptance sensors are installed in the internal passage of the medal insertion slot 141 and detect whether or not a medal has passed. Two start lever 135 sensors are installed inside the start lever 135 and detect a start operation by the player. The stop button 137 sensor, the stop button 138 sensor, and the stop button 139 are installed in each of the stop buttons 137 to 139, and detect the operation of the stop button by the player.

  The bet button 130 sensor, the bet button 131 sensor, and the bet button 132 sensor are installed in each of the medal insertion buttons 130 to 132, and the medals stored electronically in the RAM 308 are inserted as inserted medals into the game. Detecting the case input operation. The settlement button 134 sensor is provided on the settlement button 134. When the settlement button 134 is pressed once, the medals stored electronically are settled. The medal payout sensor is a sensor for detecting a medal paid out by the medal payout device 280. Each of the above sensors may be a non-contact type sensor or a contact type sensor.

  The index sensor of the reel 110, the index sensor of the reel 111, and the index sensor of the reel 112 are installed at predetermined positions on the mounting bases of the reels 110 to 112, and each time a light shielding piece provided on the reel frame passes through L Become a level. When detecting this signal, the CPU 304 determines that the reel has made one rotation, and resets the rotational position information of the reel to zero.

  The main control unit 300 is provided in a drive circuit 324 for driving a stepping motor provided in the reel devices 110 to 112, a drive circuit 326 for driving a solenoid provided in a medal selector 170 for selecting inserted medals, and a medal payout device 280. Drive circuit 328 for driving the motor, various lamps 330 (winning line display lamp 120, notification lamp 123, game medal insertion possible lamp 124, re-game lamp 122, game medal insertion lamp 129, game start lamp 121, stored number display 125, a game information display 126, and a payout number display 127).

  Further, an information output circuit 336 (external concentration terminal board 248 shown in FIG. 8) is connected to the basic circuit 302, and the main control unit 300 is connected to an external hall computer (illustrated) via the information output circuit 336. The game information (for example, game state) of the slot machine 100 is output to the information input circuit 652 provided in the (omitted) or the like.

  The main control unit 300 also includes a voltage monitoring circuit 334 that monitors the voltage value of the power supplied from the power management unit (not shown) to the main control unit 300, and the voltage monitoring circuit 334 includes the voltage of the power supply. When the value is less than a predetermined value (9 v in this embodiment), a low voltage signal indicating that the voltage has decreased is output to the basic circuit 302.

  In addition, the main control unit 300 includes an output interface for transmitting a command to the first sub control unit 400 and enables communication with the first sub control unit 400. Note that information communication between the main control unit 300 and the first sub control unit 400 is one-way communication, and the main control unit 300 is configured to be able to transmit signals such as commands to the first sub control unit 400. However, the first sub-control unit 400 is configured not to transmit a signal such as a command to the main control unit 300.

<Sub control unit>
Next, the first sub control unit 400 of the slot machine 100 will be described. The first sub-control unit 400 includes a basic circuit 402 that receives a control command transmitted from the main control unit 300 via an input interface and controls the entire first sub-control unit 400 based on the control command. The basic circuit 402 includes a CPU 404, a RAM 408 for temporarily storing data, an I / O 410 for controlling input / output of various devices, and a counter timer 412 for measuring time and frequency. It is installed. The CPU 404 of the basic circuit 402 operates by inputting a clock signal of a predetermined period output from the crystal oscillator 414 as a system clock. The ROM 406 stores a control program and data for controlling the entire first sub-control unit 400, a backlight lighting pattern, data for controlling various displays, and the like.

  The CPU 404 transmits the frequency division data stored in the predetermined area of the ROM 406 to the counter timer 412 via the data bus at a predetermined timing. The counter timer 412 determines an interrupt time based on the received frequency dividing data, and transmits an interrupt request to the CPU 404 at each interrupt time. The CPU 404 controls each IC and each circuit based on the interrupt request timing.

  The first sub-control unit 400 is provided with a sound source IC 416 and the sound source IC 416 is provided with speakers 272 and 277 via an output interface. The sound source IC 416 controls audio output from the amplifiers and speakers 272 and 277 in accordance with a command from the CPU 404. The sound source IC 416 is connected to an S-ROM (sound ROM) in which audio data is stored. The audio data acquired from the ROM is amplified by an amplifier and output from the speakers 272 and 277.

  The first sub-control unit 400 is provided with a drive circuit 418, and various lamps 420 (upper lamp, lower lamp, side lamp 144, title panel 162 lamp, etc.) are provided to the drive circuit 418 via an input / output interface. It is connected.

  The first sub-control unit 400 is provided with a drive circuit 422 for driving the motor of the shutter 163, and the drive circuit 422 is provided with a shutter 163 via an output interface. The drive circuit 422 outputs a drive signal to a stepping motor (not shown) provided in the shutter 163 in response to a command from the CPU 404.

  The first sub-control unit 400 is provided with a sensor circuit 424, and a shutter sensor 426 is connected to the sensor circuit 424 via an input interface. The CPU 404 monitors the state of the shutter sensor 426 every interruption time.

  In addition, the CPU 404 transmits and receives signals to the second sub control unit 500 via the output interface. Second sub-control unit 500 performs various controls of effect device 160 including display control of effect image display device 157. Note that the second sub-control unit 500 is, for example, a control unit that controls display of the liquid crystal display device 157 and a control unit that controls various drive devices for presentation (for example, a control unit that controls motor driving of the shutter 163). For example, it may be configured by a plurality of control units.

  The second sub-control unit 500 includes a basic circuit 502 that receives the control command transmitted from the first sub-control unit 400 via the input interface and controls the entire second sub-control unit 500 based on the control command. The basic circuit 502 includes a CPU 504, a RAM 508 for temporarily storing data, an I / O 510 for controlling input / output of various devices, and a counter timer for measuring time and frequency 512. The CPU 504 of the basic circuit 502 operates by inputting a clock signal of a predetermined period output from the crystal oscillator 514 as a system clock. The ROM 506 stores a control program and data for controlling the entire second sub control unit 500, data for image display, and the like.

  The CPU 504 transmits the frequency division data stored in the predetermined area of the ROM 506 to the counter timer 512 via the data bus at a predetermined timing. The counter timer 512 determines an interrupt time based on the received frequency division data, and transmits an interrupt request to the CPU 404 at each interrupt time. The CPU 504 controls each IC and each circuit based on the interrupt request timing.

  The second sub control unit 500 is provided with a VDP 516 (video display processor), and a ROM 506 and a VRAM 518 are connected to the VDP 516 via a bus. The VDP 516 reads out image data and the like stored in the ROM 506 based on a signal from the CPU 504, generates a display image using the work area of the VRAM 518, and displays the image on the effect image display device 157.

  A symbol arrangement applied to each of the reels 110 to 112 will be described with reference to FIG. This figure is a diagram in which the arrangement of symbols applied to each reel (left reel 110, middle reel 111, right reel 112) is developed in a plane.

<Pattern arrangement>
A plurality of types of symbols (eight types in the present embodiment) shown on the right side of the same figure are arranged on each reel 110 to 112 by a predetermined number of frames (21 frames of numbers 0 to 20 in the present embodiment). Also, numbers 0 to 20 shown at the left end of the figure are numbers indicating the arrangement positions of symbols on the reels 110 to 112. For example, in the present embodiment, the “replay” symbol for the number 1 frame on the left reel 110, the “bell” symbol for the number 0 frame on the middle reel 111, and the “bell” symbol for the number 2 frame on the right reel 112. "Watermelon" design is arranged respectively.

<Type of winning prize>
Next, the types of winning combinations of the slot machine 100 will be described with reference to FIG. This figure shows the types of winning combinations (including actuating combinations), symbol combinations corresponding to each winning combination, and the operation or payout of each winning combination.

  Of the winning combinations in the present embodiment, the big bonuses (BB1, BB2) and the regular bonus (RB) are used as a combination for shifting to the bonus game, and the replay (replay) is a replay without newly inserting a medal. Each winning combination is sometimes distinguished from a winning combination and sometimes called an “acting combination”. However, in the “winning combination” in this embodiment, a big bonus, a regular bonus, and a replay that are operating combinations are included. included. In addition, “winning” in the present embodiment includes a case where a symbol combination of an actuator not accompanied by a medal payout (without medal payout) is displayed on an active line, for example, a big bonus, regular Includes bonuses and replay wins.

  The winning combination of the slot machine 100 includes a big bonus (BB1, BB2), a regular bonus (RB), a small combination (cherry, watermelon, bell), and replay (replay). Needless to say, the type of winning combination is not limited to this and can be arbitrarily adopted.

  “Big Bonus (BB1, BB2)” (hereinafter sometimes simply referred to as “BB”) is a special combination (operating combination) in which a big bonus game (BB game), which is a special game, is started by winning a prize. . Corresponding symbol combinations are “white 7-white 7-white 7” for BB1, and “blue 7-blue 7-blue 7” for BB2. Further, flag carryover is performed for BB1 and BB2. That is, when BB1 and BB2 are won internally, a flag indicating this is set (stored in a predetermined area of the RAM 308 of the main control unit 300), but even if BB1 and BB2 are not won in the game, a prize is won. Until then, the flag indicating the internal winning is maintained, and even after the next game, BB1 and BB2 are being internally selected, and the symbol combination corresponding to BB1 “white 7-white 7-white 7”, the symbol corresponding to BB2 The combination “blue 7-blue 7-blue 7” is in a state of winning a prize.

  The “regular bonus (RB)” is a special combination (operating combination) in which a regular bonus game (RB game) is started by winning. The corresponding symbol combination is “bonus-bonus-bonus”. Note that the RB carries over the flag as well as the above-mentioned BB. However, in the big bonus game (BB game) (details will be described later), the regular bonus game (RB game) is won internally and the combination of symbols is displayed on the winning line. In addition, the regular bonus game is started after the start of the big bonus game, and when the regular bonus game is finished once, the regular bonus game is automatically started so that the next regular bonus game is immediately started. It is good.

  “Short (cherry, watermelon, bell)” (hereinafter, simply referred to as “cherry”, “watermelon”, “bell”) is a winning combination in which a predetermined number of medals are paid out by winning. The symbol combinations are “cherry-ANY-ANY” for cherry, “watermelon-watermelon-watermelon” for watermelon, and “bell-bell-bell” for bell. The corresponding payout number is as shown in FIG. In the case of “cherry-ANY-ANY”, the symbol of the left reel 110 may be “cherry”, and the symbol of the middle reel 111 and the right reel 112 may be any symbol.

  “Replay” is a winning combination (operating combination) in which a game can be performed without inserting a medal (game medium) in the next game by winning, and no medal is paid out. The corresponding symbol combination is “replay-replay-replay” for replay.

<Type of gaming state>
Next, the types of gaming state of the slot machine 100 will be described. The gaming state is information for identifying the type of lottery data selected in a lottery or the like. In the present embodiment, the gaming state of the slot machine 100 is roughly classified into a normal game, a BB game, an RB game, and an internal winning game of a big bonus (BB) and a regular bonus (RB). However, the internal winning game may be a division included in the normal game.

<Normal game>
The winning combinations that are internally won for normal games include a big bonus (BB), regular bonus (RB), replay (replay), and small roles (cherry, watermelon, bell).

  “Big Bonus (BB)” is a special combination (operating combination) in which a big bonus game (BB game), which is a special game, is started by winning. “Regular Bonus (RB)” is a special combination (operating combination) that starts a regular bonus game (RB game) upon winning. The “replay” (replay) is a winning combination (operating combination) in which a game can be performed without a medal being inserted in the next game by winning, and no medal is paid out. The “small role” is a winning combination in which a predetermined number of medals are paid out by winning. In addition, the internal winning probability of each combination is a range of random values obtained at the time of internal lottery from numerical data corresponding to the range of lottery data associated with each combination from lottery data prepared for normal games. It is calculated by the value divided by the numerical data (for example, 65535). The lottery data prepared for the normal game is divided into several numerical ranges in advance, and each combination and lose is associated with each numerical range. It is determined whether the random number value obtained as a result of executing the internal lottery is a value corresponding to the lottery data corresponding to which combination, and the internal lottery combination is determined. The lottery data includes settings 1 to 6 in which the winning probabilities of at least one combination are different, and a game shop clerk can arbitrarily select and set one of the set values.

  In the normal game, the internal lottery result is almost lost (big bonus (BB), regular bonus (RB), replay (replay) and small role won), or any stop display result A setting is made so that the stop display result of the losing that does not correspond to the symbol combination of the combination is generally derived, and the total number of medals to be acquired is less than the total number of inserted medals. Therefore, it is a gaming state that is disadvantageous for the player. However, when a predetermined condition is satisfied (for example, when a specific symbol combination is displayed), it is a gaming state that may be changed to increase the probability of internal winning of replaying. In this case, Consumption of medals used for games is suppressed, and a predetermined number of medals are paid out by winning a small role, resulting in a gaming state where the total number of medals exceeds the total number of medals inserted, which is beneficial to the player. May become a gaming state.

<BB game>
The BB game is set to be in a gaming state that is beneficial to the player. That is, the BB game is in a gaming state in which the total number of medals to be acquired exceeds the total number of medals inserted. In this embodiment, the BB game is started by winning a big bonus (BB), and an RB game (described later) can be continuously executed repeatedly, and a predetermined number (for example, during the game) The process ends when more than 465 medals are obtained. However, the BB game only needs to be able to execute the RB game a plurality of times. For example, when a combination (for example, replay-replay-replay) is set for starting the RB game, and this combination is won internally, or The RB game may be set to start when winning. Furthermore, in the BB game, when the BB general game excluding the RB game during the BB game is executed a predetermined number of times (for example, 30 times), or the number of RB games executed during the BB game is a predetermined number of times. It may be made to end when it reaches (for example, three times).

<RB game>
The RB game is set so as to be in a gaming state that is beneficial to the player. That is, the RB game is in a gaming state in which the total number of medals to be acquired exceeds the total number of medals inserted. In this embodiment, the RB game is started by winning a regular bonus (RB), and a predetermined role is set to a variation that increases the probability of internal winning (for example, “setting 1” or “normal game”). The internal winning probability 1/15 of “small role 1” is increased to an internal winning probability 1 / 1.2, which is a predetermined value), and a predetermined number (for example, 8 times) It ends when there is a prize. In the RB game, when a predetermined number of times (at least 2 times) is won (for example, 8 times), or when the number of RB games executed during the RB game reaches a predetermined number of times (for example, (8 times). Since the BB game described above can execute the RB game a plurality of times, when a single RB game is performed, the number of medals less than the total number of medals obtained in the BB game is acquired and terminated. Become.

<Big winning (BB) and regular bonus (RB) internal winning games>
The winning combination that is internally won for the internal winning game of the big bonus (BB) and the regular bonus (RB) includes a replay and a small role. The big bonus (BB) and the regular bonus (RB) are not won internally, and are game states in which a symbol combination corresponding to the big bonus (BB) or the regular bonus (RB) can be won.

  However, the probability of the internal winning of the replay may be changed from the next game internally won in the big bonus (BB) and the regular bonus (RB). Until the symbol combination corresponding to the big bonus (BB) and regular bonus (RB) wins, the total number of medals to be acquired is almost the same as the total number of inserted medals, and is compared with the normal game. The gaming state may be beneficial to the player. It should be noted that BB game and RB game are both game states that are beneficial to the player, and may be generally referred to as bonus games or special games.

<Main control unit main processing>
A main control unit main process executed by the CPU 304 of the main control unit 300 will be described with reference to FIG. This figure is a flowchart showing the flow of main processing of the main control unit.

  As described above, the main control unit 300 is provided with the start signal output circuit (reset signal output circuit) 338 that outputs the start signal (reset signal) when the power is turned on. The CPU 304 of the basic circuit 302 to which this activation signal has been input starts reset by a reset interrupt and executes the main process of the main control unit shown in FIG. 4 according to the control program stored in advance in the ROM 306.

  When the power is turned on, first, various initial settings are made in step S101. In this initial setting, setting of a stack initial value to the stack pointer (SP) of the CPU 304, setting of interrupt prohibition, initial setting of the I / O 310, initial setting of various variables stored in the RAM 308, operation permission to the WDT 314, and initial setting Set the value. In step S103, medal insertion / start operation acceptance processing is executed. Here, it is checked whether or not a medal has been inserted, and the winning line display lamp 120 is turned on in response to the insertion of the medal. Note that when a re-win is won in the previous game, a process of inserting the same number of medals as the number of medals inserted in the previous game is performed, so that it is not necessary for the player to insert medals. In step S105, it is checked whether or not the start lever 135 has been operated. If the start lever 135 has been operated, the process proceeds to step S107.

  In step S107, the number of inserted medals is determined and an effective winning line is determined. In step S109, the random number generated by the random value generation circuit 318 is acquired. In step S111, the winning combination lottery table stored in the ROM 306 is read according to the current gaming state, and an internal lottery is performed using this and the random value acquired in step S109. As a result of the internal lottery, when any winning combination (including an operating combination) is won internally, the flag of the winning combination is turned ON. In step S113, reel stop data is selected based on the internal lottery result.

  In step S115, rotation of all reels 110 to 112 is started. In step S117, the stop buttons 137 to 139 can be received. When any of the stop buttons is pressed, the reel stop control in which one of the reels 110 to 112 corresponding to the pressed stop button is selected in step S113. Stop based on data. When all the reels 110 to 112 are stopped, the process proceeds to step S119. In step S119, a winning determination is performed. Here, when a picture combination corresponding to some winning combination is displayed on the activated winning line 114, it is determined that the winning combination is won. For example, if “bell-bell-bell” is aligned on the activated winning line, it is determined that the player has won the bell. In step S121, if any winning combination with payout is won, the number of medals corresponding to the winning combination is paid out according to the number of winning lines. In step S123, a game state control process is performed. In the game state control process, a process related to transition of each game state of normal game, BB game, RB game, and internal winning game is performed, and the game state is shifted when those start conditions and end conditions are satisfied. Thus, one game is completed. Thereafter, returning to step S103 and repeating the above-described processing, the game proceeds.

<Main controller 300 timer interrupt processing>
The main control unit timer interrupt process executed by the CPU 304 of the main control unit 300 will be described with reference to FIG. This figure is a flowchart showing the flow of the main control unit timer interrupt process.

  The main control unit 300 includes a counter timer 312 that generates a timer interrupt signal at a predetermined cycle (in this embodiment, about once every 2 ms), and the main control unit timer interrupt is triggered by this timer interrupt signal. The process is started at a predetermined cycle.

  In step S201, a timer interrupt start process is performed. In this timer interrupt start process, a process of temporarily saving each register value of the CPU 304 to the stack area is performed.

  In step S203, the WDT 314 is periodically changed to the initial value (32.8 ms in this embodiment) so that no WDT interruption occurs (so as not to detect a processing abnormality). In the embodiment, the restart is performed once every about 2 ms, which is the period of the main control unit timer interrupt.

  In step S205, input port state update processing is performed. In this input port status update process, the detection signals of the sensor circuits 322 of the various sensors 320 are input via the input ports of the I / O 310 to monitor the presence or absence of the detection signals, and each of the various sensors 320 is partitioned in the RAM 308. Store in the provided signal state storage area.

  In step S207, various game processes are performed. Specifically, an interrupt status is acquired (various interrupt statuses are acquired based on signals from various sensors 320), and processing according to this status is performed (for example, the interrupt statuses of the acquired stop buttons 137 to 139). Based on the stop button reception process).

  In step S209, timer update processing is performed. Various timers are updated for each time unit.

  In step S211, command setting transmission processing is performed, and various commands are transmitted to the first sub-control unit 400. Note that the output schedule information transmitted to the first sub-control unit 400 is composed of 16 bits in the present embodiment, bit 15 is strobe information (indicating that data is set when ON), bit 11 -14 is a command type (in this embodiment, basic command, start lever reception command, production command accompanying production lottery processing, rotation start command for starting rotation of reels 110 to 112, and operation of stop buttons 137 to 139. A stop button reception command accompanying the stop processing of the reels 110 to 112, a payout number command accompanying the medal payout processing, a payout end command, a command indicating a gaming state, etc.), bits 0 to 10 are command data ( Predetermined information corresponding to the command type).

  In the first sub-control unit 400, it is possible to determine the production control according to the change of the game control in the main control unit 300 by the command type included in the received output schedule information, and it is included in the output schedule information. Based on the information of the command data, the contents of effect control can be determined.

  In step S213, an external output signal setting process is performed. In this external output signal setting process, the game information stored in the RAM 308 is output to the information input circuit 652 that is separate from the slot machine 100 via the information output circuit 336.

  In step S215, device monitoring processing is performed. In this device monitoring process, first, the signal states of the various sensors 320 stored in the signal state storage area in step S205 are read, and the presence or absence of errors relating to medal insertion abnormality and medal payout abnormality is monitored. (Not shown) Error processing is executed. Further, according to the current gaming state, the medal selector 170 (medal blocker in which the solenoid provided in the medal selector 170 operates), various lamps 330, and various 7-segment (SEG) indicators are set.

  In step S217, it is monitored whether the low voltage signal is on. Then, when the low voltage signal is on (when power supply shutoff is detected), the process proceeds to step S221. When the low voltage signal is off (power supply shutoff is not detected), the process proceeds to step S219.

  In step S219, various processes for ending the timer interrupt end process are performed. In this timer interrupt end process, the value of each register temporarily saved in step S201 is set in each original register. Thereafter, the process returns to the main process of the main control unit shown in FIG.

  On the other hand, in step S221, a specific variable or stack pointer for returning to the power-off state at the time of power recovery is saved as a return data in a predetermined area of the RAM 308, and power-off processing such as initialization of input / output ports is performed. After that, the process returns to the main process of the main control unit shown in FIG.

<Processing of First Sub-Control Unit 400>
The process of the first sub control unit 400 will be described with reference to FIG. FIG. 6A is a flowchart of main processing executed by the CPU 404 of the first sub control unit 400. FIG. 6B is a flowchart of the command reception interrupt process of the first sub control unit 400. FIG. 6C is a flowchart of the timer interrupt process of the first sub control unit 400.

  First, in step S301 in FIG. 6A, various initial settings are performed. When the power is turned on, an initialization process is first executed in step S301. In this initialization processing, initialization of input / output ports, initialization processing of a storage area in the RAM 408, and the like are performed.

In step S303, it is determined whether or not the timer variable is 10 or more. This process is repeated until the timer variable becomes 10, and when the timer variable becomes 10 or more, the process proceeds to step S305.
In step S305, 0 is substituted into the timer variable.

  In step S307, command processing is performed. In the command processing, the CPU 404 of the first sub control unit 400 determines whether a command is received from the main control unit 300.

  In step S309, effect control processing is performed. For example, if there is a new command in step S307, processing corresponding to this command is performed. This process includes, for example, performing a process such as reading effect data from the ROM 406 and performing an effect data update process when the effect data needs to be updated.

  In step S311, sound control processing is performed based on the processing result of step 309. For example, if there is a command to the sound source IC 416 in the effect data read in step S309, this command is output to the sound source IC 416.

  In step S313, lamp control processing is performed based on the processing result of step 309. For example, if there is a command to the various lamps 420 in the effect data read in step S309, this command is output to the drive circuit 418.

  In step S315, shutter control processing is performed based on the processing result in step S309. For example, if there is a command to the shutter 163 in the effect data read in step S309, this command is output to the drive circuit 422.

  In step S317, information output processing is performed for setting to transmit a control command to the second sub-control unit 500 based on the processing result of step 309. For example, if there is a control command to be transmitted to the second sub-control unit 500 in the effect data read out in step S309, the control command is set to be output, and the process returns to step S303.

  Next, the command reception interrupt process of the first sub control unit 400 will be described with reference to FIG. This command reception interrupt process is a process executed when the first sub-control unit 400 detects a strobe signal output from the main control unit 300. In step S401 of the command reception interrupt process, the command output from the main control unit 300 is stored as an unprocessed command in a command storage area provided in the RAM 408.

  Next, the first sub control unit timer interrupt process executed by the CPU 404 of the first sub control unit 400 will be described with reference to FIG. The first sub-control unit 400 includes a hardware timer that generates a timer interrupt at a predetermined cycle (in this embodiment, once every 2 ms), and the timer interrupt process is performed by using the timer interrupt as a trigger. Execute in the cycle.

  In step S501, 1 is added to the value of the timer variable storage area of the RAM 408 described in step S303 in the first sub-control unit main process shown in FIG. 6A, and the result is stored in the original timer variable storage area. Therefore, in step S303, the value of the timer variable is determined to be 10 or more every 20 ms (2 ms × 10).

  In step S503, transmission of a control command to the second sub-control unit 500 set in step S317, update processing of the effect random number value, and the like are performed.

<Processing of Second Sub-Control Unit 500>
The processing of the second sub control unit 500 will be described with reference to FIG. FIG. 7A is a flowchart of main processing executed by the CPU 504 of the second sub-control unit 500. FIG. 7B is a flowchart of command reception interrupt processing of the second sub control unit 500. FIG. 7C is a flowchart of the timer interrupt process of the second sub control unit 500. FIG. 7D is a flowchart of the image control process of the second sub control unit 500.

  First, in step S601 in FIG. 7A, various initial settings are performed. When the power is turned on, an initialization process is first executed in step S601. In this initialization process, input / output port initialization, storage area initialization in the RAM 508, and the like are performed.

In step S603, it is determined whether or not the timer variable is 10 or more. This process is repeated until the timer variable becomes 10, and when the timer variable becomes 10 or more, the process proceeds to step S605.
In step S605, 0 is assigned to the timer variable.

  In step S607, command processing is performed. In the command processing, the CPU 504 of the second sub control unit 500 determines whether a command is received from the CPU 404 of the first sub control unit 400.

  In step S609, effect control processing is performed. For example, if there is a new command in step S607, processing corresponding to this command is performed. This process includes, for example, performing a process such as reading effect data from the ROM 506 and performing an effect data update process when the effect data needs to be updated.

  In step S611, image control processing is performed based on the processing result in step S609. For example, if there is an image control command in the effect data read in step S609, image control corresponding to this command is performed (details will be described later), and the process returns to step S603.

  Next, a command reception interrupt process of the second sub control unit 500 will be described with reference to FIG. This command reception interrupt process is a process executed when the second sub control unit 500 detects the strobe signal output from the first sub control unit 400. In step S701 of the command reception interrupt process, the command output from the first sub control unit 400 is stored as an unprocessed command in a command storage area provided in the RAM 508.

  Next, the second sub control unit timer interrupt process executed by the CPU 504 of the second sub control unit 500 will be described with reference to FIG. The second sub-control unit 500 includes a hardware timer that generates a timer interrupt at a predetermined cycle (in this embodiment, once every 2 ms), and the timer interrupt process is predetermined by using the timer interrupt as a trigger. Execute in the cycle.

  In step S801, 1 is added to the value of the timer variable storage area of the RAM 508 described in step S603 in the second sub-control unit main process shown in FIG. 7A, and the result is stored in the original timer variable storage area. Therefore, in step S603, the value of the timer variable is determined to be 10 or more every 20 ms (2 ms × 10). In step S803, an effect random number update process is performed.

  Next, the image control process in step S611 in the main process of the second sub control unit 500 will be described with reference to FIG. FIG. 5 is a flowchart showing the flow of image control processing.

  In step S901, an image data transfer instruction is issued. Here, the CPU 504 first swaps the designation of the display areas A and B in the VRAM 518. As a result, an image of one frame stored in the display area not designated as the drawing area is displayed on the effect image display device 157. Next, the CPU 504 sets ROM coordinates (transfer source address of the ROM 506), VRAM coordinates (transfer destination address of the VRAM 518), and the like in the attribute register of the VDP 516 based on the position information table, and then the image from the ROM 506 to the VRAM 518. Set an instruction to start data transfer. The VDP 516 transfers the image data from the ROM 506 to the VRAM 518 based on the command set in the attribute register. Thereafter, the VDP 516 outputs a transfer end interrupt signal to the CPU 504.

  In step S903, it is determined whether or not a transfer end interrupt signal from the VDP 516 is input. If a transfer end interrupt signal is input, the process proceeds to step S905. If not, a transfer end interrupt signal is input. Wait for it.

  In step S905, parameters are set based on the production scenario configuration table and attribute data. Here, in order to form a display image in the display area A or B of the VRAM 518 based on the image data transferred to the VRAM 518 in step S901, the CPU 504 includes information on the image data constituting the display image (the coordinate axis of the VRAM 518, the image size). , VRAM coordinates (arrangement coordinates, etc.) are instructed to the VDP 516. The VDP 516 performs parameter setting according to the attribute based on the instruction stored in the attribute register.

  In step S907, a drawing instruction is performed. In this drawing instruction, the CPU 504 instructs the VDP 516 to start drawing an image. The VDP 516 starts drawing an image in the frame buffer in accordance with an instruction from the CPU 504.

  In step S909, it is determined whether a generation end interrupt signal from the VDP 516 based on the end of image drawing is input. If a generation end interrupt signal is input, the process proceeds to step S911. If not, the generation end interrupt signal is determined. Wait for input. In step S911, a scene display counter that is set in a predetermined area of the RAM 508 and counts how many scene images have been generated is incremented (+1), and the process ends.

  FIG. 8 is a front view showing the slot machine 100 with the front door 102 opened. The main body 101 is a box that is surrounded by the upper surface plate 261, the left side plate 260, the right side plate 260, the lower surface plate 264, and the back plate 242, and that opens to the front. Inside the main body 101, a main control board storage case 210 that stores the main control board is disposed at a position that does not overlap with the ventilation port 249 provided on the upper portion of the back plate 242. Below the three reels 110 to 112 are arranged. On the side plate 260 on the left side of the main control board storage case 210 and the reels 110 to 112, a sub control board storage case 220 containing a sub control board is disposed. Further, an external concentrated terminal plate 248 that is connected to the main control board and outputs the information of the slot machine 100 to an external device is attached to the side plate 260 on the right side.

  The lower surface plate 264 is provided with a hopper unit 280 (a device for paying out medals accumulated in the bucket), and a power supply device having a power supply board above the hopper unit 280, that is, below the reels 110 to 112. 252 is disposed, and a power switch 244 is disposed in front of the power supply device 252. The power supply device 252 converts the AC power supplied from the outside to the slot machine 100 into a direct current, converts it into a predetermined voltage, and supplies it to each control unit and each device such as the main control unit 300 and the sub-control units 400 and 500. Furthermore, a power storage circuit (for example, a capacitor) for supplying power to a predetermined part (for example, the RAM 308 of the main control unit 300) for a predetermined period (for example, 10 days) even after the external power source is cut off is provided. Yes.

  On the right side of the hopper unit 280, a medal auxiliary storage 240 is disposed, and an overflow terminal is disposed behind this (not shown). The power supply device 252 is provided with a power cord connecting portion for connecting a power cord 265, and the power cord 265 connected thereto extends outside through a power cord hole 262 provided in the back plate 242 of the main body 101. Yes.

  The front door 102 is hinged to the left side plate 260 of the main body 101 via a hinge device 276, and an effect device 160 and an effect control board (which controls the effect device 160) are provided above the symbol display window 113. An upper speaker 272 is provided. Below the symbol display window 113, a medal selector 170 for selecting inserted medals and a medal guiding path 266 are provided. The medal guiding path 266 is disposed below the medal selector 170 so as to continue to the medal selector 170. The medal selector 170 distributes the medals inserted according to the size and authenticity of the medals inserted from the medal insertion slot 141, the current game progress, etc., to either the hopper unit 280 or the medal guide path 266. The medal guiding path 266 is a path for guiding an illegal medal sent from the medal selector 170 or a medal paid out from the hopper unit 280 to the medal tray 161. Details of the medal guiding path 266 will be described later. Further, a bass speaker 277 is provided at a position corresponding to the sound hole 180.

  Next, with reference to FIGS. 9 to 27, the medal guiding path 266, the medal discharge port 155, and modifications thereof used in the slot machine 100 in the present embodiment will be described. In the description of the medal guiding path 266, the medal discharge port 155, and the modifications thereof using FIGS. 9 to 27, the slot machine 100 is installed at the installation location in the vertical direction (sometimes referred to as the vertical direction) or the horizontal direction. It refers to the vertical or horizontal direction. Similarly, the left-right direction refers to the direction in which the three reels 110 to 112 are arranged in the horizontal direction. In addition, the front-rear direction is a direction perpendicular to the up-down direction and the left-right direction in the horizontal direction, and the direction toward the player is referred to as the front direction, and the opposite is referred to as the rear direction.

  Further, in FIGS. 9 to 27, the double arrows having the notations “up” and “down” indicate the vertical direction, “up” indicates the vertical upper direction, and “lower” indicates the lower vertical direction. In addition, double-headed arrows with “left” and “right” indicate the left-right direction, “left” indicates the left direction, and “right” indicates the right direction. In addition, double-headed arrows with “front” and “rear” indicate the front-rear direction, “front” indicates the front direction, and “rear” indicates the rear direction. These arrows indicate the states of the medal guiding path 266 and the medal discharge port 155 when the slot machine 100 is installed in an island facility or the like of a game shop.

  The medal guiding path 266 in this embodiment will be described with reference to FIG. FIG. 9 is an exploded perspective view of the front door 102 and the medal guiding path 266 as viewed from the upper right front to the lower left rear. The medal guiding path 266 includes a cancel chute member 266a and a payout medal receiving member 266b. The payout medal receiving member 266b is accommodated in the cancel chute member 266a and attached to the back surface of the front door 102.

  The medal guiding path 266 is made of, for example, a synthetic resin. By attaching the medal guiding path 266 to the back surface of the medal discharge port 155 of the front door 102, a path through which medals circulate is configured.

  The medal discharge port constituting member 1550 and the medal tray 161 constituting the medal discharge port 155 in this embodiment will be described with reference to FIG. FIG. 10 is an exploded perspective view of the medal discharge port constituting member 1550 and the medal tray 161. The medal discharge port constituting member 1550 includes a plate-shaped medal discharge port sheet metal member 1550a, a door member 1550b, and a chassis member 1550c. The foremost medal tray 161 is attached to the front side of the medal discharge port sheet metal member 1550a, and the medal discharge port sheet metal member 1550a to which the medal tray 161 is mounted includes the front surface of the door member 1550b of the front door 102 and the door member 1550b. It is attached to a chassis member 1550c attached to the back surface. Each of the medal discharge port sheet metal member 1550a, the door member 1550b, and the chassis member 1550c includes a medal discharge port (medal discharge ports 155a, 155b, 155c) formed by opening a plate-like member. The medal discharge port 155 is configured by attaching the medal discharge port 155a of the medal discharge port sheet metal member 1550a and the medal discharge port 155c of the chassis member 1550c to the medal discharge port 155b of the door member 1550b, respectively. The The shape of the medal outlet 155 will be described later. Further, the medal discharge port sheet metal member 1550a is provided with a sound hole 180 composed of 45 small holes. A circular opening 180a larger than the sound hole 180 is provided at a position corresponding to the sound hole 180 of the door member 1550b, and a circular opening larger than the sound hole 180 at a position corresponding to the sound hole 180 of the chassis member 1550c. A portion 180b is provided.

  The medal guiding path 266 in the present embodiment will be described with reference to FIGS. 11 to 14. FIG. 11 is a front view of the medal guiding path 266. The solid arrows shown in the figure indicate illegal medals sent out from the medal selector 170, medals inserted during the game, medals inserted exceeding the maximum pooled number and the maximum bet number, and re-game winnings. It shows an outline of the distribution direction and distribution route of medals that are sometimes introduced. The medals inserted during the game, the medals inserted exceeding the maximum storage number and the maximum bet number, the medals inserted at the time of the re-game winning, etc. flow into the medal guiding path 266. Moreover, the broken-line arrows shown in the drawing indicate the outline of the distribution direction and distribution route of medals paid out from the hopper unit 280. In an actual game, the number of medals passing through the circulation path indicated by the dashed arrow is likely to be larger than the number of medals passing through the distribution path indicated by the solid arrow.

  At the top of the medal guiding path 266, a medal inlet is provided. A medal inflow port is configured by attaching the cancel chute member 266a to the back surface of the front door 102. The medal that flows in from the medal inflow port passes through the medal passage area a2. In the medal passage area a2, there is a partition wall portion s1 that is slanted from the upper right to the lower left in a U-shape, and a medal that passes through the medal passage area a2 slides or rolls on the partition wall portion s1. Then move from upper right to lower left.

  There is a medal passage area a3 that is continuous with the medal passage area a2 on the left side of the medal passage area a2. In the medal passage area a3, left and right partition walls are provided so that the left and right widths are narrower than the left and right widths of the medal passage area a2. For this reason, the movement of the medal which passes the medal passage area a3 in the left-right direction is restricted. Further, the medal passage area a3 has an inclined surface k1 that is inclined from the rear upper side toward the front lower side. The medals passing through the medal passing area a3 move from the rear upper side to the front lower side by sliding or rolling on the inclined surface k1.

  Below the medal passage area a3 is a medal retention area a4 that is continuous with the medal passage area a3. The medal staying area a4 has a width and depth that are larger than the medal passage area a3, and the lower part hits the inner wall (bottom wall). Further, the medal staying area a4 is located on the back surface of the medal discharge area 155, and the medals flowing into the medal staying area a4 are discharged to the medal tray 161 through the medal discharge opening 155. In this way, by bending the distribution route of medals passing through the cancel chute member 266a, the moving speed of the medals discharged to the medal tray is made slower than when the medals are discharged to the medal tray by simple free fall. In addition, the route from the medal insertion port 141 to the medal discharge port 155 is not a straight line, and the route from the medal discharge port 155 is turned back to make it easy to prevent fraud.

  The cancel chute member 266a has a medal entrance a5 (described later in FIG. 22) paid out from the hopper unit 280 at the upper left rear of the medal staying area a4. The medal that has entered from the medal entrance a5 passes through the medal guide passage b1 formed by the medal receiving member 266b and a part of the inner wall surface of the cancel chute member 266a, and the medal stays at the lower right of the medal guide passage b1. It flows into area | region a4.

  FIG. 12 is an exploded perspective view of the cancel chute member 266a and the medal receiving member 266b as viewed from the upper right front toward the lower left rear. The cancel chute member 266a has a space area that accommodates the payout medal receiving member 266b in the lower left part. The medal guiding path 266 is configured by accommodating and combining the payout medal receiving member 266b in the space area. Further, the cancel chute member 266a has a flat plate-like front surface portion m1 in a part of the periphery of the medal staying region a4 and the medal guiding passage b1. The cancel chute member 266a is attached so that the front surface portion m1 contacts the chassis member 155b on the back surface of the front door 102.

  The cancel chute member 266a has a medal receiving area a1 at the top. The medal receiving area a1 is an area surrounded by the upper part of the left side wall part s1 on the left side, the upper part of the right side wall part s2 on the right side, and the upper part of the rear wall part u1, and functions as a receiving port for medals falling from above. ing. The rear wall portion u1 of the medal receiving area a1 has an inner wall surface that is gently curved so as to protrude rearward from the front lower side toward the rear upper side.

  The medal receiving member 266b is attached to change the moving direction of medals paid out from the hopper unit 280. Since the medal receiving member 266b guides the medal, which is paid out from the hopper unit 280, to the medal staying area a4 by colliding with the inner wall, the consumption by the medal collision is severe. Therefore, the medal receiving member 266b is formed of a material having a hardness higher than that of the cancel chute member 266a. By using a separate part from the cancel chute member 266a, it is possible to replace only the medal receiving member 266b that is heavily consumed. It is possible. The medal receiving member 266b has a hollow space between the outer wall and the inner wall, and has a structure that can easily absorb the impact of the medal when the medal collides.

  The medal retention area a4 is an area in which medals can be retained when the medals paid out from the hopper unit 280 cannot be discharged to the medal tray 161. The medal staying area a4 includes a left wall portion h1, a right wall portion h2, a rear wall portion h3, an upper right wall portion h4, a bottom wall portion h6, and an outer wall of the medal receiving member 266b, which are part of the inner wall of the cancel chute member 266a. The upper left wall h5 is a part. In the medal retention area a4 in the present embodiment, medals stay in an area near the medal discharge port 155 in the medal tray 161, so that the medals discharged from the hopper unit 280 cannot move to the medal tray 161. Therefore, even in such a case, the height and the width are set so that the medal clogging does not occur immediately. In the present embodiment, the partition wall portion s1 in which many medals passing through the cancel chute member 266a collide with each other is not configured as a separate part of the cancel chute member 266a. For example, the partition wall portion s1 is received by the medal holder. As another member of the cancel chute member 266a like the member 266b, a material having higher hardness may be used.

  FIG. 13 is a perspective view of the medal guiding path 266 as viewed from the lower right front to the upper left rear. Broken line arrows shown in the figure indicate the outline of the distribution direction and distribution route of medals paid out from the hopper unit 280. The medals paid out from the hopper unit 280 pass through a medal guiding path b1 configured by an inner wall surface a6 of the cancel chute member 266a and inner wall surfaces c1 and c2 provided inside the medal receiving portion 266b. The medals paid out from the hopper unit 280 flow into the medal staying area a4 through a locus such as a broken line arrow shown in the drawing.

  The medal receiving member 266b will be described in detail with reference to FIG. FIG. 14A is a front view of the medal receiving member 266b attached to the cancel chute member 266a. The medal receiving member 266b in this embodiment is formed of a transparent synthetic resin. The inner wall surface c1 of the medal receiving portion 266b has a curved surface that projects forward from the upper left rear to the lower right front. Further, the inner wall surface c2 of the medal receiving portion 266b has a wall surface that is orthogonal to the inner wall surface c1 and extends rearward.

  FIG. 14B is a right side view of the medal receiving member 266b attached to the cancel chute member 266a, and FIG. 14C is an arrow cut along the AA line in FIG. 14B. It is an end view of the cutting part seen in the direction. As shown in FIG. 14C, since the medal receiving member 266b has a cavity between the inner wall surface and the outer wall surface, the medal receiving member 266b is used when the medal collides with the inner wall surface c1 or the inner wall surface c2. The structure is easy to absorb the impact of medals.

  Some of the problems solved by the slot machine 100 of the present embodiment will be described with reference to FIG. FIG. 15A shows a medal discharge port constituting member 2500 including a medal discharge port 1500 with a small opening. In order to prevent an illegal act due to an intrusion of an unauthorized member from the medal outlet 1500, it is required to make the opening as small as possible. On the other hand, since a plurality of medals pass through the medal outlet at the same time, it is necessary to enlarge the opening portion in order to prevent occurrence of a clogged medal at the medal outlet.

  FIG. 15B shows a state where medals are staying in the medal staying area a <b> 40 of the cancel chute member 1600. In the back of the medal discharge port 1500, it is necessary to provide a medal retention area for retaining a predetermined number of medals, assuming that medals in the medal tray cannot be discharged to the medal tray. is there. Further, the medal staying area a40 needs to be enlarged in order to prevent occurrence of clogging of medals, but if the medal staying area a40 is enlarged, the staying medals can be in various postures (for example, standing state). .

  FIG. 15C shows a case where the medal discharge port constituting member 2500 having the medal discharge port 1500 shown in FIG. 15A and the cancel chute member 1600 having the medal staying area a40 shown in FIG. 15B are combined. The figure shows a situation where medals are clogged. In FIG. 15C, the door member is not shown in order to make it possible to grasp the positional relationship between the cancel chute member 1600 and the medal discharge port 1500. As shown in FIG. 15 (c), when the length of one side of the opening of the medal discharge port 1500 is shorter than the diameter of the medal, the medals in the medal staying area a40 cannot be completely discharged to the medal tray. A situation can arise. When the medals in the medal staying area a40 cannot be completely discharged to the medal tray, there is a problem that a player who has not noticed that there are medals that have not been discharged in the medal staying area a40 is lost. .

  Thus, if the opening of the medal discharge port is narrowed, medal clogging occurs. Therefore, it is necessary to widen the opening of the medal discharge port. However, if the opening of the medal discharge port is widened, the hole leading from the outside to the inside becomes wide, so that it is difficult to prevent the unauthorized member from entering.

  The medal guiding path 266 and the medal discharge port 155 in this embodiment will be described in detail with reference to FIGS. FIG. 16 is a front view of a state in which the medal discharge port constituting member 1550 provided with the medal discharge port 155 and the medal guide path 266 are combined. In FIG. 16, in order to show the positional relationship between the medal discharge port 155 and the medal guide path 266, the door member 1550 b and the chassis member 1550 c are not shown in the medal discharge port constituting member 1550, and only the medal discharge port sheet metal member 1550 a is shown. Is illustrated.

  As shown in FIG. 16, the medal discharge port constituting member 1550 has a medal discharge port 155 whose opening is substantially concave. The left end of the medal discharge port 155 substantially coincides with the left front end of the medal retention region a4, the right end of the medal discharge port 155 substantially coincides with the right front end of the medal retention region a4, and the lower end of the medal discharge port 155 is the medal retention The medal guiding path 266 and the medal discharge port constituting member 1550 are combined so as to substantially coincide with the lower front end of the region a4. Further, when the medal staying area a4 is divided in the horizontal direction, it is divided into a left area a41, a left intermediate area a42, a central area a43, a right intermediate area a44, and a right area a45. The area adjacent to the left wall h1 of the medal staying area a4 is the left area a41, and the area adjacent to the right inner wall h2 of the medal staying area a4 is the right area a45. There is a central region a43 between the left region a41 and the right region a45. There is a left intermediate region a42 between the left region a41 and the central region a43, and a right intermediate region a44 between the right region a45 and the central region a43. The left end of the central region a43 is close to the right end of the left region a41, and the right end of the central region a43 is close to the left end of the right region a45. Further, the bottom surface h63 of the central region a43 of the medal staying region a4 has the highest portion h60 having the highest bottom surface at the back left position (position closest to the medal guiding passage b1 in the central region a43), It slopes continuously toward the lower right.

  When the medals paid out from the hopper unit 280 reach the left region a41 or the right region a45 of the medal staying region a4, they may stand up by being supported by the wall portions adjacent thereto. . Therefore, the height of the medal discharge port 155 in these areas is set to a height at which the standing medal can pass so that the medals can be discharged from the left area a41 and the right area a45 of the medal staying area a4. In other areas, the medal outlet 155 is lowered.

  FIG. 17A is a cut portion end surface obtained by cutting the medal discharge port constituting member 1550 having the medal discharge port 155 and the medal guide path 266 along the lines AA and BB in FIG. It is a figure and is a cutting part end view of right field a45 of medal residence area a4. FIG. 17B is an end view of the cut portion of the medal discharge port constituting member 1550 having the medal discharge port 155 and the medal guide path 266 taken along line BB in FIG. It is a cutting part end view of central area | region a43 of the retention area | region a4. In addition, a two-dot chain circle shown in the drawing represents a standing medal. In addition, the hatching of the diagonal line extending from the upper right to the lower left shown in the drawing represents the end surface of the cut portion of the cancel chute member 266a, and the hatching of the diagonal line extending from the upper left to the lower right is the cutting of the door member 1550b. This represents the end face of the part (the same applies to the end face view of the cut part described later). 17A and 17B, illustration of the medal discharge port sheet metal member 1550a and the chassis member 1550c is omitted.

  As shown in FIG. 17A, in the right region a45 of the medal staying area a4, the shortest distance (L1) from the upper end of the medal discharge port 155 to the bottom surface h65 of the bottom wall h6 of the medal staying area a4 is the medal. This is an area configured to be longer than the diameter D. Further, as will be described later with reference to FIG. 18B, the lateral width of the right region a45 of the medal staying region a4 is configured to be longer than the thickness of the medal. For this reason, the standing area medal can be discharged from the right area a45 of the medal staying area a4. On the other hand, as shown in FIG. 17 (b), the central area a43 of the medal staying area a4 has a shortest distance (L2) from the upper end of the medal discharge port 155 to the bottom face h63 of the bottom wall portion h6 of the medal staying area a4. It is the area | region comprised so that it might become shorter than the diameter D of this. For this reason, the central area a43 of the medal staying area a4 cannot discharge the standing medal. As shown in FIG. 16 and FIG. 18B described later, the right area a45 of the medal staying area a4 is provided at the right wall portion h2 of the medal staying area a4, and the bottom surface of the central area a43 of the medal staying area a4. The h63 is provided with an inclination from the upper left to the lower right so that the posture of the medal is not easily raised. In the left region a41, the shortest distance from the upper end to the bottom surface of the medal discharge port 155 is longer than the diameter D of the medal, and the horizontal width of the left region a41 is longer than the thickness of the medal. ing. For this reason, it is possible to discharge the standing medals in the left region a41 of the medal staying region a4.

  As shown in FIGS. 17A and 17B, the bottom wall portion h6 having the bottom surface h63 and the bottom surface h65 of the medal staying area a4 is continuously inclined downward toward the medal tray 161. For this reason, since the medals in the medal staying area a4 are easily moved to the medal tray 161, it is difficult for medal clogging to occur in the medal staying area a4. Further, the bottom wall portion h6 of the medal staying area a4 is not limited to the configuration as in the present embodiment, and may have another configuration. For example, the medal retention area may have a flat bottom surface or may be inclined toward the installation direction of the hopper unit 280.

  As described above, the combination of the medal discharge port constituting member 1550 provided with the medal discharge port 155 and the medal guide path 266 in the present embodiment allows the medal discharge to a height at which the standing medal cannot be discharged from the central region a43 of the medal retention region a4. The outlet 155 can be lowered to prevent intrusion of unauthorized members from the outside as much as possible, and the medal staying area a4 at the position where the medal tends to stand up like the wall and the right area a41 and the right area a45. Then, the medal discharge port 155 is raised to a height at which the standing medal can pass, thereby preventing the medal clogging at the medal discharge port 155.

  FIG. 18A is a right side view of the cancel chute member 266a. The medal retention area a4 is provided with a width, a height, and a depth so as to have a volume that is larger than at least the total number of medals equal to the maximum payout number. In the present embodiment, the medal guiding path 266 can retain the same number (for example, 15) of medals as the maximum payout number in the medal retention area a4. Therefore, the medal clogging can be easily prevented. Further, the medal staying area a4 may have a configuration other than this. For example, the medal retention area a4 may not be an area in which the maximum payout number of medals can be retained.

  FIG. 18B is a cross-sectional end view of the cancel chute member 266a taken along line CC in FIG. 18A and viewed in the direction of the arrow. The broken line shown in the figure represents a virtual line indicating the boundary between the left region a41, the left intermediate region a42, the central region a43, the right intermediate region a44, and the right region a45 described above (cut section end view described later) The same applies to the above). As shown in FIG. 18B, the medal staying area a4 has a bottom wall portion h6 where the left and right end portions are recessed and the center portion is raised on the end surface of the cutting portion. In the figure, the bottom surface h61 that is depressed at the left end, the inner wall surface of the left wall portion h1, and the region surrounded by the broken line are the left region a41, and the bottom surface h65 that is depressed at the right end and the inner wall surface of the right wall portion h2. The region surrounded by the inner wall surface of the upper right wall portion h4 and the broken line is a right region a45, and the region surrounded by the raised bottom surface h63 and the inner wall surface of the upper right wall portion h4 and the broken line is the central region a43. . The bottom surface h63 of the central region a43 is inclined at a gentle angle (θ1) in one direction toward the bottom surface h65 of the right region a45. Conventionally, when many medals are retained in the medal staying area, the posture of the medal may be standing in an area other than the wall side. However, as in the present embodiment, the medal staying area a4 is By tilting the bottom surface h63 of the central region a43 in the left-right direction, even when many medals are retained in the medal retaining region a4, the posture of the medals in the central region a43 is difficult to stand up.

  Further, the horizontal width of the left area a41 and the horizontal width of the right area a45 of the medal retention area a4 are configured to be longer than the thickness of the medal. For this reason, medals in the left region a41 are easily supported by the recessed bottom surface h61 of the left region a41 and the inner wall surface of the left wall h1, and medals in the right region a45 are The bottom region h65 of the right region a41 is depressed and the inner wall surface of the right wall portion h2 is supported to easily stand up.

  As shown in FIG. 18B, the bottom surface h63 of the central region a43 related to the medal staying region a4 is gently inclined in one direction from the upper left to the lower right. As shown in FIG. 16, the bottom surface h63 has the highest portion h60 having the highest bottom surface at a position on the left back of the medal retention area a4 that is closest to the medal receiving member 266b. Further, in the present embodiment, the medal staying area a4 is formed by recessing the bottom surfaces of the left area a41 and the right area a45 of the medal staying area a4, so that the medal discharge ports 155 in the left area a41 and the right area a45 are provided. The position of the upper end can be kept low. Further, the medal staying area a4 of the medal guiding path 266 in this embodiment is divided into a medal staying area a4 (a41, a45) and a medal falling tendency area (a43). It is possible to prevent the medals in the area a4 from having various postures.

  FIG. 19 shows an example of a moving state of the medal M paid out from the hopper unit 280 in a state where the medal discharge port constituting member 1550 having the medal discharge port 155 of the present embodiment and the medal guide path 266 are combined. In order to show the positional relationship between the medal discharge port 155 and the medal guide path 266, the door member 1550b and the chassis member 1550c are not shown in the medal discharge port constituting member 1550, and only the medal discharge port sheet metal member 1550a is shown. Yes. Further, in order to make it easy to understand the movement state of medals paid out from the hopper unit 280, a part of the medal receiving member 266b constituting the medal guide passage b1 hidden by the medal discharge port constituting member 1550 and the cancel chute A part of the member 266a is indicated by a dotted line.

  The medal M paid out from the hopper unit 280 moves to the position A shown in the figure of the medal guiding path b1. The medal M that has reached the position A slides or rolls on the inner wall surface a6 of the cancel chute member 266a, and moves to the position B shown in the figure of the medal retention area a4. The position of B is the left rear position of the above-described central region a43. The bottom surface of the central region a43 is continuously inclined from the upper left rear to the lower right front. For this reason, the medal M that has reached the position B slides and rolls on the bottom surface h63 of the central area a43 of the medal retention area a4, and moves to the position C shown in the drawing. The position of C is the position of the right area a45 of the medal retention area a4. The medal M at the position C is supported by the right wall portion h2 of the medal staying area a4 and is in a standing state, and is discharged to the medal tray 161 through the medal discharge port 155.

  In this way, by combining the medal discharge port constituting member 1550 having the medal discharge port 155 and the medal guide path 266 of the present embodiment, the medals paid out from the hopper unit 280 are viewed from the left as viewed from the player. The medal that has reached the medal retention area a4 is likely to move from the left to the right as viewed from the player. Further, the medal is difficult to stand because there is no support by the wall as in the central area a43 of the medal staying area a4, and when there is support by the wall as in the right area a45 of the medal staying area a4, the medal is standing up. Is likely to become.

  FIG. 20 shows the positional relationship between the medal discharge port 155 and the opening of the medal staying area a4 in a state where the medal discharge port constituting member 1550 provided with the medal discharge port 155 and the medal guide path 266 are combined. The dotted line at the top of the medal discharge port 155 is a virtual line indicating the upper end of the opening of the medal staying area a4. In order to show the positional relationship between the medal discharge port 155 and the medal guide path 266, the door member 1550b and the chassis member 1550c are not shown in the medal discharge port constituting member 1550, and only the medal discharge port sheet metal member 1550a is shown. Yes.

  As shown in FIG. 20, the left end of the opening of the medal staying area a4 substantially coincides with the left end of the medal discharge area 155, and the right end of the opening of the medal staying area a4 substantially coincides with the right end of the medal discharge opening 155. The lower end of the opening of the medal retention area a4 substantially coincides with the lower end of the medal discharge port 155. On the other hand, the height (L3) of the opening of the medal retention area a4 is higher than the height (L4) of the medal discharge port 155. Thus, since the opening of the medal staying area a4 is expanded only in the upward direction of the medal discharge port 155, it is difficult to generate medal clogging at a position where it is difficult for the player to visually recognize.

  FIG. 21A is a right side view of the cancel chute member 266a. FIG. 21B is a cross-sectional view of the cancel chute member 266a taken along the line CC in FIG. FIG. Further, the circle shown at the lower right in the figure represents the size of the medal. As shown in FIG. 21 (b), the lateral width (L5) of the right region a45 of the medal retention region a4 is at least shorter than the diameter D of the medal, but is not limited to this. For example, the lateral width of the right region a45 is It may be longer than the diameter D of the medal. In the present embodiment, in the right region a45 of the medal staying region a4, the horizontal width (L5) of the bottom surface h65 is shorter than the diameter D of the medal, so that it is difficult for the medal to fall down in the right region a45 of the medal staying region a4. It is configured. For this reason, the medal guiding path 266 in the present embodiment can suppress the probability that a medal clogging occurs due to a standing medal staying on a medal that has fallen in the area near the wall of the medal staying area a4. The lateral width (L51) of the left region a41 of the medal staying region a4 is also configured to be at least shorter than the diameter D of the medal.

  As shown in FIG. 21B, the bottom surface h64 of the right intermediate region a44 between the central region a43 and the right region a45 of the medal staying region a4 is directed from the right end of the central region a43 toward the left end of the right region a45. Although it is inclined downward at an angle larger than the inclination of the wall surface h63, the present invention is not limited to this. For example, the right intermediate region a44 may not be provided. In the medal guiding path 266 in the present embodiment, the standing medal tends to lean to the left on the left side of the right region a45 due to the inclination of the bottom surface h64 of the right middle region a44 of the medal retention region a4, and the posture of the medal is upright. It is configured so that it is difficult to stand up. For this reason, the height of the medal discharge port 155 may be lowered on the left side of the right region a45. Further, the bottom surface h62 of the left intermediate region a42 is inclined upward from the lower left end of the left intermediate region a42 toward the lower left end of the central region a43, but is not limited thereto. For example, the left intermediate region a42 is not provided. It may be a configuration.

  FIG. 22 is a front view of the cancel chute member 266a. A payout medal receiving member receiving area a7 that is continuous with the medal staying area a4 is provided on the upper left side of the medal staying area a4. A medal entrance a5 for medals paid out from the hopper unit 280 is provided in the rear wall portion of the payout medal receiving member accommodation area a7. The medal entrance a5 has a rectangular opening inclined by about 45 ° from the upper left to the lower right. The payout medal receiving member receiving area a7 has an inner wall surface having three elongated protrusions extending from the rear to the front and an inner wall surface having four elongated protrusions extending from the rear to the front. And have. On the other hand, the payout medal receiving member 266b is formed with a groove into which these elongated protrusions are fitted. For this reason, the payout medal receiving member 266b is fixed to the payout medal receiving member receiving area a7 by fitting the payout medal receiving member 266b into the payout medal receiving member receiving area a7.

  As shown in FIG. 22, the cancel chute member 266a in the present embodiment is configured to have the highest height at a position closest to the medal entrance a5 in the central region a43. With this configuration, medals paid out from the hopper unit 280 pass through the medal entrance a5, the highest part of the central area a43, and the lowest part of the central area a43. And move in the direction of the right region a45. For this reason, according to the cancel chute member 266a in the present embodiment, the medals paid out from the hopper unit 280 move to the medal staying area a4 in a state where the moving speed is not reduced, and the medal staying area a4 also has a bottom surface inclination. In the state where the moving speed is not lowered, the tokens are discharged from the right side area a45 of the medal staying area a4, and it is difficult for medal clogging to occur in the medal staying area a4.

  FIG. 23A is a right side view of the cancel chute member 266a, and FIG. 23B is a cross-sectional view of the cancel chute member 266a taken along the line DD in FIG. FIG. As shown in FIG. 23 (b), the right wall portion h2 adjacent to the right region a45 of the medal staying region a4 has a predetermined angle so that the opening of the medal staying region a4 expands in the installation direction of the tray 161. It is inclined at (θ2). For this reason, medals in the right region a45 of the medal staying region a4 may be discharged to the medal tray 161 so as to expand in the right direction from the medal discharge port 155, and the medals are accumulated in front of the medal discharge port 155. It is difficult for medal jams to occur. Note that the left wall portion h1 (see FIG. 18B) adjacent to the left region a41 of the medal staying region a4 has a predetermined angle so that the opening of the medal staying region a4 expands in the installation direction of the tray 161. It may be configured to be inclined at.

  A modification example of the combination of the medal discharge port constituting member 1550 having the medal discharge port 155 and the medal guide path 266 will be described with reference to FIGS. 24 to 26, and a modification example of the medal guide path 266 will be described with reference to FIG. Will be explained. In each modification shown below, the description of the same configuration as the medal guiding path 266 and the medal discharge port 155 may be omitted.

<Modification A>
Modification A will be described with reference to FIG. The modification A is an example in which the modification 1 of the medal guiding path 266 and the modification 1 of the medal discharge port 155 are combined. FIG. 24A is a right side view of the cancel chute member 266a in the medal guiding path 266 of the first modification. The right side surface of the cancel chute member 266a of this example has the same shape as the right side surface of the cancel chute member 266a described above.

  FIG. 24B is a front view of the medal guiding path 266 of the first modification. FIG. 24C is a cross-sectional view taken along the line E-E in FIG. It is the cut part end view seen. As shown in FIGS. 24B and 24C, in the cancel chute member 266a, the bottom surface of the left region a41 adjacent to the left wall portion h1 of the medal retention region a4 is not recessed. In the medal guiding path 266 of the first modification, since the bottom surface of the left area a41 of the medal staying area a4 is not recessed, the height from the bottom surface of the left wall portion h1 is lower than that of the medal guiding path 266 described above. For this reason, the medal guiding path 266 of the first modification is configured so that the posture of the medal is not easily raised in the left region a41 of the medal staying region a4. Further, the wall surface of the left wall portion h1 of the medal retention area a4 may be inclined from the upper left rear toward the lower right front. In this case, the medal becomes more difficult to stand in the left region a41 of the medal staying region a4. In the combination of the medal discharge port constituting member 1550 provided with the medal discharge port 155 and the medal guide path 266 of the above embodiment, the medal is standing in any of the left region a41 and the right region a45. It is easy to discharge standing medals.

  FIG. 24D is a front view of a state in which the medal discharge port constituting member 1550 provided with the medal discharge port 155 of Modification 1 and the medal guide path 266 of Modification 1 are combined, and the medal discharge port 155 and the medal guide In order to show the positional relationship of the path 266, in the medal discharge port constituting member 1550, the door member 1550b and the chassis member 1550c are not shown, and only the medal discharge port sheet metal member 1550a is illustrated. The medal discharge port 155 of the first modification has a shape obtained by rotating the L-shaped L shape by 90 ° counterclockwise. Since the upper end of the medal discharge port 155 of Modification 1 in the left region a41 is lower than the upper end of the medal discharge port 155 of the above embodiment in the left region a41, the medal discharge port 155 of Modification 1 is It is narrower than the medal outlet 155 of the above embodiment. For this reason, by combining the medal discharge port constituting member 1550 provided with the medal discharge port 155 of the first modification and the medal guide path 266 of the first modification, the opening for allowing unauthorized members to enter from the outside can be narrowed. It has a configuration that can more easily prevent unauthorized members from entering. In the case of the configuration as in the present embodiment, a portion close to the medal entrance a5 in the medal staying area a4 can be widened, so that it is easy to prevent occurrence of medal clogging near the medal entrance a5. can do.

<Modification B>
Modification B will be described with reference to FIG. The modified example B is an example in which the medal discharge port constituting member 1550 provided with the medal discharge port 155 according to the above embodiment and the modified example 2 of the medal guiding path 266 are combined. FIG. 25A is a right side view of the cancel chute member 266a in the medal guiding path 266 of the second modification. The right side surface of the cancel chute member 266a of this example has the same shape as the right side surface of the cancel chute member 266a described above.

  FIG. 25B is a front view of the medal guiding path 266 of the second modification. FIG. 25C is a cross-sectional view of the cancel chute member 266a taken along the line FF in FIG. It is the cut part end view seen. As shown in FIG. 25 (c), in the medal guiding path 266 of the second modification, the end surface of the cut portion of the bottom wall of the central area a43 has a substantially center in the horizontal direction of the central area a43 as the apex, and the left side is the left It is configured to incline in one direction downward toward the bottom surface of the region a41, and the right side is configured to incline downward in one direction toward the bottom surface of the right region a45.

  FIG. 25D is a front view of a state where the medal discharge port constituting member 1550 having the medal discharge port 155 of the above embodiment and the medal guide path 266 of the second modification are combined, and the medal discharge port 155 and the medal In order to show the positional relationship of the guide path 266, in the medal discharge port constituting member 1550, the door member 1550b and the chassis member 1550c are not shown, and only the medal discharge port sheet metal member 1550a is illustrated. The medal staying area a4 of the medal guiding path 266 of the modified example 2 is configured so that the medal easily moves to both the left area a41 and the right area a45, so that the standing medal cannot pass through the center. The medal is hard to be discharged from the area a43. Further, in the medal guiding path 266 of the second modification, medals in the medal staying area a4 are easily dispersed in the right area a45 and the left area a41. In this embodiment, since the medal entrance a5 is provided on the left side of the medal staying area a4, the medal entering from the medal entrance a5 moves toward the right area a45 without reducing the moving speed. Therefore, the central region a43 is configured to be unilaterally inclined toward the right region a45.

<Modification C>
Modification C will be described with reference to FIG. The modified example C is an example in which the medal discharge port constituting member 1550 provided with the medal discharge port 155 of the modified example 2 and the medal guide path 266 of the above embodiment are combined. FIG. 26A is a front view of a state in which the medal discharge port constituting member 1550 having the medal discharge port 155 of the second modification is combined with the medal guide path 266 of the above embodiment, and the medal discharge port 155 and the medal In order to show the positional relationship of the guide path 266, in the medal discharge port constituting member 1550, the door member 1550b and the chassis member 1550c are not shown, and only the medal discharge port sheet metal member 1550a is illustrated. FIG. 26B is a cross-sectional end view of the medal guide path 266 taken along the line GG in FIG. 26A and viewed in the direction of the arrow, and includes a right region a45 of the medal staying region a4. Yes. FIG. 26C is a sectional end view of the medal guiding path 266 taken along the line H-H in FIG. 26A and viewed in the direction of the arrow, and includes a central area a43 of the medal staying area a4. . As shown in FIGS. 26 (a) to 26 (c), the medal discharge port 155 of Modification 2 is configured such that the upper end of the medal discharge port 155 has a uniform height. In this example, since the medal staying area a4 of the above embodiment is used, the height of the upper end of the medal discharge port 155 is not changed, and the medal staying area a4 as shown in FIG. 18B. It is the structure where the height of the bottom face of changes. For this reason, the height of the medal discharge port 155 of the modified example 2 is set such that standing medals can be discharged from the left region a41 and the right region a45 of the medal retention region a4, and other regions (left Even if the standing medals are lowered from the intermediate area a42, the central area a43, and the right intermediate area a44) to a height at which the standing medals cannot be ejected, as shown in FIG. In areas other than the right area a45, medals are difficult to stand up, and it is difficult for medal clogging to occur. Note that the medal discharge port 155 of the second modification may be configured so that a standing medal can be discharged also from the left intermediate region a42, the central region a43, and the right intermediate region a44.

<Modification D>
With reference to FIG. 27, a medal guiding path 266 according to the third modification will be described. FIG. 27A is a right side view of the cancel chute member 266a in the medal guiding path 266 of the third modification. FIG. 27B is a front view of the medal guiding path 266 of the third modification. FIG. 27C is a cross-sectional view of the cancel chute member 266a taken along line II in FIG. It is the cut part end view seen. As shown in FIG. 27 (c), the right wall h2 of the medal staying area a4 of the medal guiding path 266 according to the modification 3 extends rearward and perpendicular to the opening of the medal staying area a4. Absent. In the medal guiding path 266 of the third modification, the medals are easily discharged in front of the medal discharge port 155, and the medals are not easily dispersed in the medal tray 161. For this reason, by using the medal guide path 266 of the third modification, the medals stored in the medal tray 161 may be easily collected.

  The medal guiding path 266 according to the above-described embodiment and modification has a medal guiding path b1 serving as a path for medals paid out from the hopper unit on the left side of the medal staying area a4 when viewed from the player. However, the positional relationship between the medal staying area a4 and the medal guiding passage b1 may be any. In addition, the medal guiding passage b1 is configured by two parts of the cancel chute member 266a and the medal receiving member 266b, but the medal guiding path b1 may be configured by any part.

  The medal staying area a4 of the medal guiding path 266 according to the above-described embodiment or modification has a configuration in which the bottom surface is inclined downward toward the medal tray 161, but is not limited thereto. For example, the bottom surface of the medal retention area a4 may be configured to be horizontal. Note that the medal guiding path 266 according to the above embodiment has the bottom surface of the medal staying area a4 that makes it easy to discharge the medal in the medal staying area a4 to the medal tray 161. It is difficult for medal jams to occur.

  The opening of the medal staying area a4 of the medal guiding path 266 according to the above-described embodiment or modification is configured to be narrower than the medal discharge opening 155, but is not limited to this, and the opening of the medal staying area a4 and the medal The relationship of the size of the discharge port 155 may be anything. The opening of the medal staying area a4 and the medal discharge port 155 are configured such that the standing medal can pass in the area near the wall, and the standing medal cannot pass in the area other than the wall. Anything may be used.

Next, the characteristic configuration of the slot machine 100 according to the present embodiment described above will be described with reference to FIGS. 1 to 27 again.
(1)
A hopper unit for paying out medals (for example, hopper unit 280);
A medal guiding path (for example, medal guiding path 266) for guiding a medal paid out from the hopper unit to a receiving tray (for example, medal receiving tray 161);
An outlet (for example, medal outlet 155) for discharging the medal guided by the medal guiding path to the tray;
A game machine equipped with
The medal guiding path has a medal retention area (for example, medal retention area a4) in which medals can be retained (see, for example, FIG. 12).
The medal retention area is
A first region (for example, the right region a45 or the left region a41) that can be discharged to the tray through the discharge port in a state where a medal stands up (see, for example, FIGS. 16 to 18) ,
A second region (for example, a central region a43) that cannot be discharged to the tray through the discharge port in a state where a medal stands up (for example, see FIGS. 16 to 18),
The first region is provided adjacent to a first wall portion (for example, the right wall portion h2 or the left wall portion h1) of the wall portions forming the medal staying region, and is more than the thickness of the medal. A region having a long width (see, for example, paragraph “0143”, FIG. 18B),
The second region is provided close to the first region, and is higher than a first bottom surface (for example, a bottom wall surface h65 or a bottom wall surface h61) that is a bottom surface of the first region. A region having a bottom surface (for example, a bottom wall surface h63) (for example, see FIG. 18B),
A game stand characterized by that.

  According to the above gaming machine, the medal discharge port can be narrowed by the second region of the medal retention region, it is easy to prevent unauthorized members from entering from the medal discharge port, and the medal is placed on the wall where the medal can stand up. By providing the first region that can be discharged in the standing state, it is difficult to generate clogged medals even when the medal discharge port is narrowed.

(2)
The gaming machine according to (1) above,
The second bottom surface is inclined downward toward the first region (for example, the right region a45) (for example, FIG. 18B, FIG. 24C, or FIG. 25C). reference),
A game stand characterized by that.

  According to the above gaming machine, by tilting the bottom surface of the second area where the standing medal cannot pass, it is easy to prevent the medal from standing in the second area. By tilting downward toward the first region, clogging of medals is less likely to occur.

(3)
The game stand according to (2) above,
The medal guiding path has a guiding path (for example, medal guiding path b1) for guiding a medal paid out from the hopper unit to the medal staying area (for example, see FIG. 11).
The first wall portion (for example, the right wall portion h2) is disposed on the opposite side of the guide passage with the first region and the second region interposed therebetween (for example, FIG. 16 and FIG. 18B). )reference),
The second bottom surface has a highest part (for example, the highest part h60) having the highest height at a position closest to the guide passage (for example, a position at the left inner part of the central region a43) (for example, the highest part h60). FIG. 16)
The second bottom surface is inclined in one direction from the highest portion toward the first bottom surface so that a medal guided from the guide passage to the second bottom surface is guided to the first region. (For example, see FIG. 18B),
A game stand characterized by that.

  According to the above gaming machine, since the medals are easily gathered in the first area where the standing medals can pass while keeping the moving speed of the medals paid out from the hopper unit from being reduced, The discharge frequency of medals from the second area that cannot pass through can be suppressed, and medals are hard to occur.

(4)
The gaming machine according to any one of (1) to (3) above,
The medal retention area has a volume capable of retaining at least the number of medals (for example, 15) that may be paid out in one game (for example, see paragraph “0141”).
A game stand characterized by that.

  According to the above-described game stand, at least one medal that can be paid out in one game is retained, so that it is difficult for medal clogging to occur even at a narrow medal outlet.

(5)
The gaming machine according to any one of (1) to (4) above,
The first bottom surface and the second bottom surface are inclined downward toward the saucer (see, for example, FIG. 17).
A game stand characterized by that.

  According to the above gaming machine, medals are less likely to be jammed by facilitating the ejection of medals in the medal retention area to the tray.

(6)
The gaming machine according to any one of (1) to (5) above,
The discharge port is formed by opening a plate-like member (for example, a medal discharge port sheet metal member 1550a, a door member 1550b, and a chassis member 1550c) (see, for example, FIG. 10).
The medal retention area is
At least the first wall portion (for example, the right wall portion h2), the second wall portion (for example, the left wall portion h1), and the bottom wall portion (for example, the bottom wall portion h6) are configured (for example, see FIG. 12). ),
The end of the first wall portion close to the tray, the end of the second wall portion close to the tray, and the bottom wall portion close to the tray And an opening region that is surrounded by the end of the opening and opens to the side facing the discharge port (see, for example, FIG. 12)
An end portion of the bottom wall portion of the opening region is disposed substantially coincident with a bottom side portion of the discharge port (see, for example, FIG. 16 or FIG. 20),
At least a part of the opening region is closed with the plate-like member (see, for example, FIG. 20),
A game stand characterized by that.

  According to the above gaming machine, even if the medal staying area is widened to prevent the occurrence of clogging of medals inside, it is possible to prevent unauthorized members from entering from outside by narrowing the medal discharge port.

(7)
The game stand according to any one of (1) to (6) above,
The horizontal width (for example, the horizontal width (L5)) of the first region (for example, the right region a45) is shorter than the diameter of the medal (for example, see FIG. 21B).
A game stand characterized by that.

  According to the above gaming machine, the medal clogging in the first area is prevented by preventing the medal from falling down in the first area of the medal staying area.

(8)
The gaming machine according to any one of (1) to (7) above,
The medal retention area is
A third region (for example, right middle region a44) provided between the first region and the second region;
A third bottom surface (for example, a bottom wall surface h64) that is a bottom surface of the third region is inclined downward from the second bottom surface toward the first bottom surface (for example, FIG. 21B). reference),
A game stand characterized by that.

  According to the above gaming machine, it is possible to easily tilt the standing medals in the first area.

(9)
The gaming machine according to any one of (1) to (8) above,
The wall surface of the first wall portion is configured such that the medal staying area expands toward the tray (see, for example, FIG. 23B).
A game stand characterized by that.

  According to the above gaming machine, it is difficult for medals discharged to the tray to stay in front of the medal outlet. When the medal guiding path is provided on the left side relative to the medal staying area, the wall surface of the first wall portion is configured such that the medal staying area extends rightward toward the tray, When the passage is provided on the right side relative to the medal staying area, the wall surface of the first wall portion may be configured such that the medal staying area extends leftward toward the tray. Also good.

  Further, for example, what is referred to as a lamp in the above description is an example of a light emitting means, and the lamp can be replaced if it emits light such as an LED or a cold cathode tube.

  Note that the items described in the above detailed description can be combined.

  In the above embodiment, the slot machine is used as an example of the game table, but the present invention is not limited to this.

The game table of the above embodiment is expressed as follows, for example.
(Appendix 1)
A hopper unit for paying out medals,
A medal guiding path for guiding a medal paid out from the hopper unit to a tray;
A discharge port for discharging the medal guided by the medal guiding path to the tray;
A game machine equipped with
The medal guiding path has a medal retention area where medals can be retained,
The medal retention area is
A first region that can be discharged to the tray through the discharge port in a state where a medal stands up;
A second region that cannot be discharged to the tray through the discharge port in a state where a medal stands up,
The first region is a region that is provided adjacent to a first wall portion of the wall portions forming the medal residence region, and has a lateral width longer than the thickness of the medal,
The second region is a region that is provided close to the first region and has a second bottom surface that is higher than the first bottom surface that is the bottom surface of the first region.
A game stand characterized by that.
(Appendix 2)
The game machine according to appendix 1,
The second bottom surface is inclined downward toward the first region;
A game stand characterized by that.
(Appendix 3)
The game stand according to appendix 2,
The medal guiding path has a guiding path for guiding a medal paid out from the hopper unit to the medal staying area,
The first wall portion is disposed on the opposite side of the guide passage across the first region and the second region,
The second bottom surface has a highest portion having the highest height at a position closest to the guide passage,
The second bottom surface is inclined in one direction from the highest portion toward the first bottom surface so that a medal guided from the guide passage to the second bottom surface is guided to the first region. doing,
A game stand characterized by that.
(Appendix 4)
The game stand according to any one of appendices 1 to 3,
The medal retention area has a volume capable of retaining at least a number of medals that may be paid out in one game.
A game stand characterized by that.
(Appendix 5)
The game stand according to any one of appendices 1 to 4,
The first bottom surface and the second bottom surface are inclined downward toward the tray.
A game stand characterized by that.
(Appendix 6)
The gaming machine according to any one of appendices 1 to 5,
The discharge port is formed by opening a plate-shaped member,
The medal retention area is
It is composed of at least the first wall portion, the second wall portion, and the bottom wall portion,
The end of the first wall portion close to the tray, the end of the second wall portion close to the tray, and the bottom wall portion close to the tray An opening region that is surrounded by the end of the opening and opens to the side facing the discharge port,
An end of the bottom wall portion of the opening region is disposed substantially coincident with the bottom side of the discharge port,
At least a part of the opening region is closed by the plate-like member,
A game stand characterized by that.
(Appendix 7)
The game stand according to any one of appendices 1 to 6,
The width of the first region is shorter than the diameter of the medal;
A game stand characterized by that.
(Appendix 8)
The game stand according to any one of appendices 1 to 7,
The medal retention area is
Having a third region provided between the first region and the second region;
A third bottom surface that is a bottom surface of the third region is inclined downward from the second bottom surface toward the first bottom surface,
A game stand characterized by that.
(Appendix 9)
The gaming machine according to any one of appendices 1 to 8,
The wall surface of the first wall portion is configured such that the medal retention area extends toward the tray.
A game stand characterized by that.

100 slot machine 102 front door 155 medal discharge port 161 medal tray 266 medal guiding path 266a cancel chute member 266b medal receiving member 280 hopper unit

Claims (9)

A hopper unit for paying out medals,
A medal guiding path for guiding a medal paid out from the hopper unit to a tray;
A discharge port for discharging the medal guided by the medal guiding path to the tray;
A game machine equipped with
The medal guiding path has a medal retention area where medals can be retained,
The medal retention area is
A first region that can be discharged to the tray through the discharge port in a state where a medal stands up;
A second region that cannot be discharged to the tray through the discharge port in a state where a medal stands up,
The first region is a region that is provided adjacent to a first wall portion of the wall portions forming the medal residence region, and has a lateral width longer than the thickness of the medal,
The second region is a region that is provided close to the first region and has a second bottom surface that is higher than the first bottom surface that is the bottom surface of the first region.
A game stand characterized by that. The game stand according to claim 1,
The second bottom surface is inclined downward toward the first region;
A game stand characterized by that. The game stand according to claim 2,
The medal guiding path has a guiding path for guiding a medal paid out from the hopper unit to the medal staying area,
The first wall portion is disposed on the opposite side of the guide passage across the first region and the second region,
The second bottom surface has a highest portion having the highest height at a position closest to the guide passage,
The second bottom surface is inclined in one direction from the highest portion toward the first bottom surface so that a medal guided from the guide passage to the second bottom surface is guided to the first region. doing,
A game stand characterized by that. It is a game stand as described in any one of Claims 1 thru | or 3,
The medal retention area has a volume capable of retaining at least a number of medals that may be paid out in one game.
A game stand characterized by that. It is a game stand as described in any one of Claims 1 thru | or 4,
The first bottom surface and the second bottom surface are inclined downward toward the tray.
A game stand characterized by that. A game stand according to any one of claims 1 to 5,
The discharge port is formed by opening a plate-shaped member,
The medal retention area is
It is composed of at least the first wall portion, the second wall portion, and the bottom wall portion,
The end of the first wall portion close to the tray, the end of the second wall portion close to the tray, and the bottom wall portion close to the tray An opening region that is surrounded by the end of the opening and opens to the side facing the discharge port,
An end of the bottom wall portion of the opening region is disposed substantially coincident with the bottom side of the discharge port,
At least a part of the opening region is closed by the plate-like member,
A game stand characterized by that. It is a game stand as described in any one of Claims 1 thru | or 6,
The width of the first region is shorter than the diameter of the medal;
A game stand characterized by that. A gaming table according to any one of claims 1 to 7,
The medal retention area is
Having a third region provided between the first region and the second region;
A third bottom surface that is a bottom surface of the third region is inclined downward from the second bottom surface toward the first bottom surface,
A game stand characterized by that. It is a game stand as described in any one of Claims 1 thru | or 8,
The wall surface of the first wall portion is configured such that the medal retention area extends toward the tray.
A game stand characterized by that.

Images