JP2017113070A - Game machine - Google Patents

Abstract

PROBLEM TO BE SOLVED: To properly choose a material depending on usage and an arrangement environment.SOLUTION: A game machine includes: a first transparent panel formed of a first material; and a second transparent panel formed of a second material different from the first material, as a transparent panel attached at a game machine front face, where each transparent panel is provided with a part to be supported as a part to be supported, a transparent panel having a non-transparent part except for the part to be supported is the second transparent panel and a transparent panel not having a non-transparent part except for the part to be supported is the first transparent panel.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a swivel type gaming machine, a pachinko gaming machine, and the like. In detail, it is related with the material of the transparent panel attached to a game machine.

JP 2014-230914 A

  Various transparent panels (hereinafter referred to as transparent panels) are attached to gaming machines such as slot machines. In particular, for a gaming machine equipped with a liquid crystal, a transparent panel attached to protect the liquid crystal and a transparent panel attached to protect the rotating drum are attached (see, for example, Patent Document 1).

In each of these transparent panels, it is important to select a material appropriately according to the application and arrangement environment.
Accordingly, an object of the present invention is to appropriately select the material of each transparent panel according to the application and the arrangement environment.

The gaming machine according to the present invention has a first transparent panel made of a first material and a second transparent panel made of a second material different from the first material as a transparent panel attached to the front surface of the gaming machine, Each transparent panel is provided with a supported part as a supported part, and the transparent panel having a non-transparent part in the part excluding the supported part is the second transparent panel, and the part excluding the supported part The transparent panel which does not have a non-transparent portion is the first transparent panel.
Thereby, the selection of the material of the transparent panel based on the presence or absence of secondary processing is enabled.
In the above gaming machine, it is preferable that the second material is a material having a larger coefficient of static friction than the first material.
Thereby, about the 2nd transparent panel which has a non-transparent part in the part except a supported part, it becomes easy to use methods, such as water transfer printing, as a formation method of a non-transparent part.
Further, in the above gaming machine, it is desirable that the first material is a tempered glass material and the second material is an acrylic material.
Thereby, it becomes easy to use a technique such as water transfer printing as a technique for forming the transparent portion of the second transparent panel while maintaining the high transparency of the transparent panel.

  According to the present invention, since the material of each transparent panel can be appropriately selected according to the use and the arrangement environment, the function of the gaming machine can be improved.

It is a front view of a rotating type game machine. FIG. 2 is a plan view (FIG. 2A) and a right side view (FIG. 2B) of the rotating type gaming machine. It is a rear view of the front door with which a rotating type game machine is provided. It is a front view of the main body case with which a rotating type game machine is provided. It is a figure which shows a LCD unit and a liquid crystal protective panel. It is a figure which shows a game display board | substrate and a spinning cylinder protection panel. It is a schematic block diagram of the internal control configuration of the rotating type gaming machine. It is the figure which showed the circuit structure of the main control board with which a rotating type game machine is provided. It is the figure which showed the decorative board protection panel. It is the figure which showed a mode that the liquid crystal protective panel was supported. It is a figure which shows the to-be-supported part of a liquid crystal protection panel. It is a figure which shows the state by which the spinning cylinder protection panel was attached to the game machine. It is a figure which shows the contact area of a transparent panel and a supporting member. It is a figure which shows the positional relationship of a transparent panel and a to-be-protected member. It is a figure which shows the example of arrangement | positioning of a transparent panel. It is a table | surface which shows the example of the combination of conditions and a raw material.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of a rotating type gaming machine according to the present invention will be described in the following order. In the embodiment, a slot machine is taken as an example.
<1. Mechanism configuration of a spinning machine>
<2. Control configuration of a spinning machine>
<3. Transparent panel material selection>
[3-1. Material selection by planar shape]
[3-2. Material selection by 3D shape]
[3-3. Material selection by area]
[3-4. Material selection based on secondary processing]
[3-5. Material selection by thickness]
[3-6. Material selection by mounting method]
[3-7. Material selection by distance from operation means]
[3-8. Material selection based on contact area between transparent panel and support member]
[3-9. Material selection based on distance from electronic circuit board]
[3-10. Material selection based on distance from heating element]
[3-11. Material selection based on distance from protected member]
<4. Arrangement example of first transparent panel and second transparent panel>
[4-1. First arrangement example]
[4-2. Second arrangement example]
<5. Summary>

<1. Mechanism configuration of a spinning machine>

First, the external configuration of the slot machine according to the embodiment will be described with reference to FIGS.
1 is a front view of the slot machine, FIG. 2A is a plan view, FIG. 2B is a right side view, FIG. 3 is a rear view of the front door 2, and FIG.

  In the slot machine of the present embodiment, as can be seen from FIG. 2, a rectangular box-shaped main body case 1 and a front door 2 equipped with various game members are connected via a hinge mechanism (not shown). 2 is configured to be openable and closable with respect to the main body case 1.

As shown in FIG. 4, a symbol rotating unit 3 including three rotating reels (rotating drums) 4 a, 4 b, 4 c is arranged in the approximate center of the main body case 1. In addition, a medal payout device 5 is disposed on the lower side.
Each of the rotating reels 4a, 4b, and 4c has various symbols to be described later, such as symbols for BB (Big Bonus) and RB (Regular Bonus), various fruit symbols, and replay symbols.
The medal payout device 5 has a medal tank 5a for storing medals. Further, a payout motor 75, a payout connection board 73, a hopper board 74, a medal payout sensor 76, and the like, which will be described later with reference to FIG. 7, are housed in the payout case 5b.
The medals stored in the medal tank 5a are led out from the payout opening 5c toward the front of the drawing based on the rotation of the payout motor 75. The medals stored exceeding the limit amount are configured to fall into the auxiliary tank 6 through the excess medal deriving unit 5d.

A power supply board 41 is disposed adjacent to the medal payout device 5. A main control board 40 is disposed above the symbol rotation unit 3, and a rotating drum setting board 71 is disposed adjacent to the main control board 40.
Further, a rotating LED (Light Emitting Diode) relay board 56 and a rotating relay board 53 shown in FIG. 7 are provided inside the symbol rotating unit 3, and an external concentrated terminal board 70 is adjacent to the symbol rotating unit 3. Is arranged.

  Further, in the main body case 1, a door opening sensor 35 for detecting the opening of the front door 2 (door opening) is provided on the side of the symbol rotating unit 3.

As shown in FIG. 1, an LCD (Liquid Crystal Display) unit 7 is disposed at the top of the front door 2, and a liquid crystal protection panel for protecting the LCD unit 7 in front of the LCD unit 7 (player side). 25 is arranged (see FIG. 5). The LCD unit 7 includes a display unit 7a on which various characters and the like are displayed, a holding body 7b that holds the display unit 7a, and a substrate (not shown) that is necessary for displaying an image on the display unit 7a. The display unit 7a functions as a display panel. Further, the holding body 7b is provided with mounting holes 7c, 7c,... For mounting the LCD unit 7 on the main body case 1 or the front door 2 or various members attached thereto.
The player can visually recognize an image of a character or the like displayed on the LCD unit 7 through the transparent liquid crystal protection panel 25.
A rotating drum protection panel 26 for protecting the rotating reel 4 is disposed below the LCD unit 7 (that is, in front of the rotating reels 4a, 4b, and 4c).
As shown in FIG. 6, the rotating cylinder protection panel 26 includes a transparent portion 27 that is a transparent portion and a non-transparent portion 28 that is a non-transparent portion.
The transparent portion 27 of the rotating cylinder protection panel 26 is formed as a display window 8 for exposing the rotating reels 4a, 4b, and 4c. In FIG. 6, the rotating reels 4a, 4b and 4c are not shown.
The player can see about three symbols through the display window 8 in the rotation direction of each of the rotary reels 4a, 4b, 4c. In this case, there are nine symbol stop positions in the display window 8 as positions where the symbols stop when each of the rotating reels 4a, 4b, 4c is stopped. And, a total of five lines of three lines connecting three symbol stop positions arranged in the horizontal direction and two lines connecting three symbol stop positions arranged in the diagonal direction out of a total of nine symbol stop positions are virtual. It becomes a simple symbol stop line.
Of the symbol stop lines, the symbol stop line used for determining whether or not the winning symbol (winning combination) is complete is a valid line, and the other symbol stop lines are invalid. The valid line and the invalid line are appropriately changed according to the state of various games such as BB, RB, AT (assist time), RT (replay time), and ART (assist replay time). That is, for example, one line in the middle stage is set as an active line during a normal game, but two lines in the upper stage and the middle stage are changed to an active line during a bonus game.

  In addition, inside the symbol rotating unit 3, the spinning LED is arranged at a position where each of the nine symbols visually recognized when the rotating reels 4a, 4b, 4c are stopped can be irradiated from the inside (see FIG. 1 (not shown). Each of the spinning cylinder LEDs is turned on / off according to the rotation state, stop state, or various effects of the respective rotation reels 4a, 4b, 4c.

As shown in FIG. 6, the non-transparent portion 28 (that is, the portion below the display window 8) of the rotation protection panel 26 transmits light emitted from the inside of the rotation protection panel 26 toward the player. A light shielding portion 28a that does not transmit light, and a light transmission portion 28b that transmits light emitted from the inside of the rotating drum protection panel 26 toward the player.
The light transmitting portion 28b is arranged so that the player can view the display of a game display board 61 (described later) that displays the progress of the game located at the back of the spinning cylinder protection panel 26 when viewed from the player. It is formed to transmit light. That is, the light emitted from the LED group 9 provided on the game display board 61 indicating the progress of the game, the payout display unit 10 having the 7-segment LED, and the storage number display unit 11 having the 7-segment LED is emitted. The non-transparent part 28 of the rotating cylinder protection panel 26 is provided with a light transmission part 28b so that the player can visually recognize it.
The LED group 9 includes, for example, an LED indicating the number of medals inserted into the game, an LED indicating that a replay game is in progress, and an LED indicating that the spinning cylinder is ready to be rotated (required for playing the game). LED indicating that a predetermined number of medals have been inserted), an LED indicating a medal insertion acceptance state, and the like. In addition, a dedicated LED provided to indicate whether or not it is changing may be included.
The payout display unit 10 is configured by connecting two 7-segment LEDs. The payout display unit 10 specifies the number of payout medals, and also functions as an error indicator that displays abnormal contents when an abnormal situation occurs.
The storage number display unit 11 displays the number of medals stored in the credit state.

As shown in FIG. 1, LED effect units 15a, 15b, and 15c are provided above, left, and right of the display window 8. The LED effect units 15a, 15b, and 15c are configured such that a predetermined pattern and design are applied, and an effect by light is executed by the LEDs arranged on the inner side. The effects executed by the LED effect units 15a, 15b, and 15c are, for example, effects indicating that BB or RB has been won, effects indicating the status of AT or ART, assist effects during AT or ART, and the like. .
Although not described in detail, the front door 2 is provided with various other LEDs as LEDs for presenting effects and operating states.

A medal slot 12 for inserting medals is provided on the right side of the center of the front door 2, and a return button 13 for returning medals jammed in the medal slot 12 is provided in the vicinity thereof. A key hole for inserting a dedicated key is provided on the right side of the return button 13. When the front door 2 is closed with respect to the main body case 1, the front door 2 is unlocked by turning the key inserted into the keyhole clockwise (hereinafter referred to as “unlocking operation”), and the main body of the front door 2 The case 1 can be opened and closed. Further, by turning the key inserted into the keyhole counterclockwise, the game stop state due to the stop or error is canceled (hereinafter referred to as “cancel cancel operation”).
Further, on the left side of the center of the front door 2, there are provided a credit checkout button 14 for paying out credit medals and a max insertion button 16 for artificially inserting three credit medals.

The front door 2 has a start lever 17 (starting means) for starting rotation of the rotating reels 4a, 4b, 4c, and a stop button 18a for stopping the rotating reels 4a, 4b, 4c. 18b and 18c (stop means) are provided.
When the player operates the start lever 17, normally, the three rotating reels 4a, 4b, 4c start to rotate in the forward direction. However, in order to produce a reel effect informing the internal winning state, all or part of the rotating reels 4a, 4b, 4c rotate irregularly (so-called “effect rotation”) and then start to rotate in the forward direction. There is also.
Various kinds of specific contents are considered for the reel production. For example,
・ Slow production that rotates extremely slowly in the forward direction (forward rotation) and stops still ・ After repeated forward and reverse rotation, reverse rotation that rotates backward for a predetermined time and stops still ・ For normal rotation for the first predetermined time The first swing effect that stops after repeating the reverse rotation ・ The second swing effect that stops still after repeating the normal rotation and reverse rotation for the second predetermined time ・ The normal rotation and reverse rotation for the second predetermined time Slow oscillating effect that stops still after repeating forward, and then stops still after very slowly rotating forward ・ Stops after repeating forward and reverse rotations for the second time, and then stops after rotating backwards for a predetermined time An oscillating reverse rotation effect, an effect in which the image rotates in a forward or reverse direction at a predetermined speed and then stands still in a predetermined pattern, and an effect that maintains the current rotation state (or stopped state) are prepared. At the time of such a reel effect, all or a part of the character effect on the LCD unit 7, the lamp effect for blinking the LED lamp, and the sound effect for driving the speaker are appropriately selected and executed.

Below the start lever 17 and the stop buttons 18a, 18b, 18c, a lower panel 29, a horizontally long tray 19 for storing medals, and a medal outlet 20 communicating with the payout port 5c of the payout device 5 are provided. Yes.
The lower panel portion 29 is designed with colors and patterns to enhance the visual effect on the player.
The lower panel 29 is provided with a decorative board on which colors, patterns, and the like are applied, an LED that emits light for enhancing visual effects from the inside of the decorative board, and a front panel for protecting those components. And a decorative panel protection panel 29a as a transparent panel.
Speakers 30a, 30b, 30c, and 30d are disposed on the upper left and right sides and the lower left and right sides of the front door 2, respectively.

As shown in FIG. 3, the back side of the front door 2 is a medal sorting device 21 that sorts medals inserted into the medal slot 12 shown in FIG. 1, and a medal that is determined to be inappropriate by the medal sorting device 21. And a return passage 22 that guides the token to the medal outlet 20.
A substrate case 23 is disposed on the upper back side of the front door 2. The board case 23 accommodates an effect control board 42, an effect interface board 43, a liquid crystal control board 44, a liquid crystal interface board 45, and the like described in FIG.
A game relay board 60 (described later in FIG. 7) for relaying signals between the various game members shown in FIG. 1 and the main control board 40 is provided on the side of the medal sorting device 21.

<2. Control configuration of a spinning machine>

Next, the configuration of the control system of the slot machine of the present embodiment will be described.
FIG. 7 is a schematic block diagram of an internal control configuration of the slot machine. The slot machine of the present embodiment has a control configuration centered on the main control board 40.
The main control board 40 is equipped with a microcomputer having a CPU (Central Processing Unit), a RAM (Random Access Memory), a ROM (Read Only Memory), etc., a circuit for an interface, etc. Perform such overall control. For example, the main control board 40 controls the operation of various game members including the rotating reels 4a, 4b, and 4c, and grasps the operation status. In addition, an effect is executed according to the game operation.
The main control board 40 has various signals (commands) between the power supply board 41, the production interface board 43, the rotary relay board 53, the game relay board 60, the external concentration terminal board 70, the rotary setting board 71, and the payout connection board 73. And detection signals).

The power supply board 41 receives AC24V and rectifies and smoothes it to obtain a DC voltage. The power supply board 41 includes a converter circuit and generates a power supply voltage necessary for each part. In the figure, a main control power supply voltage V1 given to each part via the main control board 40 and an effect control power supply voltage V2 given to each part via the effect interface board 43 are shown.
The power supply board 41 is also provided with a power supply monitoring circuit for detecting a power cut-off state, a backup power supply circuit for supplying a backup power supply voltage to the main control board 40, and the like.

The effect control board 42 is equipped with a microcomputer equipped with a CPU, ROM, RAM, etc., an interface circuit, and the like, and performs control related to the effect operation of the slot machine.
The effect control board 42 receives a command from the main control board 40 via the effect interface board 43. For example, the main control board 40 has a sound effect by the speaker 30 (30a to 30d), a lamp effect by the LED lamp or the cold cathode ray tube discharge tube, a pattern effect by the LCD unit 7, and an accessory by an accessory with respect to the effect control board 42. A control command for realizing an effect is output, and the effect control board 42 performs an effect control process corresponding to the control command.
In addition, when the production control board 42 receives a control command (game start command) for specifying the internal lottery result from the main control board 40, it executes AT lottery to determine whether or not to enter the assist time winning state corresponding to the internal lottery result. .
In the game of a predetermined number of times (during the AT) after winning the AT lottery on the effect control board 42, the three rotating reels 4a, 4b are arranged so that the symbols can be aligned with a predetermined symbol stop line in the small role winning state. 4c is informed to the player.
In addition, when the effect control board 42 receives a control command indicating execution of the reel effect from the main control board 40, the effect control board 42 starts an effect operation corresponding to the reel effect executed on the main control board 40.
Due to such an effect control operation, the effect control board 42 performs necessary communication with each unit through the effect interface board 43.

The effect control board 42 is connected to the liquid crystal control board 44 via the effect interface board 43 and the liquid crystal interface board 45.
The liquid crystal control board 44 controls effects by displaying images on the LCD unit 7. On the liquid crystal control board 44, a VDP (Video Display Processor), an image ROM, a VRAM (Video RAM), a liquid crystal control CPU, a liquid crystal control ROM, a liquid crystal control RAM, and the like are mounted.
The VDP performs overall control of video output processing such as image development processing and image drawing.
The image ROM stores image data (effect image data) on which the VDP performs image expansion processing.
The VRAM is an image memory area that temporarily stores image data developed by the VDP.
The liquid crystal control CPU outputs control data necessary for the VDP to perform display control.
The liquid crystal control ROM stores a program describing the display control operation procedure of the liquid crystal control CPU and various data necessary for the display control.
The liquid crystal control RAM functions as a work area and a buffer memory.
Such a liquid crystal control board 44 receives a command related to a display effect from the effect control board 42 and generates a display drive signal accordingly. Then, a display drive signal is supplied to the LCD unit 7 via the liquid crystal interface board 45 to execute image display.

In addition, the effect control board 42 controls the speaker relay board 47 via the effect interface board 43 to execute sound effects using the speakers 30a to 30d.
The effect control board 42 realizes lamp effects by various LEDs via the effect interface board 43 and the LED board 48 and the spinning LED relay board 56.
On the LED board 48, for example, LEDs as the LED effect units 15a, 15b, and 15c shown in FIG. 1 are arranged.
The spinning LED relay board 56 relays the LED drive signal from the effect control board 42 for the first spinning LED board 50a, the second spinning LED board 50b, and the third spinning LED board 50c.
On the first spinning LED substrate 50a, the spinning LED for irradiating the design of the rotating reel 4a from the inside is arranged. On the second spinning LED substrate 50b, the spinning LED for irradiating the design of the rotating reel 4b from the inside is arranged. Further, on the third spinning LED substrate 50c, a spinning LED for irradiating the design of the rotating reel 4c from the inside is arranged.

The main control board 40 is connected to various game members of the slot machine through the game relay board 60 as shown in FIG.
As described above, the game display board 61 is equipped with the LED group 9 indicating the progress of the game, the payout display unit 10 having the 7-segment LED, and the storage number display unit 11 having the 7-segment LED. ing. In addition, the game display board 61 is provided in the vicinity of the medal insertion slot 12 for prompting insertion of a medal (medal insertion slot LED), and provided in the vicinity of the max insertion button 16 to prompt the operation of the max insertion button 16. LEDs (Max input button LEDs), LEDs provided near the start lever 17 for prompting the operation of the start lever 17 (start lever LEDs), and LEDs provided for each stop button 18 (stop button LED) And equipped. The main control board 40 controls the game display board 61 to transmit a control command via the game relay board 60 to execute display according to the situation such as the progress of the game.

A start switch by the start lever 17 is mounted on the start switch board 62.
On the stop switch board 63, stop switches based on stop buttons 18a, 18b, 18c are mounted.
The storage medal insertion switch board 64 is equipped with an insertion switch for the maximum insertion button 16.
A settlement switch for the settlement button 14 is mounted on the settlement switch board 65.
The main control board 40 receives the detection signal of the player operation by the switches of these boards (62, 63, 64, 65) via the game relay board 60.

The door sensor 66 is a sensor provided for the aforementioned key hole of the front door 2. The door sensor 66 is capable of recognizing the above-described game cancellation cancellation operation.
The medal passage sensor 67 and the lever detection sensor 68 are provided in the medal sorting device 21. The medal passage sensor 67 is constituted by, for example, a photo interrupter, and is a sensor that detects passage of a selected regular medal. The lever detection sensor 68 is composed of, for example, a photomicrosensor, and is a sensor that detects passage of a medal inserted from the medal insertion slot 12. In other words, medals inserted from the medal insertion slot 12 pass through the lever detection sensor 68, and then only regular medals are selected, and then the medal passage sensor 67 detects the passage thereof.
The main control board 40 receives the detection signals of these sensors (66, 67, 68) via the game relay board 60. Further, the main control board 40 detects the insertion time and passing direction of the medal inserted by the detection signal of the received sensor, and accepts it as an inserted medal only when it meets a predetermined rule, otherwise it is inserted Treat as a medal error.
The blocker solenoid 69 drives a blocker that prevents passage of illegal medals to ON / OFF. The main control board 40 controls the blocker solenoid 69 via the game relay board 60.

In addition, the main control board 40 has three stepping motors 54 (a first cylinder stepping motor 54a, a second cylinder stepping motor 54b, a second cylinder stepping motor 54b, and the like) that rotate the rotary reels 4a, 4b, and 4c via the cylinder relay board 53. The third cylinder stepping motor 54c) is connected.
Further, the main control board 40 is connected to the three index sensors 55 (first cylinder index sensor 55a, second cylinder) for detecting the origin positions of the rotary reels 4a, 4b, 4c via the cylinder relay board 53. The index sensor 55b is connected to the third cylinder index sensor 55c).
The main control board 40 drives or stops the stepping motors 54a, 54b, 54c, thereby realizing the rotating operation of the rotating reels 4a, 4b, 4c and the stopping operation at the target position. The main control board 40 can detect the origin positions of the rotating reels 4a, 4b, and 4c based on the detection signals of the index sensors 55a, 55b, and 55c.

The main control board 40 is also connected to a device unit for paying out medals via a payout connection board 73. A hopper board 74 for performing medal payout control, a payout motor 75, and a medal payout sensor 76 are provided as an apparatus unit for paying out medals.
The hopper board 74 rotates a payout motor 75 based on a control command from the main control board 40 and pays out a predetermined amount of medals.
The medal payout sensor 76 detects the passage of the payout medal. The detection signal from the medal payout sensor 76 is used to detect an abnormal payout state such as a shortage of payout medals or no payout operation.

  The main control board 40 is connected to the external concentration terminal board 70. The external concentration terminal board 70 is connected to, for example, a hall computer, and the main control board 40 outputs the number of inserted medals and the number of paid out medals to the hall computer through the external concentration terminal board 70.

  The main control board 40 is also connected to the rotating drum setting board 71. The rotary setting board 71 outputs a signal indicating a setting value set by the staff using the setting key switch 72. The set value defines the winning probability of the lottery process executed in the slot machine in six stages from setting 1 to setting 6, and is set as appropriate based on the business strategy of the game hall.

Next, the circuit configuration of the main control board 40 will be described with reference to FIG.
As shown in the figure, the main control board 40 includes a controller 80 using a one-chip microcomputer, an I / O port circuit 83 for inputting / outputting 8-bit parallel data, a counter circuit 81, and an interface unit for each unit. ing.

The controller 80 includes an interrupt controller 80d, a CTC (Counter / Timer Circuit) 80e, etc., in addition to the CPU 80a, ROM 80b, and RAM 80c.
The CTC 80e is a circuit in which an 8-bit counter and a timer are integrated, and adds a periodic interrupt, a fixed-period pulse output generation function (bit rate generator), and a time measurement function in the processing of the CPU 80a. In this example, a timer interrupt (FIG. 10 described later) is applied to the CPU 80a at a time interval of 1.49 ms using the CTC 80e.

  The counter circuit 81 is a circuit that generates a random value in hardware. The controller 80 (CPU 80a) performs a lottery process using the random value generated by the counter circuit 81.

The main control board 40 is provided with an interface between the controller 80 and each board shown in FIG.
The power interface 82 is an interface with the power circuit of the power board 41.
The game interface 84 is an interface with the game relay board 60. The controller 80 inputs various switches and sensor detection signals, and transmits commands for LED control and blocker solenoid control via the game interface 84.
The rotating motor driving unit 85 is an interface with the rotating relay substrate 53. The controller 80 outputs motor drive signals to the stepping motors 54a, 54b, and 54c by the rotary motor driving unit 85, and from the index sensors 55a, 55b, and 55c input via the rotary motor driving unit 85. Obtain the detection signal.
The effect control interface 86 is an interface for the controller 80 to transmit a command to the effect control board 42 via the effect interface board 43. Specifically, for example, an 8-bit parallel port.
The payout connection interface 87 is an interface with the payout connection board 73.

The external interface 88 is an interface with the hall computer via the external concentration terminal board 70.
The rotating drum setting interface 89 is an interface with the rotating drum setting board 71.

<3. Transparent panel material selection>

Various examples of the selection of the material of the transparent panel (the liquid crystal protection panel 25, the rotating cylinder protection panel 26, etc.) described above will be described.

[3-1. Material selection by planar shape]
The example which selects a raw material with the planar shape of a transparent panel is demonstrated.
Comparing one example of the liquid crystal protection panel 25 shown in FIG. 5 and one example of the rotator protection panel 26 shown in FIG. 6, the planar shape of the liquid crystal protection panel 25 is closer to a square than the planar shape of the rotator protection panel 26 ( That is, the aspect ratio of the transparent panel is close to 1: 1.
Here, the shape of the surface having the maximum area in the transparent panel is referred to as “planar shape”.

There are mainly two reasons for the planar shapes of the liquid crystal protection panel 25 and the rotating cylinder protection panel 26.
The first reason is due to a member (or a portion disposed as a part of the transparent panel) disposed behind the transparent panel (on the back side in the gaming machine).
A display window 8 through which the rotating reels 4 a to 4 c can be visually recognized is formed on the rotating cylinder protection panel 26, but an area extending over part or all of the LED effect units 15 a to 15 c is also a part of the rotating cylinder protection panel 26. It may be formed as a part. Moreover, when it is necessary to provide the panel which protects LED production | presentation parts 15a-15c, the rotation protection panel 26 may be arrange | positioned so that the front of LED production | presentation parts 15a-15c may be covered.

This is for the purpose of reducing the cost, but in this case, the rotating cylinder protection panel 26 is necessarily formed in a horizontally long rectangular shape.
In other words, a plurality of members such as the rotating reels 4a to 4c, the LED effect units 15a to 15c, and other mechanisms (movable accessory and non-movable accessory) may be disposed behind the rotating cylinder protection panel 26. It is easy to become a horizontally long rectangular shape.
Further, since only the LCD unit 7 is often disposed behind the liquid crystal protection panel 25, it has a square shape that is substantially the same size as the display portion 7 a of the LCD unit 7 (at least closer to the square than the cylinder protection panel 26). Shape).

  A movable accessory may be disposed between the liquid crystal protection panel 25 and the LCD unit 7. In this case, however, the movable accessory may be disposed in the front-rear direction (ie, forward) with respect to the LCD unit 7. In many cases, it is rarely arranged in the horizontal direction or the vertical direction. Therefore, the planar shape of the liquid crystal protection panel 25 for protecting the LCD unit 7 and the movable accessory provided in front of the LCD unit 7 is a square shape that is substantially the same size as the size of the display portion 7a of the LCD unit 7 (at least the rotation). In many cases, the shape is closer to a square than the body protection panel 26.

The second reason is due to an increasing tendency of the size of the display unit 7a of the LCD unit 7.
In a situation where the size of the casing is substantially constant, the position and size of the operation section where the lower panel 29 and operation means (start lever 17, stop buttons 18a to 18c, etc.) are gathered are large above the casing. When the size display portion 7a (for example, 20 inches) is provided, the size of the rotating reels 4a to 4c is inevitably reduced.

However, if the rotary reels 4a to 4c are reduced in size while maintaining the aspect ratio, the visibility of the symbols by the player is lowered, and it is difficult for the player to prepare a specific symbol (for example, a symbol for BB). turn into.
For this reason, it is conceivable that even if the vertical (up and down direction) size is reduced, the horizontal (left and right direction) size is maintained. In this case, the planar shape of the rotating cylinder protection panel 26 tends to be a horizontally long rectangle.

  In the following description, among the four sides of a rectangle excluding a square, two sides having a longer length are referred to as “long sides” and two sides having a shorter length are referred to as “short sides”.

The material of the liquid crystal protection panel 25 having a shape closer to a square is preferably a material having higher bending rigidity (bending strength) than the rotating cylinder protection panel 26.
When pressure is applied to the transparent panel from the outside, the rectangular (excluding square) transparent panel is deformed so that the long side is curved, thereby releasing the pressure.
On the other hand, the transparent panel having a shape close to a square relieves pressure by being deformed so that one of the four sides is curved by external pressure. In other words, which side is curved depends on the position and direction in which pressure is applied.

Therefore, the larger the value X of the ratio of the length of the long side to the length of the short side (when the length of the short side is 3 and the length of the long side is 6, X is 2), It is easy to deform so as to bend. That is, the larger the ratio value X, the easier it is to identify the deformed shape of the transparent panel, and it is easier to grasp the influence on the surrounding members during deformation.
On the other hand, as the ratio value X is smaller (that is, closer to 1 which is the minimum value of X), the transparent panel becomes closer to a square, so that it becomes difficult to grasp the direction of bending. Therefore, it is difficult to grasp the influence on peripheral members when the transparent panel is deformed.

Since the material of the liquid crystal protection panel 25 having a shape close to a square is made of a material having higher bending rigidity than that of the rotating cylinder protection panel 26, the amount of displacement at the time of deformation can be suppressed to be small. Become. The measures at the time of deformation include, for example, attaching a cushioning material to a member that contacts when the transparent panel is deformed, or selecting a material of the member that contacts in consideration of the applied pressure.
On the other hand, the rotator protection panel 26, which is made of a material having lower bending rigidity than the liquid crystal protection panel 25, is easily deformed, but the deformation direction is likely to be a specific direction. Can do.

  An example of a material having high bending rigidity is a tempered glass material. An example of a material having low bending rigidity is a synthetic resin. Examples of the synthetic resin include acrylic materials and polycarbonate materials.

  Although the example in which the planar shape of the liquid crystal protection panel 25 is closer to the square than the planar shape of the rotor protection panel 26 has been described, the planar shape of the rotor protection panel 26 is the liquid crystal protection panel 25. In some cases, the shape is closer to a square than the planar shape. In that case, the material of the liquid crystal protection panel 25 is preferably a material having a lower bending rigidity than that of the rotating cylinder protection panel 26.

  In summary, the material of the rotating cylinder protection panel 26 as the first transparent panel whose planar shape as the panel surface is a rectangle other than a square is a tempered glass material that is a first material having a relatively high bending rigidity, The material of the liquid crystal protection panel 25 as the second transparent panel having a shape closer to the square than the rotation protection panel 26 is a synthetic resin (for example, an acrylic material) which is a second material having relatively low bending rigidity. Is preferable.

  If the corners of the transparent panel are rounded for reasons such as preventing breakage of the corners of the transparent panel, the first material is the transparent panel material that is nearly square in plan view. It is preferable to do.

Further, when selecting the material of the transparent panel based on the planar shape of the transparent panel, the material may be selected based on an elastic coefficient (elastic modulus, elastic constant, Young's modulus) instead of bending rigidity.
For example, the material of the liquid crystal protection panel 25 having a shape close to a square may be a material having a higher elastic coefficient than that of the rotating cylinder protection panel 26, so that the amount of displacement at the time of deformation may be suppressed to a small value.

[3-2. Material selection by 3D shape]
An example of selecting a material according to whether or not the three-dimensional shape of the transparent panel is a flat plate shape will be described.
The liquid crystal protection panel 25 shown in FIG. 5 has a flat plate shape. Further, the decorative panel protection panel 29a of the lower panel portion 29 shown in FIG. 9 has a curved shape with the center protruding forward (player side). 9A is a top view of the decorative plate protection panel 29a, and FIG. 9B is a perspective view of the decorative plate protection panel 29a.

The decorative plate protection panel 29a is arranged as a part of the exterior of the housing. Therefore, if the corners of the decorative panel protection panel 29a are formed at a right angle, the player may be injured or the corners may be lost, leading to a decrease in appearance.
Therefore, the corners of the decorative panel protection panel 29a are often rounded.

In addition, the decorative plate visible through the decorative plate protection panel 29a is often provided with a characteristic design for the purpose of inducing interest in the gaming machine (for example, a picture that is a theme of the gaming machine has a pattern). Such as when it is drawn, or when a characteristic shaped member is placed on the surface). Therefore, it is desirable that those design portions are easily visually recognized from a wide range as much as possible.
Therefore, the three-dimensional shape of the decorative plate protection panel 29a may be formed in a curved shape that draws a gentle arc so that the angle at which the decorative plate and the arranged design portion can be appropriately visually recognized is widened. Many.

In addition, it is strongly demanded in ordinary design that a unique curved surface is given as a front shape or the like for each model. In particular, it is often desirable to provide a cover body for such a curved surface shape.
Also from this point, the three-dimensional shape of the decorative panel protection panel 29a may be formed in a curved shape that draws a gentle arc.

Further, the liquid crystal protection panel 25 disposed in front of the LCD unit 7 is often disposed in a state where the corner portions are not exposed (or not protruded).
Therefore, since it is not necessary to form a three-dimensional shape into a curved shape, it is formed into a flat plate shape.

  In addition, there is a case where a movable accessory is provided on the surface of the liquid crystal protection panel 25, but this is a movable accessory mainly for performing an effect on the player, so that it is appropriate when viewed from the front of the gaming machine. It is only necessary to make it easily visible from other angles such as diagonally.

Further, the screen of the display unit 7a of the LCD unit 7 is formed in a plane. If the liquid crystal protection panel 25 that is curved in front of the flat display surface is disposed, the visibility may be lowered. In particular, the visibility of images displayed on the peripheral edge of the display surface may be reduced.
Also from these points, it is desirable that the three-dimensional shape of the liquid crystal protection panel 25 is formed in a flat plate shape.

The decorative plate protection panel 29a having a curved shape is preferably made of a material having a lower melt viscosity than the liquid crystal protection panel 25 having a flat plate shape.
In order to form a material having a high melt viscosity into a curved shape, for example, a technique of bending a plate-like transparent panel using a heater or the like is used. However, this method is not suitable for mass production.
On the other hand, a material having a low melt viscosity is suitable for injection molding capable of mass production.
That is, by forming the material of the decorative panel protection panel 29a having a curved shape as a material having a low melt viscosity, formation by injection molding is facilitated.

An example of a material having a low melt viscosity is a synthetic resin. Examples of the synthetic resin include acrylic materials and polycarbonate materials.
Moreover, a tempered glass material can be mentioned as an example of a material with low bending rigidity.

  Here, an example in which the decorative plate protection panel 29a has a curved shape has been described, but an example in which the other transparent panel (for example, the rotating drum protection panel 26) has a curved shape is also conceivable. In that case, it is preferable that the material of the rotating cylinder protection panel 26 is a material having a lower melt viscosity than the material of the liquid crystal protection panel 25.

  In summary, the decorative plate protection panel 29a as the second transparent panel having a curved cover body is made of a synthetic resin (for example, acrylic material) which is a second material having a relatively low melt viscosity, and is flat. It is preferable that the material of the liquid crystal protection panel 25 as the first transparent panel having the shape of a flat plate is a tempered glass material which is a first material having a relatively high melt viscosity.

In addition, although the curved cover body was mentioned here as an example of a 2nd transparent panel, the shape other than that may be a 2nd transparent panel. In other words, the transparent panel having a three-dimensional shape other than the plate-like shape that is the shape of the first transparent panel is preferably the second transparent panel. Further, the planar shape of the first transparent panel may not be a rectangle or a square, and if the surface having the maximum area is flat, it is a plate shape. And if the surface which has the largest area is a curved surface, it will be set as the 2nd transparent panel.

[3-3. Material selection by area]
An example of selecting a material according to the area of the transparent panel will be described.
The display unit 7a of the LCD unit 7 is increasing in size. For this reason, the size of the transparent liquid crystal protection panel 25 disposed in the front so as to be visible while protecting the display unit 7a of the LCD unit 7 also tends to increase. Therefore, the area of the panel surface of the liquid crystal protection panel 25 tends to be widened.

On the other hand, the rotation protection panel 26 is arranged so that a part of the rotation protection panel 26 can be visually recognized while protecting the rotary reels 4a to 4c. However, if the size of the panel surface of the rotation protection panel 26 becomes too large. There is a risk that the number of symbols that can be visually recognized through the rotation protection panel 26 may increase.
In particular, if the vertical direction becomes long, three or three symbols in the vertical direction that can be visually recognized become four or five.
This makes it difficult to grasp the positions of the symbol stop lines such as the upper stage and the middle stage, and it may be difficult for the player to stop the rotation of the spinning cylinder at an appropriate position. Therefore, there is a possibility that an appropriate game is hindered.

Further, in many cases, members such as a mechanism for rotating the symbol rotation unit 3 are arranged on the symbol rotation unit 3 and its peripheral portion.
If the size of the rotating cylinder protection panel 26 is increased and the viewing range is expanded, those peripheral members may be visible, which may hinder the fun of the game.
Furthermore, it is conceivable to arrange a blindfold member for concealing these members, but this causes an increase in cost and a complicated assembly process.

Therefore, the area of the panel surface of the liquid crystal protection panel 25 is likely to be larger than the area of the panel surface of the rotating cylinder protection panel 26.
When the area of the panel surface of the liquid crystal protection panel 25 shown in FIG. 5 is larger than the area of the panel surface of the cylinder protection panel 26 shown in FIG. 6, the liquid crystal protection panel 25 having a large area is larger than the circuit board protection panel 26 having a small area. It is also preferable to use a material having high bending rigidity.
The “panel surface” refers to a surface facing the front and rear (that is, a surface excluding the side surface) of the transparent panel.

  When the same material is used for transparent panels having different areas, a transparent panel having a large area is likely to have a larger displacement amount due to deformation when the transparent panel is bent than a transparent panel having a small area. In this case, it is necessary to apply an arrangement and a support method in consideration of the difference in displacement amount to each transparent panel, and there is a possibility that the configuration may be complicated and the assembly efficiency may be lowered depending on the case. .

On the other hand, the amount of displacement when the transparent panel is deformed can be made closer by making the bending rigidity of the transparent panel having a large area higher than that of the transparent panel having a small area.
Thereby, arrangement | positioning and a support method (or support structure) of a transparent panel can be selected, without considering the difference of the displacement amount which concerns on a deformation | transformation when a transparent panel is pressed. Therefore, the structure of the gaming machine can be simplified and the assembly efficiency can be improved.

  Furthermore, the strength of the transparent panel required when the player is pressed from the front against the transparent panel, for example, can be easily maintained despite the difference in area in both the liquid crystal protection panel 25 and the rotating cylinder protection panel 26.

  An example of a material having high bending rigidity is a tempered glass material. An example of a material having low bending rigidity is a synthetic resin. Examples of the synthetic resin include acrylic materials and polycarbonate materials.

  In addition, when the area of the panel surface of the liquid crystal protection panel 25 is smaller than the area of the panel surface of the rotor protection panel 26, the liquid crystal protection panel 25 having a smaller area has a bending rigidity than that of the rotor surface protection panel 26 having a larger area. It can be considered to be a low material.

  In summary, the material of the rotating cylinder protection panel 26 as the second transparent panel having a relatively small area of the panel surface is a synthetic resin (for example, an acrylic material) which is a second material having a relatively low bending rigidity. The material of the liquid crystal protection panel 25 as the first transparent panel having a flat plate shape is preferably a tempered glass material which is a first material having a relatively high bending rigidity.

In addition, when selecting a raw material according to the area of a transparent panel, you may pay attention to properties other than bending rigidity.
In the case of a transparent panel having a large area, the stress increases when pressure is applied from the outside. Although the transparent panel is deformed by this stress, it is conceivable to select a material having a small elastic coefficient (elastic modulus, elastic constant, Young's modulus) so that the transparent panel is not damaged by the deformation.
Thereby, even when a transparent panel deform | transforms greatly with the pressure from the outside, damage to a transparent panel can be prevented.

[3-4. Material selection based on secondary processing]
An example of selecting a material based on the presence or absence of secondary processing on the transparent panel will be described.
As described above, the liquid crystal protection panel 25 is often approximately the same size as the display unit 7 a of the LCD unit 7. Although there are cases where a movable accessory is arranged in front of the LCD unit 7, there is often an effect linked with the character image displayed on the display unit 7 a of the LCD unit 7. Accordingly, the movable accessory often provides an effect to the player by moving in front of the display unit 7a of the LCD unit 7.

  In addition, there may be a movable accessory that is movable in the vertical direction or the horizontal direction with respect to the display unit 7 a of the LCD unit 7. In such a case, the display unit 7 a protrudes from the display unit 7 a of the LCD unit 7. In many cases, a standby position (that is, a standby position at the time of non-production) is set at the position, and it is not appropriate for the purpose of production to make it possible to visually recognize a movable accessory that is located at such a standby position. There are many.

Therefore, after disposing the liquid crystal protection panel 25 larger than the size of the display unit 7a of the LCD unit 7, a portion other than the portion that needs to be transparent to view the display unit 7a of the LCD unit 7 is made non-transparent. It is unlikely to form as a part.
In other words, the liquid crystal protection panel 25 is formed as a transparent member as a whole, and has a shape approximately the same size as the display portion 7a of the LCD unit 7 in many cases.

On the other hand, the rotating cylinder protection panel 26 is disposed in front of the rotating reels 4a to 4c, and in order to allow only a part of the symbols formed on the rotating reels 4a to 4c to be properly visible to the player, Often plays a role of hiding parts.
Furthermore, the design effect linked with the design of the rotating reels 4a to 4c may be exhibited, or the non-transparent portion 28 may be formed by forming the non-transparent portion 28 on the rotating cylinder protection panel 26 itself. .

For these reasons, particularly with respect to the rotation protection panel 26, secondary processing for forming the non-transparent portion 28 may be performed.
Further, according to design requirements and functional requirements (for example, to make the payout display unit 10 and the storage number display unit 11 stand out or to improve visibility), a part of the rotating cylinder protection panel 26 is colored or semi-finished. Sometimes it becomes transparent. Even in this case, secondary processing for the rotating cylinder protection panel 26 is required.

  10 and 11 are views showing a state in which the liquid crystal protection panel 25 is supported by the support member 31. FIG. Specifically, FIG. 10A is a perspective view showing a state in which the liquid crystal protection panel 25 is supported by the support member 31 indicated by the alternate long and short dash line. A part of the support member 31 is shown in the figure. FIG. 10B is a longitudinal sectional view of the liquid crystal protection panel 25 and the support member 31. FIG. 11 is a front view showing the supported portion 25 a of the liquid crystal protection panel 25.

As shown in the figure, the liquid crystal protection panel 25 is supported by being sandwiched between the first support surface 31 a and the second support surface 31 b of the support member 31. A portion of the liquid crystal protection panel 25 sandwiched between the first support surface 31a and the second support surface 31b of the support member 31 is a supported portion 25a.
Further, at least a portion other than the supported portion 25a in the liquid crystal protection panel 25 is a transparent portion. In other words, the player can visually recognize the display portion 7a of the LCD unit 7 located behind through the portion other than the supported portion 25a.
In this example, all the edge portions of the liquid crystal protection panel 25 are supported by the first support surface 31a and the second support surface 31b of the support member 31, and all the edge portions are the supported portions 25a. However, only a part of the edge is supported by the first support surface 31a and the second support surface 31b of the support member 31, so that only a part of the edge is supported by the supported part 25a. May be.
Moreover, although the supporting member 31 is made into one member, you may be comprised by the some member. For example, the member having the first support surface 31a and the member having the second support surface 31b may be separate members, and the liquid crystal protection panel 25 may be supported by being sandwiched between separate members.
Furthermore, a member arranged with decoration or the like along the theme of the gaming machine may function as the support member 31. This eliminates the need to provide the decorative component and the support member 31, thereby contributing to the reduction in the number of components and the cost.

  On the other hand, the rotating cylinder protection panel 26 shown in FIG. 6 has a part as a transparent part 27 and the other part as a non-transparent part 28.

It is conceivable that the rotating cylinder protection panel 26 having the non-transparent portion 28 is formed later by the secondary processing. For example, the non-transparent portion 28 is generated by water transfer printing.
At this time, if the static friction coefficient of the rotating cylinder protection panel 26 is small, it may be difficult to form the non-transparent portion 28.
Therefore, it is preferable to use a material having a higher coefficient of static friction than the liquid crystal protection panel 25 that does not need to perform the secondary processing for the rotator protection panel 26 that needs to perform the secondary processing.
Thereby, an appropriate raw material can be selected in each of the transparent panel that performs the secondary processing and the transparent panel that does not.

An example of a material having a low coefficient of static friction is a tempered glass material. An example of a material having a high static friction coefficient is synthetic resin. Examples of the synthetic resin include acrylic materials and polycarbonate materials.
Further, if a tempered glass material is used as the material of the liquid crystal protection panel 25, durability against impacts such as beating can be increased, and thus the protection function of the expensive LCD unit 7 can be enhanced.

  In summary, the material of the rotating cylinder protection panel 26 as the second transparent panel having the non-transparent portion 28 in the portion excluding the supported portion 25a is a synthetic resin (for example, a second material having a relatively high coefficient of static friction (for example, The material of the liquid crystal protection panel 25 as the first transparent panel, which is not a non-transparent portion except the supported portion, is a first material having a relatively low static friction coefficient. It is preferable to use a glass material.

In addition, although the transparent panel provided with the non-transparent part 28 was mentioned as an example as an example of the transparent panel to which secondary processing is given, other examples can also be considered.
For example, when a transparent seal-like member is attached to the transparent panel, secondary processing that ensures transparency is performed.
In this case, even a transparent panel that does not include the non-transparent portion 28 is subjected to secondary processing, and thus is preferably a second transparent panel (that is, a transparent panel formed of the second material). .

[3-5. Material selection by thickness]
An example of selecting a material based on the thickness of the transparent panel will be described.
As shown in FIG. 5, the LCD unit 7 is disposed behind the liquid crystal protection panel 25. There is a possibility that the visibility of an image of a character or the like displayed on the liquid crystal is lowered in the LCD unit 7 due to scratches or the like. Further, when an impact is directly applied to the LCD unit 7, there is a possibility that the function of the LCD unit 7 is significantly hindered (for example, nothing is displayed on the screen). Furthermore, since the LCD unit 7 is a more expensive part than other parts, it is desirable to prevent damage and destruction as much as possible.

Therefore, from the viewpoint of protecting the LCD unit 7, it is preferable that the amount of displacement (particularly the amount of backward displacement) when the panel surface of the liquid crystal protection panel 25 is pressed is small.
For that purpose, for example, the panel thickness of the liquid crystal protection panel 25 is preferably made thicker than the panel thickness of the rotating cylinder protection panel 26.
Thereby, the bending rigidity of the liquid crystal protection panel 25 increases, and the amount of displacement when pressed is reduced.

  In addition, the thickness of both the liquid crystal protection panel 25 and the rotating cylinder protection panel 26 is increased from the viewpoint of increasing the visibility of the member located behind the transparent panel as much as possible and suppressing the cost. It is preferable to increase the thickness of one of the transparent panels.

For example, it is preferable that the material of the liquid crystal protection panel 25 is a material having higher bending rigidity than the material of the rotating cylinder protection panel 26.
Thereby, the bending rigidity of the liquid crystal protection panel 25 can be increased.

Further, as described above, the display unit 7a of the LCD unit 7 has been increased in size. Therefore, there are many cases where a large-sized liquid crystal protection panel 25 is also arranged.
When the panel surface of the liquid crystal protection panel 25 is large, the displacement amount when pressed is also large. Also from this viewpoint, it is preferable to increase the bending rigidity of the liquid crystal protection panel 25.

Further, for example, it is preferable that the material of the liquid crystal protection panel 25 is a material having higher light transmittance than the material of the rotating cylinder protection panel 26.
The light transmittance includes total light transmittance and visible light transmittance. By using a material with high numerical values (that is, easy to transmit light) for the liquid crystal protection panel 25, the visibility of the LCD unit 7 in the back of the liquid crystal protection panel 25 can be improved.
In particular, when the thickness of the liquid crystal protection panel 25 is increased, there is a high possibility that the transparency (light transmittance) is lowered. Therefore, by adopting a material having high light transmittance as the material of the liquid crystal protection panel 25 and increasing the thickness, it is possible to increase the bending rigidity of the liquid crystal protection panel 25 while suppressing a decrease in visibility.

  An example of a material having high bending rigidity is a tempered glass material. An example of a material having low bending rigidity is a synthetic resin. Examples of the synthetic resin include acrylic materials and polycarbonate materials.

Moreover, a tempered glass material can be mentioned as an example of a material with high light transmittance.
Therefore, a tempered glass material is an example of a suitable material as a material having high bending rigidity and high light transmittance.

In summary, the material of the liquid crystal protection panel 25 as the first transparent panel disposed so as to cover the front surface of the display unit 7a as the display panel has a relatively high bending rigidity (or a relatively high light transmittance). The second material is a tempered glass material that is the first material, and the other material of the rotating cylinder protection panel 26 as the second transparent panel has a relatively low bending rigidity (or a relatively low light transmittance). It is preferable to use a synthetic resin (for example, an acrylic material).

[3-6. Material selection by mounting method]
The example which selects a raw material based on the attachment method of a transparent panel is demonstrated.
As shown in FIG. 10, the liquid crystal protection panel 25 in the present embodiment is attached to a gaming machine by being sandwiched between support members 31.
Further, for example, as shown in FIG. 12A, supported holes 26a are formed at the four corners of the rotating cylinder protection panel 26. As shown in FIG. 12B, the front support member 32 and the rear support member 33 are screwed by screws 34. Screwed. For this purpose, the front support member 32 is formed with a screw hole 32a for screwing, and the rear support member 33 is formed with a support hole 33a.

For example, it is optimal to select a synthetic resin as a material of the rotating cylinder protection panel 26 in which the supported hole 26a is provided for screwing.
On the other hand, a tempered glass material may be used for the liquid crystal protection panel 25 sandwiched between the support members 31 without forming a hole. That is, if a material with high bending rigidity is selected, a tempered glass material or the like may be used, and if an inexpensive material is selected at the expense of high bending rigidity, a synthetic resin such as acrylic is selected. do it.

  As for the rotating cylinder protection panel 26, since each rotary reel 4 positioned at the rear is cylindrical, the space behind the upper end and the lower end of the rotating cylinder protection panel 26 is wider than the space behind the central portion. Has been. Therefore, it is very easy to provide a space for the screw screw head to be positioned in the screwed state. Therefore, it is preferable to select screwing as a method of attaching the rotating cylinder protection panel 26.

  Further, the liquid crystal protection panel 25 in which no hole is formed is more suitable for reuse than the rotating cylinder protection panel 26 in which the supported hole 26a and the like are formed. At this time, from the viewpoint of reuse, it is preferable to select a tempered glass material that does not easily deteriorate light transmittance as the material of the liquid crystal protection panel 25.

The front support member 32 and the rear support member 33 are separate members, but may be a single member formed integrally.
In addition, a member arranged with decoration or the like along the theme of the gaming machine may function as the front support member 32. Thereby, it is not necessary to provide the decorative part and the front support member 32, respectively, which can contribute to a reduction in the number of parts.

  In summary, the material of the liquid crystal protection panel 25 as the first transparent panel sandwiched and attached by the first support surface 31a and the second support surface 31b is a tempered glass material which is the first material, and is attached by screwing. It is preferable that the material of the rotating cylinder protection panel 26 as the second transparent panel is a synthetic resin (for example, an acrylic material) which is the second material.

For transparent panels that require processing that changes the shape of the transparent panel during installation (for example, processing for opening holes, processing for cutting out parts, or processing for cutting off parts), even if they are not screws. Is preferably made of a second material (for example, a synthetic resin material such as an acrylic material).
Thereby, the crack of the transparent panel in the case of a process can be prevented.

[3-7. Material selection by distance from operation means]
An example of selecting a transparent panel material based on the distance from the operation means will be described.
The operation means is, for example, a max input button 16, a start lever 17, or each stop button 18.

  The player often looks at the rotating reels 4a to 4c in response to the movement of the rotating reels 4a to 4c after viewing the operating means when operating the operating means. Therefore, if the operation means and the reels 4a to 4c are arranged apart from each other, there is a risk that the burden on the player will increase. Therefore, in consideration of the movement of the player's line of sight, the rotary reels 4a to 4c are often arranged near the operation means. In this case, the rotating cylinder protection panel 26 is also disposed near the operating means.

On the other hand, various character images and the like are displayed on the display unit 7a of the LCD unit 7, but the player is not always watching, and only when the effect using the LCD unit 7 is performed, In many cases, the display unit 7a may be viewed.
Therefore, even if the LCD unit 7 and the operation unit are arranged apart from each other, it is unlikely that the burden on the player will be too great.
Therefore, the distance between the liquid crystal protection panel 25 and the operation unit is often arranged farther than the distance between the rotating cylinder protection panel 26 and the operation unit.

Since the operation means is a place where the player touches, as shown in FIG. 1, the rotation protection panel 26 having a relatively short distance from the operation means has a hardness (e.g., a relatively distant liquid crystal protection panel 25). It is preferable to select a material having high Brinell hardness, Vickers hardness, Rockwell hardness, Shore hardness, Knoop hardness, and the like.
Thereby, damage when a player touches a transparent panel can be prevented.

  In summary, the material of the rotating cylinder protection panel 26 as the first transparent panel that is relatively close to the operation means is a tempered glass material that is the first material, and the distance from the operation means is relatively long. The material of the liquid crystal protection panel 25 as the second transparent panel is preferably a synthetic resin (for example, an acrylic material) as the second material.

  Further, in the case of a gaming machine in which operation means such as a motion sensor is arranged in the vicinity of the liquid crystal protection panel 25 and an effect using the detection of a player's hand by the sensor is executed, the liquid crystal protection panel It is also conceivable that 25 is the first transparent panel.

  The operation means such as the max insertion button 16, the start lever 17, and each stop button 18 are frequently operated by the player, so that the player's movement is often constant, and the rotation protection panel 26 is accidentally touched. There is a low possibility that On the other hand, the operation means such as the motion sensor is operated less frequently than the max input button 16 or the like, and therefore, there is a high possibility that the liquid crystal protection panel 25 is accidentally touched when operated.

In addition, an effect using an operation means such as a motion sensor is often an effect related to a gaming state that is advantageous to the player, and the operation means is often operated in a state where the player's mood is elevated. For this reason as well, there is a high possibility that the liquid crystal protection panel 25 provided with an operation means such as a motion sensor is accidentally touched.
Accordingly, it may be preferable to use the liquid crystal protection panel 25 as the first transparent panel and select a material having high hardness.

[3-8. Material selection based on contact area between transparent panel and support member]
An example of selecting the material of the transparent panel based on the contact area between the transparent panel and the support member will be described with reference to FIG.

  The transparent panels (the liquid crystal protection panel 25 and the rotation protection panel 26) are supported by the support members (the support member 31 for the liquid crystal protection panel 25, the front support member 32 and the rear support member 33 for the rotation protection panel 26), and the gaming machine. Attached to.

  Around the rotating reels 4 a to 4 c and the LCD unit 7, members such as a substrate are arranged. In addition, a movable accessory may be arranged around the rotating reels 4a to 4c and the LCD unit 7.

For this reason, the liquid crystal protection panel 25 is not necessarily in contact with the support member 31 over the entire circumference of the liquid crystal protection panel 25 due to the arrangement of the members such as the substrate and the movable accessory. Sometimes not in contact with.
Similarly, a part of the edge of the rotating cylinder protection panel 26 may not be in contact with the rear support member 33.

  For example, a movable accessory or the like may be disposed around the LCD unit 7. In this case, the liquid crystal protection panel 25 may be disposed in a state where a part of the edge of the liquid crystal protection panel 25 cannot contact the support member 31 due to the arrangement of the movable accessory.

  Moreover, a movable accessory etc. may be arrange | positioned at the peripheral part of rotating reel 4a-4c. In this case, for example, the rotating cylinder protection panel 26 may be arranged in a state where a part of the edge of the rotating cylinder protection panel 26 cannot contact the front support member 32 and the rear support member 33.

  By the way, when the panel surface of the transparent panel is pressed from the outside, the impact is absorbed by the support member. At this time, when the bending rigidity of the transparent panel is low, the amount of displacement of the transparent panel at the time of deformation increases, but when the contact area between the transparent panel and the support member is small, the pressure received from the transparent panel is small (that is, In order to receive (locally), the support member must be configured to withstand it.

Therefore, by making the material of the transparent panel having a relatively small contact area between the transparent panel and the support member a material having high bending rigidity, the transparent panel itself absorbs a certain amount of external pressure and reduces the pressure applied to the support member. Is preferred.
Specifically, in the transparent panel P1 shown in FIG. 13A and the transparent panel P2 shown in FIG. 13B, the area (contact area) of the surface (the part indicated by S in the drawing) in contact with the support member is larger than that of the transparent panel P2. The transparent panel P1 is made smaller.
At this time, the material of the transparent panel P1 is preferably a material having higher bending rigidity than the transparent panel P2.

When selecting the material of the transparent panel based on the contact area between the transparent panel and the support member, the material may be selected based on the elastic modulus (elastic modulus, elastic constant, Young's modulus) instead of the bending rigidity. .
Specifically, the material of the transparent panel P1 having a relatively small contact area of the support member is preferably a material having a smaller elastic coefficient than the material of the transparent panel P2. Thereby, since the transparent panel is easily elastically deformed by the force applied to the transparent panel, the pressure applied to the support member can be reduced.

[3-9. Material selection based on distance from electronic circuit board]
An example of selecting a transparent panel material based on the distance from the electronic circuit board will be described.
Examples of the electronic circuit board include the main board 40, the power supply board 41, the effect control board 42, the effect interface board 43, the liquid crystal control board 44, the LED board 48, the spinning LED boards 50a to 50c, and the circuit relay board 53. Of course, other circuit boards (not shown) may be targeted.

Various electronic components mounted on an electronic circuit board, for example, an IC (Integrated Circuit), a capacitor, and the like may be damaged or destroyed by static electricity or the like.
Specifically, static electricity charged on the transparent panel is discharged to the electronic circuit board, thereby causing failure or destruction of the mounted electronic component.
That is, it is important to appropriately select the material of the transparent panel according to the distance between the electronic circuit board and the transparent panel. Alternatively, it is important to keep the distance between the electronic circuit board and the transparent panel appropriately according to the material of the transparent panel, that is, according to the charge amount of the transparent panel.

For example, various substrates may be attached at positions close to the LCD unit 7.
This is because the rotating reels 4 a to 4 c are arranged on the back surface of the rotating cylinder protection panel 26, and accordingly, various substrates are easily arranged in the space behind the LCD unit 7 for convenience of design.

In some cases, a substrate on which an IC, a capacitor, or the like is loaded is disposed at a distance of about 1 cm from the liquid crystal protection panel 25.
In this case, a material with low electrical insulation is selected as the material for the liquid crystal protection panel 25.

By the way, as a board | substrate arrange | positioned behind the liquid-crystal protection panel 25, it may arrange | position away in the position which pinched | interposed the LCD unit 7.
When the distance between the liquid crystal protection panel 25 and the substrate is large, it is not necessary to consider the influence of static electricity.

Further, there are cases where a substrate is disposed close to the rotating cylinder protection panel 26. Specifically, as shown in FIG. 6, the game display board 61 is disposed behind the spinning cylinder protection panel 26. Some driver ICs mounted on the game display board 61 are vulnerable to static electricity.
In this case, a material with low electrical insulation is selected as the material for the liquid crystal protection panel 25.

The charge amount of the transparent panel varies depending not only on the material of the transparent panel but also on the size and thickness.
In addition, it depends on whether the transparent panel is grounded.
In consideration of these various environments in which the transparent panel is disposed, it is important to select a material for the transparent panel.

Of the plurality of transparent panels (the liquid crystal protection panel 25 and the rotating cylinder protection panel 26), the transparent panel having a relatively short distance from the closest electronic circuit board is more electrically insulating than the relatively far transparent panel. It is preferable to use a small material (first material).
A material with small electrical insulation has a small charge amount. Therefore, the material of the transparent panel whose distance to the nearest electronic circuit board is relatively short is made a material with relatively small electrical insulation, thereby reducing the amount of charge charged on the transparent panel, and the electronic circuit It is possible to reduce the probability of failure of the electronic circuit board when a discharge from the transparent panel occurs on the board.
In addition, since the degree of freedom regarding the arrangement of various electronic circuit boards is improved without considering the influence of static electricity such as the charge amount, it is possible to reduce the design cost and improve the ease of manufacture.

  In summary, it is desirable to select a material having a smaller electrical insulation than other transparent panels as the material of the transparent panel that is close to the electronic circuit board.

In addition, when selecting the material of the transparent panel based on the distance from the electronic circuit board, the material of each transparent panel may be selected based on the value of electrical conductivity and surface electrical resistance instead of electrical insulation. .
That is, the material of the transparent panel that is close to the electronic circuit board can be prevented from being charged by using a material having higher electrical conductivity than other transparent panels. Alternatively, the material of the transparent panel that is close to the electronic circuit board can be prevented from being charged or the amount of charge can be suppressed by using a material having a lower surface electric resistance than other transparent panels.

A more specific material will be described as an example.
Comparing tempered glass material and acrylic material (or synthetic resin such as polycarbonate material), which is generally used as a material for transparent panels, the tempered glass material is less likely to generate static electricity than the acrylic material.
Therefore, the tempered glass material selected as the first material is selected as the transparent panel material that is relatively close to the electronic circuit board, and the second material is used as the transparent panel material that is relatively far from the electronic circuit board. It is desirable to select an acrylic material (or a synthetic resin such as a polycarbonate material).

The discharge of static electricity charged on the transparent panel to the electronic circuit board is not limited to direct discharge, but may be indirectly discharged through another member (for example, a member formed of metal or the like).
When indirect discharge is considered, it is preferable to consider the distance between the other member and the transparent panel instead of the distance between the electronic circuit board and the transparent panel. That is, if there is no discharge from the transparent panel to the other member, there is no discharge from there to the electronic circuit board.

Even when the electronic circuit board is not arranged near the transparent panel, it is preferable to suppress the generation of static electricity.
When static electricity is generated on the transparent panel, dust in the air is attracted and adsorbed on the panel surface. If it does so, the visibility of the member located in the back which can be visually recognized via a panel surface will fall.
Therefore, by suppressing the generation of static electricity, or by reducing the amount of electrostatic charge, it is possible to suppress the adsorption of dust to the panel surface and to prevent the visibility of members located at the rear from being lowered. .

[3-10. Material selection based on distance from heating element]
An example of selecting a transparent panel material based on the distance from the heating element will be described.
The heating element is, for example, a CPU for displaying various images on the LCD unit 7 or a CPU of the main control board 40.

In the transparent panel, transparency may be lowered due to deformation or white turbidity due to heat generated from the heating element.
Therefore, it is important to appropriately select the material of the transparent panel according to the distance between the transparent panel and the heating element.

Of the plurality of transparent panels (the liquid crystal protection panel 25 and the rotating cylinder protection panel 26), it is preferable that the material of the transparent panel relatively close to the heating element having the highest temperature is a material having high heat resistance.
For example, the main control board 40 having a CPU and the effect control board 42 are often attached at positions close to the LCD unit 7.
This is because the rotation reels 4a to 4c are arranged on the rear surface of the rotating cylinder protection panel 26, and accordingly, it is difficult to arrange the main control board 40 and the production control board 42 in close proximity, and the LCD unit 7 is inevitably. This is because the main control board 40 and the like are often disposed in the space behind the rear.

On the other hand, rotating reels 4 a to 4 c are arranged on the back surface of the rotating cylinder protection panel 26. Therefore, it is away from the main control board 40 and the effect control board 42 accordingly. In particular, compared with the liquid crystal protection panel 25, the rotating cylinder protection panel 26 is far from the main control board 40 and the effect control board 42.
Furthermore, the rotating cylinder protection panel 26 is arranged at a position where heat flows due to the rotation of the rotary reels 4a to 4c, and heat is less likely to be accumulated.

  Therefore, the liquid crystal protection panel 25 is made of a material having higher heat resistance than the rotating cylinder protection panel 26. Thereby, the deformation | transformation of the transparent panel (liquid crystal protection panel 25) by a heat | fever can be prevented.

By the way, the liquid crystal protection panel 25 may not be affected by the heat generated by the CPU for heat sinks, arrangement structures, and other structural reasons.
On the other hand, the rotating cylinder protection panel 26 may be affected by the heat generated by the LED. In particular, a production LED or the like is in the vicinity of the rotation protection panel 26 (for example, in contact with the rear surface of the rotation protection panel 26 in order to emit light forward from a translucent portion of the rotation protection panel 26). There are cases where it is provided, and there are cases where a large number of LEDs are arranged in the vicinity.
In such a case, the rotor protection panel 26 may be affected by the heat generated by the LED.

  Therefore, the material of the rotating cylinder protection panel 26 is higher in heat resistance than the material of the liquid crystal protection panel 25. Thereby, the deformation | transformation etc. of the transparent panel (rotating drum protection panel 26) by a heat | fever can be prevented.

In addition, an example is considered in which the material of the transparent panel is selected according to the distance to the heating element that is the highest temperature heating element.
For example, it is conceivable to employ a material having high heat resistance for the transparent panel having a shorter distance between the liquid crystal protection panel 25 and the rotating cylinder protection panel 26 with respect to the heating element A.

  In addition, in consideration of the structural air path, a highly heat-resistant material may be used for the transparent panel that is easily affected by heat radiation from the heating element A among the liquid crystal protection panel 25 and the rotating cylinder protection panel 26. Conceivable.

A plurality of heating elements may be targeted.
Specifically, the heating elements A and B that are equal to or higher than a predetermined temperature are targeted, and among the distances from the transparent panels to the heating elements A and B, the short distance is the distance between the transparent panel and the heating element. .
For example, when the distance from the transparent panel P1 to the heating element A is 10 cm and the distance from the heating element B is 20 cm, the distance between the transparent panel P1 and the heating element is 10 cm.
Similarly, the distance from the transparent panel P2 to the heating elements A and B is measured, and the closer distance is defined as the distance between the transparent panel P2 and the heating element.
At this time, it is preferable that the material of the transparent panel that is close to the heating element is a material having high heat resistance.

  In summary, the material of the first transparent panel that is relatively close to the heating element is preferably a tempered glass material that is a first material having high heat resistance. At this time, the material of the second transparent panel that is relatively far from the heating element than the first transparent panel may be a synthetic resin that is the second material, or other conditions (such as shape and It may be appropriately selected from the area and the presence or absence of secondary processing.

It should be noted that a material having a high thermal conductivity may be selected as the material of the transparent panel that is relatively close to the heating element. Thereby, the heat from the heating element can be actively released to other parts, and the heating element can be prevented from becoming too hot.
It is also conceivable to select a material having a large heat capacity (or constant volume heat capacity) as the material of the transparent panel that is relatively close to the heating element. Thereby, it can prevent that the temperature of transparent panel itself becomes high temperature too much.

[3-11. Material selection based on distance from protected member]
An example of selecting a transparent panel material according to the distance from the protected member will be described.
For example, the protected member refers to the LCD unit 7 in the case of the liquid crystal protection panel 25, and refers to the rotating reels 4 a to 4 c in the case of the rotation protection panel 26.

In addition to the LCD unit 7 and the rotating reels 4a to 4c, there may be a protected member.
For example, when a movable accessory other than the rotating reels 4a to 4c is arranged behind the rotating cylinder protection panel 26, and the rotating cylinder protection panel 26 also serves to protect those movable objects, The movable accessory is also a protected member.

  Further, when the production LED is arranged in the vicinity of the rotary reels 4a to 4c, the rear (or half) of the transparent portion 27 of the spinning cylinder protection panel 26 is provided so that the player can visually recognize the light emitted from the production LED. There may be a case where a production LED is arranged behind the transparent portion. In this case, the effect LED is also a member to be protected of the rotating cylinder protection panel 26.

The rotating reels 4a to 4c rotate around an axis. For this reason, the distance between the surface of the rotating reels 4a to 4c and the rotation protection panel 26 is not always constant due to the eccentricity of the shaft or the unevenness of the reel sheet on which the pattern affixed to the surfaces of the rotating reels 4a to 4c is drawn. Absent.
On the other hand, since the LCD unit 7 does not move, the distance between the LCD unit 7 and the liquid crystal protection panel 25 is substantially constant.

In order to avoid contact between the movable member and other members, it is common to provide a large gap.
Therefore, it is preferable that the distance between the rotating cylinder protection panel 26 and the rotary reels 4 a to 4 c is wider than the distance between the liquid crystal protection panel 25 and the LCD unit 7.

FIG. 14A schematically shows a state in which the LCD unit 7, the liquid crystal protection panel 25, the symbol rotation unit 3, and the spinning cylinder protection panel 26 are viewed from the side.
As shown in FIG. 14A, the distance between the rotating cylinder protection panel 26 and the rotating reels 4 a to 4 c is wider than the distance between the liquid crystal protection panel 25 and the LCD unit 7.

The material of the liquid crystal protection panel 25 having a relatively short distance from the member to be protected is preferably a material having higher bending rigidity than the material of the rotator protection panel 26 having a relatively long distance from the member to be protected. It is.
This makes it difficult for the liquid crystal protection panel 25 and the display unit 7a of the LCD unit 7 to come into contact with each other, so that it is possible to prevent the visibility of an image or the like displayed when the display unit 7a is damaged from being deteriorated. .

  As shown in FIG. 14B, a movable accessory (a member to be protected) may be disposed between the LCD unit 7 and the liquid crystal protection panel 25. In this case, if the movable accessory comes into contact with the liquid crystal protection panel 25, the movement of the movable accessory may be hindered, or the liquid crystal protection panel 25 may be damaged. Therefore, it can be considered that the distance between the liquid crystal protection panel 25 and the movable accessory is wider than the distance between the rotating cylinder protection panel 26 and the rotating reels 4a to 4c.

  In this case, the material of the rotator protection panel 26 having a relatively short distance from the member to be protected is a material having higher bending rigidity than the material of the liquid crystal protection panel 25 having a relatively long distance from the member to be protected. Is preferable.

  An example of a material having high bending rigidity is a tempered glass material. An example of a material having low bending rigidity is a synthetic resin. Examples of the synthetic resin include acrylic materials and polycarbonate materials.

In addition, when selecting the material of the transparent panel based on the distance from the protected member of the transparent panel, the material may be selected based on the elastic modulus (elastic modulus, elastic constant, Young's modulus) instead of bending rigidity. Good.
For example, when the liquid crystal protection panel 25 has a shorter distance from the protected member between the liquid crystal protection panel 25 and the rotation protection panel 26, the material of the liquid crystal protection panel 25 is used as the rotation protection panel 26. It is good also as a raw material with a higher elastic modulus.
Thereby, the displacement amount at the time of deformation | transformation can be restrained small, and the damage | wound etc. of the display part 7a of the LCD unit 7 can be prevented.

<4. Arrangement example of first transparent panel and second transparent panel>

With respect to an arrangement example of the first transparent panel and the second transparent panel, a configuration other than the above will be described with reference to FIG.
FIG. 15 is a diagram schematically showing the appearance of a gaming machine as a slot machine.

[4-1. First arrangement example]
A first arrangement example will be described with reference to FIG. 15A.
A gaming machine 200 shown in FIG. 15A includes various parts necessary for a game. A transparent panel 201 is disposed in front of the rotating reels 4a to 4c (on the player side). Further, a transparent panel 202 is further disposed in front of the transparent panel 201 and the LCD unit 7.
That is, the transparent panels 201 and 202 are sequentially arranged in front of the rotary reels 4a to 4c.
In this case, the transparent panel 201 is the rotating cylinder protection panel 26, and the transparent panel 202 is the liquid crystal protection panel 25.

In the case of the arrangement of the transparent panel shown in FIG. 15A, it is conceivable that the material of the transparent panel 202 having a panel surface close to a square is made of a material having higher bending rigidity than the material of the transparent panel 201.
Further, it is conceivable that the transparent panel 202 having a large panel surface area is made of a material having higher bending rigidity than the transparent panel 201.

Material selection based on 3D shape of transparent panel, presence / absence of secondary processing, thickness, mounting method, distance from operation means, contact area between transparent panel and support member, distance from electronic circuit board, distance from heating element, etc. As described above, it is desirable to select according to conditions.

[4-2. Second arrangement example]
A second arrangement example will be described with reference to FIGS. 15B and 15C.
In the second arrangement example shown in FIGS. 15B and 15C, the sub LCD unit 102 is provided in the gaming machine 200 as another LCD unit in addition to the LCD unit 7.
Therefore, as the transparent panel, a transparent panel 201 as the rotating cylinder protection panel 26 and transparent panels 202 and 203 as the liquid crystal protection panel 25 are provided.

  In the case of the arrangement of the transparent panel shown in FIG. 15B, the transparent panels 201 and 202 are compared, and the material of the transparent panel 202 having a panel surface closer to a square shape is compared with the material having higher bending rigidity than the material of the transparent panel 201. It is possible to do. In addition, the transparent panels 201 and 203 are compared, and it is conceivable that the material of the transparent panel 203 whose panel surface has a shape closer to a square is a material having higher bending rigidity than the material of the transparent panel 201.

  Furthermore, the transparent panels 201 and 202 are compared, and the transparent panel 201 having a large panel surface area can be made of a material having higher bending rigidity than the transparent panel 202. Further, the transparent panels 201 and 203 are compared, and it is conceivable that the transparent panel 203 having a large panel surface area has a higher bending rigidity than the transparent panel 201.

  In the case of the arrangement of the transparent panel shown in FIG. 15C, the transparent panels 201 and 202 are compared, and the material of the transparent panel 202 having a panel surface closer to a square shape is compared with the material having higher bending rigidity than the material of the transparent panel 201. It is possible to do. In addition, the transparent panels 201 and 203 are compared, and it is conceivable that the material of the transparent panel 203 whose panel surface has a shape closer to a square is a material having higher bending rigidity than the material of the transparent panel 201.

  Furthermore, the transparent panels 201 and 202 are compared, and it is conceivable that the transparent panel 202 having a large panel surface area has a higher bending rigidity than the transparent panel 201. Further, the transparent panels 201 and 203 are compared, and it is conceivable that the transparent panel 203 having a large panel surface area has a higher bending rigidity than the transparent panel 201.

Material selection based on 3D shape of transparent panel, presence / absence of secondary processing, thickness, mounting method, distance from operation means, contact area between transparent panel and support member, distance from electronic circuit board, distance from heating element, etc. As described above, it is desirable to select according to conditions.

<5. Summary>

FIG. 16 shows a list of combinations of the above-described conditions and the selection of the transparent panel material.
It is desirable that the transparent panel material whose plane shape is relatively close to a square is the first material, and the transparent panel material whose shape is relatively close to a rectangle is the second material.

  It is desirable that the transparent panel material having a solid plate shape is a first material, and the transparent panel material having other shapes is a second material.

  The material of the transparent panel having a relatively large transparent panel area is preferably the first material, and the material of the relatively small transparent panel is preferably the second material.

  The material of the transparent panel to be subjected to the secondary processing is desirably the second material, and the material of the transparent panel not subjected to the secondary processing is desirably the first material.

  The relatively thick transparent panel material is preferably the first material, and the relatively thin transparent panel material is preferably the second material.

  The material of the transparent panel attached to the gaming machine 200 by screwing is desirably the second material, and the other transparent panel material is desirably the first material.

  It is desirable that a transparent panel material having a relatively short distance from the nearest operating means (or a distance from a specific operating means) be a first material and a relatively long transparent panel material be a second material.

  The transparent panel material having a relatively small contact area with the support member is preferably the first material, and the relatively large transparent panel material is preferably the second material.

  The transparent panel material with a relatively short distance from the nearest electronic circuit board (or the distance from a specific electronic circuit board) may be the first material, and the relatively long transparent panel material may be the second material. desirable.

  The material of the transparent panel having a relatively short distance from the nearest heating element (or the distance from a specific heating element) is preferably the first material, and the material of the relatively long transparent panel is preferably the second material.

  It is desirable that the transparent panel material having a relatively short distance from the protected member be the first material, and the transparent panel material having a relatively long distance from the protected member be the second material.

In addition, although the example in which the material of each transparent panel is selected based on one condition (conditions such as a planar shape and an area) is shown, the material may be selected in consideration of a plurality of conditions.
For example, when the transparent panel P1 has a square shape closer to that of the transparent panel P2 and the area of the panel surface is larger, the transparent panel P1 is made of a material having higher bending rigidity than the material of P2.
Further, when the transparent panel P1 has a square shape closer to that of the transparent panel P2, and the three-dimensional shape of the transparent panel P1 is a round plate, and the three-dimensional shape of the transparent panel P2 is a curved shape, the bending rigidity is high. A tempered glass material having a relatively high melt viscosity is selected as the material of the transparent panel P1, and an acrylic having a relatively low bending rigidity and a relatively low melt viscosity is selected as the material of the transparent panel P2.

Further, a case where the transparent panel P1 has a square shape closer to that of the transparent panel P2 and has a smaller panel area will be described.
In the above description, it has been described that it is desirable to select the first material when the planar shape is close to a square. In addition, it has been described that it is desirable to select the second material when the area is small. However, since it is difficult to simultaneously satisfy these conditions for the materials of the transparent panels P1 and P2, it is desirable to select the materials according to the performance required for the transparent panels P1 and P2.
For example, since the transparent panel P1 is close to a square but has a small area, the amount of displacement during deformation is small. Therefore, you may select a 2nd raw material (for example, acrylic raw material) as a material of the transparent panel P1.
Further, since the transparent panel P2 is rectangular but has a large area, the amount of displacement during deformation (particularly the amount of displacement at the midpoint of the long side) increases. Accordingly, a first material (for example, a tempered glass material) may be selected as the material of the transparent panel P2 in order to suppress the displacement amount.

Further, a case will be described in which the transparent panel P1 and the transparent panel P2 both have a square planar shape, the solid shape of the transparent panel P1 is a curved shape, and the transparent panel P2 has a solid plate shape.
In the above description, it has been described that it is desirable to select the first material when the planar shape is close to a square, and it is desirable to select the second material when the three-dimensional shape is a curved shape.
Therefore, also in this case, it is difficult to satisfy the above two conditions for the transparent panel P1 at the same time.
Therefore, it is desirable to select a material according to the performance required for the transparent panels P1 and P2.
For example, a second material (for example, an acrylic material) may be selected in order to form the transparent panel P1 having a curved three-dimensional shape by injection molding.
In addition, since the transparent panel P2 has a square plate shape, it is desirable to select the first material (for example, a tempered glass material).

  In each example described above, the present invention is applied to a slot machine. However, the present invention is widely suitable for gaming machines (such as pachinko gaming machines) in which a plurality of transparent panels are mounted on the front surface of a housing. Applicable.

DESCRIPTION OF SYMBOLS 1 ... Main body case 2 ... Front door 3 ... Symbol rotation unit 4a-4c ... Rotary reel (rotating cylinder)
DESCRIPTION OF SYMBOLS 5 ... Medal paying-out apparatus 7 ... LCD unit 7a ... Display part 7b ... Holding body 7c ... Mounting hole 25 ... Liquid crystal protection panel 25a ... Supported part 26 ... Revolving protection panel 26a ... Supported hole 27 ... Transparent part 28 ... Non-transparent Part 28a ... Light shielding part 28b ... Light transmitting part 29 ... Lower panel part 29a ... Decorative panel protection panel 31 ... Support member 31a ... First support surface 31b ... Second support surface 32 ... Front support member 32a ... Screw hole 33 ... Back Support member 33a ... support hole 34 ... screw 40 ... main control board 42 ... production control board 60 ... game relay board 102 ... sub LCD unit 200 ... gaming machine 201 ... transparent panel 202 ... transparent panel

Claims (3)

As a transparent panel attached to the front of the gaming machine, a first transparent panel made of a first material and a second transparent panel made of a second material different from the first material,
Each transparent panel is provided with a supported part as a supported part,
The transparent panel having the non-transparent portion in the portion excluding the supported portion is the second transparent panel, and the transparent panel not having the non-transparent portion in the portion excluding the supported portion is the first transparent panel. A gaming machine that is considered to be a panel. The gaming machine according to claim 1, wherein the second material is a material having a higher coefficient of static friction than the first material. The first material is a tempered glass material,
The gaming machine according to claim 1, wherein the second material is an acrylic material.

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