JP4248641B2 - Game machine - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a gaming machine including a launch control circuit that controls launch of a game ball and a prize ball control circuit that controls a prize ball.
[0002]
[Prior art]
As a conventional gaming machine of this type, for example, the one shown in Japanese Patent Laid-Open No. 9-173560 is known. In this gaming machine, a launch control circuit for controlling the launch of a game ball and a discharge control circuit (award ball control circuit) for controlling a prize ball are integrally formed as a discharge launch control circuit and housed in a single case. Thus, the assembling is facilitated and the mounting space is reduced.
[0003]
[Problems to be solved by the invention]
By the way, as for the launch control of the game ball, it is a control (motor or solenoid control) that only repeats the launch while complying with the rule of 100 shots per minute, so that complicated control is not required. In the case of software control by a microcomputer, it is easy to rewrite a program more than 100 times per minute, and there is a possibility of being used for illegal games.
[0004]
On the other hand, with respect to the prize ball control, the CR machine (card machine) can handle ball lending, and the control is complicated such that the number of prize balls varies depending on the winning opening. It is considered desirable.
Thus, since there are conflicting requirements for the launch control and the prize ball control, if the launch control circuit and the prize ball control circuit are integrally formed as in the above-mentioned conventional gaming machine, the efficiency is low, and fraud prevention, The following problems arise from the viewpoint of inspection efficiency at the inspection organization.
[0005]
That is, when the prize ball control is inspected, it is necessary to inspect whether the irrelevant launch control is related to the prize ball control at the same time, so not only the inspection amount increases but also the inspection itself becomes complicated and the inspection efficiency is improved. Both control circuits must be replaced even if one control circuit fails.
[0006]
Furthermore, even if both control circuits are formed on separate substrates and are stacked one on top of the other and housed, the lower substrate cannot be easily seen, so that unauthorized modification is difficult to detect.
The present invention has been made in order to eliminate such inconvenience, and can easily perform maintenance and inspection such as whether or not fraud has been performed on the control board, and can easily find fraudulent modifications and the like. An object is to provide a gaming machine.
[0007]
[Means for Solving the Problems]
In order to achieve such an object, the gaming machine according to the first invention is provided with a launch control circuit board on which a launch control circuit for controlling launch of a game ball is formed, and a prize ball control circuit for controlling a prize ball. A prize ball control circuit board, a case for a launch control circuit board that accommodates the launch control circuit board, and a prize ball control circuit that accommodates the prize ball control circuit board in a depth dimension different from the case for the launch control circuit board A board case and a back side of the gaming machine, the launch control circuit board case and the prize ball control circuit board case; Next to each other In a gaming machine comprising a base portion to be attached, Vertical dimensions of adjacent side plates of the launch control circuit board case and the prize ball control circuit board case are substantially the same, The base portion has a first attachment surface to which the case for the firing control circuit board is attached and a second attachment surface to which the prize ball control circuit board case is attached, and accommodates the launch control circuit board. The launch control circuit board case is attached to the first attachment surface and the launch control circuit board case containing the prize ball control circuit board is attached to the second attachment surface. Circuit board case and prize ball control circuit board case Adjacent side plates of Each other Closely The first mounting surface and the second mounting surface are formed at positions where the launch control circuit board case is formed. Top board And the prize ball control circuit board case Top board The first mounting surface and the second mounting surface have a step in the depth direction so that both are positioned on substantially the same plane.
A gaming machine according to a second invention is the gaming machine according to the first invention, wherein the launch control circuit board and the prize control circuit board provided in common to the launch control circuit board and the prize ball control circuit board, A relay board that relays signal input / output to / from each of the prize ball control circuit boards, and at least one of the case for the launch control circuit board and the case for the prize ball control board has a depth dimension that is different from that of the prize ball control circuit board. A relay board case that has a third mounting surface to which the relay board case is attached, and the relay board case that houses the relay board is attached to the third mounting surface. The third mounting surface is formed so that the relay board case is adjacent to the launch control circuit board case and the prize ball control circuit board case, One, the case for the relay board Top board Of the case for the launch control circuit board Top board And the prize ball control circuit board case Top board The third mounting surface and at least one of the first mounting surface and the second mounting surface have a step in the depth direction so as to be positioned on substantially the same plane.
[0008]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an example of an embodiment of the present invention will be described with reference to the drawings.
1 is a view of a pachinko machine as an example of an embodiment of the present invention as seen from the back side, FIG. 2 is a perspective view of the pachinko machine as seen from the front side, FIG. 3 is a perspective view of the pachinko machine as seen from the back side, FIG. Is a schematic control block diagram of the main body frame of the pachinko machine, FIG. 5 is a partially exploded perspective view of the pachinko machine viewed from the back side, FIG. 6 is a perspective view of a part of FIG. 5 exploded, and FIG. 8, FIG. 8 is a sectional view taken along line AA in FIG. 7, FIG. 9 is a sectional view taken along line BB in FIG. 7, FIG. 10 is a sectional view taken along line CC in FIG. FIG. 12 is a left side view of FIG. 11, FIG. 13 is a front view of FIG. 11, FIG. 14 is a plan view of a launch control circuit board cover, and FIG. 15 is a right side view in which a part of FIG. 16 is a front view with a part broken away from FIG. 14, FIG. 17 is a plan view of a launch control circuit board case, FIG. 18 is a right side view of FIG. 17 is a front view of the prize ball control circuit board base, FIG. 21 is a left side view of FIG. 20, FIG. 22 is a front view of FIG. 20, and FIG. 23 is a plan view of the prize ball control circuit board cover. 24 is a right side view in which a part of FIG. 23 is broken, FIG. 25 is a front view in which a part of FIG. 23 is broken, FIG. 26 is a plan view of a prize ball control circuit board case, and FIG. FIG. 28 is a front view of FIG. 26, and FIG. 29 is a schematic view showing the interior of the island and the 1000 yen bill transport path.
[0009]
First, the control of the main frame of the pachinko machine will be described with reference to FIGS. 1 to 4. In the figure, reference numeral 10 denotes a board of a launch control circuit that controls the launch of a game ball, and 20 is a prize ball that controls a prize ball. The firing control circuit board 10 is composed of a logic circuit, and the prize ball control circuit board 20 is composed of a microcomputer.
[0010]
The firing control circuit board 10 can input detection signals from the handle volume 12, the handle touch switch 13, the firing stop switch 14 and the overflow switch B25, and the firing control circuit board 10 relates to firing such as outputting one pulse signal to the firing solenoid 11 every 60 msec. Execute control.
[0011]
The launch solenoid 11 is an actuator that is driven by receiving a pulse signal from the launch control circuit board 10 via the relay board B2, and hits the game ball against the tip of the solenoid to fire the game ball.
The handle volume 12 is provided on the handle 71, and when the player rotates left and right, the resistance value of the resistance circuit on the firing control circuit board 10 is changed to change the voltage to the firing solenoid 11, thereby This is for arbitrarily adjusting the firing intensity.
[0012]
The handle touch switch 13 is for detecting that the player is touching the handle 71, and this detection signal is sent to the launch control circuit board 10 via the relay board B2, and the launch control circuit board 10 If no detection signal is received, firing control is not performed on the firing solenoid 11.
[0013]
When the player presses a button provided on the handle 71 when the player wants to stop the launch, the launch stop switch 14 sends a detection signal to the launch control circuit board 10 via the relay board B2, and the launch control circuit board 10 launches. Stop control is performed on the solenoid 11. In FIG. 3, only the button of the firing stop switch 14 is shown.
[0014]
The overflow switch B25 is used to prevent the prize ball discharge passage 72 from being clogged with game balls when the prize balls discharged to the player side are full and the prize balls are discharged any more. When the game ball is detected in the back of the, this detection signal is sent to the launch control circuit board 10 via the relay board B 2, so that the launch control circuit board 10 does not execute the launch control on the launch solenoid 11.
[0015]
On the other hand, the prize ball control circuit board 20 is connected to a game board relay board 90 (game board side) from detection signals from the prize ball detection switch 22, prize ball counting switch 23, overflow switch A24 and completion switch 32 or from the main board on the game board side. ), A pulse signal corresponding to the number of prize balls sent via the relay board A1 and the relay board B2 can be input, and the prize ball discharge solenoid 21 is controlled by a predetermined program. Execute control. The prize ball control circuit board 20 also executes control related to ball lending in a prepaid card-compatible game machine (CR machine). In FIG. 3, since the game board is not attached, the part of the game board relay board 90 is hollow.
[0016]
The prize ball discharge solenoid 21 is provided in the prize ball discharge passage 72 and receives a control signal from the prize ball control circuit board 20 via the relay board B2 and the relay board C26 and is always closed. Is released, and the prize ball is discharged.
[0017]
The prize ball detection switch 22 is provided at a predetermined portion of the prize ball discharge passage 72 and only when the prize ball detection switch 22 detects the presence of a game ball in the prize ball discharge path 72, the prize ball control circuit board 20 is used. Executes the prize ball discharge control for the prize ball discharge solenoid 21.
[0018]
The prize ball counting switch 23 is for detecting a prize ball that has been discharged. The prize ball control circuit board 20 counts the signal detected by the switch 23, and the counted number is on the game board side. When it coincides with the pulse signal corresponding to the determined number of prize balls sent from the main board, the prize ball discharge solenoid 21 is controlled to stop the prize ball discharge.
[0019]
The overflow switch A24 is for preventing the prize ball discharge passage 72 from being clogged with the game balls when the prize balls discharged to the player side are full and the prize balls are discharged any more. When the game ball is detected in the back of the ball, this detection signal is sent to the prize ball control circuit board 20 via the relay board C26 and the relay board B2, and the prize ball control circuit board 20 wins the prize ball with respect to the prize ball discharge solenoid 21. The discharge stop control is executed.
[0020]
The completion switch 32 is provided in the prize ball storage tank 74. When it is detected that there is no game ball in the prize ball storage tank 74, this detection signal is given via the relay board D34, the relay board A1, and the relay board B2. The prize ball control circuit board 20 is sent to the ball control circuit board 20 to display-control the completion display device 33 to notify that there is no game ball in the prize ball storage tank 74. A ball break switch 31 is also provided in the prize ball storage tank 74. When the switch 31 detects that there is no game ball in the prize ball storage tank 74, the detection signal is sent to the relay board D34 and the relay board A1. To the external output terminal board 50 connected to the gaming machine management device (not shown).
[0021]
Also, the prize ball control circuit board 20 does not detect that there is no game ball in the prize ball storage tank 72 and the prize ball detection switch 22 does not detect a game ball. It is determined that there is no game ball in the prize ball discharge passage 72 although the game ball is filled in the tank 74, that is, the game ball is clogged and is not induced, and the ball clog release motor 70 is driven and controlled. The clogging of the game ball is released by the vibration of the ball clogging release motor 70. Further, the prize ball control circuit board 20 controls the lighting of the prize ball display / external display device 60 when the prize ball is discharged or an error occurs, and notifies this state. In FIG. 1, reference numeral 40 denotes a power supply circuit board. The power supply circuit board 40 supplies power to each control unit when the power is turned on by an external power supply.
[0022]
In a prepaid card-compatible gaming machine, a prepaid card unit 80 having a card insertion slot is installed on the left side of the gaming machine, and the prepaid card unit 80 executes control related to cards such as ball lending control and card reception. .
When renting a ball, that is, renting a game ball, when a button of a ball lending switch 81 provided on the upper plate 75 of the gaming machine is pressed, the detection signal is sent to the prepaid card unit 80, and the prepaid card unit 80 A pulse signal corresponding to the number of lent balls is sent to the prize ball control circuit board 20 via the connection board 84 and the relay board B2, and the prize ball control circuit board 20 controls the ball rental discharge to the prize ball discharge solenoid 21. To do.
[0023]
When the button of the card return switch 85 is pressed to return the card, the detection signal is sent to the prepaid card unit 80 via the card unit connection board 84, and the card is returned by the control of the prepaid card unit 80. The
[0024]
Further, the prepaid card unit 80 controls the display of the card balance display device 82 provided on the upper plate 75 to notify the player of the current card balance (frequency), and to distinguish it from when the prize ball is discharged. 2 controls the piezoelectric sounder 83 installed in the opening 76 shown in FIG.
[0025]
Here, in this embodiment, the above-described launch control circuit board 10 and prize ball control circuit board 20 are separated and the boards 10 and 20 are accommodated in the individual cases 100 and 200, respectively. 200 is disposed adjacent to each other in the width direction below the rear cover 400 of the gaming machine, and the relay board B2 is accommodated in the case 300 as a common relay board for the launch control circuit board 10 and the prize ball control circuit board 20. The case 300 is disposed immediately below the cases 100 and 200. Each case 100, 200, 300 is attached to a frame substrate set base 500 that is fixed to the back side of the gaming machine in advance by screwing or the like.
[0026]
First, for convenience of explanation, the frame substrate set base 500 will be described first with reference to FIGS. 5 to 10. This frame substrate set base 500 is attached to the case 100 on the left side when viewed from the back side of the gaming machine. A mounting space 502 for the case 200 is provided on the right side, and a mounting space 503 for the case 300 is provided on the lower side.
[0027]
Two hook latching portions 504 project from the lower portion of the installation space 501 so as to be spaced apart from each other in the width direction, and the two hook latching portions 505 are located higher than the hook latching portion 504 at the lower portion of the installation space 502. Projecting apart from each other in the width direction.
The upper portion of the mounting space 501 is higher than the other portions to form a stepped portion 507 at substantially the same level as the hook hooking portion 504, and a screw hole 508 is formed on the right side of the stepped portion 507 in the width direction. . On the other hand, the upper portion of the mounting space 502 is higher than the stepped portion 507 to be a stepped portion 509 having substantially the same level as the hook hooking portion 505, and screw holes 510 are formed on both sides in the width direction of the stepped portion 509. ing.
[0028]
A hook 506 for fixing the wiring is provided between the mounting space 501 and the mounting space 502, and the wirings of the launch control circuit board 10 and the prize ball control circuit board 20 are bundled on the hook 506. It is supposed to be fixed. Further, a screw hole 511 for fixing a base 301 (described later) of the case 300 is formed between the hook hooking portions 504 and 504 and between the hook hooking portions 505 and 505.
[0029]
At the lower part of the mounting space 503, two hook hooking portions 512 are provided so as to protrude apart from each other in the width direction, and a hook 513 for fixing the wirings of the relay board B2 is provided at a substantially central portion.
Next, the case 100, the case 200, and the case 300 will be described in this order with reference to FIGS. 5, 6, and 11 to 28. The case 300 of the relay board B2 is actually attached first, but will be described last here for convenience of explanation.
[0030]
The case 100 of the launch control circuit board 10 is arranged on the left side when viewed from the back side of the gaming machine, and includes a base 101 and a transparent cover 102.
The base 101 has a rectangular shape slightly larger than the firing control circuit board 10, and screw holes 103 a are formed in the three corners excluding the upper right corner corresponding to the screw insertion holes 11 of the firing control circuit board 10. The screw insertion hole 103 b is formed corresponding to the screw insertion hole 11 of the firing control circuit board 10. Two (four in total) locking grooves 104 are provided on both sides in the width direction of the base 101 so as to be spaced apart from each other in the vertical direction, and on the lower part of the surface of the base 101 facing the frame substrate set base 500 side. The two hooks 105 are provided so as to be spaced apart from each other in the width direction corresponding to the hook latching portion 504 of the frame substrate set base 500.
[0031]
The transparent cover 102 has an outline substantially the same shape as the base 101 and has a storage space for the firing control circuit board 10 inside, and locking convex pieces 106 projecting toward the base 101 are formed on both sides in the width direction. Four locations corresponding to the locking grooves 104 of the base 101 are provided. Further, thin portions 102a and 102b are respectively provided in the entire width direction of the lower portion of the transparent cover 102 and the upper right portion thereof, and insertion portions 107 such as wiring (connectors) are formed in the thin portion 102a. A screw insertion hole 108 is formed in the portion 102 b corresponding to the screw insertion hole 103 b of the base 101.
[0032]
The top plate of the transparent cover 102 is provided with a recess 109, and two holes 110 and 111 are formed in the bottom of the recess 109.
The holes 110 and 111 are opened to a strength adjustment volume 112 of the firing intensity of the firing control circuit board 10 and a sensitivity adjustment volume 113 for adjusting the detection sensitivity when the player touches the handle 71 (see FIG. 17). Each of the adjustment volumes 112 and 113 can be adjusted with a screwdriver. Therefore, the adjustment can be easily performed by inserting the screwdriver from the recess 109 and adjusting the adjustment volumes 112 and 113.
[0033]
A plurality of vent holes 114 for heat dissipation are formed in the upper and lower side plates of the transparent cover 102, and the diameter of the vent holes 114 is 2 mm or less. This is to prevent unauthorized actions such as IC replacement by intruding a wire or the like from the air hole 114 and opening the transparent cover 102. Even if inserted, the substrate cannot be crafted due to its low strength. In addition, by providing the vent holes 114 on the side plate instead of the top plate of the transparent cover 102 in this way, it is possible to facilitate visual inspection at the time of maintenance inspection such as whether or not the control board has been tampered with. .
[0034]
In order to attach the case 100 to the frame substrate set base 500, the screw insertion hole 11 of the launch control circuit board 10 is aligned with the screw hole 103a of the base 101, and the screw B inserted from the screw insertion hole 11 is inserted into the screw hole 103a. The firing control circuit board 10 is fixed to the base 101 by screwing.
[0035]
Next, the locking convex piece 106 of the transparent cover 102 is inserted into the locking groove 104 of the base 101 to fix the transparent cover 102 to the base 101 (see FIGS. 17 to 19).
At this time, the screw insertion hole 108 of the thin-walled portion 102b of the transparent cover 102 matches the screw insertion hole 11 at the upper right corner of the firing control circuit board 10 and the screw insertion hole 103b at the upper right corner of the base 101. In this state, the hook 105 of the base 101 is pivotably hooked on the hook hooking portion 504 of the frame substrate set base 500 and the screw B inserted from the screw insertion hole 108 of the transparent cover 102 is stepped on the frame substrate set base 500. By attaching to the screw hole 508 provided in the portion 507, the attachment of the case 100 is completed.
[0036]
The case 200 of the winning ball control circuit board 20 is arranged on the right side when viewed from the back side of the gaming machine, and includes a base 201 and a transparent cover 202.
The base 201 has a substantially square shape that is slightly larger than the prize ball control circuit board 20, and the length of one side is substantially the same as the vertical dimension of the base 101 on the case 100 side. Screw holes 203 a are formed in the lower corners of the base 201 corresponding to the screw insertion holes 21 of the winning ball control circuit board 20, and screw insertion holes 203 b are formed in the upper corners of the screw insertion holes of the winning ball control circuit board 20. 21 correspondingly. Two (a total of four) locking grooves 204 are provided on both sides in the width direction of the base 201 so as to be spaced apart from each other in the vertical direction, and on the lower part of the surface of the base 201 facing the frame substrate set base 500 side. The two hooks 205 are provided so as to be spaced apart from each other in the width direction corresponding to the hook hooking portions 505 of the frame substrate set base 500.
[0037]
The transparent cover 202 has substantially the same shape as the base 201 and has a storage space for the prize ball control circuit board 20 inside. The height of the transparent cover 202 is higher than the height of the transparent cover 102 on the case 100 side. The difference in size between the step 507 and the step 509 is reduced. On both sides in the width direction of the transparent cover 202, four locking projections 206 projecting toward the base 201 side are provided corresponding to the locking grooves 204 of the base 201, and the lower part of the transparent cover 202 Thin portions 202a and 202b are provided in the entire region in the width direction and on both side portions of the upper portion, respectively. An insertion port 207 for wiring (connector) or the like is formed in the thin portion 202a, and a screw insertion hole 208 is formed in the thin portion 102b corresponding to the screw insertion hole 203b of the base 201.
[0038]
In addition, a plurality of vent holes 214 for heat dissipation are formed in the upper and lower plates of the transparent cover 202, and the diameter of the vent holes 214 is 2 mm or less. This is to prevent illegal actions such as replacement of IC and ROM by opening a transparent cover 202 by intruding a wire or the like from the air vent 214 in the same manner as the cover 102 on the case 100 side. However, even if it is inserted, the substrate cannot be crafted because of its low strength. Further, by providing the vent hole 214 on the side plate instead of the top plate of the transparent cover 202 in this way, it is possible to facilitate visual inspection at the time of maintenance inspection such as whether or not the control board has been tampered with. .
[0039]
In order to attach the case 200 to the frame substrate set base 500, the screw B inserted into the screw insertion hole 21 by aligning the screw insertion hole 21 of the prize ball control circuit board 20 with the screw hole 203a of the base 201 is inserted into the screw hole 203a. The prize ball control circuit board 20 is fixed to the base 201 by screwing into the base 201.
[0040]
Next, the locking convex piece 206 of the transparent cover 202 is inserted into the locking groove 204 of the base 201 to fix the transparent cover 202 to the base 201 (see FIGS. 26 to 29).
At this time, the screw insertion holes 208 of the thin wall portion 202b of the transparent cover 202 coincide with the screw insertion holes 21 on the upper both sides of the prize ball control circuit board 20 and the screw insertion holes 203b on the upper both side corners of the base 201. In this state, the hook 205 of the base 201 is pivotably hooked on the hook hooking portion 505 of the frame substrate set base 500 and the screw B inserted from the screw insertion hole 208 of the transparent cover 202 is inserted into the frame substrate set base 500. The mounting of the case 200 is completed by screwing into the screw hole 510 provided in the step portion 509. At this time, the top plate of the case 200 is substantially flush with the top plate of the case 100 and has a uniform height, and the case 200 and adjacent side plates of the case 100 are in close contact with each other. .
[0041]
The case 300 of the relay board B2 is arranged immediately below the cases 100 and 200, and includes a base 301 and a transparent cover 302.
The base 301 has a rectangular shape that is slightly longer in the width direction than the relay board B2, and screw holes 303a are formed at four corners corresponding to the screw insertion holes 31 of the relay board B2. Two hooks (not shown) are provided at the lower part of the surface of the base 301 facing the frame substrate set base 500 so as to be spaced apart from each other in the width direction corresponding to the hook latching portion 512 of the frame substrate set base 500. ing. In addition, two flanges 304 are provided in the upper portion of the base 301 so as to be spaced apart from each other in the width direction. A screw insertion hole 305 is formed in each flange 304 corresponding to the screw hole 511 of the frame substrate set base 500. ing.
[0042]
The transparent cover 302 has an outline substantially the same shape as the base 301 except for the upper part, and has a storage space for the relay board B2 inside. The transparent cover 302 is fixed to the base 301 with screws or the like on both sides in the width direction. Further, an extending portion 306 is provided on the upper portion of the transparent cover 302, and the extending portion 306 has a thin portion 102a of the cover 100 and a thin portion 202a of the cover 200 on which connector portions (including wirings) are arranged. It is designed to cover the entire area.
[0043]
In order to attach the case 300 to the frame substrate set base 500, the screw insertion hole 31 of the relay board B2 is aligned with the screw hole 303a of the base 301, and the screw B inserted from the screw insertion hole 31 is screwed into the screw hole 303a. As a result, the relay substrate B <b> 2 is fixed to the base 301.
[0044]
Next, the transparent cover 302 is fixed to the base 301 by hinge-joining the left side of the transparent cover 302 to the left side of the base 301 so as to be rotatable. A locking protrusion 307 is provided on the right side of the base 301. By inserting the locking protrusion 307 into a locking piece receiving portion 308 that opens on the right side of the transparent cover 302, the locking protrusion 307 is locked. All areas of the relay substrate B2, the thin portion 102a of the cover 100, and the thin portion 202a of the cover 200 are protected.
[0045]
Since the case 300 has a one-side hinge structure and can be easily opened, the connector can be easily removed during maintenance and inspection such as replacement due to failure of the control circuit board.
Next, the hook B of the base 301 is pivotally hooked to the hook hooking portion 512 of the frame substrate set base 500 and the screw B inserted from the screw insertion hole 305 of the flange 304 of the transparent cover 302 is inserted into the frame substrate set base 500. By attaching to the screw hole 511, the attachment of the case 300 is completed. When the attachment is completed, the top plate of the case 300 is substantially flush with the top plates of the cases 100 and 200, and the height is unified.
[0046]
As is apparent from the above description, in this embodiment, the board 10 and 20 are separated from the launch control circuit board 10 constituted by a logic circuit and the prize ball control circuit board 20 provided with a microcomputer. Each case 100 and 200 is housed in an individual case 100 and 200, and the cases 100 and 200 are arranged adjacent to each other in the width direction below the rear cover 400 of the gaming machine, so whether or not the control boards 10 and 20 have been tampered with. At the same time, a visual inspection can be performed at the time of maintenance inspection, and as a result, the inspection can be facilitated and unauthorized modification can be easily detected.
[0047]
In addition, since the launch control circuit board 10 and the prize ball control circuit board 20 can be fixed to the hooks 506 and 513 provided on the frame board set base 500 in a state where the wiring for connecting the relay board, various switches and the like is bundled. The wiring is clearly concentrated on the back surface of the case 100 of the launch control circuit board 10 and the case 200 of the prize ball control circuit board 20 so that the wiring can be prevented from being damaged, and the wiring cannot be illegally crafted. Furthermore, since the wiring is not visually disturbed during the inspection, the inspection can be performed more quickly.
[0048]
Furthermore, since the heights of the cases 100, 200, and 300 having different heights are made uniform after the attachment, it is impossible to infiltrate a wire or the like from the side plates of the adjacent cases 100, 200, and 300, and illegal activities are prevented. The prevention effect can be further enhanced. Further, the height of the cases 100, 200, and 300 can be made lower than the rear cover 400 so that they do not hit peripheral devices such as a 1000-yen bill conveyance path inside the island (see FIG. 29).
[0049]
In this embodiment, in order to make the case 100, 200, 300 compact, the height of the case 100, 200, 300 is unified by changing the height of the step portion of the frame substrate set base 500. Instead of this, for example, a boss or the like may be interposed between the frame substrate set base and the base of the case to unify the height of each case.
[0050]
Further, among the launch control circuit board 10 and the prize ball control circuit board 20 arranged adjacent to each other, the case 100 of the launch control circuit board 10 is seen from the rear side of the gaming machine, and the case 200 of the prize ball control circuit board 20 is placed on the right side. Therefore, when the positional relationship (distance) with the launching device and the prize ball discharging device is taken into consideration, the space efficiency can be maximized.
[0051]
Furthermore, since the relay board B2 is arranged immediately below the case 100 of the launch control circuit board 10 and the case 200 of the prize ball control circuit board 20, the distance between the wirings connecting both is shortened and the wiring is made clean. In addition, since the relay board B2 is provided at the shortest distance connecting the launch control circuit and the launch device and the prize ball control circuit and the prize ball discharge device, the space efficiency can be improved.
[0052]
Furthermore, since the relay board B2 is one relay board common to the launch control circuit board 10 and the prize ball control circuit board 20, a space can be used effectively.
Furthermore, since the extension part 306 of the case 300 of the relay board B2 covers the connector part (including the wiring) of the launch control circuit board 10 and the prize ball control circuit board 20, damage to the connector can be prevented. In addition, it is possible to prevent attachment of an unauthorized substrate.
[0053]
Further, since the case 300 that accommodates the relay board B2 and the cover 300 that covers the connector part (including the wiring) of the launch control circuit board 10 and the prize ball control circuit board 20 are integrated into a common case 300, cost efficiency is improved. Can be better.
[0054]
【The invention's effect】
As is apparent from the above description, according to the present invention, a launch control circuit board on which a launch control circuit for controlling the launch of a game ball is formed, and a prize ball on which a prize ball control circuit for controlling a prize ball is formed. A control circuit board, a case for a launch control circuit board that accommodates the launch control circuit board, and a case for a prize ball control circuit board that accommodates the prize ball control circuit board that is different in depth from the case for the launch control circuit board And the launch control circuit board case and the prize ball control circuit board case disposed on the back side of the gaming machine. Next to each other In a gaming machine comprising a base portion to be attached, Vertical dimensions of adjacent side plates of the launch control circuit board case and the prize ball control circuit board case are substantially the same, The base portion has a first attachment surface to which the case for the firing control circuit board is attached and a second attachment surface to which the prize ball control circuit board case is attached, and accommodates the launch control circuit board. The launch control circuit board case is attached to the first attachment surface and the launch control circuit board case containing the prize ball control circuit board is attached to the second attachment surface. Circuit board case and prize ball control circuit board case Adjacent side plates of Each other Closely The first mounting surface and the second mounting surface are formed at positions where the launch control circuit board case is formed. Top board And the prize ball control circuit board case Top board Since the first mounting surface and the second mounting surface have a step in the depth direction so that both are located on substantially the same plane, it is easy to perform maintenance inspections such as whether fraud has been performed on the control board. In addition, there is an effect that it is possible to make it easy to find illegal modifications and the like.
[Brief description of the drawings]
FIG. 1 is a view of a pachinko machine as an example of an embodiment of the present invention as viewed from the back side.
FIG. 2 is a perspective view of the pachinko machine viewed from the front side.
FIG. 3 is a perspective view of the pachinko machine viewed from the back side.
FIG. 4 is a schematic control block diagram of a main body frame of the pachinko machine.
FIG. 5 is a partially exploded perspective view of the pachinko machine viewed from the back side.
6 is an exploded perspective view of a part of FIG.
FIG. 7 is a plan view of a frame substrate set base.
8 is a cross-sectional view taken along line AA in FIG.
9 is a cross-sectional view taken along line BB in FIG.
10 is a cross-sectional view taken along the line CC of FIG.
FIG. 11 is a plan view of a launch control circuit board base.
12 is a left side view of FIG. 11. FIG.
13 is a front view of FIG. 11. FIG.
FIG. 14 is a plan view of a launch control circuit board cover.
15 is a right side view in which a part of FIG. 14 is broken.
16 is a front view in which a part of FIG. 14 is broken.
FIG. 17 is a plan view of a launch control circuit board case.
18 is a right side view of FIG.
FIG. 19 is a front view of FIG. 17;
FIG. 20 is a plan view of a baseball control circuit board base.
FIG. 21 is a left side view of FIG.
22 is a front view of FIG. 20. FIG.
FIG. 23 is a plan view of a prize ball control circuit board cover.
24 is a right side view in which a part of FIG. 23 is broken.
FIG. 25 is a front view in which a part of FIG. 23 is broken.
FIG. 26 is a plan view of a prize ball control circuit board case.
27 is a right side view of FIG. 26. FIG.
28 is a front view of FIG. 26. FIG.
FIG. 29 is a schematic view showing the inside of an island and a 1000-yen bill conveyance path.
[Explanation of symbols]
2 ... Relay board B
10 ... Launch control circuit board
20 ... Prize ball control circuit board
100 ... Launch control circuit board case
101 ... Base
102 ... Transparent cover
105 ... Hook
106 ... locking convex piece
104: Locking groove
114 ... vent hole
200: Prize ball control circuit board case
201 ... base
202 ... Transparent cover
204 ... Locking groove
205 ... Hook
206 ... Locking convex piece
214 ... Vent hole
300 ... Relay board case
301 ... Base
302 ... Transparent cover
400 ... Rear cover
500 ... Frame substrate set base
504 ... hook hook
505 ... hook hook
506 ... Hook for fixing the wiring
507: Stepped portion
509 ... Stepped portion
512 ... hook hook
306 ... Extension part

Claims (2)

A launch control circuit board on which a launch control circuit for controlling the launch of a game ball is formed;
A prize ball control circuit board on which a prize ball control circuit for controlling the prize ball is formed;
A case for a launch control circuit board that houses the launch control circuit board;
Depth control circuit board case is different in depth dimension, prize ball control circuit board case for housing the prize ball control circuit board,
In a gaming machine comprising a base portion disposed on the back side of the gaming machine and attached to the launch control circuit board case and the prize ball control circuit board case adjacent to each other ,
Vertical dimensions of adjacent side plates of the launch control circuit board case and the prize ball control circuit board case are substantially the same,
The base portion has a first attachment surface to which the case for the launch control circuit board is attached, and a second attachment surface to which the prize ball control circuit board case is attached,
The launch control circuit board case containing the launch control circuit board is attached to the first attachment surface, and the prize ball control circuit board case containing the prize ball control circuit board is attached to the second attachment surface. The first mounting surface and the second mounting surface are formed at positions where the adjacent side plates of the firing control circuit board case and the prize ball control circuit board case are in close contact with each other, and , the top plate and the first mounting surface and the second mounting surface and the depth direction as the top plate of the prize ball control circuit case board is both positioned substantially on the same plane of the firing control circuit case board A gaming machine characterized by having a step. A relay board that relays signal input and output to each of the launch control circuit board and the prize ball control circuit board, which is provided in common to the launch control circuit board and the prize ball control circuit board;
At least one of the launch control circuit board case and the prize ball control board case is different in depth dimension, and includes a relay board case that houses the relay board,
The base portion has a third attachment surface to which the relay substrate case is attached;
When the relay board case containing the relay board is attached to the third mounting surface, the relay board case is adjacent to the launch control circuit board case and the prize ball control circuit board case The third mounting surface is formed, and the top board of the relay board case is substantially flush with the top board of the launch control circuit board case and the top board of the prize ball control circuit board case. 2. The gaming machine according to claim 1, wherein the third mounting surface and at least one of the first mounting surface and the second mounting surface have a step in the depth direction so as to be positioned above.

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