JP7297113B2 - game machine - Google Patents

Description

The present invention relates to gaming machines such as pachinko machines, arrange ball machines, and slot machines.

A game machine such as a pachinko machine conducts a random number lottery based on the establishment of a predetermined condition such as winning of a game ball in a symbol starting means, and generates a profit state advantageous to a player when winning the random number lottery. ( Patent Document 1).

JP 2015-123192 A

SUMMARY OF THE INVENTION An object of the present invention is to provide a gaming machine capable of more preferably performing display control of predetermined information calculated based on game performance .

The present invention comprises a game machine main body having a base body that can be fixed to a predetermined installation location and a door body that is openable and closable on the front side of the base body, and a lottery means that executes a lottery based on the establishment of a start condition. and a winning game control means for controlling a winning game when the lottery result of the lottery means is a winning, and visible from the front side of the gaming machine main body installed at the installation location without opening the door body. a first display means arranged at a position where the lottery result can be displayed; a second display means arranged at a position that can be visually recognized by opening the second display means and capable of displaying predetermined information calculated based on the game results, wherein after the power is turned on, confirmation display is performed for a predetermined time; confirmation display processing for displaying on the second display means; and predetermined information display processing for displaying the predetermined information on the second display means after executing the confirmation display for a predetermined time, and the confirmation display. If the power is interrupted during the period, the confirmation display is executed again for the predetermined time when the power is next turned on, the first common data signal is output to the first display means when the lottery result is displayed, and the predetermined When displaying information, a second common data signal is output to the second display means, and the first common data signal and the second common data signal are output from a common output circuit using a common counter. It is something to do.

According to the present invention, it is possible to more preferably perform display control of the predetermined information calculated based on the game performance .

1 is a front view of a pachinko machine showing a first embodiment of the present invention; FIG. It is a rear view of the pachinko machine. It is a vertical cross-sectional view of the pachinko machine. It is a vertical cross-sectional view of the same liquid crystal control board case side. It is a rear view of the effect control board case and the liquid crystal control board case side. It is a vertical cross-sectional view of the effect control board case side. It is a longitudinal cross-sectional view of the same power supply board case and payout control board case side. It is a cross-sectional view of the pachinko machine. It is a rear view of the main control board case side. It is a cross-sectional view of the same power supply board case and payout control board case side. It is a rear view of the same power supply board case side. It is a rear view of the same payout control board case side. It is a cross-sectional view of the same latch means side. It is a partially broken rear view of the same latch means side. FIG. 4 is an operation explanatory diagram of the same latch means; It is a rear view of the history sticker of the same main control board case. It is a cross-sectional view of the history seal. It is a side view of the same AC connector, a power switch, etc. FIG. It is a perspective view of the same AC connector. It is a cross-sectional view of wiring parts, such as the same power supply cord. It is a perspective view of the main part of the same power supply board case. It is an enlarged cross-sectional view of the same power supply board case and payout control board case. It is a cross-sectional view of the fixed part of the same shield plate. It is a rear view of the history sticker of the same payout control board case. FIG. 4 is a cross-sectional view of the upper latch means for the same back cover; It is a longitudinal cross-sectional view of the upper latch means for the same back cover. FIG. 4 is a cross-sectional view of the lower latch means for the same back cover; It is a longitudinal cross-sectional view of the lower latch means for the back cover. It is a perspective view of the principal part of the same back cover. It is explanatory drawing of the heat radiation hole of the same effect control board case and back cover. It is a vertical cross-sectional view of the heat dissipation hole and the control chip. It is a rear view of a pachinko machine showing a second embodiment of the present invention. It is a vertical cross-sectional view of the same liquid crystal control board case side. It is a rear view of the effect control board case and the liquid crystal control board case side. It is a vertical cross-sectional view of the volume control portion of the same. It is a rear view of the volume control portion showing the third embodiment of the present invention. FIG. 4 is a cross-sectional view of the same volume control portion; FIG. 10 is a partially cutaway cross-sectional view showing a fourth embodiment of the present invention; It is a longitudinal cross-sectional view of the same power supply board case and payout control board case side. It is a rear view of the same power supply board case side. It is a rear view of the same power supply board case and payout control board case side. It is a rear view of a pachinko machine showing a fifth embodiment of the present invention. It is a cross-sectional view of the screw-type fixing means, etc. of the same pachinko machine. It is a cross-sectional view of the same engagement part. It is a rear view of the same screw-type fixing means. It is a partially broken side view of the same screw-type fixing means. It is a rear view of the history sticker of the payout control board case showing the sixth embodiment of the present invention. The seventh embodiment of the present invention is shown, (a) is a perspective view, (b) is a rear view, and (c) is a sectional view. (a) is a perspective view, (b) is a rear view, and (c) is a sectional view. 8 shows an eighth embodiment of the present invention, where (a) is a rear view and (b) is a sectional view taken along the line ss of (a). The 9th Embodiment of this invention is shown, (a) is a rear view, (b) is sectional drawing, (c) is sectional drawing. It is a rear view of the pachinko machine showing the tenth embodiment of the present invention. It is a front view of the same game information display means. It is a diagram showing the connection relationship between the same LED common port and LED data port, game information display means, and setting information display means (setting display means, performance display means). It is a figure which shows the flowchart (first half) of the same power-on process. It is a figure which shows the flowchart (middle stage) of the same power-on process. It is a figure which shows the flowchart (second half) of the same power-on process. It is a figure which shows the flowchart of the same 1st power supply abnormality check process. FIG. 10 is a diagram showing a source program corresponding to partial processing of the same power-on processing and a processing order for each processing mode; 3 is a diagram showing the correspondence relationship between the 0th to 7th bits of the same input port 1 and the input signal; FIG. It is a diagram showing the correspondence relationship between the input information of the setting change operation means, the door and the game information clear means and the value of the W register, and the correspondence relationship between them and the transition branch destination. 3(a) is a flow chart of setting processing, (b) is a source program for creating/outputting data for setting display, and (c) is a diagram showing a setting display data table. FIG. It is a figure which shows the flowchart of the same operation confirmation setting process. It is a figure which shows the flowchart of the same timer interruption process. It is a figure which shows the flowchart of the same 2nd power supply abnormality check process. It is a figure which shows the flowchart of the same LED management process. FIG. 3(a) shows an LED common output selection table, and FIG. 3(b) shows an LED data output information table. FIG. 11 is a diagram showing a flowchart of same performance display update processing; FIG. 10 is a diagram showing a flowchart of RAM check processing outside the same area;

Embodiments of the invention will be described in detail below with reference to the drawings. 1 to 31 illustrate a first embodiment in which the present invention is applied to a pachinko machine. This pachinko machine 1, as shown in FIGS . A front door 4 is arranged openable and closable on the front side of. The outer frame 2 and the front frame 3 constitute the main body of the game machine. The game machine main body may be constituted by other than the outer frame 2 and the front frame 3.

The front frame 3 is pivotally attached to the outer frame 2 via a first hinge 5 so as to be freely openable and detachable. The front frame 3 and the front door 4 can be locked with respect to the outer frame 2 and the front frame 3 in the closed state by locking means 7 on the side opposite to the hinges 5 and 6 .

The outer frame 2 comprises a pair of left and right vertical frame members 8, an upper horizontal frame member 9 connecting the upper ends of the vertical frame members 8 to the left and right, and a lower horizontal frame member connecting the lower ends of the vertical frame members 8 to the left and right. 10 and a decorative member 11 arranged in front of the lower horizontal frame member 10 and connecting the left and right vertical frame members 8 to form a rectangular shape.

A game board mounting portion 13 and a protective wall portion 14 are integrally provided on the upper side of the front frame 3 , and a lower mounting portion 15 is integrally provided on the lower side of the game board mounting portion 13 . A game board 16 is detachably attached to the game board mounting portion 13 from the front side. The protective wall portion 14 protects the back side mechanism arranged on the back side of the game board 16, and includes a pair of left and right side wall portions 17 arranged on both left and right sides, and an upper wall portion connecting the upper side of the side wall portions 17 to the left and right. 18 are integrally provided. Further, the lower mounting portion 15 is mounted with a shooting means 19 and the like for shooting game balls one by one toward the game board 16 side.

As shown in FIG. 1, the game board 16 is provided with an annular guide rail 21 for guiding the game ball shot by the shooting means 19 to the upper side of the game area 20 . In the central part of the game area 20, a liquid crystal display means (image display means) 22 and a center case 23 corresponding to the front side of the liquid crystal display means 22 are arranged. The center case 23 is attached to the game board 16 from the front side, and the liquid crystal display means 22 is attached to the game board 16 from the back side. In the game area 20, various game parts such as normal symbol starting means 24, special symbol starting means 25, variable winning means 26, normal winning means 27, etc. are arranged around the center case 23.

The center case 23 is provided with a display window 28 corresponding to the display screen of the liquid crystal display means 22. On the front surface of the display window 28 on the outer peripheral side, there is a normal symbol display means 29, a special symbol display means 30, and a normal reserved number display means. 31 etc. are provided. The liquid crystal display means 22 constitutes a performance pattern display means 32, a special reserved number display means 33, an operation guidance display means 34 and the like.

The normal symbol display means 29 is for displaying the normal symbols in a variable manner, and is composed of two light emitters (for example, LEDs) corresponding to two types of normal symbols, for example, "O" and "X". The two light emitters blink alternately for a predetermined time on condition that the normal symbol starting means 24 detects the game ball, and the hit determination random value obtained when the normal symbol starting means 24 detects the game ball is predetermined. In the state where the luminous body on the "○" side corresponding to the hit mode emits light when it matches the determined hit judgment value, and in the state in which the luminous body on the "x" side corresponding to the missing mode emits light in other cases, Blinking ends respectively.

The special symbol starting means 25 is for starting the symbol variation by the special symbol display means 30, and is provided with upper starting winning means 25a and lower starting winning means 25b above and below. The upper start winning means 25a is non-openable. The lower starting winning means 25b is an opening/closing type switchable between a closed state in which a game ball cannot be entered (or difficult to enter) and an open state in which it is possible (or easy to enter). When the stop symbol after the variation of 29 becomes a win mode (ordinary profit mode) and a normal profit state occurs, the closed state is opened to the open state for a predetermined time.

The special symbol display means 30 is composed of a display means such as a 7-segment system capable of variably displaying one or a plurality of, for example, one special symbol. A special pattern is variably displayed for a predetermined time on the condition that a game ball wins the starting prize winning means 25b, and a jackpot judgment random value (specific mode judgment random value) obtained when winning the prize winning means 25a, 25b is set in advance. If it matches the determined jackpot determination value (specific mode determination value), the special pattern is in a predetermined jackpot mode (specific mode), and in other cases it stops in a non-specific mode (non-specific mode). ing.

The normal reserved number display means 31, when the normal symbol starting means 24 detects a game ball during the variable display of the normal symbol display means 29 or during the normal profit state described later, the hit determination random value obtained at the time of detection is Since it is stored up to a predetermined upper limit number of reserved numbers (for example, 4), the number of stored hit judgment random values (hereinafter referred to as normal reserved number) is displayed by the number of light emitting bodies that emit the same number as the upper limit number of reserved numbers. Then, the player is notified of the number of ordinary reservations at that time.

The production pattern display means 32 variably displays the production patterns 32a to 32c in parallel with the variable display of the special patterns by the special pattern display means 30, and there are one or more (for example, three in the left and right direction) production patterns. 32a to 32c can be variably displayed on the display screen of the liquid crystal display means 22 along with various effect images.

The production patterns 32a to 32c of the production pattern display means 32 are of a plurality of types of fluctuation patterns simultaneously with the start of fluctuation of the special patterns when a game ball wins in either of the starting winning means 25a and 25b of the special pattern starting means 25. It starts to fluctuate according to any of them, and after fluctuating for a predetermined time, it stops sequentially in the order of left, right, middle, etc., and finally stops at the same time as the fluctuation of the special symbol.

The performance symbols 32a to 32c stop varying in the big winning performance mode when the special symbols stop in the big winning mode, and stop varying in the losing performance mode when the special symbols stop in the losing mode.

In the special reserved number display means 33, when a game ball wins in the special symbol starting means 25 during the variable display of the special symbols or during the special profit state, the jackpot determination random number etc. acquired at the time of winning are each a predetermined upper limit. Since the number of reserved numbers (for example, four each) is stored as a limit, the number of stored jackpot judgment random numbers (hereinafter referred to as the special reserved number) is displayed, and the special reserved number at that time is notified to the player. It has become.

The variable winning means 26 is of an opening/closing type provided with an opening/closing plate 35 capable of switching between an open state in which game balls can win and a closed state in which the game balls cannot win, and the special symbols after the special symbol display means 30 changes. When a special profit state occurs in a predetermined big winning mode, the opening/closing plate 35 is opened forward according to a predetermined opening pattern, and the game balls dropped thereon are made to win inside.

On the back side of the front frame 3, a ball tank 38 for storing game balls to be put out and a tank rail 39 for guiding the game balls in the ball tank 38 are provided above the upper wall portion 18. Of the side wall portions 17, the side wall portion 17 on the side of the hinges 5 and 6 is provided with a dispensing means 40 in the vertical direction. As shown in FIG. 8, the side wall portion 17 has a receiving portion 41 that bends inward from the rear end, and the dispensing means 40 is provided in the receiving portion 41 in the vertical direction. The payout means 40 is connected to the tank rail 39 and pays out game balls supplied from the ball tank 38 through the tank rail 39 to an upper tray (shot ball storage portion) 42 .

The front door 4 has a rectangular shape corresponding to the front side of the front frame 3, and has a viewing window 43 on the upper side through which the game area 20 can be viewed, and a protruding unit ( A plate unit) 45 is provided respectively. Further, the front door 4 is provided with speakers 46 on both left and right sides of the viewing window 43 . The viewing window 43 is closed by a glass unit (not shown) detachably attached to the front door 4 from the back side. The glass unit includes two front and rear glass plates that can see through the game area 20, and a holding frame that holds the outer sides of the two front and rear glass plates. ing.

The protruding unit 45 has a substantially triangular shape in plan view with the left-right center side positioned on the front side, and the protruding unit 45 stores operation performance means 47 for operation performance and game balls to be shot by the shooting means 19. An upper plate 42 and a lower plate (surplus ball storage portion) 48 for storing surplus balls are provided. is provided.

The operation presentation means 47 has an operation button 50 that can be pressed by the player. When an operation guidance image is displayed on the operation guidance display means 34, the player presses the operation button 50 while the operation guidance image is displayed. When a pressing operation is performed, the liquid crystal display means 22 displays an operation effect image or the like, so that a predetermined operation effect is executed.

The front door 4 includes a glass door on the upper side provided with a viewing window 43 and a glass unit, etc., and an open/close door on the lower side provided with an operation presentation means 47, an upper tray 42, a lower tray 48, a firing handle 49, etc. It is also possible to divide the glass door and the opening/closing door into two parts so that the glass door and the opening/closing door can be opened/closed separately around the hinge 6 on substantially the same axis.

On the back side of the game board 16, as shown in FIGS. 3 and 4, a back mounting base 51 and a ball collecting case 52 are vertically mounted. On the back mounting base 51, there are a liquid crystal display means 22 arranged opposite to the rear of the display window 28 of the center case 23, and a movable effect means 53 arranged between the game board 16 and the liquid crystal display means 22. installed. In addition, the back mounting base 51 has a cover portion 54 on the lower side, and by the cover portion 54, the special symbol starting means 25, the variable winning means 26, the normal winning means 27, etc. project from the game board 16 to the back side. (illustration omitted) is covered from the back side.

The liquid crystal display means 22 is accommodated in a support case 55 and is detachably fixed to a liquid crystal mounting portion 56 on the back side of the back mounting base 51 . The movable effect means 53 includes a movable effect body 57 and an elevating support mechanism 58 that supports the movable effect body 57 so that it can move up and down. It is arranged in a housing recess 59 formed in the .

The ball collecting case 52 is for collecting the game balls that have won the special symbol starting means 25, the variable winning means 26, and the normal winning means 27 and passed through the back side of the game board 16, as shown in FIG. The upper side of the rear wall portion 63 is arranged so as to overlap the back side of the cover portion 54 of the back mounting base 51 . The ball collection case 52 is provided with a discharge port 60 for discharging the game balls downward on the side of the bottom wall 61, and the game balls are discharged out of the machine from the discharge port 60 through the discharge passage 62. ing.

Furthermore, on the back side of the game board 16, as shown in FIGS. A main control board case (detachable member) 67 is arranged on the back side of the ball collecting case 52 on the lower side.

As shown in FIGS. 7 and 10, on the back side of the lower mounting portion 15 of the front frame 3, a board mounting base 68 is fixed to the lower side of the ball collecting case 52, and a power board case is mounted on the back side of the board mounting base 68. 69 and the payout control board case 70 are arranged one on top of the other. The board mounting base 68 is provided with a discharge passage 62 for discharging the game balls from the discharge port 60 of the ball collecting case 52 to the outside of the machine.

Effect control board case 65, liquid crystal control board case 66, main control board case 67, power supply board case 69, payout control board case 70 includes engaging means 71-79, latch means 80-82, tightening means 83, 84, etc. It is detachably fixed via an attachment means.

The production control board case 65, the liquid crystal control board case 66, the main control board case 67, the power supply board case 69, and the payout control board case 70 are made of transparent synthetic resin so that the inside can be seen through. The rear side is covered with a transparent synthetic resin rear cover (openable/closable member) 85 provided on the rear side so as to be freely opened and closed.

The performance control board case 65 accommodates a performance control board 87 for controlling the performance of the entire pachinko machine based on signals from the main control board 86. As shown in FIGS. It comprises a first case body 89 and a second case body 90 which are connected to each other via an engagement means 71 arranged on the lower side and a push-pull latch means 80 such as a quick latch arranged on the upper side. , and is detachably mounted across the back mounting base 51 and the ball collecting case 52. - 特許庁In addition, the effect control board case 65 and the effect control board 87 constitute a sub board case and a sub board with respect to the main control board case 67 and the main control board 86 .

The liquid crystal control board case 66 accommodates a liquid crystal control board 88 for controlling the liquid crystal display means 22 based on signals from the main control board 86 and the effect control board 87. As shown in FIGS. It comprises a first case body 91 and a second case body 92 which are connected so as to be freely openable and closable, and is assembled with the back mounting base 51 via engaging means 72 on the lower side and push-pull latch means 81 on the upper side. It is detachably attached across the ball case 52 .

The liquid crystal control board 88 may control the liquid crystal display means 22 based on the signal from the performance control board 87 . The liquid crystal control board case 66 and the liquid crystal control board 88 constitute a sub board case and a sub board for the main control board case 67 and the main control board 86 .

The main control board case 67 accommodates the main control board 86 for controlling game operations on the game board 16 side, and as shown in FIGS. The body 93 and the second case body 94 form a horizontally elongated shape, and the rear side of the ball collecting case 52 is connected via an engaging means 73 at one end of the left and right sides and a push-pull latch means 82 at the other end. is detachably attached to the

The power supply board case 69 accommodates the boards 86 to 88 and a power supply board 95 for supplying power to other parts, and as shown in FIGS. The case body 96 and the second case body 97 form a laterally elongated shape that is long in the left-right direction, and is detachably attached to the board mounting base 68 via the engaging means 78 on one end of the left and right sides and the tightening means 83 on the other end. It is

The payout control board case 70 accommodates a payout control board 98 for controlling the payout means 40 based on the payout signal from the main control board 86. As shown in FIGS. The first case body 99 and the second case body 100 are configured in a laterally long shape that is long in the left-right direction, and the power supply board case 69 and the board are connected via the engaging means 78 on one end of the left and right sides and the fastener 83c on the other end side. It is detachably attached across the mounting base 68 .

Note that the main control board case 67 may be attached to something other than the ball collection case 52 . The performance control board case 65 and the liquid crystal control board case 66 may be attached to either one of the back mounting base 51 and the ball collecting case 52, or may be attached to the other. The power board case 69 may be attached to something other than the board mounting base 68 . The dispensing control board case 70 may be attached to either one of the power supply board case 69 and the board mounting base 68, or may be attached to the other.

Various electronic parts including connectors 107 to 111 and the like are mounted on the back side of each board 86 to 88, 95, 98 such as the effect control board 87. As shown in FIG. Therefore, each substrate case 65 to 67, 69, 70 has a larger depth on the second case body 90, 92, 94, 97, 100 side than the thin first case body 89, 91, 93, 96, 99. The second case bodies 90, 92, 94, 97, and 100 are formed with swelling portions (peripheral members) 90a, 92a, 94a, 97a, and 100a that swell to the back side. Further, the second case bodies 90, 92, 94, 97, 100 of the substrate cases 65 to 67, 69, 70 have heat radiation holes ( A large number of case heat dissipation holes 102 to 106 are provided.

The connectors 107 to 111 are arranged on one side or a plurality of sides of the substrates 86 to 88, 95 and 98, and the second case bodies are arranged close to or in contact with the substrates 86 to 88, 95 and 98. It protrudes rearward from connector openings formed in stepped portions 112 to 116 on the 90, 92, 94, 97, 100 side.

In addition, the second case body 94 of the main control board case 67 is provided with heat radiation from the viewpoint of preventing fraudulent acts such as inserting an unauthorized member through the heat radiation hole 104 to tamper with the electronic components on the main control board 86 side. It is desirable to make the holes 104 small or as few as possible. Further, when the second case body 94 of the main control board case 67 generates a small amount of heat, the heat radiation hole 104 itself may not be provided.

As shown in FIG. 5, the performance control board case 65 and the liquid crystal control board case 66 are arranged side by side on the back side of the back mounting base 51 at substantially the same height, substantially corresponding to the back side of the liquid crystal display means 22. , engaging means 71 and 72 are arranged on the lower side thereof, and latch means 80 and 81 are arranged on the upper side thereof. As shown in FIGS. 4 and 6, the engaging means 71 and 72 include engaging portions 71a and 72a protruding downward from the second case bodies 90 and 92, and engaging portions formed in the ball collecting case 52 and extending downward from the second case bodies 90 and 92. 71a and 72a have engaged portions 71b and 72b that are releasably engaged from above.

The ball tank 38 and the tank rail 39 are arranged close to the upper side of the production control board case 65 and the liquid crystal control board case 66, and the production is controlled from the bottom wall parts 38a and 39a and the upper side of the liquid crystal control board case 66. It inclines so that it may become low to the upper side of the board|substrate case 65. As shown in FIG. Between the ball tank 38, the tank rail 39 and the effect control board case 65, as shown in FIG. are placed in The effect control board 87 and the movable effect means 53 are connected via this relay board 118 .

5, the latch means 80 of the effect control board case 65 is arranged in a mounted portion 119 formed substantially within the upper edge of the effect control board case 65. On the other hand, the liquid crystal control board case 66 The latch means 81 is disposed on the mounting portion 120 projecting upward from the liquid crystal control board case 66 because the space between the ball tank 38 and the tank rail 39 and the liquid crystal control board case 66 is large.

By arranging the latch means 80 of the effect control board case 65 and the attached portion 119 inward from the upper edge of the effect control board case 65 in this way, the ball tank 38 and the tank rail 39 are arranged above the effect control board case 65. , Even when the relay board 118 and the like are relatively close to each other, the performance control board case 65 and the ball tank 38 and the like in the vicinity thereof can be efficiently arranged.

In addition, when there is a sufficient space above the liquid crystal control board case 66 and the ball tank 38 and tank rail 39 above it, the latch means 81 and the mounting portion 120 are protruded outward from the liquid crystal control board case 66 . A sufficient area for the liquid crystal control board 88 in the liquid crystal control board case 66 can be secured.

As shown in FIG. 5, the attached portion 119 of the effect control board case 65 is recessed downward near the upper corner of the effect control board case 65, and is formed integrally with the second case body 90. ing. The attached portion 119 is in an open state on the upper side, and the side opposite to the open side is a bulging portion 90a that bulges rearward via the rising portion 119a.

Inside the swelling portion 90a of the second case body 90, electronic components (not shown) other than the connector 107 on the effect control board 87 side are accommodated. The bulging portion 90a of the second case body 90 constitutes a peripheral member positioned around the latch means 81. Between the bulging portion 90a and the latch means 80, the latch means 80 is held by fingers. An operation space 125 is provided for pushing and pulling operations.

On the other hand, as shown in FIG. 5, the mounting portion 120 of the liquid crystal control board case 66 is integrally formed so as to project upward from the second case body 92 . Therefore, the second case body 92 of the liquid crystal control board case 66 has a bulging portion 92a to some extent through the rising wall 120a on the lower end side of the mounting portion 120, and the latch means 81 around the latch means 81. There is no bulging portion 92a or other peripheral members that interfere with the pushing and pulling operation.

Attached portions 119 and 120 of the effect control board case 65 and the liquid crystal control board case 66 are, as shown in FIGS. It is detachably fixed to the rear mounting base 51 by latch means 80 and 81 while being in contact with the mounting portions 121 and 122 .

As shown in FIGS. 13 and 14, the latch means 80 of the effect control board case 65 is an engaging body that is arranged in the attached portion 119 and releasably engages with the attachment hole 121a of the attachment portion 121 from the inner peripheral side. 123, and an operating body 124 inserted into the engaging body 123 so as to be able to be pushed and pulled.

The engaging body 123 includes a trunk portion 123a inserted through the through hole 119b of the mounting portion 119, and a contact portion (flange portion) 123b formed on the rear end side of the trunk portion 123a and in contact with the rear surface of the mounting portion 119. and a plurality of engaging claws 123c which are provided on the front end side of the trunk portion 123a so as to be expandable and contractible with respect to the mounting hole 121a, and whose outer peripheral surface engages with the front portion side of the mounting hole 121a when expanded. have. A receiving portion 123d for expansion/contraction is provided on the inner circumference of the tip side of the engaging claw 123c.

The operation body 124 includes an operation shaft portion 124a inserted through the trunk portion 123a and the contact portion 123b of the engaging body 123, and a rear end side of the operation shaft portion 124a and capable of coming into contact with the back surface of the contact portion 123b. An operating portion 124b for pushing and pulling, and an engaging claw 123c provided at the front end of the operating shaft portion 124a, and when the operating portion 124b is pushed to the push-in position A, the engaging claw 123c expands outward through the receiving portion 123d, thereby expanding the operating portion 124b. It has an expanding/contracting portion 124c that detaches from the receiving portion 123d and contracts the engaging claw 123c inward when the 124b is pulled out to the pulled-out position B. As shown in FIG.

A fall-off prevention means (not shown) is provided between the engaging body 123 and the operating body 124 to prevent the operating body 124 from falling off from the engaging body 123 .

As shown in FIG. 13, the latch means 80 is in a recessed state in which the rear end of the operation portion 124b is located forward of the rear surface of the swelling portion 90a when the operation body 124 is in the pushed position A. When the body 124 is at the pulled-out position B, the rear end of the operation portion 124b is approximately the same height as the rear surface of the swelling portion 90a or slightly lower than the rear surface of the swelling portion 90a.

When the performance control board case 65 is attached to the back side of the game board 16, the performance control board case 65 is supported by the engagement means 71 on the upper side of the ball collection case 52, and then the performance control is performed around the engagement means 71. The circuit board case 65 is rotated toward the back mount 51 side. Then, the distal end side of the engaging claw 123c of the engaging body 123 protruding forward from the attached portion 119 of the effect control board case 65 is inserted into the attaching hole 121a of the attaching portion 121 of the back attachment base 51.

At this time, if the operating body 124 of the latch means 80 is pulled out to the pulled-out position B, as shown in FIG. The engaging claw 123 c of the engaging body 123 is inserted into the mounting hole 121 a of the mounting portion 121 .

When the engaging claw 123c is inserted into the mounting hole 121a of the mounting portion 121, the mounted portion 119 of the effect control board case 65 abuts against the rear surface of the mounting portion 121 of the rear mounting base 51. Next, as shown in FIG. , the operating portion 124b of the operating body 124 is pushed forward to the pushing position A.

At this time, the expanding/contracting portion 124c of the operating body 124 corresponds to the receiving portion 123d of the engaging claw 123c, and expands the engaging claw 123c outward through the receiving portion 123d. The outer peripheral side of the matching claw 123c is pressed against the inner periphery of the mounting hole 121a of the mounting portion 121, and the engaging body 123 couples the mounted portion 119 of the effect control board case 65 and the mounting portion 121 of the back mounting base 51 back and forth. . As a result, the upper side of the effect control board case 65 can be attached to the back mounting base 51 by the latch means 80. - 特許庁

When the operation body 124 is pushed to the push-in position A, the rear end of the operation part 124b is located in front of the rear surface of the bulging part 90a of the effect control board case 65, and the operation part 124b is positioned relative to the bulging part 90a of the effect control board case 65. Since the rear end of 124b is recessed, the latch means 80 will not interfere with anything else.

When removing the effect control board case 65, after gripping the operation part 124b of the operation body 124 of the latch means 80 from both the left and right sides with fingers, the operation body 124 is pulled out to the pull-out position B, and the engagement body 123 is attached. It can be removed from the attachment hole 121a of the portion 121 and the fixation of the effect control board case 65 by the latch means 80 can be released.

That is, when the operating body 124 is pulled out to the pull-out position B, the expanding/contracting portion 124c is disengaged from the receiving portion 123d of the engaging claw 123c. The elastic force of the connecting portion between the and the engaging claws 123c causes inward contraction, or each engaging claw 123c becomes elastically deformable inward. Therefore, when the operating portion 124b is pulled further rearward, the engaging claw 123c of the engaging body 123 is pulled out rearward from the mounting hole 121a of the mounting portion 121, so that the fixing by the latch means 80 can be released.

In the state where the operation body 124 of the latch means 80 is pulled out rearward to the pulled-out position B, the rear end of the operation part 124b of the operation body 124 is substantially the same height as the rear surface of the swelling part 90a of the effect control board case 65, or is swelling. Since it is slightly lower than the rear surface of the portion 90 a , the operation portion 124 b does not become an obstacle compared to the case where the operation portion 124 b protrudes from the rear surface of the second case body 90 .

When pulling out the operation body 124 of the latch means 80 , the operation part 124 b is gripped from both sides in the left-right direction with two fingers. In addition, since there is an operation space 125 necessary to hold the operation portion 124b, the latch means 80 and the attached portion 119 are inside the upper edge of the effect control board case 65. can be operated easily and reliably.

The latch means 81 of the liquid crystal control board case 66 also has substantially the same configuration as the latch means 80 of the effect control board case 65 . When the liquid crystal control board case 66 is attached and detached, it is carried out in the same manner as the performance control board case 65 is attached and detached.

As shown in FIGS. 5 and 6, the production control board 87 has a volume control switch (production system adjusting means) 128 mounted on the back side thereof. The volume adjustment switch 128 is for adjusting the volume of the sound effect generated from the speaker 46 in a plurality of steps, and has a rotary operation type operation portion 128a. The operation part 128a protrudes rearward from a through hole 90c in a recess 90b formed in the back surface of the second case body 90 of the effect control board case 65 so that the volume can be adjusted by operating from the back side of the effect control board case 65. ing.

The volume adjustment switch 128 is covered with the back cover 85 together with the effect control board case 65, and unless the back cover 85 is opened, the operation part 128a cannot be operated. The rear end of the operation portion 128a is substantially the same as the rear surface of the second case body 90, or protrudes slightly rearward from the rear surface of the second case body 90. As shown in FIG. A variable resistor for volume adjustment may be provided instead of the volume adjustment switch 128 .

As shown in FIG. 9, the main control board case 67 is detachably attached to the rear side of the ball collecting case 52 by means of engaging means 73 and latching means 82. As shown in FIG. The engaging means 73 includes an engaging portion 73a projecting laterally from the second case body 94 and an engaged portion 73b formed in the ball collecting case 52 and with which the engaging portion 73a engages releasably from above. and The latch means 82 is configured in the same manner as the latch means 80 of the performance control board case 65 , and is adapted to fix the opposite side of the main control board case 67 to the engaging means 73 to the back side of the ball collecting case 52 .

The main control board case 67 is provided with four sealing means 130 along the side edges between the pair of engaging means 73 . Each sealing means 130 can seal the first case body 93 and the second case body 94 in a closed state by appropriately operating the sealing operation portion 130a, and when the main control board case 67 is opened, It is configured to break open a portion of the sealing means 130 during sealing.

In addition, since there are four sealing means 130 in this embodiment, by breaking the sealing means 130 being sealed, opening it, and then resealing with another sealing means 130, the It can be opened and sealed 3 times.

On the back side of the second case body 94 of the main control board case 67, as shown in FIG. The history sticker 132 is a transparent sheet that allows the inside of the main control board case 67 to be seen through and is coated with an adhesive, and is attached to the back surface of the second case body 94 via the adhesive. On the back side of the back cover 85, as shown in FIG. 2, an open viewing window 134 is provided in front of and behind the history seal 132 so that the history seal 132 side can be directly viewed from the back side without opening the back cover 85. They are provided facing each other.

As shown in FIGS. 16 and 17, the history seal 132 includes a management number marking portion 135 marking the management number of the main control board 86 and a plurality of opening histories marking the regular opening history of the main control board case 67. A descriptive portion 136 is provided at a predetermined interval. The management number labeling portion 135 and the opening history labeling portion 136 are formed of opaque portions formed by printing or applying opaque ink, paint, or the like.

In the management number marking portion 135, a management number 135a of the main control board 86 and a two-dimensional code 135b indicating it are written. In addition, each opening history description section 136 has an opener description section 136a capable of describing the name of the person who opened it, and a date description section 136b capable of describing the date at the time of opening. Three unsealing history labeling portions 136 are arranged in a row below the management number labeling portion 135 at predetermined intervals.

It is also possible to display the characters "opener" on the upper side of the opening person indication portion 136a and the characters "opening date" on the upper side of the date indication portion 136b.

The gap between the management number description part 135 and the opening history description part 136, the gap between the opening history description parts 136, and the gap between the opener description part 136a and the date description part 136b of the opening history description part 136 are The side of the main control board 86 can be seen through the transparent history seal 132, and at least a part of the electronic components 137 including the control chip such as an IC is arranged on the main control board 86 so as to correspond to the gap. It is

In FIG. 16, the transparent second case body 94 is indicated by a dark gray portion, and the history sticker 132 is indicated by a light gray portion. Of the electronic components 137 on the main control board 86 side, the portions corresponding to the opaque management number marking portion 135 and the opening history marking portion 136 are indicated by dotted lines, and the portions corresponding to the other transparent portions are indicated by solid lines. .

It should be noted that the management number description part 135 and the opening history description part 136 should be opaque in order to fill in the name of the person who opened the file, etc., but it is possible to fill in the name of the person who opened the file. If so, it may be semi-transparent with some transparency, or semi-transparent with a lower transparency than the peripheral portion of the history sticker 132 .

When arranging at least part of the electronic component 137 so as to correspond to the gap between the opening history marking portions 136, product information such as the product number of the electronic component 137 itself is indicated on the back side of the electronic component 137. If there is a descriptive section, at least a part of the product information in the descriptive section may be visible through the gap from the viewpoint of preventing fraudulent acts.

The main control board case 67 is in a sealed state with one of the four sealing means 130 . When the main control board case 67 is opened normally, the sealing means 130 which is being sealed is damaged and then opened.

Since the main control board case 67 has four sealing means 130, it can be opened normally up to three times. By entering the name of the person who opened the package in the notation part 136a and the date of opening in the date notation part 136b, it is possible to easily check who opened the package when and after the fact.

The main control board case 67 has an opaque control number display section 135 and three unsealing history display sections 136 . However, there are predetermined gaps between the management number marking portion 135 and the three opening history marking portions 136, respectively, and part or all of the electronic components 137 of the main control board 86 are arranged corresponding to the gaps. Therefore, the state of the electronic components 137 of the main control board 86 in the main control board case 67 can be seen through each gap. Therefore, since it is easy to detect unauthorized work on the main control board 86, there is an effect that unauthorized work on the electronic components 137 of the main control board 86 can be prevented.

Further, the back cover 85 is provided with a viewing window 134 corresponding to the history seal 132 of the main control board case 67 in an open shape, so that the history can be viewed directly through the viewing window 134 while the back cover 85 is closed. Since the items marked on the seal 132 can be easily visually recognized, or the side of the main control board 86 in the main control board case 67 can be easily confirmed through the history seal 132, there is an advantage that the effect of preventing fraudulent work is improved.

As shown in FIGS. 7, 10 and 11, the power board case 69 is arranged on a receiving portion 68a formed on the board mounting base 68, and is provided with engaging means 78 on one left and right ends and tightening means on the other end. 83 is detachably attached to the board mounting base 68 . The engaging means 78 includes an engaging portion 78a protruding from the second case body 97, and an engaged portion 78b formed on the board mounting base 68 and releasably engaged with the engaging portion 78a. ing.

As shown in FIGS. 10 and 11, the tightening means 83 is provided at a portion to be tightened 83a such as a stepped portion formed in the second case body 97 and a tip end portion of a support portion 83b projecting backward from the board mounting base 68. and a tightening tool 83c which is rotatably supported and capable of tightening the tightened portion 83a. The tightening tool 83c is rotatable about a support shaft in the front-rear direction between a tightening position where it tightens the tightened portion 83a and a release position where it is removed from the tightened portion 83a.

As shown in FIGS. 10 and 11, the power supply board 95 is provided with a plurality of connectors 110 for power supply in the vertical direction at positions not overlapping the payout control board case 70 on one left and right end side thereof, and on the other end side. An AC connector 140, a power switch 141, and another connector 110 for power supply are vertically provided at positions overlapping the dispensing control board case 70. As shown in FIG.

The AC connector 140 , the power switch 141 , and the power supply connector 110 protrude rearward through an opening formed in a stepped portion 115 on the other end side of the second case body 97 .

Since the AC connector 140 overlaps the payout control board case 70 in the front-rear direction, an attachment/detachment space necessary for attaching/detaching the AC connector 140 is provided between the AC connector 140 and the payout control board case 70 . there is

The AC connector 140, as shown in FIGS. 18 and 19, comprises a male connector 142 fixed to the power supply board 95 and a female connector 143 detachably connected to the male connector 142. . The male connector 142 is constructed by integrating two AC power connectors 142a and 142b and one earth connector 142c in a line.

The female connector 143 is constructed by integrating two power connectors 143a and 143b connected to the power cord 144 and one ground connector 143c connected to one ground wire 145 in a row. there is The power cord 144 is divided into two covering portions 144a and 144b at the ends thereof. It is connected to the connector 143c.

As shown in FIGS. 7, 18, and 20, wiring path members 146 are provided in the horizontal direction above the power supply substrate case 69 on the rear surface of the substrate mounting base 68, and the power supply is A cord 144 and a ground wire 145 are accommodated and wired in the horizontal direction. On the back side of the front frame 3, a wiring path member 147 is arranged vertically on the outside of the side wall portion 17 on the side opposite to the AC connector 140, and the power cord 144 and the ground wire 145 pass through this wiring path member 147. It is wired to the vicinity of the upper end side of the front frame 3 via.

The wiring path members 146, 147 have housing portions 146a, 147a with U-shaped or U-shaped cross sections, and lid portions 146b, 147b for closing the open sides of the housing portions 146a, 147a. The accommodating portions 146a, 147a and the lid portions 146b, 147b may be configured integrally so as to be freely opened and closed, or may be configured separately. A power plug 148 is provided at the tip of the power cord 144 . The ground wire 145 is appropriately connected to the ground wire connecting portion at a position protruding upward from the wiring path member 147 .

The power cord 144 and the ground wire 145 extend from one end of the wiring path member 146 in the vicinity of the AC connector 140 and are bound by a tie 150 on the AC connector 140 side of the wiring path member 146 . A power switch 141 is arranged near the AC connector 140 and/or near one end of the wiring path member 146 .

By housing and wiring the power cord 144 and the ground wire 145 in the wiring path members 146 and 147 in this manner, the power cord 144 and the ground wire 145 are not tangled with other harnesses and the like, and can be easily wired. be able to. By arranging the power switch 141 near the AC connector 140 and near one end of the wiring path member 146, the position of the power switch 141 can be easily confirmed by tracing the wiring path member 146 and the power cord 144. be able to.

When the female connector 143 of the AC connector 140 is inserted into and removed from the male connector 142, if there is enough space between the female connector 143 and the wiring path member 146 for insertion and removal, the power source Both can be attached and detached while the cord 144 remains inside the wiring path member 146 . Also, if there is no space necessary for attachment and detachment between the female connector 143 of the AC connector 140 and the wiring path member 146, part or all of the lid portion 146b of the wiring path member 146 is removed from the accommodating portion 146a, and the power supply is disconnected. After pulling out the cord 144, the female connector 143 is attached to and detached from the male connector 142 in that state.

Thus, when the AC connector 140 is inserted and removed, the two covering portions 144a and 144b of the power cord 144 are bound by the binding tool 150 on the side of the AC connector 140 from the wiring path member 146, and furthermore, the power cord 144 is matched with the power cord 144. By bundling the ground wire 145 together, there is no fear that the connecting portion of the two coated portions 144a, 144b of the power cord 144 will be torn more than necessary, or that the ground wire 145 will get caught on other parts. , the power cord 144 and the ground wire 145 can be easily handled.

As shown in FIGS. 17, 11, and 22, the radiation hole 105 of the second case body 97 of the power supply board case 69 has a first radiation hole 105a in the overlap region 151 on the back side overlapping the payout control board case 70. A second heat radiation hole 105 b is provided on the outer peripheral side that is provided and does not overlap with the payout control board case 70 . The first heat radiation holes 105a are elongated holes in the left-right direction, and are formed at predetermined intervals in the up-down direction and the left-right direction.

By providing the first heat radiation hole 105a on the rear surface side of the second case body 97 and the second heat radiation hole 105b on the outer peripheral side in this way, the amount of heat generated by the electronic components of the power supply substrate 95 is relatively large compared to others. Nevertheless, the heat in the power supply board case 69 can be efficiently radiated through the first heat radiation hole 105a and the second heat radiation hole 105b.

The first heat radiation hole 105a on the rear surface side is formed in an elongated hole shape along the longitudinal direction of the power supply board case 69 because the power supply board case 69 is elongated in the longitudinal direction. The second heat radiation hole 105b on the outer peripheral side is elongated in the front-rear direction substantially orthogonal to the longitudinal direction of the power supply board case 69. As shown in FIG. Therefore, both the heat dissipation holes 105a and 105b of the power supply board case 69 have different shapes on the back surface side and the outer peripheral side.

The second heat dissipation holes 105b on the outer peripheral side are arranged in the upper and lower walls of the power supply board case 69 and the side wall on the AC connector 140 side. As shown in FIGS. 7 and 11, the second heat radiation hole 105b on the outer peripheral side has a length reaching the back side from a substantially central position in the front-rear direction on the outer peripheral side, and opens toward the back side of the rear end. The width is wide, and the back side of the rear end is the maximum opening width.

The second heat radiation hole 105b is elongated in the front-rear direction, and the rear end thereof reaches the rear surface side overlapping with the dispensing control board case 70, but it may be formed only on the peripheral wall side.

By providing the second heat radiation hole 105b having such a shape on the side of the peripheral wall, together with the first heat radiation hole 105a on the back side, the heat radiation performance on the rear side inside the power supply board case 69 is remarkably improved. , the heat buildup on the rear side in the power supply board case 69 can be prevented. Therefore, even when there is a heat-generating electronic component with a large rearward projection height on the power supply board 95, the heat from the heat-generating electronic component can be effectively dissipated.

On the back side of the power board case 69, as shown in FIG. 11, a non-porous area 149 outside the overlapping area 151 with the payout control board case 70 is provided with a warning display portion 152. As shown in FIG. This attention-calling display portion 152 is located outside the overlapping area 151 with the payout control board case 70, and the attention-calling display portion 152 displays "Never open the case." Please note.” Note that the attention calling display unit 152 may display the attention calling information on a transparent or opaque display sheet by printing or the like, or may write the information on the back surface of the second case body 97 directly by engraving, printing, or the like. .

If the attention-calling display portion 152 is provided at a position outside the overlapping area 151 with the payout control board case 70 in this way, even if the payout control board case 70 is superimposed on the rear side of the power supply board case 69, It is possible to easily grasp the display contents of the alert display section 152 . Further, since the attention-calling display portion 152 is located in the non-perforated region 149 on the back side of the power supply board case 69 , the provision of the attention-calling display portion 152 does not impair the heat dissipation of the power supply board case 69 .

The first heat radiation holes 105a on the back side of the second case body 97 of the power supply board case 69 are oblong and are formed in large number in the vertical and horizontal directions. On the other hand, as shown in FIGS. 10, 11, and 22, on the back side of the second case body 97, a first reinforcing portion 153a and a second reinforcing portion 153b such as ribs protruding to the back side are formed into first heat radiation holes. A plurality of lines are provided in the vertical direction and the horizontal direction between 105a. Therefore, the strength of the second case body 97 can be easily ensured in spite of the large number of first heat radiation holes 105a.

The first reinforcing portion 153a is arranged vertically, and the second reinforcing portion 153b is arranged horizontally. A portion of the second reinforcing portion 153b near the first reinforcing portion 153a and the first reinforcing portion 153a have substantially the same height. On the other hand, the height of the portion between the adjacent first reinforcing portions 153a of the second reinforcing portion 153b and corresponding to the first heat radiation holes 105a is lower than the height of both side portions not corresponding to the first heat radiation holes 105a. It's becoming Therefore, even when the payout control board case 70 is attached to the back side of the power board case 69, the lower portion of the second reinforcing portion 153b allows the vertical heat dissipation path 154 between the power board case 69 and the payout control board case 70 to be maintained. will be formed.

Therefore, although the payout control board case 70 is stacked on the back side of the power board case 69, the heat inside the power board case 69 is dissipated upward through the first heat radiation hole 105a on the back side through the heat radiation passage 154. and can effectively dissipate heat.

As shown in FIGS. 2 and 10 to 12, the payout control board case 70 is deviated from the power board case 69 on the side opposite to the attention calling display section 152. As shown in FIG. Therefore, even when the payout control board case 70 is attached to the back side of the power board case 69, the attention calling display portion 152 can be visually recognized from the back side.

The payout control board case 70 is arranged across the power board case 69 and the receiving part 17 a of the side wall part 17 , and the engaging means 79 on the back side of the power board case 69 and the fastening means of the side wall part 17 are connected to each other. 84 is detachably fixed.

The engaging means 79 includes an engaging portion 79a projecting from the second case body 100, and an engaged portion 79b formed on the power supply substrate case 69 and releasably engaged with the engaging portion 79a. ing. The tightening means 84 is rotatably supported by a portion to be tightened 84a formed in the second case body 100 and a tip portion of a support portion 84b projecting rearward from the side wall portion 17, and can tighten the portion to be tightened 84a. and a fastener 84c. The tightening tool 84b is rotatable about a support shaft in the front-rear direction between a tightening position where it tightens the tightened portion 84a and a release position where it is disengaged from the tightened portion 84a.

As shown in FIGS. 7, 10, 21 and 22, a shield plate 155 such as an iron plate is provided on the front side of the dispensing control board case 70. The shield plate 155 protects the electronic components of the power supply board 95 from the The payout control board 98 can be protected from noise factors such as generated electromagnetic waves. The shield plate 155 has an engaging protrusion 155a on one end thereof engaged with the engaged portion 79b of the engaging means 79, and an engaging portion 155b on the other end thereof engaged with the base of the tightening means 84. It is sandwiched between the substrate case 69 and the first case body 99 and fixed detachably. Therefore, there is no need to provide a special fixing means for attaching the shield plate 155, and the shield plate 155 will not fall off immediately when the payout control board case 70 is removed.

The payout control board case 70 is arranged to cover the power board case 69, the AC connector 140, the power switch 141, the power supply connector 110, and the like from the back side. Therefore, an operation space 156 is provided on the opposite side of the power switch 141 to the power board case 69 so that the user can insert his or her hand to operate the power switch 141 . This operation space 156 is provided by forming an opening in the side wall portion 17 of the front frame 3 .

As shown in FIG. 12, the payout control board case 70 is provided with three sealing means 157 along the side edges between the engaging means 79 . The sealing means 157 can seal the first case body 99 and the second case body 100 in a closed state by appropriately operating the sealing operation portion 157a, and seals when the payout control board case 70 is opened. It is configured to be opened by breaking a part of the sealing means 157 inside. In addition, since there are three sealing means 157 in this embodiment, by breaking the sealing means 157 being sealed, opening it, and then resealing with another sealing means 157, the It can be opened and sealed twice.

On the other hand, as shown in FIG. 12, a history sticker 159 is pasted on the non-porous area 158 other than the formation area of the heat dissipation holes 106 on the back side of the second case body 100 of the payout control board case 70 . The history sticker 159 is a transparent sheet that allows the inside of the payout control board case 70 to be seen through and is coated with an adhesive. It is attached to the lower side of the back surface of the case body 100 via an adhesive.

As shown in FIG. 24, the history seal 159 is provided with two (a plurality of) opening history marking portions 160 that indicate the normal opening history of the payout control board case 70 at a predetermined vertical interval. . It should be noted that this history sticker 159 may also be provided with a management number marking portion containing the management number of the payout control board 98 and a two-dimensional code indicating it, similarly to the main control board case 67 side.

As with the main control board case 67 side, the opening history marking portion 160 includes an opener marking portion 160a capable of marking the name of the opening person and a date marking portion 160b capable of marking the date of opening. It is equipped on the left and right with an interval. It should be noted that the unsealing history marking portion 160 is configured by an opaque portion formed by printing opaque ink, paint, or the like. The opening history marking part 160 may be formed by printing directly on the dispensing control board case 70 . The characters "opener" may be written on the upper side of the opening person description part 160a, and the characters "opening date" may be written on the upper side of the date description part 160b.

The clearance between the upper and lower unsealing history marking portions 160 and the gap between the right and left opener marking portion 160a and the date marking portion 160b of each opening history marking portion 160 are controlled to be dispensed through transparent history stickers 159. The board 98 side can be seen through, and at least a portion of the electronic component 161 including the control chip (for example, a terminal row 161a) is arranged on the payout control board 98 so as to correspond to the gap. It should be noted that dark gray portions and light gray portions in FIG. 24 are the same as in FIG.

The payout control board case 70 is normally sealed by one of the three sealing means 157 . When the payout control board case 70 is opened normally, the sealing means 157 which is being sealed is damaged and then opened. The dispensing control board case 70 can be opened legally up to two times. If the date of opening is entered in the month and day display section 160b, it is possible to check the opening history after the fact, such as who opened the package and when.

The dispensing control board case 70 also has two opaque opening history marking sections 160 . However, there are predetermined gaps between the opening history marking portions 160 and between the opener marking portion 160a and the date marking portion 160b. , the state of the electronic components 161 of the payout control board 98 in the payout control board case 70 can be seen through the clearance, as in the case of the main control board case 67. Therefore, since it is easy to detect unauthorized manipulation of the payout control board 98, there is an effect that unauthorized manipulation of the payout control board 98 can be prevented.

2, 7, and 12, game information clearing means 162 is mounted on the rear side of the payout control board 98. As shown in FIGS. The game information clearing means 162 is composed of a RAM clear switch having a push-button type operation portion 162a. When the operation portion 162a is pressed, the game information stored in the RAM of the game information storage means (not shown) is is to be cleared.

The game information clearing means 162 is formed on the back surface of the second case body 100 of the payout control board case 70 so that the game information can be cleared by easily operating the operating portion 162a from the back side of the payout control board case 70 when necessary. It protrudes rearward from a through hole 100c in the concave portion 100b. In addition, the game information clearing means 162 is arranged below the lower end of the back cover 85 together with the unsealing history display part 160, so that the operation part 162a can be easily operated as needed without opening the back cover 85. can be manipulated.

The rear end of the operation portion 162a is substantially the same as the back surface of the second case body 100, or projects slightly backward from the back surface of the second case body 100. As shown in FIG. The game information clearing means 162 may be other than the push button type, and may be provided in a portion other than the payout control board 98 .

The rear cover 85 has a size corresponding to the range from the vicinity of the lower side of the ball tank 38 and the tank rail 39 to the vicinity of the upper side of the history seal 159 of the payout control board case 70, and as shown in FIG. Board case 65, liquid crystal control board case 66, main control board case 67, power supply board case 69, and payout control board case 70 are covered from the back side, and a harness 163 connecting the production control board 87 and the main control board 86, production control A harness 164 connecting the board 87 and the liquid crystal control board 88, a harness (not shown) connecting the power supply board 95 and each board, a harness 166 connecting the main control board 86 and the dispensing control board 98, etc., each board case. Attachment means attached to 65-67, 69, 70 are covered from the back side.

2 and 8, the side near the hinges 5 and 6 of the back cover 85 is pivotally supported on one side wall 17 of the front frame 3 by a plurality of upper and lower hinges 167 so as to be openable and closable about the vertical axis. The side opposite to the hinge 167 is detachably attached to the other side wall portion 17 of the front frame 3 by a pair of upper and lower latch means 168 and 169 . The hinge 167 pivotally attaches the back cover 85 so that it can be opened and closed, and also allows the back cover 85 to be separated from the front frame 3 side.

As shown in FIGS. 25 and 26, the upper latch means 168 includes an engaging body 171 disposed on a mounted portion 170, which is one side edge of the back cover 85, and is inserted into the engaging body 171 so as to be able to be pushed and pulled. and an operating body 172 . The mounting portion 173 of the front frame 3 includes an engaged body 174 with which the engaging body 171 is releasably engaged with the mounting hole 174a from the inner peripheral side. The attached portion 170 can come into contact with the rear surface of at least one of the attached portion 173 and the engaged body 174 . Incidentally, the engaging body 171 and the operating body 172 of this latch means 168 are substantially the same as the latch means 80 and the like on the effect control board case 65 side.

The engaged body 174 has a cylindrical portion 174b having a mounting hole 174a and a mounting protrusion 174c integrally formed on the outer circumference of the cylindrical portion 174b. It is detachably fixed to the mounting portion 173 of the front frame 3 by means 175 .

In the vicinity of the latch means 168, a bulging portion 85a that bulges rearwardly of the back cover 85 via the rising portion 170a is arranged. The open part is the operation space. Therefore, the latch means 168 can grip the operation body 172 along the rising portion 170a from both upper and lower sides.

As shown in FIGS. 27 to 29, the lower latch means 169 includes an engaging body 177 arranged on the mounting portion 176 on the lower edge side of the back cover 85 and inserted into the engaging body 177 so as to be able to be pushed and pulled. The mounting portion 179 of the front frame 3 has an engaged body 180 with which the engaging body 177 is releasably engaged with the mounting hole 180a from the inner peripheral side.

A substantially semicircular recessed portion 181 recessed upward in a rear view is formed on the lower edge side of the back cover 85 . At the front end of this recessed portion 181 , a mounting portion 179 on the side of the front frame 3 and an engaged body 180 are provided. A mounting portion 176 abutting on at least one rear surface of the is provided. Incidentally, the engaging body 177 and the operating body 178 of the latch means 169 are substantially the same as the latch means 80 and the like on the effect control board case 65 side.

The engaged body 180 is similar to the upper engaged body 174, and includes a cylindrical portion 180b having a mounting hole 180a and a mounting convex portion 180c integrally formed on the outer circumference of the cylindrical portion 180b. have. The mounting projection 180c is detachably fixed to the mounting portion 179 of the front frame 3 by a fixing means 180d such as a screw.

In the vicinity of the latch means 169, a bulging portion 85a that bulges rearward of the rear cover 85 via a substantially semicircular rising portion 179a in a rear view is arranged. An operation space is provided between the rising portion 179a and the latch means 169 so that the operation body 178 can be grasped from both the upper and lower sides or the left and right sides.

As shown in FIGS. 26 and 28, the upper and lower latch means 168, 169 on the back cover 85 side are configured so that the rear ends of the operating bodies 172, 178 bulge 85a when the operating bodies 172, 178 are in the pushed position A. , and when the operation bodies 172 and 178 are pulled out to the pulled-out position B, the rear ends of the operation bodies 172 and 178 protrude slightly from the rear surface of the swelling portion 85a.

When the operation bodies 172 and 178 of the latch means 168 and 169 are set to the pushed position A in this manner, the rear ends of the operation bodies 172 and 178 can be pushed in by making the rear end substantially flush with the rear surface of the swelling portion 85a. Even when it is in the position A, it can be easily operated to the drawer position B. Further, if the rear ends of the operating bodies 172 and 178 protrude slightly from the rear surface of the bulging portion 85a when the operating bodies 172 and 178 are in the pulled-out position B, the operating bodies 172 and 178 are less likely to interfere with other operations and the pushed-in position is reduced. There is an advantage that the pushing operation to A can be easily performed.

Similar to the latch means 80 for the effect control board case 65, the upper and lower latch means 168 and 169 have their rear ends positioned higher than the rear surface of the swelling portion 85a when the operating bodies 172 and 178 are pushed into the position A. When the operating bodies 172 and 178 are pulled out to the pulled-out position B, the rear end thereof may be substantially the same height as the rear surface of the bulging portion 80a. The same applies to the latch means 81 for the liquid crystal control board case 66 and the latch means 82 for the main control board case 67 .

As shown in FIG. 2, the back cover 85 has a large number of heat radiation holes (cover heat radiation holes) 185 formed at predetermined intervals in the vertical and horizontal directions. Each heat radiation hole 185 is formed in an elongated shape elongated in the left-right direction, while the heat radiation holes 102, 102 of the effect control board case 65 and the liquid crystal control board case 66 are round holes. The opening width of the heat radiation hole 185 in the vertical direction is larger than the diameter of the heat radiation holes 102 , 102 , and the opening amount of the heat radiation hole 185 is larger than the heat radiation holes 102 , 102 .

The heat dissipation hole 185 of the back cover 85 corresponds to the back side of the effect control board case 65 and the liquid crystal control board case 66, and is arranged so as to exclude substantially the entire lower side from the lower back side of the effect control board case 65 and the liquid crystal control board case 66. , is located in the upper region 186 of the back cover 85 .

A heat dissipation hole area (cover heat dissipation hole area) w1 in which a heat dissipation hole 185 is formed in the back cover 85 and a heat dissipation hole area (case heat dissipation hole area) w2 in which a heat dissipation hole 102 is formed in the effect control board case 65 are shown in FIG. , the upper end side of the heat dissipation hole region w1 of the back cover 85 is located above the upper end side of the heat dissipation hole region w2 of the effect control board case 65, and the heat dissipation of the effect control board case 65 The lower end side of the hole region w2 is located below the lower end side of the heat radiation hole region w1 of the back cover 85. As shown in FIG.

By providing the heat radiation hole region w1 in the upper region 186 of the back cover 85 and increasing the opening amount of the heat radiation hole 185 in the heat radiation hole region w1, the internal substrates 86 to 88, 95, 98 can be Heat from the electronic component 137, the liquid crystal display means 22, etc. can be easily and quickly dissipated.

It should be noted that the radiation hole area w1 of the back cover 85 and the radiation hole area w2 of the effect control board case 65 should at least partially overlap. is preferably located above the heat radiation hole region w2. When the radiation hole area w1 of the back cover 85 is located above the radiation hole area w2 of the effect control board case 65, the radiation hole areas w1 and w2 may not overlap at all. The same applies to the relationship between the heat radiation hole 185 of the back cover 85 and the heat radiation hole 103 of the liquid crystal control board case 66 side.

In the back cover 85, a harness 163 connecting the effect control board 87 and the main control board 86, a harness 164 connecting the effect control board 87 and the liquid crystal control board 88, a power supply board 95 and each board 86 to 88, 95, 98, the harness 166 connecting the main control board 86 and the payout control board 98, and the like are non-porous regions 187 having no heat dissipation holes. The lower side of the back cover 85 is open.

Therefore, the bottom side of the rear cover 85 is a non-porous region 187 having no heat radiation holes 185, whereas the upper region 186 has a large number of heat radiation holes 185 and the bottom side of the back cover 85 is open. , an upward flow in which hot air rises in the rear cover 85 is easily generated, and heat dissipation from the heat dissipation holes 185 of the rear cover 85 can be improved.

In addition, since the back cover 85 covers the back side of the places where there are many harnesses 163, 164, 166 connecting the substrate cases 65 to 67, 69, 70 with the imperforate region 187, the back side of the pachinko machine 1 as a whole is covered. It can be finished cleanly. Although the non-porous region 187 is provided on the lower side of the back cover 85, it is also possible to disperse and disperse heat radiation holes in a smaller number on the lower side of the back cover 85 than on the upper side.

The rear cover 85 has a non-porous area 187 in substantially the entire area from the bottom to the bottom of the back side of the effect control board case 65 and the liquid crystal control board case 66 . Therefore, the position overlapping with the main control board case 67, the position overlapping with the wiring path of the harness 163, 164, 166 connecting the main control board 86 and the sub board such as the production control board 87, the main control board 86 and the production control board 87 etc. All of the positions overlapping the respective connectors of the harnesses 163, 164, 166 connecting the sub-boards correspond to the non-hole regions 187 of the back cover 85, and the heat radiation holes 185 are provided in the portions of the back cover 85. Not done. Further, the rear cover 85 is not provided with the heat radiation hole 185 at a position overlapping between the main control plate case 67 and the performance control board case (sub-board case) 65 .

The back cover 85 is provided with a viewing window 134 corresponding to the history seal 132 of the main control board case 67, and the back cover 85 covers almost the entire main control board case 67 except for the part corresponding to the history seal 132. ing. Therefore, even when the back cover 85 is closed, it is possible to easily check the items written on the history seal 132 through the viewing window 134 . Note that the rear cover 85 may cover at least the upper portion from the main control board case 67 .

As shown in FIG. 30, the heat dissipation holes 102 of the effect control board case 65 are small diameter round holes, and the small diameter round heat dissipation holes 102 are vertically spaced at substantially equal pitches (first predetermined intervals) p1. , are arranged in a zigzag manner in the left-right direction at substantially equal pitches (first predetermined intervals) p2. Incidentally, the heat radiation holes 102 of the effect control board case 65 may have a shape other than a round hole, and may be arranged vertically and horizontally at substantially equal pitches p1 and p2.

On the other hand, as shown in FIG. 30, the heat radiation holes 185 of the back cover 85 have a vertical width substantially corresponding to the two rows of heat radiation holes 102 of the effect control board case 65, and several left and right of the effect control board case 65 ( 5 to 7) of heat dissipation holes 102, and has substantially equal pitch (second predetermined interval) p3 in the vertical direction and substantially equal pitch in the horizontal direction (second predetermined interval) p3. 2 predetermined intervals) p4. The pitches p1 and p2 of the heat dissipation holes 102 and the pitches p3 and p4 of the heat dissipation holes 185 are different. It's getting bigger.

Therefore, between the heat radiation hole 102 on the effect control board case 65 side and the heat radiation hole 185 on the back cover 85 side, there is a portion where they overlap and a portion where they do not overlap. 185 can be overlapped differently. As a result, it is possible to prevent as much as possible a fraudulent act by inserting a fraudulent member into the performance control board case 65 through the heat dissipation holes 102 and 185. - 特許庁

A control chip 189 such as a control IC is attached to the effect control board 87 in the effect control board case 65, as shown in FIGS. The control chip 189 includes a main body portion 189a having a rectangular or other flat shape, and terminal groups 189b arranged on both sides of the main body portion 189a. arrayed.

This control chip 189 is attached to the effect control board 87 so that the terminal group 189b is removed from the overlapping portion between the heat radiation hole 102 of the effect control board case 65 and the heat radiation hole 185 of the back cover 85. That is, at least the arrangement areas x1 and x2 of the terminal group 189b of the control chip 189 are arranged at positions separated from the overlapping portions of the effect control board case 65 and the heat radiation holes 102 and 185 of the back cover 85.

In this way, by removing the terminal groups 189b on both sides of the control chip 189 from the overlapping portions of the effect control board case 65 and the heat radiation holes 102 and 185 of the back cover 85, the heat radiation from the back side of the back cover 85 through the heat radiation holes 185 It is possible to prevent as much as possible fraudulent acts such as inserting an illegal member and tampering with a part of the terminal group 189b. Also, since the terminal group 189b of the control chip 189 can be removed from the overlapping portion of the heat radiation holes 102 and 185 of the effect control board case 65 and the back cover 85, the arrangement position of the control chip 189 on the effect control board 87 can also be selected. It can be done relatively easily.

In the case of the control chip 189 that poses a problem of unauthorized manipulation of the main body 189a, the entire control chip 189, including the main body 189a and the terminal group 189b, is located inside the effect control board case 65 and the heat dissipation holes 102 and 185 of the back cover 85. You may arrange|position so that it may separate from an overlapping part. Of the body portion 189a and the terminal group 189b, the control chip 189 may be arranged so that at least the terminal group 189b is separated from the portion where the heat dissipation holes 102 and 185 overlap.

In this embodiment, the overlapping portions of the heat radiation holes 102 and 185 of the effect control board case 65 and the back cover 85 are illustrated. The same applies to the overlapping portions of the heat radiation holes 103 and 185.

If the main control board case 67 has a heat radiation hole 104 and the back cover 85 has a heat radiation hole 185 corresponding to the arrangement area of the heat radiation hole 104, the power supply board case 69 has a heat radiation hole 185 corresponding to the arrangement area of the heat radiation hole 105. When the back cover 85 has the heat radiation holes 185 , the same can be implemented even when the back cover 85 has the heat radiation holes 185 corresponding to the arrangement areas of the heat radiation holes 106 of the payout control board case 70 . Furthermore, in addition to the control chip 189, the same can be applied to various electronic components 137 that pose a problem of unauthorized manipulation.

Figures 32-35 illustrate a second embodiment of the invention. The back cover 85 of this embodiment, as shown in FIG. A pair of upper and lower hinges 167 arranged near the dispensing means 40 side and a pair of upper and lower latch means 168 arranged on the opposite side are attached to the rear side of the front frame 3 so as to be openable and detachable.

The back cover 85 has a vertically long shape, and on the back side of the back cover 85, there are a large number of heat radiation holes 185 in the vertical and horizontal directions in the upper range from the lower end side of the effect control board case 65 and the liquid crystal control board case 66. is formed.

As shown in FIGS. 32 to 34, the heat radiation hole 185 is formed in an elongated hole shape in the vertical direction along the longitudinal direction of the back cover 85. The heat radiation hole 185 includes the effect control board case 65, the liquid crystal There are a first cover heat dissipation hole 185a that overlaps the heat dissipation holes 102 and 103 of the control board case 66, and a second cover heat dissipation hole 185b that does not overlap the heat dissipation holes 102 and 103 of the effect control board case 65 and the liquid crystal control board case 66.

The first cover heat radiation hole 185a formed on the back side of the back cover 85 is located above and below the heat radiation hole region w2 in which the heat radiation holes 102 and 103 are formed on the back side of the effect control board case 65 and the liquid crystal control board case 66. is arranged straddling the heat dissipation hole region w1 that spreads to the . The lower end side of the heat radiation hole region w1 of the first cover heat radiation hole 185a may be substantially the same as the lower end side of the heat radiation hole region w2 of the heat radiation holes 102 and 103, or may be arranged above the lower end of the heat radiation hole region w2. may

In the heat radiation hole region w1, a plurality of heat radiation hole rows, in which a plurality of first cover heat radiation holes 185a are arranged in a line in the vertical direction at substantially equal pitches, are arranged in a plurality of rows at substantially equal pitches in the left and right direction. The rows of heat radiation holes are vertically offset by approximately half a pitch. Accordingly, the first cover heat radiation holes 185a are arranged in a zigzag pattern in the vertical direction on the rear surface side of the rear cover 85. As shown in FIG.

The second cover heat dissipation hole 185b is formed in a long hole shape above the effect control board case 65 and the liquid crystal control board case 66 and straddling the back side and the top side of the back cover 85 . The pitch in the left-right direction of the second cover heat radiation holes 185b is substantially the same as that of the first cover heat radiation holes 185a, but may be larger or smaller than the pitch of the first cover heat radiation holes 185a. .

The opening width y1 of the first cover heat dissipation hole 185a in the left-right direction and the opening width y2 of the second cover heat dissipation hole 185b in the left-right direction are larger than the opening width y2 of the second cover heat dissipation hole 185b positioned above. On the other hand, the opening width y1 of the first cover heat radiation hole 185a positioned below it is smaller. The diameters (opening widths in the horizontal direction) of the heat radiation holes 102 and 103 of the effect control board case 65 and the liquid crystal control board case 66 are substantially the same as or larger than the opening width y1 of the first cover heat radiation hole 185a. It's getting smaller.

The second cover heat radiation hole 185b has its lower end located on a straight line in the horizontal direction in the vicinity of the upper side of the effect control board case 65 and the liquid crystal control board case 66, and is formed across from there to the upper surface side. On the other hand, since the upper surface side of the back cover 85 is inclined along the bottom walls 38a and 39a of the ball tank 38 and the tank rail 39, the second cover 85 is inclined from the upper side of the ball tank 38 and the tank rail 39 to the lower side. The vertical length of the back side of the heat radiation hole 185b is gradually shortened.

The opening area of the second cover heat radiation hole 185b is larger than the entire first cover heat radiation hole 185a, but only the portion of the second cover heat radiation hole 185b that has a large vertical length on the back side. The opening amount of may be increased. Also, the opening amount of an arbitrary portion may be increased.

In this way, the heat in the back cover 85 can be quickly radiated to the outside through the first cover heat radiation hole 185a on the back side and the second cover heat radiation hole 185b on the top side. At this time, by increasing the lateral width y2 of the second cover heat radiation hole 185b, the heat in the back cover 85 can be efficiently radiated upward. Even if the lateral width y2 of the second cover heat radiation hole 185b is increased, it does not correspond to the heat radiation holes 102 and 103 of the effect control board case 65 and the liquid crystal control board case 66. There is no possibility that the control board 87 and the liquid crystal control board 88 will be tampered with.

On the other hand, the first cover heat radiation hole 185a arranged on the back side of the back cover 85 corresponding to the heat radiation holes 102 and 103 of the effect control board case 65 and the liquid crystal control board case 66 is located closer to the second cover heat radiation hole 185b. Since the left-right width y1 is small, the effect control board 87 and the liquid crystal control board 88 are tampered with through the heat radiation holes 102 and 103 of the effect control board case 65 and the liquid crystal control board case 66 from the first cover heat radiation hole 185a. can also be reduced.

The effect control board 87 is provided with a volume control switch 128 as shown in FIGS. The volume control switch 128 has a rotary operation type operation portion 128a. The operating portion 128a of the volume control switch 128 protrudes rearward from the concave portion 100b on the back side of the effect control board case 65 as in the case of the first embodiment, but is covered with the back cover 85 from the back side.

The operation portion 128a of the volume control switch 128 is arranged to face the first cover heat radiation hole 185a on the back side of the back cover 85 in the front-rear direction. Adjustments can be made by inserting an operating tool such as a screwdriver. Therefore, it is not necessary to open the back cover 85 every time the operating portion 128a of the volume adjustment switch 128 is turned to adjust the volume, and the adjustment can be performed with the back cover 85 closed.

As shown in FIG. 32, the main control board 86 is provided with game information clearing means 162 such as a RAM clear switch on its lower side. This game information clearing means 162 has a push-button type operating portion 162a. The operating portion 162a protrudes rearward from the main control board case 67 below the lower end of the back cover 85. not covered.

The game information clearing means 162 such as the RAM clear switch can be provided on the main control board 86 inside the main control board case 67 in this way. Further, by making the rear side of the game information clearing means 162 open, there is no need to open the back cover 85 when operating the game information clearing means 162, and the back cover 85 can be easily and quickly operated with the back cover 85 closed. can be done.

A history seal 132 having a management number marking portion 135 and three opening history marking portions 136 is attached to the back side of the second case body 94 of the main control board case 67 . The history sticker 132 is covered from behind with a transparent back cover 85 , and the written items of the management number marking part 135 and the unsealing history marking part 136 are visible through the back cover 85 .

36 and 37 illustrate a third embodiment of the invention. A connector 111 and a slide-type volume adjustment switch 128 are provided in the vicinity of the outer peripheral side of the effect control board 87 so as to correspond to the stepped portion 112 of the effect control board case 65 . The volume control switch 128 has a slide operation portion 128b that can be slid in the horizontal direction. The slide operation part 128b protrudes rearward from the opening of the stepped part 112 of the effect control board case 65, but its rear side is covered with the back cover 85. can be operated in the left-right direction by inserting the operating tool.

Therefore, even when the slide type volume control switch 128 is used, by arranging the slide operation part 128b facing the heat dissipation hole 185 of the back cover 85, the slide operation part 128b can be moved left and right while the back cover 85 is closed. can be operated. The slide type volume control switch 128 may be provided so that the slide operation portion 128b is operated in the vertical direction.

Figures 38-41 illustrate a fourth embodiment of the invention. In this embodiment, as shown in FIGS. 38 and 39, the second case body 97 of the power supply board case 69 has a low bulge portion 97b which bulges rearward and has a low height, and a lower bulge portion 97b. A high bulging portion 97c having a high bulging height is provided, and the payout control board case 70 is detachably mounted on the back side of the low bulging portion 97b avoiding the high bulging portion 97c.

On the power supply board 95 in the power supply board case 69, small electronic components 190a such as small capacitors and small radiators are attached to the portion corresponding to the low swelling portion 97b, and to the portion corresponding to the high swelling portion 97c. is equipped with tall and large electronic components 190b such as an electrolytic capacitor and a large radiator.

In this way, the power supply substrate case 69 is provided with the low bulge portion 97b and the high bulge portion 97c, and the power supply substrate 95 therein has the small electronic component 190a corresponding to the low bulge portion 97b and the high bulge portion 97c. By arranging the large electronic components 190b on each side, the size of the power supply board case 69 in the front-rear direction can be reduced. In addition, by arranging the payout control board case 70 on the back side of the low bulge part 97b avoiding the high bulge part 97c of the power board case 69, the longitudinal dimension of the peripheral part between the power board case 69 and the payout control board case 70 is reduced. can be made smaller.

Further, the second case body 97 of the power supply board case 69 is provided with heat radiation holes 191b and 191c on the upper surface side including the low swelling portion 97b side and the high swelling portion 97c side, the lower surface side and the side surface side, respectively. Regarding the heat radiation holes 191b and 191c on the low swelling portion 97b side and the high swelling portion 97c side, the heat radiation hole 191b on the low swelling portion 97b side has a larger dimension in the front-rear direction, and the opening amount per hole is also larger. However, the heat dissipation holes 191b and 191c may be substantially the same. Conversely, the dimension in the front-rear direction of the heat radiation hole 191c on the side of the high swelling portion 97c may be increased to increase the amount of opening per hole. A heat radiation hole 191a may be provided on the rear surface side of the low swelling portion 97b.

Further, in the second case body 97 of the power supply board case 69, a plurality of connectors 110 are arranged in the left-right direction on the upper stepped portion 115 of the low swelling portion 97b, and the connectors 110 are arranged on the side opposite to the low swelling portion 97b with respect to the high swelling portion 97c. An AC connector 140, a power switch 141, a connector 110, and the like are arranged vertically on the stepped portion. The AC connector 140, the power switch 141, etc. are located on the opposite side of the low swelling portion 97b on which the dispensing control board case 70 is arranged on the back side. 140, the power switch 141 and the like are open.

Therefore, after the back cover 85 is opened, the AC connector 140 can be easily inserted and removed from the back side, and the power cord 144 connected to the AC connector 140 can be pulled to an extreme position to avoid pressing other members. There is an advantage that wiring can be easily performed without the need to bend the wire. Also, the power switch 141 can be easily operated from the back side after the back cover 85 is opened.

As shown in FIG. 40, on the back side of the high bulge portion 97c of the power supply board case 69, there is a warning display section 152 that displays warning information such as "beware of high temperature burns" at a position away from the dispensing control board case 70. is provided. This warning display portion 152 is directly molded in an uneven shape on the back side of the second case body 97 . Note that a sticker or the like displaying the alerting information may be attached to the alerting display section 152 .

The large electronic component 190b mounted on the power supply board 95 corresponding to the high swelling part 97c of the power supply board case 69 generally generates a large amount of heat, so the temperature of the high swelling part 97c is lower than that of the low swelling part 97b. It is likely to reach a high temperature, and there is a risk of being burned if the high swelling portion 97c is touched by mistake.

Therefore, by providing a warning display unit 152 on the rear surface of the high bulging portion 97c, which tends to get hot, and displaying the warning information such as "Beware of high temperature burns" there, the warning information can be effectively sent to workers and others. can be transmitted to When using a seal with an adhesive applied to the back surface, there is a problem that the adhesive melts due to the heat of the high swelling portion 97c. Therefore, such problems do not occur. In addition, since the payout control board case 70 can be arranged avoiding the high bulge portion 97c which tends to become hot, the payout control board 98 in the payout control board case 70 can be prevented from being affected by heat.

As shown in FIG. 40, on the rear surface of the low swelling portion 97b of the power supply board case 69, there is a warning display section 192 in an overlapping area 151 with the payout control board case 70. Warning information such as "Never open it." The power supply board case 69 has two attention calling display portions 152 and 192, but the attention calling display portion 152 on the side of the high swelling portion 97c displays caution information to be called regardless of whether the payout control board case 70 is attached or detached. In addition, attention information to be called when the payout control board case 70 is removed is displayed on the attention call display portion 192 on the side of the low swelling portion 97b.

As shown in FIGS. 38 and 41, the payout control board case 70 has a lateral length corresponding to the back side of the low swelling portion 97b of the power board case 69, and the first engaging means arranged on one end side thereof. 193 and a second engaging means 194 disposed on the other end side, the power supply board case 69 is detachably attached so as to overlap the rear surface side of the power supply board case 69 . The first engaging means 193 is formed integrally with an engaging portion 193a on the payout control board case 70 side and on the back side of the low bulging portion 97b in the vicinity of the high bulging portion 97c, and the engaging portion 193a is detachably engaged with the engaging portion 193a. 193b. The second engaging means 194 has an engaging claw 194a projecting integrally from the back side of the low bulging portion 97b, and this engaging claw 194a engages the payout control board case 70 in a detachable manner. there is

When the payout control board case 70 is attached to the power supply board case 69, after the engaging portion 193a of the first engaging means 193 is engaged with the engaged portion 193b, the first engaging means 193 side becomes the fulcrum. While rotating the payout control board case 70 to the back side of the low swelling portion 97 b of the power board case 69 , the other end is engaged with the engaging claw 194 a of the second engaging means 194 . As a result, the dispensing control board case 70 can be attached to the back side of the power supply board case 69 by the first engaging means 193 and the second engaging means 194 .

When the payout control board case 70 is removed, the engaging claw 194a of the second engaging means 194 is removed from the payout control board case 70, and the engaging portion 193a of the first engaging means 193 is disengaged from the engaged portion 193b. By removing it, the dispensing control board case 70 can be easily removed.

By arranging the first engaging means 193 on the side of the high swelling portion 97c and the second engaging means 194 on the opposite side in this way, even if the high swelling portion 97c is in a high temperature state, a burn or the like can occur. The dispensing control board case 70 can be attached and detached easily and safely.

The payout control board 98 of the payout control board case 70 is provided with a push-button RAM clear/error release switch (predetermined operation means) 195 . The operating portion 195a of the RAM clear/error canceling switch 195 is operably exposed on the back surface of the payout control board case 70, and the operating portion 195a can be arbitrarily operated from the back side of the payout control board case 70. . On the other hand, on the rear surface of the payout control board case 70, a position labeling portion 196 such as "RAM clear/error cancel switch" indicating the position of the RAM clear/error cancel switch 195 is provided. Other configurations are the same as in each embodiment.

Therefore, the position of the RAM clear/error cancel switch 195 can be seen at a glance from the notation information of the position notation section 196, so that the RAM can be cleared and the error can be canceled quickly.

Figures 42-46 illustrate a fifth embodiment of the invention. In this embodiment, as shown in FIG. 42, the back cover 85 has one end pivotally supported on the back side of the front frame 3 by a pair of upper and lower hinges 167, and the upper part of the other end is secured by locking means 198. The lower parts on the other end side are detachably fixed by screw-type fixing means 199 .

As shown in FIG. 44, the engaging means 198 extends from an engaging recess 198a formed in the side wall portion 17 of the front frame 3 and the other end side of the back cover 85 to the outer front side of the side wall portion 17 of the front frame 3. A bending piece 198b that bends, an engaging projection 198c that is formed on the bending piece 198b and engages releasably with the engaging recess 198a, and the engaging projection 198c bends in a direction away from the engaging recess 198a. A detachment operation portion 198d for operating the piece 198b is provided.

As shown in FIGS. 44, 45, and 46, the screw-type fixing means 199 is formed in a screw hole 199b formed in a mounting portion 199a of the side wall portion 17 of the front frame 3 and on the mounting portion 199c side of the back cover 85. and a mounting screw 199d screwed into the screw hole 199b, and the rear cover 85 is fixed to the side wall portion 17 of the front frame 3 by screwing the mounting screw 199d into the screw hole 199b .

The mounting screw 199d is rotatably inserted into the flexible synthetic resin connecting plate 200 so as not to come off. It has an operation part 199e. The connecting plate 200 is band-shaped, and the engaging portion 200a on the base side thereof is inserted through and engaged with the through hole 200b of the back cover 85 . At the tip of the attached portion 199c, an opening operation portion 199f is provided for operating the back cover 85 around the hinge 167 in the opening direction after the fixation by the fixing means 199 is released.

The other end side of the rear cover 85 may be detachably fixed to the side wall portion 17 of the front frame 3 by the locking means 198 on the upper side and the screw-type fixing means 199 on the lower side. .

FIG. 47 illustrates a sixth embodiment of the invention. The number of opening history marking portions 160 on the back side of the dispensing control board case 70 may correspond to the maximum number of times the dispensing control board case 70 can be opened.

For example, when the dispensing control board case 70 has four sealing means 130, the dispensing control board case 70 can be opened normally up to three times. As shown in FIG. 47(a), the number of portions 160 may be three corresponding to the maximum number of openings.

When the number of the sealing means 130 of the payout control board case 70 is two, the payout control board case 70 can be opened normally up to once. The number of opening history marking portions 160 on the back side of the substrate case 70 may be one corresponding to the maximum number of times of opening. Note that the unsealing history marking section 160 may be provided in the payout control board case 70 via the history seal 159 or may be provided directly in the payout control board case 70 .

Similarly to the opening history description portion 136 of the main control board case 67, the opening history description portion 160 may be divided into an opener description portion and a date description portion. Both the name of the person who opened the package and the date of opening may be entered in the notation section 160 . When both the name of the person who opened the file and the date of opening are entered in the one-line opening history notation section 160, the first half of the opening history notation section 160 corresponds to the first half of the opening history notation section 160. If the characters of "opening date" are indicated above the corresponding to , the items to be indicated in the opening history indicating section 160 can be unified. Other configurations are the same as those of the first embodiment.

In this way, in the case of the payout control board case 70, it is possible to open one or more times, and it is sufficient that it can be opened up to a predetermined maximum number of times. good.

Figures 48 and 49 illustrate a seventh embodiment of the invention. When the attached portion 170 of the rear cover 85 is brought into contact with the attaching portion 202 on the front frame 3 side and attached to the attaching portion 202 on the front frame 3 side by the latch means 169, the attachment portion 170 is attached to the attaching portion 202 on the side of the front frame 3 as shown in FIG. ) to (c), the latch means 169 and the attached portion 170 may be arranged near the corners of the back cover 85, or as shown in FIGS. 49(a) to (c), the back cover The latch means 169 and the attached portion 170 may be arranged in the intermediate portion of the outer peripheral portion of 85 .

In the case of FIGS. 47(a) to (c), two of the four sides on the outer peripheral side of the latch means 169 are open, and the back cover 85 bulges through the rising portions 170a on the other two sides. A portion 85a is formed. In this case, an operation space necessary for pinching the operation body 178 is provided between the rising portion 170a on one side and the operation body 178. As shown in FIG.

In the case of FIGS. 49(a) to 49(c), one side of the four outer peripheral sides of the latch means 169 is open, and the back cover 85 bulges through the rising portions 170a on the other three sides. A portion 85a is formed. In this case, an operation space necessary for pinching the operating body 178 is provided between the two opposing rising portions 170 a and the operating body 178 . The rising portion 170a and the bulging portion 85a of the rear cover 85 constitute a peripheral member, which is sufficiently larger than the operating body 178 of the latch means 169 protrudes. Also, the rising portion 170a is inclined so as to separate from the operation body 178 toward the rear.

In this way, even if there is a peripheral member sufficiently higher than the operation body 178 around the latch means 169, by securing a predetermined operation space between the peripheral member and the operation body 178, the latch means 169 can be operated easily. Therefore, the latch means 169 can be used even when attaching the back cover 85 or other items that have a large gap between the attached portion 170 and the swelling portion 85a.

FIG. 50 illustrates an eighth embodiment of the invention. The performance control board case 65 may be provided with the attached portion 119 and the latch means 169 in the vicinity of the coupling means 204 that couples the first case body 89 and the second case body 90 . The coupling means 204 is screwed from the mounting portion 205 of the first case body 89 , the mounting portion 206 of the second case body 90 , and the mounting portion 205 of the first case body 89 from the mounting portion 206 side of the second case body 90 . and a screw 207 for detachably fixing both case bodies 89 and 90 together.

The mounting portion 206 of the second case body 90 is integrally provided with an outer peripheral wall 206a surrounding the mounting portion 205 of the first case body 89 and an outer peripheral wall 206b surrounding the screw 207 from the outer periphery.

A mounting portion 119 for the latch means 169 is provided on the first case body 89 side. is provided integrally with an outer peripheral wall 119d that surrounds from the outer periphery. The bulging portion 90 a of the second case body 90 constitutes a peripheral member, and its projection amount is sufficiently larger than the projection amount of the operation body 178 of the latch means 169 .

When the latch means 169 is employed for attachment of the performance control board case 65, such a configuration is also possible. Of course, the same applies to the case where the latch means 169 is employed for attaching the opening/closing members other than the performance control board case 65 and the attaching/detaching members. One or both of the outer peripheral walls 119c and 119d on both sides of the attached portion 119 may be omitted.

FIG. 51 illustrates a ninth embodiment of the invention. As shown in FIGS. 51(a) and 51(b), the wiring path member 146 may be configured by arranging a plurality of fasteners 146c at predetermined intervals in the wiring direction. The locking members 146c have a shape such as a hook, and are arranged in a plurality at predetermined positions such as the upper back side of the board mounting base 68 at predetermined intervals.

When the wiring path member 146 having such a configuration is used, when wiring the power cord 144 and the ground wire 145, the power cord 144 and the ground wire 145 are hooked and locked to the locking members 146c. .

Any shape and structure can be used for the locking tool 146c. Alternatively, a holder 146A having a lower receiving portion 146d and an upper holding portion 146e, as shown in FIG. The power cord 144 and the ground wire 145 may be pushed from the rear side and held between them and the pressing portion 146e. Therefore, it is sufficient that the wiring path member 146 can maintain the power cord 144 and the like in a wired state.

FIGS. 52 to 69 illustrate a tenth embodiment of the present invention, and in the pachinko machines of the first to ninth embodiments described above, a setting change that allows selection of one of a plurality of types of settings with different jackpot probabilities. An example with the function installed is shown.

In this embodiment, as shown in FIG. 52, operation means such as game information clearing means 162 and setting change operation means 213 and display means such as performance information display means 214 are connected to main control board 86, for example. . Both the game information clearing means 162 and the setting change operation means 213 are operable from the outside of the main control board case 67, and the performance information display means 214 is visible from the outside of the main control board case 67. They are mounted on the main control board 86, respectively. In this embodiment, the game information clearing means 162, the setting change operation means 213, and the performance information display means 214 are arranged at positions not covered by the back cover 85. FIG.

The game information clearing means 162 is operated when clearing the RAM when the power is turned on, and can be pressed from the outside of the main control board case 67, for example. The setting change operating means 213 is operated when changing settings, etc., and can be switched ON/OFF by inserting a dedicated setting key into a keyhole from the outside of the main control board case 67 and rotating it. It has become. In this embodiment, by operating the setting change operation means 213, etc., the probability of a big win, that is, the probability that the special pattern will be a big win (probability of winning in a random number lottery) is set in multiple stages (here, 6 of settings 1 to 6). stage) can be changed. Details such as setting change will be described later.

The performance information display means 214 constitutes the setting display means 215 and the performance display means 216, and includes, for example, 4-digit 7-segment LEDs 214a to 214d. It is attached to the main control board 86 within the main control board case 67, functions as the setting display means 215 during the first period, and functions as the performance display means 216 during the second period different from the first period. It's becoming

The setting display means 215 displays setting information indicating which of the settings 1 to 6 is selected. For example, "1" to "6" and "1." to "6." can be displayed, for example, on the 7-segment LED 214a of the four-digit performance information display means 214. For example, during the setting change period, setting information before confirmation can be displayed with a dot "1." to "6.", the confirmed setting information can be displayed with "1" to "6" without dots, respectively, during the setting confirmation period.

Performance display means (second display means) 216 displays so-called base values on 7-segment LEDs 214a to 214d. The base value is an example of performance information obtained based on game performance, and is calculated by, for example, "(the number of payouts in a low probability state/the number of outs in a low probability state)×100". Note that the performance display means 216 of the present embodiment can switch between and display two types of base values, a first base value and a second base value. The first base value is the base value in real time during the unit period from a predetermined point until the number of outs reaches a predetermined number (for example, 60000), and the second base value is the cumulative total for the previous unit period. is the base value of Of course, three or more types of base values may be switchable, such as displaying the cumulative base value in the last unit time as the third base value.

As described above, the game information clearing means 162, the setting change operation means 213, and the performance information display means 214 (setting display means 215 and performance display means 216) are all arranged on the rear side of the pachinko machine 1. Therefore, the player cannot operate the game information clearing means 162 and the setting change operation means 213, and the performance information display means 214 ( The display contents of the setting display means 215 and the performance display means 216) cannot be seen either.

Further, in this embodiment, a game information display means (first display means) 211 (FIG. 53) is arranged in a state visible from the front side of the pachinko machine 1, for example, outside the game area 20 on the game board 16. The information display means 211 is provided with normal symbol display means 29, special symbol display means 30, normal reserved number display means 31, special reserved number display means 33, and the like.

The game information display means 211 is a display means directly controlled by the main control board (main control means) 86 without going through the effect control board (effect control means) 87, and is composed of, for example, eight LEDs 212. For example, four LED groups are provided, and a total of 32 LEDs 212 are a plurality of types of display including normal symbol display means 29, special symbol display means 30, normal reserved number display means 31, and special reserved number display means 33 A predetermined number is assigned to each means. In this embodiment, eight LED212 belonging to the first LED group 211a constitutes the special symbol display means 30, for example two out of the eight LED212 belonging to the third LED group 211c are normal reserved number display means 31, others 2 constitute the special reserved number display means 33, and for example two of the eight LEDs 212 belonging to the fourth LED group 211d constitute the normal symbol display means 29. Allocation of other LEDs 212 is omitted.

Further, in this embodiment, the game information display means 211 and the performance information display means 214 are driven and controlled by a dynamic lighting method. As shown in FIG. 54, the LED common port of the main control board 86 can output 1-byte dynamic lighting common C0-C7 scanning signals, and among them, the dynamic lighting common C0-C3 lines are game information. The lines of the dynamic lighting commons C4 to C7 are connected to the LED groups 211a to 211d of the display means 211 and the 7-segment display portions 214a to 214d of the performance information display means 214, respectively.

1-byte dynamic lighting data D10 to D17 and D20 to D27 can be output from the LED data ports 1 and 2 of the main control board 86, respectively, and the lines of the dynamic lighting data D10 to D17 of the LED data port 1 are used for games. The LED groups 211a to 211d of the information display means 211 are connected to the dynamic lighting data D20 to D27 lines of the LED data port 2 to the 7-segment display portions 214a to 214d of the performance information display means 214, respectively.

Next, power-on processing (FIG. 55) executed in the main control board 86 when power is turned on will be described. In this power-on process (FIG. 55), interrupts such as timer interrupts are disabled (S1) so that interrupt processes such as timer interrupts are not executed (S1), and a stack pointer is set (S2). In preparation, the protected and prohibited areas of the RAM are invalidated (S3). Considering the possibility that the power supply was turned off and on during the setting change process described later, the security signal output from the external output terminal is turned off, and the setting information display on the setting display means 215 is also performed. The setting display data is cleared, and the firing permission signal is turned off to prevent the output of the firing permission signal inadvertently (S4).

Subsequently, the first power supply abnormality check process (S5) is executed. In this first power supply abnormality check process, as shown in FIG. 58, after executing the WDT clear process (S51a), it is determined whether or not the power supply abnormality signal is ON (S51). If there is (S51: Yes), the process proceeds to the beginning of the power-on process (S1 in FIG. 55).

If it is determined in the first power supply abnormality check process (S5) that the power supply abnormality signal is not ON (S51 in FIG. 58: No), the process proceeds to S6 in FIG. In this step S6, various initial settings regarding register values and the like in the CPU are made, and the interrupt mode, interrupt priority order, internal hardware random numbers, and the like are set. Then, the sub-board start-up waiting time is set (S7), and until the sub-board start-up waiting time becomes 0 (S11), sub-board start-up waiting time subtraction processing (S8), WDT clearing processing (S9), and similar to S5 The first power supply abnormality check process (S10, FIG. 58) is repeatedly executed.

When the sub board activation waiting time becomes 0 (S11: Yes), a standby screen display command (BA01H) is transmitted to the effect control board 87 (S12). When the effect control board 87 receives the standby screen display command (BA01H), for example, the liquid crystal display means 22 displays "Please
"Wait" is displayed, but the illumination means provided on the front frame 3 or the like is turned off, the sound of BGM or the like is not output from the speaker 46 (muted), and the movable display arranged on the game board 16 or the like is displayed. The effect means is maintained in a state of being stopped at, for example, the origin position (no change).

Then, the determination (S14) of whether or not the power-on signal of the payout control board 98 is ON is performed until the power-on signal is determined to be ON (S14: Yes), until the first power supply abnormality check process (S13 , FIG. 58) are repeatedly performed to confirm that the payout control board 98 has started.

Subsequently, the process (first process) of S15 to S24 shown in FIG. 56 is performed. The processing of S15 to S24 includes a "setting change" that executes the setting change process (S17) and the RAM clear process (S18), and a "setting change" that executes the RAM clear process (S18) without executing the setting change process (S17). "RAM Clear", "Setting Confirmation" for executing the setting confirmation process (S23) and the backup restoration process (S24), "Backup Restore" for executing the backup restoration process (S24) without executing the setting confirmation process (S23), It is carried out in one of five processing modes of "RAM abnormality" for executing the power re-on waiting process (S20).

In addition, of these five types of processing mode, four types other than "RAM abnormality" are the ON/OFF state of the setting change operation means 213, the open/closed state of the front frame 3 (door), and the game information clearing means 162. is selected according to the combination of the ON/OFF states of the . The pachinko machine of this embodiment is equipped with a door opening switch (not shown) capable of detecting whether or not the front frame 3 is open with respect to the outer frame 2. Based on the detection signal of this door opening switch, can determine whether the front frame 3 is open or closed.

The processing of S15 to S24 will be described in detail below according to the source program shown in FIG. 59 while referring to the flow chart of FIG. Note that FIG. 59 shows the source programs of S15 to S24 in the order of storage on the memory. In addition, on the right side of the source program, the processes to be executed and their respective five types of processing modes of "setting change", "RAM clear", "setting check", "backup restore", and "RAM error" are described. are indicated by arrows and numbers on the upper right of the arrows.

In the input port data acquisition process (S15), as shown in FIG. 59, first, data of input port 1 (P_INPT1) is input to the W register (Sa1). In this embodiment, the input signals corresponding to the 0th to 7th bits of the input port 1 (P_INPT1) are as shown in FIG. The ON/OFF signal (door opening signal) of the opening switch is inputted to the fifth bit, and the ON/OFF signal of the game information clearing means 162 is inputted to the sixth bit. In Sa1, the 0th to 7th bit data of its input port 1 (P_INPT1) are input to the 0th to 7th bits of the W register, respectively.

Next, by calculating the logical product (AND) of the value of the W register and the mask data "01100001B", the 0th bit corresponding to the ON/OFF signal of the setting change operation means 213 and the ON/OFF signal of the door opening switch are obtained. Bits other than the 5th bit corresponding to the (door open signal) and the 6th bit corresponding to the ON/OFF signal of the game information clearing means 162 are masked, and the W register is updated to the masked data (Sa2).

As shown in FIG. 61, the 0th bit of the W register is 1 when the setting change operation means 213 is ON, and 0 when it is OFF. It is 1 when it is open and 0 when it is closed. Similarly, the sixth bit is 1 when the game information clearing means 162 is ON and 0 when it is OFF. There are eight types of combinations of the 0th, 5th and 6th bits of the W register as shown in FIG. In the following description, combinations of values w0, w5, and w6 of the 0th, 5th, and 6th bits of the W register are expressed as W(w0, w5, w6) as necessary.

Following the above input port data acquisition process (S15), a setting change branch determination process (S16) is executed. This setting change branch determination process (S16) is for determining whether or not "setting change" is selected as the processing mode. As shown in FIG. and find the difference between them (Sb1). The value obtained by this is when all the 0th, 5th and 6th bits of the W register are 1 (=W(1,1,1)), that is, when the door (front frame 3) is opened and the setting change operation means 213 and the game information clearing means 162 are both ON. If the obtained value (difference) is 0, for example, 1 is set to the zero flag. If the value obtained in Sb1 is 0 (zero flag=1), that is, if W(1, 1, 1), "setting change" is selected as the processing mode, and the next setting change process (S17 ) and the setting change period begins.

In the setting change process (S17), first, BA5AH (setting change command data) is stored in the DE register (Sc1), and the command data is transmitted by the command transmission process (Sc2). When the effect control board 87 receives the setting changing command (BA5AH), for example, the liquid crystal display means 22 displays a message such as "Setting changing" indicating that the setting is being changed, and lights are displayed. The means emits light, for example, in a predetermined setting changing pattern, and a predetermined setting changing sound is output from the speaker 46, but the movable effect means is kept stopped at, for example, the origin position (no change).

Next, a setting process subroutine (M_SETTEI) is executed (Sc3). In this setting process (Sc3), as shown in FIG. 62(a), first, the backup flag is cleared (S60) and the input data creation process (S61) is executed. This input data creation process (S61) acquires the input information of the game information clearing means 162, the setting change operation means 213, etc., and is called from the input management process (S133 in FIG. 64) in the timer interrupt process, for example. It's becoming

Next, set value data is read from the set value work area of the RAM and set as a set work value in, for example, a C register (S62). In this embodiment, any one of settings 1 to 6 can be selected, and for example, any one of 0 to 5 is stored in the setting value work area on the RAM according to which of the settings 1 to 6 is selected. set value data is stored. If the setting work value of the C register is not within the range of 0 to 5 (S63: No), 0, for example, is stored in the C register (set work value) (S64). That is, if the set value data is not within the normal range, 0 corresponding to the set 1 is forcibly set in the C register (setting work value). Of course, the value to be set in the C register (setting work value) is not limited to 0, and may be any value within the normal range (0 to 5).

Subsequently, the first power supply abnormality check process (S65, FIG. 58) is executed, and the security signal is output from the external output terminal (S66). Then, the chattering prevention waiting time is set (S67), and the chattering prevention waiting time subtraction process (S68) is repeatedly executed until the chattering prevention waiting time becomes 0 (S69: Yes). In this embodiment, the processing of S65 to S75 is repeated at high speed until the setting change operation means 213 is turned off (S76: Yes), and each time it is determined whether or not there is a setting change operation, that is, the game information clearing means 162 It is determined whether or not there has been a change from OFF to ON (S71 described later). By providing a chattering prevention waiting time in S67 to S69, erroneous detection due to chattering of the game information clearing means 162 can be prevented.

When the chattering prevention waiting time becomes 0 (S69: Yes), an input data creation process (S70) is executed, and it is determined whether or not a predetermined setting change operation has been performed (S71). In this embodiment, the game information clearing means 162 is also used for the setting change operation, and in S71, when the ON edge of the game information clearing means 162 is detected, it is determined that the setting change operation has been performed. It's becoming In this embodiment, the input data creation process for obtaining the input information of the game information clearing means 162 is executed not only in S70 immediately before S71 but also in S61 immediately after the setting process starts. This is because when the setting process (FIG. 62(a)) is started while the game information clearing means 162 is being pressed down, even if the ON edge of the game information clearing means 162 suddenly rises, is detected as empty in S61 so as not to affect the determination in S71.

Then, on condition that it is determined in S71 that the setting change operation has been performed (S71: Yes), the setting work value updating process (S72 to S74) is executed. That is, the set work value is incremented (S72), and if the set work value after the increment is not within the range of 0 to 5 (S73: No), the set work value is set to 0 (S74).

Next, based on the setting work value, setting display data for designating setting information to be displayed on the setting display means 215 is created and output (S75). The process of S75 will be specifically described according to the source program shown in FIG. 62(b). First, the top address of the setting display data table is set in the HL register (S75a). The setting display data table, as shown in FIG. 62(c), consists of 1-byte display pattern data corresponding to six types of setting information, settings 1-6.

Next, the setting work value (see S62 to S64) stored in the C register is transferred to the A register (S75b), and the HL register value (top address of the setting display data table) is set to the A register value (setting work value) is added (S75c). As a result, the W register stores, for example, "00000110B" for displaying "1" if the set work value is 0, and "01111101B" for displaying "6" if the set work value is 5. set.

Then, the logical sum (OR) of the value of the W register and "10000000B" which is the display pattern data corresponding to ". (dot)" is calculated to update the value of the W register (S75d). As a result, the display pattern data set in the W register becomes any one of "1." to "6." in which ". (dot)" is added to "1" to "6."

Next, the common data "00010000B" for turning on the common C4 (Fig. 54) corresponding to the 7-segment display section 214a is set in the A register (S75e), the value of the A register is set in the LED common port (Fig. 54), The values of the W registers are respectively output to the LED data port 2 (FIG. 54) (S75f). As a result, one of "1." to "6." corresponding to the set work value (any of 0 to 5) is displayed on the setting display means 215, that is, on the 7-segment display section 214a of the performance information display means 214. be done.

In this way, in S75, since the setting display data is created based on the setting work value, the value (for example, any one of 1 to 6) displayed on the setting display means 215 during the setting change period is the setting information at that time. It shows provisional setting information before finalization, not (value in the setting value work area). In addition, in order to clearly indicate this, the setting display means 215 displays "1" to "6" with ". (dot)" added.

The above processing of S65 to S75 is repeatedly executed until the setting change end condition is satisfied (S76: Yes). In this embodiment, when the OFF edge of the setting change operation means 213 is detected, it is determined that the setting change end condition is satisfied. Through the above processing, during the setting change period, the setting work value is cyclically changed within the range of 0 to 5 according to the number of times the game information clearing means 162 is pressed. ” to “6.” are cyclically switched.

If the setting change end condition is satisfied during the setting change period (S76: Yes), the setting change period is ended, and the setting work value of the C register is stored in the setting value work area (S77). As a result, the provisional setting work value changed by the operation of the game information clearing means 162 during the setting change period is determined as the setting value data. Then, the setting display data is cleared to end the display of the setting information by the setting display means 215 (S78), the security signal is turned OFF (S79), and a setting change completion command (BA09H) is sent to the effect control board 87. is transmitted (S80), and the setting process ends. In addition, when the effect control board 87 receives the setting change completion command (BA09H), for example, the liquid crystal display means 22 displays such as "The setting has been changed" indicating that the setting change period has ended. All of the illumination means are turned on, the output of the setting changing sound output from the speaker 46 is terminated, and the movable effect means continues to remain stopped at the origin position (no change).

Thus, in this embodiment, when both the setting change operation means 213 and the game information clearing means 162 are ON when the power is turned on and the door is being opened (when the 0th, 5th and 6th bits of the W register are all 1) ), while referring to the setting information (for example, any of “1.” to “6.”) displayed on the setting display means 215 during the setting change period until the setting change operation means 213 is switched OFF. By pressing the game information clearing means 162, the setting work value can be changed within the range of setting 1 to 6. Then, by switching the setting change operation means 213 to OFF, the provisional setting work value can be changed to the set value. It can be confirmed as data.

Returning to FIGS. 56 and 59, the description continues. After the above setting change process (S17) is completed, RAM clear process (S18) is subsequently executed. In this RAM clearing process (S18), as shown in FIG. 59, first, the address of the command transmission address table when clearing the RAM is set in the HL register (Sd1), and the transmission command table selection process (S18) is performed based on the command transmission address table. Sd2) is executed. As a result, the RAM clear command (BA02H), spec command (F611H), and customer waiting command (BA04H) are sequentially transmitted to the effect control board 87. FIG. When the effect control board 87 receives the RAM clear command (BA02H), for example, the liquid crystal display means 22 displays such as "RAM is being cleared" indicating that the RAM is being cleared, and all the illumination means are lit. Then, although a predetermined RAM clear sound is output from the speaker 46, the movable effect means 67 continues to remain stopped at the origin position (no change). In addition, on the liquid crystal display means 22, for example, after the display such as "RAM is being cleared" is completed, a predetermined pattern mode by the effect patterns 32a to 32c, for example, "7.3.1" (low accuracy screen) is displayed. .

Then, the next address of the set value work is set in the HL register (Sd3), the number of 0 clear processing (here, 256-3) is set in the B register (Sd4), and the 0 clear processing is called (Sd5). ). In this embodiment, a range of 0 to 255 bytes on the RAM is allocated as a work area within the area (internal RAM), and a range of 256 to 511 bytes is allocated as a work area outside the area (outside RAM). , and the head of the internal RAM serves as a set value work area. A predetermined number of bytes from the end of the area RAM is used as a stack area. For example, in Sd5, a return address after a subroutine call is temporarily stored. Therefore, by Sd3 to Sd5, the 253-byte area of the internal RAM excluding the set value work area and the stack area storing the return address after the subroutine call is cleared to zero.

Subsequently, the top address of the initial value setting data table is loaded into the HL register (Sd6), and the data set process is called (Sd7) to set initial values for some data, and then SYSTEM_1200, that is, FIG. (Sd8).

As described above, in the RAM clearing process (S18) at power-on, only the internal RAM is initialized, and the external RAM is not initialized. The out-of-area RAM is an area for mainly storing data relating to the display of the performance display means 216, and stores data such as count values, count values, and display values. The intra-area RAM stores data relating to games other than the performance display means 216 stored in the extra-area RAM. In this way, by dividing the RAM area and not initializing the RAM outside the area during the RAM clearing process at power-on, even if the RAM clearing process is performed, the count value related to the performance display means 216 is displayed. , count values, display values, etc., can be inherited across power outages.

The description is continued by returning to the setting change branch determination process of S16. If it is determined in S16 that at least one of the 0th, 5th, and 6th bits of the W register is not 1 (≠W (1, 1, 1)), that is, if "change setting" is not selected as the processing mode, jumps to SYSTEM_600 in FIG. 59, that is, RAM abnormality determination processing (S19). This RAM abnormality determination process (S19) determines whether or not "RAM abnormality" is selected as the processing mode. As shown in FIG. ). That is, the set value data is obtained from the set value work area of the internal RAM, and the set value data is compared with 6 to obtain the difference therebetween (Se1). In the case of this embodiment, the setting value work area on the RAM should store setting value data of any of 0 to 5 according to which of setting 1 to 6 is selected. If there is no abnormality in the RAM, the difference between the set value data and 6 will be a negative value. Therefore, if the difference is not a negative value (carry flag.noteq.1), it is determined that the RAM is abnormal, and the process jumps to SYSTEM_700, that is, the power re-on waiting process (S20) (Se2).

If the RAM is not abnormal, it is determined whether or not there is a backup abnormality (Se3, Se4). That is, the backup flag and 5AH are compared to obtain the difference therebetween (Se3). The backup flag is set to 5AH at S160 of the second power supply abnormality check process (FIG. 65) to be described later. If the difference is not 0 (zero flag ≠ 1), it is determined that the backup is abnormal, and the next SYSTEM_700, that is, power re-on waiting process (S20) is performed (Se4).

In the power reactivation waiting process (S20), BA07H (power reactivation command data) is first stored in the DE register (Sf1), the command data is transmitted by the command transmission process (Sf2), and the backup flag is cleared ( Sf3). When the effect control board 87 receives the power re-on command (BA07H), for example, the liquid crystal display means 22 displays a message such as "RAM error, please turn on the power again and set the setting to 1". The means is extinguished, no sound such as BGM is output from the speaker 46 (muted), and the movable effect means continues to remain stopped at the origin position (no change).

Then, the first power supply abnormality check process (FIG. 58) is infinitely repeated to wait for the power to be turned on again (Sf4, Sf5). As described above, in this embodiment, in the case of a RAM abnormality or a backup abnormality, the system is configured to forcibly turn on the power again by shifting to the power-on waiting state. In addition, when the power reactivation waiting process (S20) is executed due to the RAM abnormality, if it is not W (1, 1, 1) when the power is reactivated next time, it is determined that the RAM is abnormal again, and the power reactivation waiting process (S20) is performed. S20) is executed. Therefore, when the power is turned on again after waiting for the power to be turned on again, the door (front frame 3) is opened and both the setting change operation means 213 and the game information clearing means 162 are turned on to perform the setting change process. It is necessary to execute (S17) and set the set value to an arbitrary value.

Returning to the RAM abnormality determination process of S19, the description is continued. If it is determined in S19 that there is neither a RAM abnormality nor a backup abnormality, the process proceeds to SYSTEM_800 in FIG. 59, that is, RAM clear branch determination processing (S21). This RAM clear branch determination process (S21) determines whether or not "RAM clear" is selected as the processing mode. As shown in FIG. CF) (Sg1). If the carry flag (the 6th bit of the W register) is 1, that is, if the game information clearing means 162 is ON, "RAM clear" is selected as the processing mode, and SYSTEM_500, that is, the RAM clear processing described above is performed. It jumps to (S18) (Sg2), but if not, it moves to the next SYSTEM_900, that is, the setting confirmation branch determination process (S22).

In the present embodiment, of the eight combinations of the values of the 0th, 5th, and 6th bits of the W register, the RAM clear branch determination process (S21) is executed for all other than W (1, 1, 1). There are seven cases. Among these seven types, "RAM clear" is selected as a processing mode for three types: W(1,0,1), W(0,1,1), and W(0,0,1). Since this is the case (see FIG. 61), it is sufficient to determine only the 6th bit among the 0th, 5th and 6th bits of the W register in S21.

The setting confirmation branch determination process (S22), which is performed when it is determined in S21 that the sixth bit of the W register is not 1, determines whether or not to select the "setting confirmation" processing mode. First, the value of the W register is compared with "00100001B" to find the difference between them (Sh1). The value obtained by this is when the 0th and 5th bits of the W register are 1 and the 6th bit is 0 (=W (1, 1, 0)), that is, the door (front frame 3) is opened and the setting is changed. When the operating means 213 is ON and the game information clearing means 162 is OFF (see FIG. 61). If the obtained value (difference) is 0, for example, 1 is set to the zero flag. If the value obtained in Sh1 is not 0 (zero flag=0), that is, if not W(1, 1, 0), the processing mode of "backup restore" is selected instead of "setting confirmation". (Sh2), skipping the setting confirmation process (S23) and proceeding (jumping) to SYSTEM_1100, that is, the backup restoration process (S24).

In this embodiment, of the eight combinations of the values of the 0th, 5th, and 6th bits of the W register, the setting confirmation branch determination process (S22) is executed only when the 6th bit is 0 for four combinations. is. Of these four types, "setting confirmation" is selected as the processing mode only for W(1,1,0), and for the other W(1,0,0) and W(0). , 1, 0), and W (0, 0, 0), "backup restore" is selected (see FIG. 61).

In the backup recovery process (S24), as shown in FIG. 59, the backup recovery time command transmission process (M_MKINFO) is first called (Sj1). As a result, a power failure recovery display command (BA03H), a special reservation number designation command (B0xxH), a spec command (F611H), and a state designation command (FAxxH to FDxxH) are sequentially transmitted to the effect control board 87, and the pattern is changing. Otherwise, a customer waiting command (BA04H) is transmitted.

Subsequently, the address of the backup flag in the RAM within the area is set in the HL register (Sj2), and the value obtained by subtracting the address of the backup flag from the address of the winning opening error detection timer 3 in the RAM within the area and adding 1. is set in the B register (Sj3), and 0 clear processing is called (Sj4). In this embodiment, the top of the area RAM is the set value work area, and the next is the backup flag work area. It is a related work area. Therefore, the backup flag work area in the intra-area RAM and the subsequent error-related work area are cleared to 0 by Sj2 to Sj4. In this way, even when the backup is restored, only the error-related work area is cleared to 0 so that the error information before the power failure is not carried over.

Returning to the setting confirmation branch determination process (S22), the description continues. In Sh2 of FIG. 59, if the value obtained in Sh1 is 0 (zero flag=1), that is, if W (1, 1, 0), "setting confirmation" is selected as the processing mode, and SYSTEM_1100 (backup Without jumping to the return process (S24)), the process proceeds to the next setting confirmation process S23, and the setting confirmation period starts.

In the setting confirmation process (S23), as shown in FIG. 59, E021H (setting confirmation command data) is first stored in the DE register (Si1), and the command data is transmitted by the command transmission process (Si2). Set value data is obtained from the set value work area of the internal RAM and stored in the C register (Si3). When the effect control board 87 receives the setting confirmation command (E021H), for example, the liquid crystal display means 22 displays "setting confirmation" or the like. Sounds such as BGM are not output (muted), and the movable effect means continues to remain stopped at the origin position (no change).

Subsequently, the processes of Si4 to Si15 are repeatedly executed until the condition of Si7 is satisfied and the process jumps to SYSTEM_1060 (Si16). In the Si4-Si15 loop processing, first, the first power failure check processing (FIG. 58) is executed (Si4), and the data (FIG. 60) of the input port 1 (P_INPT1) is input to the A register (Si5). Then, by calculating the logical product (AND) of the value of the A register and the mask data "00000001B", the bits other than the 0th bit corresponding to the ON/OFF signal of the setting change operation means 213 are masked, and the A register is It is updated to the data after the mask (Si6). As a result, when the setting change operation means 213 is ON (the 0th bit of the input port is 1), the value of the A register becomes "00000001B", and the setting change operation means 213 is OFF (the 0th bit of the input port is 0). ), the value of the A register becomes "00000000B" and 1 is set to the zero flag.

Then, if the zero flag is 1, that is, if the setting change operation means 213 is OFF, the loop processing of Si4 to Si15 is exited to jump to SYSTEM_1060 (Si16). If 213 is ON, the process proceeds to the next Si8 (Si7).

In the subsequent Si8, "00000010B" is input to the A register, and the value of this A register is output to the external output port 2 (P_GAIBU2) (Si9). As a result, a setting confirmation signal is output to the hall computer.

Then, the head address of the setting display data table (FIG. 62(c)) is set in the HL register (Si10), the set value data (see Si3) stored in the C register is transferred to the A register (Si11), The address obtained by adding the value of the A register (setting value data) to the value of the HL register (top address of the setting display data table) (setting value data 0 to 5 in the setting display data table of FIG. 62(c) The display pattern data is read out from the address corresponding to any one of them and set in the W register (Si12). As a result, the W register stores, for example, "00000110B" for displaying "1" if the set value data is 0, and "01111101B" for displaying "6" if the set value data is 5. set.

Next, the common data "00010000B" for turning on the common C4 (Fig. 54) corresponding to the 7-segment display section 214a is set in the A register (Si13), the value of the A register is set in the LED common port (Fig. 54), The values of the W registers are respectively output to the LED data port 2 (FIG. 54) (Si14). As a result, one of "1" to "6" corresponding to the set value data (one of 0 to 5) is displayed on the setting display means 215, that is, on the 7-segment display section 214a of the performance information display means 214. .

In this way, in the setting confirmation process S23, since the setting display data is created based on the setting value data acquired from the setting value work, the values displayed on the setting display means 215 during the setting confirmation period (for example, "1" to Any of "6") is setting information that has been fixed at that time, unlike during the setting change period. Therefore, ". (dot)" is not added to "1" to "6" displayed on the setting display means 215 during the setting confirmation period.

When Si14 ends, it jumps to SYSTEM_1050 and executes the processing after Si4 again. Then, when it is determined in Si7 that the zero flag is 1, that is, the setting change operation means 213 is OFF, the setting confirmation period is terminated, this loop processing is exited, the process jumps to SYSTEM_1060, and the processing from Si16 onwards is executed. . That is, the exclusive OR (XOR) is obtained between the values of the WA register, and the value of the WA register is updated by the obtained value to clear the WA register (Si16). is output to the LED common port (FIG. 54) and the value of the W register is output to the LED data port 2 (FIG. 54) (Si17), thereby stopping the display of the setting information on the setting display means 215. FIG.

Also, by outputting the value of the A register to the external output port 2 (P_GAIBU2) (Si18), the output of the setting confirmation signal is stopped. Then, the value of the E register is incremented (Si19), and the command data is transmitted by command transmission processing (Si20). At the time of execution of Si19, since E021H is set in the DE register (see Si1), by executing the command transmission process (Si20) after incrementing the E register in Si19, the effect control board 87 E022H (setting confirmation end command) is sent. When the effect control board 87 receives the setting confirmation end command (E022H), for example, the display of "setting confirmation" on the liquid crystal display means 22 ends.

Thus, in this embodiment, when the power is turned on, the setting change operating means 213 is ON, the game information clearing means 162 is OFF, and the door is open (W (1, 1, 0), the setting change operating means During the setting confirmation period until the switch 213 is switched off, the setting information (for example, one of 1 to 6) at that time is displayed on the setting display means 215 .

Following the above setting confirmation process (S23), the already explained backup restoration process (S24) is executed.

When the above steps S15 to S24 are completed, the processing shifts to FIG. 57, the CTC (Counter Timer Circuit) is set so that the timer interrupt is executed at, for example, a 4 ms period (S25), and the firing enable signal is set to ON. (S26), and transmits a game start command (BA77H) to the effect control board 87 (S27).

Then, all registers are saved (S28), and after calling and executing the operation confirmation setting process (S29), which is a program outside the area, all registers are restored (S30). In the operation check setting process (S29), as shown in FIG. 63, an operation check flag indicating whether or not the performance display means 216 is in operation check is set to ON (in operation check) (S121). An initial value (for example, a value corresponding to 5 seconds) is set to an operation confirmation timer for measuring time (S122). The operation confirmation flag and operation confirmation timer are stored in the outside RAM. Operation confirmation of the performance display means 216 will be described later.

Subsequently, main loop processing (S31 to S36) is executed. In this main loop processing, interrupts are prohibited (S31), various random numbers are updated (S32), all registers are saved in the stack area (S33), and performance display total division processing (S34) is executed. is restored (S35) and the interrupt is permitted (S36). As a result, the timer interrupt process (second process) is called and executed at intervals of 4 ms, for example.

Here, the performance display aggregate division processing (S34) is for calculating a base value (predetermined information) to be displayed on the performance display means 216, and is a unit from a predetermined time until the number of outs reaches a predetermined number (for example, 60000). During the period, the ``number of payouts in the low probability state'' and the ``number of outs in the low probability state'' in the unit period are counted, and the former is divided by the latter to calculate the first base value. As for the second base value, the final first base value in the previous unit period is used as it is.

Next, timer interrupt processing (FIG. 64) of the main control board 86 will be described. In this timer interrupt process (FIG. 64), first, the second power supply abnormality check process (S131) is executed. In this second power supply abnormality check process, for example, as shown in FIG. 65, first, the power supply abnormality signal transmitted from the power supply board 95 is read twice (S151). Then, it is determined whether or not the levels of the power failure signals read twice match (S152). If the levels do not match (S152: No), the process returns to S151. ), it is determined whether or not the power failure signal is ON, that is, whether the power failure signal is at the "H" level (S153).

If the level of the power failure signal is not "H" level (ON) (S153: No), the backup flag is set to OFF (≠5AH) (S154), and the value of the power failure confirmation counter is cleared (S155). ), the second power supply abnormality check process is terminated.

On the other hand, when the level of the power failure signal is "H" level (ON) (S153: Yes), the value of the power failure confirmation counter is incremented (+1) (S156), and the power failure confirmation counter after the increment is has reached, for example, 2 (S157). If the value of the power supply abnormality confirmation counter is less than 2 (S157: No), the second power supply abnormality check process is ended.

When the value of the power supply abnormality confirmation counter reaches 2 in S157 (S157: Yes), it is determined that the power supply is abnormal, and the data (game information) stored in the RAM is backed up (S158 to S161). . That is, the value of the power supply abnormality confirmation counter is cleared (S158), the firing control signal is set to OFF (S159), and the backup flag is set to 5AH (S160). Then, a checksum is calculated by continuously executing 8-bit addition to the work area of the RAM, and the calculation result (SUM address) is stored as a checksum value in the SUM storage area of the RAM (S161).

After that, a power-off command is transmitted to the effect control board 87 and the like (S162), and the RAM protection is enabled and the prohibited area is disabled (S163). This prohibits data from being written to the RAM in subsequent processing. In addition, after clearing the output data of all the output ports (S164) and prohibiting the timer interrupt by the setting processing for the CTC (S165), the infinite loop processing is repeated while clearing the WDT. Wait for inactivity.

When the above second power supply abnormality check process (S131 in FIG. 64) ends, then timer management process (S132) for managing various timers used for game control, game ball detection means and operation means provided in each winning means Input management processing (S133) for managing information detected by various sensors, etc., setting abnormality check processing (S134) for performing abnormality checks regarding set values, error management processing for monitoring the occurrence of various errors (S135), jackpot judgment random numbers, etc. A random number update process (S136) for updating various random numbers, and a prize ball management process (S137) for managing prize balls such as sending a payout control command to the payout control board 98 are executed.

Further, following the prize ball management process (S137), the normal symbol management process (S138), the normal electric auditors management process (S139), the special symbol management process (S140), and the special electric auditors management process (S141) are performed. Execute.

The normal design management process (S138) manages the fluctuation of the normal design by the normal design display means 29, and based on the detection of the game ball by the normal design starter means 24, the normal random number information such as the hit determination random value is displayed. is acquired, and the normal random number information is stored in a first-in first-out storage area with a predetermined upper limit pending number (for example, 4) as a limit, and the normal symbol display means 29 becomes a state in which variable display is possible and one or more On the condition that the normal random number information is stored (the number of normal reserved numbers is 1 or more), the top hit determination random value is extracted from the queue of the normal random number information, and the hit determination random value is determined in advance. Hit/lose judgment (hit judgment) is performed according to whether or not it matches the hit judgment value, and based on the hit judgment result, the stop design and the fluctuation time after the fluctuation of the normal design are selected, and the normal design The normal pattern is changed by the display means 29 .

In addition, the normal electric accessary product management process (S139) is for managing the normal profit state. When it becomes, it is designed to generate a normal profit state that changes the special symbol starting means 25 to an open state according to a predetermined opening and closing pattern.

The special symbol management process (S140) manages the variation of the special symbol by the special symbol display means 30, and based on the detection of the game ball by the special symbol starting means 25, the special random number information such as the jackpot judgment random value is generated. is acquired, and the special random number information is stored in a first-in first-out storage area with a predetermined upper limit pending number (for example, 4) as a limit, and the special symbol display means 30 becomes a state in which variable display is possible and one or more On the condition that the special random number information is stored (the number of special reservations is 1 or more), the top jackpot determination random value is extracted from the queue of the special random number information, and the jackpot determination random value is predetermined. Judgment of big hit / loss (jackpot judgment) is performed according to whether it matches the big hit judgment value, and based on the big hit judgment result, the change pattern of the stop design and the production design after the change of the special design is selected. Then, the special symbols are changed by the special symbol display means 30. - 特許庁

The special electric accessary product management process (S141) is for managing a jackpot game (special game). When it becomes a mode, a big winning game is generated in which the variable winning means 26 is changed to an open state according to a predetermined opening pattern.

Following the special electric accessary product management process (S141), an external terminal process (S142) and an LED management process (S143) are executed. In the external terminal processing (S142), processing for outputting various information from the external output terminal to an external device such as a hall computer is performed.

Further, the LED management processing (S143) performs light emission management of the LEDs constituting the game information display means 211, performance display means 216 (performance information display means 214), and the like. As described above, in this embodiment, the game information display means 211 and the performance information display means 214 are driven and controlled by the dynamic lighting method.

In the LED management process (S143), as shown in FIG. 66, first, a clear signal is output to the LED common port and the LED data port to clear the ports (S241), and the LED output counter is incremented (S242). Then, common data corresponding to the value of the LED output counter is selected from the LED common output selection table (FIG. 67(a)) (S243), and the common data is output to the LED common port (S244).

In the LED common output selection table of the present embodiment, as shown in FIGS. 67(a) and 54, the first common data that turns on the common C0 and the common C4 and turns on the common C1 and the common C5. Four types of common data are provided: the second common data, the third common data that turns on the common C2 and the common C6, and the fourth common data that turns on the common C3 and the common C7. The first to fourth common data are cyclically selected in that order as the LED output counter increases.

As a result, the lighting target of the game information display means 211 sequentially changes in the order of the LED group 211a→211b→211c→211d→211a→ . The lighting target of the information display means 214) changes sequentially in the order of the 7-segment display portion 214a→214b→214c→214d→214a→ . . .

Subsequently, for the LED output counter, the value of the 5th bit when the lowest bit is the 0th bit is determined (S245), and two LED data output information tables A and B (Fig. 67(b) ))) (S246a, 246b). As a result, the LED data output information table can be switched every 32 interrupts (128 ms).

Here, the LED data output information tables A and B correspond to the LED data port 1 connected to the game information display means 211, and as shown in FIG. First to fourth LED data A0 to A3 and B0 to B3 are provided. That is, the first LED data A0, B0 are LED data of the LED group 211a (special symbol display means 30) of the game information display means 211 corresponding to the common C0, and the second LED data A1, B1 correspond to the common C1. LED data of the LED group 211b of the game information display means 211, and the third LED data A2 and B2 are the LED group 211c of the game information display means 211 corresponding to the common C2 (ordinary reserved number display means 31, special reserved number display means 33, etc.), and the fourth LED data A3, B3 are LED data of the LED group 211d (normal symbol display means 29, etc.) of the game information display means 211 corresponding to the common C3.

When either one of the LED data output information tables A and B is selected (S246a, S246b), the LED data corresponding to the value of the LED output counter is selected from the LED data output information table (S247), and the LED data is converted to the LED data. Output to port 1 (S248), and terminate the LED management process.

By the above processing, the four LED groups 211a to 211d of the game information display means 211 can be turned on while being sequentially switched every 4 ms, and two types of display modes in the same group can be switched every 128 ms.

Returning to the timer interrupt processing in FIG. 64, the description continues. When the LED management process (S143) described above ends, the contents of all registers are saved in the stack area (S144), and then the performance display update process (S145) is executed. This performance display update process (S145) is a process of updating the display of the performance display means 216 based on the first and second base values calculated in the performance display total division process (S34 in FIG. 57).

In the performance display update process (S145), as shown in FIG. 68, first, the stack pointer is saved (S251), and the out-of-area RAM check process (S252) is executed. In the out-of-area RAM check process (S252), for example, as shown in FIG. S261: Yes), the processing of S262 to S264 is executed. That is, the out-of-area RAM is initialized (S262), the operation confirmation flag is set to ON (under operation confirmation) (S263), and an initial value (for example, a value corresponding to 5 seconds) is set to the operation confirmation timer ( S264). As a result, the operation confirmation process is always executed after the initialization of the out-of-area RAM.

After the out-of-area RAM check process (S252 in FIG. 68), for example, performance display means output process (S253) is executed. In this performance display means output process (S253), the data set in the identification display section output buffer and the numerical display section output buffer (predetermined storage area) by the time of the previous interruption are selected by the LED management process (FIG. 66). By outputting to the LED data port 2 (FIG. 54) according to the common (7-segment display section), a predetermined display is performed on the performance display means 216 . The identification display portion output buffer and the numerical display portion output buffer are for storing each display pattern data of the identification display portion and the numerical display portion, and both are provided in the outside RAM. The performance display means output process (S253) may be executed after the operation confirmation process (S255) and the display update process (S256), which will be described later.

Following the performance display means output process (S253), it is determined whether or not the operation check flag is ON (under operation check) (S254). If the operation confirmation process (S255) for confirmation is not ON, the display update process (S256) for updating the display of the performance display means 216 is executed.

By the operation confirmation process (S255), all the 7-segment display units 214a to 214d constituting the performance display means 216 are all blinked at a predetermined cycle such as 0.3 seconds, and an operation confirmation is performed for a predetermined time (here, 5 seconds). . When the operation confirmation ends, the operation confirmation flag is switched to OFF. The operation confirmation timer that counts the duration of the operation confirmation is set to the initial value (5 seconds) when the power is turned on (S122 in FIG. 63). When the power is restored thereafter, the operation check is not resumed from the state before the power failure, but the operation check is performed again from the beginning for 5 seconds.

It should be noted that even during the operation confirmation process described above, the performance display aggregate division process (S34 in FIG. 57) is executed, and at least the count process necessary for calculating the base value is executed. As a result, it is possible to accurately reflect the winning or the ball entering the out during the action check in the base value displayed after the action check. Note that since the base value is not displayed during the operation check, at least the count processing should be performed in the performance display tally division processing during the operation check, but the calculation of the base value may also be performed.

In addition, by the display update processing (S256), the performance display means 216 after all blinking (operation check) is switched to display the first base value and the second base value every five seconds, for example. In the four 7-segment display units 214a to 214d constituting the performance display means 216, for example, the upper two digits of the 7-segment display units 214d and 214c indicate the type of base value (distinction between the first and second display units). The identification display section and the seven-segment display sections 214b and 214a of the lower two digits serve as numerical display sections for displaying numerical values of base values. When displaying the first base value on the numerical display section, for example, "bL." is displayed on the identification display section, and when displaying the second base value on the numerical display section, for example "b6." is displayed. For example, the base value is rounded off to the first decimal place and displayed on the numeric display. If the value after rounding is three digits or more, "99." or the like indicating overflow is displayed on the numeric display.

Note that the performance display means 216 switches the display of a plurality of types of base values (here, the first and second base values) every predetermined time (for example, 5 seconds). Only the performance display means 216 may be operated, or the first and second base values may be switched based on button operation or the like.

After executing the operation confirmation process (S255) or the display update process (S256), the stack pointer is restored (S257), and the performance display update process ends.

When the performance display update process (S145 in FIG. 64) ends, the contents of the saved register are restored (S146), the WDT is cleared (S147), and the timer interrupt process ends.

Although each embodiment of the present invention has been described in detail above, the present invention is not limited to each embodiment, and various modifications can be made without departing from the scope of the invention. Although a pachinko machine is exemplified as a game machine, the present invention can be implemented in various game machines including slot machines as well as pinball game machines such as the pachinko machine 1 and arrange ball machines.

Although the effect control board case 65, the liquid crystal control board case 66, the main control board case 67, the rear cover 85, etc. are illustrated as objects to be detachably attached by the latch means 80 to 82, 168, 169, the power board case 69 and the payout It may be the control board case 70 or the like, or it may be something other than them. Also, objects to be attached by the latch means 80 to 82, 168, 169 may be either opening/closing members configured to be openable/closable or detachable members configured to be detachable. Therefore, it is not limited to the effect control board case 65, the back cover 85, and the like.

The latch means 80 to 82, 168, and 169 may have structures other than those illustrated in the embodiments as long as they include an engaging body 123 and an operating body 124 provided on the engaging body 123 so as to be capable of being pushed and pulled. good. Further, the operating body 124 may be substantially at the same height as the peripheral member at the pushed-in position A, and may protrude from the peripheral member at the pulled-out position B. It may be in a recessed state, and at the pulled-out position B, it may be substantially the same height as the peripheral member.

Around the latch means 80-82, 168, 169, it is sufficient if there is an operation space between the operation body 124 and its peripheral members. Therefore, if there is an operation space around the operation body 124, the peripheral member may be provided around the entire periphery of the operation body 124, or the peripheral member may be provided in a part of the entire periphery of the operation body 124, Other portions may be open. It should be noted that it is preferable to dispose the peripheral member in a part of the periphery of the operating body 124 rather than providing the peripheral member with an operation space around the entire periphery of the operating body 124. , 168 and 169 can be arranged. The peripheral member may be higher than the operating bodies 124 of the latch means 80-82.

Although the volume adjustment switch 128 for adjusting the volume of the speaker 46 for effect sound production is exemplified as production system adjustment means, any production system adjustment means can be similarly implemented. For example, when light emitting means such as LEDs are provided on the front side of the front door 4, center case 23, etc., a light amount adjustment switch for adjusting the light amount of the light emitting means may be used. Alternatively, the sound volume and the amount of light may be adjusted in combination.

A RAM and a RAM clear switch for clearing the game information are typical examples of the game information clearing means, but other means may be used. Also, the RAM and RAM clear switch may be provided on the main control board 86 in addition to the payout control board 98 .

The operating portion 128a of the volume control switch 128, which constitutes the production system adjusting means, may be any of a rotary operation type, a pressing operation type, and a linear sliding operation type. When the operating portion 128a of the volume control switch 128 is made operable through the heat radiation hole 185 of the back cover 85, the heat radiation hole 185 may be formed in the same shape as the heat radiation holes 185 of the other peripheral portions of the back cover 85. A portion of the heat radiation hole 185 corresponding to the operating portion 128a may be provided with an opening larger than the other portions. Also, the heat radiation hole 185 itself corresponding to the operation portion 128a may be made larger than the other surrounding heat radiation holes 185 .

In addition, heat dissipation holes (case heat dissipation holes) 102 and 103 are provided in the effect control board case 65 and the liquid crystal control board case 66 that accommodate the effect control board 87, and the back cover 85 that covers the effect control board case 65 and the liquid crystal control board case 66 dissipates heat. Holes (cover heat dissipation holes) 185 are provided, and the heat dissipation holes 185 include a first cover heat dissipation hole 185a overlapping the heat dissipation holes 102 and 103 and a second cover heat dissipation hole 185b not overlapping the heat dissipation holes 102 and 103. In this case, it is desirable to make the opening width y2 of the second cover heat dissipation hole 185b larger than the opening width y1 of the first cover heat dissipation hole 185a.

For example, if both the first cover heat dissipation hole 185a and the second cover heat dissipation hole 185b are round holes, the diameter (opening width) of the second cover heat dissipation hole 185b is the diameter (opening width) of the first cover heat dissipation hole 185a. It is desirable to make it larger than

When the first cover heat radiation hole 185a and the second cover heat radiation hole 185b are elongated holes in the left-right direction, the vertical opening width of the second cover heat radiation hole 185b is equal to the vertical opening width of the first cover heat radiation hole 185a. It is desirable to make it larger than the opening width of

When the first cover heat radiation hole 185a and the second cover heat radiation hole 185b are long holes in the vertical direction or the left and right direction, the opening area of the second cover heat radiation hole 185b having a large opening width varies depending on the length of the long hole. It may be larger than the small first cover heat radiation hole 185a.

The heat radiation holes 185 of the back cover 85 may be arranged by combining a large number of round holes and a large number of elongated holes. Further, when the elongated heat radiation hole 185 is provided in the rear cover 85, the elongated hole may be provided in the horizontal direction and/or the vertical direction, or may be arranged in an oblique direction. When the heat radiation holes 185 are arranged in an oblique direction, a plurality of heat radiation holes 185 may be arranged in a diagonal direction around the substantially central portion of the back cover 85 .

When the plurality of heat radiation holes 185 are arranged at a first predetermined interval and the plurality of case heat radiation holes 102 and 103 are arranged at a second predetermined interval different from the first predetermined interval, one may be an integral multiple of the other, It may be other than an integer multiple. When the arrangement direction of the cover heat radiation hole 185 and the case heat radiation holes 102 and 103 are substantially the same, the first predetermined interval and the second predetermined interval are different, and the ratio between the first predetermined interval and the second predetermined interval and the arrangement It is preferable that the ratio of the width of the cover heat radiation hole 185 and the width of the case heat radiation holes 102, 103 in the direction is different.

The shape of the heat radiation holes 102 to 106 of the board cases 65 to 67, 69 and 70 and the heat radiation hole 185 of the rear cover 85 are not limited to round holes or elongated holes, and may be changed according to the conditions of the arrangement location. Shapes other than round holes and elongated holes can be arbitrarily adopted.

In the case of the effect control board case 65 and the back cover 85, the relationship between the case heat radiation hole 102 and the cover heat radiation hole 185 is the case heat radiation hole area w2 on the effect control board case 65 side and the case heat radiation hole area w2 on the back cover 85 side. It is a condition that at least a part of the cover heat radiation hole region w1 overlaps. Therefore, in the case of the main control board case 67 and the back cover 85, there is no overlapping relationship between the case heat radiation hole area w2 and the cover heat radiation hole area w1, so this does not apply.

The AC connector 140 of the power supply board 95 is generally inserted/removed in the front-rear direction, but it may be inserted/removed in the horizontal direction or the vertical direction other than the front-rear direction, or may be inserted/removed in the oblique direction. can be

When a plurality of opening history marking portions 136 and 160 are provided, the opening history marking portions 136 and 160 are generally arranged side by side in the vertical direction, but may be arranged side by side in the horizontal direction. The opening history marking portions 136 and 160 may be printed on the history stickers 132 and 159 and attached to the substrate case, or may be printed directly on the substrate case.

When a plurality of opening history marking portions 136 and 160 are arranged with a predetermined gap therebetween, at least part of electronic component 137 may correspond to the gap between opening history marking portions 136 and 160. It is desirable to dispose the terminal side of 137 particularly so as to correspond to the gap between the unsealing history labeling portions 136 and 160 .

Further, when the electronic component 137 can be visually recognized from the gap between the opening history marking portions 136 and 160, not only the terminal of the single electronic component 137 but also the terminals of a plurality of electronic components 137 may be viewed. Also, when a plurality of electronic appliances are visible, they may be of the same kind or different kinds. Further, the plurality of electronic appliances may be connected in either serial connection or parallel connection.

Also, the electronic components on the main control board 86 may be the main control device itself such as a CPU, or may be connected to the main control device. The electronic appliances on the payout control board 98 may be the payout control device itself such as a CPU, or may be connected to the payout control device. If the electronic component 137 is a control element such as a main control device or a dispensing control device, it is desirable to make at least part of the product information such as the product number of the control element itself visible through the gap.

When bundling the power cord 144 and the ground wire 145 , the power cord 144 and the ground wire 145 may be tied together at the bifurcated portion of the power cord 144 . In short, it is sufficient that the bifurcated portion of the power cord 144 is not torn.

It should be noted that it is desirable that the unsealing history notation sections 136 and 160 are opaque in order to enter the name of the person who opened the package, etc., and to facilitate subsequent reading. It may be semi-transparent with some transparency, or semi-transparent with a lower transparency than the peripheral portion of the history sticker 132 .

When arranging electronic component 137 so that at least a part of electronic component 137 corresponds to the gap between opening history marking portions 136 and 160, product information such as the product number of electronic component 137 itself is printed on the back side of electronic component 137. If there is a written portion with written , at least a part of the product information in the written portion may be visible through the gap from the viewpoint of preventing fraudulent acts.

As shown in the tenth embodiment, when a setting change function for changing settings is installed in the main control board 86, the setting change operating means 213, the game information clearing means 162, the setting display means 215 (for example, performance information (at least part of the display means 214) is an example of a setting change function section related to the setting change function.

Of these setting change function units, the setting change operating means 213 and the game information clearing means 162 need to be accessed from the rear side of the gaming machine, so they are exposed outside (rear side) of the main control board case 67. However, it is desirable that the setting display means 215 (performance information display means 214) be housed in the main control board case 67 because the display contents can be visually recognized from the outside. This makes it difficult to access at least the setting display means 215 (performance information display means 214). It is possible to prevent cheating such as displaying the setting value.

Since the setting change function changes the jackpot probability, it is important to be able to easily find traces of cheating. Therefore, electronic components connected to each setting change function unit (for example, when connected in order of main control CPU → electronic component 1 → electronic component 2 → setting change function unit, electronic component 1 and electronic component 2 At least one of them) is desirably arranged at a position that does not overlap front and rear with the management number marking portion, the opening history marking portion, etc. of the main control board case 67 . As a result, when the main control board case 67 is viewed from behind the game machine (when the main control board 86 is viewed through the rear part of the main control board case 67), electronic components connected to each setting change function section can be easily identified. can be confirmed. In that case, it is also possible to adopt various configurations regarding the arrangement of the electronic components that have already been described.

In addition, not limited to the management number display section and the opening history display section, for example, a sticker indicating the number of stages of settable setting values (settings 1 to 6, etc.) and the probability of a big win for each setting is attached to the main control board case 67. It is desirable to have the same configuration in both cases. In this way, there is no particular limitation as to what kind of description is made on the case, but it is desirable that the arrangement relationship between the description section and the electronic component be as described above.

In addition, not only the electronic components connected to each setting change function section, but also the electronic components connected to the performance display means 216 for displaying the base value (not limited to those physically connected, for example, the main control It is preferable that the electronic components 1 and 2 are connected in the order of CPU→electronic component 1→electronic component 2→performance display means 216). As a result, even if a fraudulent act such as rewriting or resetting the base value in the cumulative game is performed due to some kind of dishonesty to the electronic component, it becomes easy to find the trace.

The back cover 85 may be arranged so as to be positioned behind each setting change function section provided in the main control board case 67 . As a result, each setting change function unit cannot be accessed unless the back cover 85 is opened, which is advantageous in terms of suppressing fraud. In addition, while adopting a configuration in which the back cover 85 is positioned on the rear side of the main control board case 67, an opening is provided in a part of the back cover 85 so that each setting change function unit and the back cover 85 do not overlap front to back. , a notch or the like may be provided. As a result, since a part of the main control board case 67 is in front-rear relation with the back cover 85, the main control board case 67 cannot be easily removed unless the back cover 85 is opened. In addition, it is not necessary to open the back cover 85 when a person involved in the hall accesses each setting change function unit to change the setting, and the setting can be changed easily. The rear cover 85 may not be positioned behind the main control board case 67 if only the ease of access for hall personnel to change settings is taken into account.

Further, some of the setting change function units may be arranged at positions that do not overlap the back cover 85 in the front-rear direction, and other function units may be arranged at positions overlapping the back cover 85 in the front-rear direction. . For example, among the setting change function units, the setting display means 215 is arranged in a position overlapping the back cover 85 in the front and back, and the other setting change operation means 213, the game information clear means 162, etc. are arranged in front and behind the back cover 85. They may be placed in non-overlapping positions. As a result, since it is difficult to access the setting display means 215, it is possible to suppress the act of changing the display of the setting information. Easy to access and change settings.

Further, in the case of the setting change operation means 213 which is turned ON/OFF by using a setting key, the keyhole portion may be arranged at a position overlapping the rear cover 85 in the front and rear direction. In this case, the back cover 85 may not be closed while the setting key is inserted into the keyhole. For example, it is conceivable to make the gap between the keyhole portion when the back cover 85 is closed and the back cover 85 on the rear side smaller than the projection height of the setting key when it is inserted into the keyhole portion. . As a result, it is possible to prevent forgetting to pull out the setting key after changing or confirming the setting. Conversely, the configuration may be such that the back cover 85 can be closed even when the setting key is inserted. As a result, even if the back cover 85 is closed while the setting key is left inserted after setting change or setting confirmation, the back cover 85 and the setting key are prevented from being damaged due to contact with the setting key. can.

Further, the back cover 85 may be closed even when the setting key is inserted by arranging the keyhole portion of the setting change operating means 213 at a position that does not overlap the back cover 85 in the front-rear direction. In this case, the head of the setting key inserted into the keyhole may be configured to protrude rearward from the back cover 85 when the back cover 85 is closed. As a result, when the back cover 85 is closed with the setting key left inserted after changing or confirming the setting, the setting key protrudes from the back cover 85, making it easy to notice that the setting key has been forgotten to be removed. There is an advantage.

Among the setting change function units, the combination of those arranged at positions overlapping the rear cover 85 and those arranged at positions not overlapping with the rear cover 85 is arbitrary. When the setting display means 215 is arranged in a position overlapping the back cover 85 in the front and rear direction, at least the portion of the back cover 85 corresponding to the rear side of the setting display means 215 can be set even when the back cover 85 is closed. It should be light transmissive so that the values can be viewed. Also, the heat dissipation holes provided in the back cover 85 may be arranged at positions overlapping the setting display means 215 in the front and rear directions. This improves the visibility when checking the setting value. In addition, among the respective setting change function units, the combination of those arranged at positions overlapping the heat radiation holes of the back cover 85 and those arranged at positions not overlapping the heat radiation holes of the back cover 85 can be arbitrary (all It may be a position that overlaps, or a position that does not overlap at all).

Commands related to setting change functions (hereinafter referred to as setting information commands) such as setting change command (BA5AH), setting change completion command (BA09H), setting confirmation command (E021H), setting confirmation end command (E022H), etc. A harness (hereinafter referred to as a specific harness) for transmission from 86 to the sub-board is desirably wired at a position overlapping the back cover 85 in the front and rear. If the back cover 85 has a plurality of heat radiation holes, it is desirable to wire the specific harness at a position that avoids the heat radiation holes. The "harness" referred to here is composed of a plurality of signal lines that connect the connectors at both ends. It is sufficient that at least a signal line to which a setting information command is transmitted is included among the plurality of signal lines. As a result, it becomes difficult to access the specific harness from the rear side of the gaming machine. It is possible to suppress fraudulent acts such as illegal transmission to the sub-board.

Moreover, the specific harness may be wired at a position that does not overlap the back cover 85 in the front-back direction, or may be wired at a position that overlaps the heat radiation hole of the back cover 85 in the front-back direction. As a result, access to the specific harness from the rear side of the gaming machine is facilitated, and the visibility of the specific harness from the rear side of the gaming machine is enhanced, thereby facilitating visual confirmation. As for the specific harness, access may be made difficult by covering a plurality of signal lines with a specific member such as vinyl. Moreover, even in such a case, fraud can be prevented more strongly by adopting the arrangement described above.

The fact that the setting is being changed or the setting is being checked may be notified by the illumination means (frame/board lamp) controlled by the sub-board, the speaker 46, the liquid crystal display means 22, or the like. In addition, it is also possible to notify that the setting is being changed or that the setting is being checked by a board lamp or the setting display means 215 controlled by the main control board 86 side. Here, the electrical decoration means (frame/board lamp) controlled by the sub-board side includes, for example, movable bodies mounted on the frame side of the game machine, operating means, LEDs provided in other decorative parts, and LEDs installed in various game parts such as movable bodies, starters, attackers, and center cases mounted on the game board side of the machine. On the other hand, the board lamp controlled by the main control board 86 side is the game information display means 211 (FIG. 53) or the like provided on the game board 16 so as to be visible from the front of the game machine.

The game information display means 211 has a board provided with a plurality of (here, 32) LEDs 212, for example, as shown in FIG. assigned. The game information display means 211 directly receives signals from the main control board 86 without going through the sub-control board, and displays a plurality of types of the contents regarding various matters related to the symbol lottery determined by the main control board 86 side. is notified by the light emitting display means. In the tenth embodiment, as a plurality of types of light-emitting display means constituted by the game information display means 211, a normal symbol display means 29, a special symbol display means 30, a normal reserved number display means 31, and a special reserved number display means 33 are provided. Although it was exemplified, it is not limited to this, high probability display means for notifying whether it is a high probability state where the probability of winning a big hit is higher than the normal game state, opening time of the special symbol starting means 25b than the normal game state Open extension/time reduction display means for notifying the open extension state in which the time is longer and/or the time reduction state in which the fluctuation time of special patterns and normal patterns is shortened, and the game ball is fired so that the game ball passes through the right side of the center case 23 It includes at least one of right-handed display means capable of informing right-handed information indicating that, when the player is more advantageous to the player, and round number display means for informing round number information of the jackpot game. It may be configured as Further, when the two first and second special symbols are configured to be variably displayed, first special symbol display means, second special symbol display means, first special reserved number display means, and second special reserved number It may be configured to include display means and the like.

During the setting change and/or setting confirmation, the LED 212 constituting the game information display means 211 emits light in a predetermined light emission mode, thereby notifying that the setting is being changed and/or the setting is being confirmed. may be configured. In this case, the light emitting mode of the game information display means 211 may be such that all of the LEDs 212 are lit or blinked, or a part of the plurality of types of light emitting display means described above are lit or blinked. . At this time, it may be possible to identify whether the setting is being changed or the setting is being checked by differentiating the light emission mode between the setting being changed and the setting being checked. By making the light emission mode the same in , it may not be possible to distinguish whether the setting is being changed or the setting is being checked.

In the case of the tenth embodiment, the game cannot be played while the settings are being changed or confirmed (specifically, the shooting operation is impossible, the winning of the start winning opening is invalid, the pattern It is a state in which processing related to fluctuation is not executed, in other words, a state in which timer interrupt processing for performing these processing as a main control program has not yet started), and each light emitting display means of the game information display means 211 Also, the original luminous display cannot be performed. Therefore, even if the game information display means 211 is made to emit light in any light emission mode to inform that setting change and/or setting confirmation, hall officials misunderstand that it is a notification about pattern variation. Although there is a low possibility that the game information display means 211 will emit light during setting change and/or setting confirmation as follows, more effective notification is possible.

That is, when informing that settings are being changed or settings are being checked by lighting/extinguishing/flashing all of the light-emitting display means of the game information display means 211, many LEDs are used to visually indicate light-emitting modes. can be easily verified. In addition, in the case of notifying only by a specific single light emitting display means, if the light emitting part of the light emitting display means is out of order, the notification becomes impossible, but when notifying by using all the light emitting display means does not have that concern.

Also, in the case of notifying that the setting is being changed or the setting is being confirmed by turning on/off/blinking any one of the plurality of types of light emitting display means of the game information display means 211, , the program capacity for light emission control can be reduced compared to the case where all the light emission display means are used for notification. In that case, if the light-emitting display means is composed of a single light-emitting portion (LED), the visibility is lower than when it is composed of a plurality of light-emitting portions. / It is possible to further reduce the program capacity for transmitting the control signal indicating blinking.

In addition, when notifying that settings are being changed or settings are being checked by lighting/extinguishing/blinking a combination of at least two of the plurality of types of light-emitting display means of the game information display means 211, It is possible to make it easier for the player to recognize that the current situation is not during the game but during setting change or setting confirmation. For example, in the case of a pachinko machine in which the second special symbol is variably displayed with priority over the first special symbol, the first special symbol and the second special symbol do not fluctuate at the same time during a game. By simultaneously lighting the light emitting display means corresponding to the first special pattern and the second special pattern during setting change or setting confirmation, it is possible to easily recognize that setting change or setting confirmation is in progress. . Of course, two or more other light-emitting display means may be used to notify that the setting is being changed or the setting is being checked in a light-emitting manner that cannot occur during the game.

In addition, by lighting/extinguishing/blinking at least one of the light emitting display means of the game information display means 211 in a light emitting mode that is impossible during the game, it is possible to notify that the setting is being changed or the setting is being confirmed. good. For example, when the round number display means for notifying the round number information of the jackpot game is not displayed in a blinking state during the game, the setting is being changed or the setting is being confirmed by blinking the round number display means. You can inform us about it.

Here, the light emitting mode of the light emitting display means of the game information display means 211 has been described as lighting/extinguishing/blinking, etc. However, lighting and blinking in this case refer to those visually recognized as such. and That is, when the game information display means 211 is controlled by the dynamic lighting method as in the tenth embodiment, the lighting state is actually a high-speed flickering state, but this is the lighting state. The flashing state is a case where the lighting state (high-speed flashing) and the light-off state (light-off) are visually repeated at predetermined intervals.

When controlling the light emitting display means of the game information display means 211 during a game, a dynamic lighting system is used, and when controlling the light emitting display means of the game information display means 211 during setting change or setting confirmation, static lighting is used. method. For example, since the generation of timer interrupt processing for 4 ms is permitted during a game, by using the processing that is repeated every 4 ms, any light-emitting unit of the light-emitting display means of the game information display means 211 can be displayed at each interrupt. It is possible to switch the common data that determines whether to transmit data related to lighting. During confirmation, it is before the game becomes possible, and the generation of 4 ms timer interrupt processing is not yet permitted during this period. program capacity becomes large. In this regard, if the game information display means 211 is controlled by a static lighting method during setting change or setting confirmation, data relating to lighting of any of the light emitting display means of the game information display means 211 can be sent to the light emitting portion. Since it is only necessary to transmit, it is possible to greatly reduce the program capacity compared to the case of dynamic lighting control. In this way, the lighting control method of the game information display means 211 may differ between during a game and during setting change and/or setting confirmation.

Further, the game information display means 211 may be provided with a light emitting display means for notifying that the setting is being changed and/or the setting is being confirmed, separately from the light emitting display means used during the game. In this case, light emitting display means for notifying that the setting is being changed and light emitting display means for notifying that the setting is being checked may be separately provided. When one type of light emitting display means (one or a plurality of light emitting units) is used to indicate that the setting is being changed and that the setting is being checked, the setting is being changed by differentiating the light emission mode between the setting being changed and the setting being checked. It may be possible to identify whether the setting is being changed or whether the setting is being confirmed. You can make it impossible.

In addition, when the game information display means 211 is provided with light-emitting display means for notifying that the setting is being changed and light-emitting display means for notifying that the setting is being confirmed, in addition to the light-emitting display means used during the game. , are preferably arranged adjacent to each other, but may be arranged so as to sandwich other light emitting display means.

In the tenth embodiment, it is possible to identify whether the setting is being changed or the setting is being checked depending on whether or not ". (dot)" is added to the setting information displayed on the setting display means 215. For example, of the 7-segment display units 214a to 214d that constitute the performance information display unit 214, the 7-segment display units 214b to 214d that are not used as the setting display unit 215 are used to set them in a predetermined light emission mode ( It may be possible to notify that the setting is being changed or the setting is being checked by turning on/off/blinking, etc.).

In addition, since the performance display means 216 always operates to display the base value during the game, it basically does not perform the control of continuing the light-off state for a predetermined period of time during the game. Therefore, if you are not in a game, such as when you are changing settings or checking settings, by continuing to turn off the light, you can make the player recognize that you are not in a game, thereby changing settings or checking settings. It is possible to notify that it is in progress. In this manner, considering the original display mode of the performance display means 216, it may be possible to notify that the setting is being changed or the setting is being checked by intentionally turning off the light instead of turning it on. In addition, the case where one of the 7-segment display units 214a to 214d constituting the performance display unit 216 for displaying the base value is also used as the setting display unit 215 has been exemplified. Even if the performance display means 216 is provided separately, it is possible to notify that the setting is being changed or the setting is being checked based on the same idea.

Furthermore, when the setting display means 215 notifies that the setting is being changed and/or the setting is being checked, different notification modes may be used depending on whether the setting is being changed or when the setting is being checked. In this case, each notification mode may be any combination of the above-described light emission modes, and at least the notification modes may be different. In addition, the items described as the concept of informing that the setting display means 215 is changing settings and/or confirming settings can also be applied to controlling light emission of the game information display means 211 described above. .

Next, the merits of notifying that the setting is being changed or the setting is being checked by the game information display means 211 (board lamp) and the setting display means 215 controlled by the main control side will be described below. If only the lamp/speaker/liquid crystal display means controlled on the sub side is used to notify that the setting is being changed or the setting is being checked, the signal line that connects the main control board and the sub control board is cut off by an action. If it is done, it will not be possible to notify that the setting is being changed or confirmed. turn into. On the other hand, in addition to (or in place of) the lamp/speaker/liquid crystal display means controlled by the sub side, the game information display means 211 (board lamp) and the setting display means 215 controlled by the main control side are used to change or confirm settings. If it is notified that the game is in progress, even if the signal line connecting the main control board and the sub-control board is cut off, the game information display means 211 and the setting display means 215 will notify the user. Therefore, it becomes possible for the people involved in the hall to notice the cheating.

In addition, by using a game information display means 211 visible from the front side of the gaming machine and a setting display means 215 visible from the rear side of the gaming machine, it is possible to notify that settings are being changed or confirmed. For example, it is possible to confirm the state of setting change or setting confirmation from both the front side and the rear side of the gaming machine.

In addition, the lamp/speaker/liquid crystal display means (effect means) controlled by the sub side (effect control board 87) does not notify that the setting is being changed or the setting is being confirmed, but the game information display controlled by the main control side. Although it may be configured to notify by means 211 or setting display means 215, lamp/speaker/liquid crystal display means controlled on the sub side and game information display means 211 and setting display means 215 controlled on the main control side For example, the identifiability is further improved by configuring so as to notify by both.

Also, although the game information display means 211 has been exemplified as a board lamp for notifying that the setting is being changed and/or the setting is being confirmed, any light emitting means may be used as long as it is controlled by the main control board side. For example, it may be provided on either the board side or the frame side.

Also, when a part of the plurality of 7-segment display units 214a to 214d constituting the performance display means 216 is used as the setting display means 215, static lighting control (first display control) is performed when using it as the setting display means 215. As described above, dynamic lighting control (second display control) is also possible when used as performance display means 216 after the start of a game. However, if the 7-segment display units 214a to 214d constituting the performance display means 216 are designed for dynamic lighting control only, static lighting control may cause problems.

For example, as the absolute maximum ratings for the 7-segment performance display means 216, the maximum forward current is 15mA/seg (static) and the maximum peak forward current is 60mA/seg (duty1/5 pulse width 1ms) ( dynamic), if only the base value is displayed, only the dynamic lighting control should be considered, so the maximum value of the peak forward current is 60mA/seg (duty1/5 pulse width 1ms). A current value may be set within a range not exceeding the current value, but when performing static lighting control when used as the setting display means 215, the maximum value of the peak forward current is 60 mA/seg (duty 1/5 pulse width 1 ms). And it must be set to a current value that does not exceed 15 mA/seg, which is the maximum forward current value. Here, if 15
If the current value does not exceed mA/seg, the brightness during one lighting operation during dynamic lighting control may decrease, and the lighting display may flicker when displaying the base value. .

Therefore, for example, the maximum value of the peak forward current does not exceed 60mA/seg (duty1/5 pulse width 1ms), and the current value is set to a value that exceeds 15mA/seg, which is the maximum value of the forward current. It is possible to configure so that the lighting display is less likely to flicker during lighting control. In this case, the current value is set in a range exceeding 15mA/seg, which is the maximum value of the forward current. If the lighting control is performed by repeating the above, the maximum value of the forward current is naturally exceeded. After sending, the extinguishing data is repeatedly sent continuously for a predetermined time), the maximum value of It is possible to perform lighting control so as not to exceed this. In this way, pseudo-dynamic lighting control using static lighting control may be realized. That is, during dynamic lighting control when displaying the base value, by switching the common data for designating the 7-segment to be lit, lighting control is performed so as to repeat lighting/extinguishing, while when displaying the set value, Similarly, if the common data is switched, the control program will increase accordingly. Therefore, control is performed such that the lighting data and the extinguishing data are alternately transmitted at predetermined intervals without switching the common data. In this case, since it is only necessary to switch the data to be transmitted at predetermined intervals, it is possible to achieve lighting control with far fewer programs than switching common data. As described above, by devising a control method, it is possible to realize both static lighting control and dynamic lighting control so as not to exceed the absolute maximum rating of 7 segments.

In addition, instead of performing such lighting control, the maximum value of the forward current is 60 mA/seg (
Static), it is also conceivable to use a high quality 7-seg with a maximum peak forward current defined as 60mA/seg (duty1/5 pulse width 1ms) (dynamic). In this case, since the absolute maximum rating value is superior to that of the 7-segment described above, the unit price of the parts naturally increases. If high-quality 7-segs are used for all of the plurality of 7-segs for displaying the base value (specifically, the four 7-segment display portions 214a to 214d), the cost will be high. Therefore, among the plurality of 7 segments (7 segment display units 214a to 214d) for displaying the base value, the 7 segment (7 segment display unit 214a) for displaying the set value is the 7 segment with excellent absolute maximum rating value. , and for the other 7 segments for displaying the base value (7 segment display units 214b to 214d), 7 segments with lower absolute maximum ratings may be used. As a result, the cost can be kept to the minimum necessary, and the program capacity can be reduced because there is no need to perform pseudo-dynamic lighting control using static lighting control while changing settings or checking settings. can.

As for the 7 segments that display the set values, we decided to use the 7 segments with excellent absolute maximum ratings. 7 seg, which is an approximate value less than that, may be used. Also, among the other absolute maximum ratings for the 7 segments for displaying the base value, the maximum value of the forward current for the 7 segments for displaying the set value is higher than at least the maximum value for the forward current. You may make it use what is set to large. In addition, among those specified as the absolute maximum ratings for the 7-segment base value display other than the set value display, at least the peak forward current of the 7-segment set value display It is preferable to use one in which the maximum value of the current is set to the same value or an approximate value higher/lower. In this way, the 7-segment for setting value display is superior to the 7-segment for base value display in the absolute maximum rating of forward current, and the absolute maximum rating of peak forward current is the same value. Or by using what is set to an approximate value greater than / less than that, static lighting control during setting change or setting confirmation and dynamic lighting control in the base value display during game are common 7 segments Even if it must be done using , it can be easily realized. Of course, high-spec 7 segments may be used for all of a plurality of base value display 7 segments (including setting display 7 segments).

When it is determined that the RAM is abnormal, the game is stopped (waiting for power-on), and in this case, a security signal may be output via an external terminal. The type of security signal output at that time may be the same type as the security signal output when changing settings or when confirming settings, or may be different. At that time, the setting display means 215 may display an error. In this case, the error display may be performed in a predetermined lighting mode by transmitting the lighting data, or in a predetermined blinking mode by alternately transmitting the lighting data and the extinguishing data at predetermined intervals. good. When part of the performance display means 216 is also used as the setting display means 215, the setting display means 215 may display an error and the other display parts of the performance display means 216 may be turned off. The error display may be performed not only by the setting display means 215 but also by the performance display means 216 as a whole.

Further, when setting information is displayed on the setting display means 215, the lighting pattern corresponding to the current set value is acquired from the setting display data table and displayed. The lighting data may be output without using the setting display data table. This is because the value of the set value work is an abnormal value when the RAM is abnormal, and it is difficult to obtain an arbitrary value from the setting display data table based on the value of the set value work. Therefore, when the RAM is abnormal, it is desirable to configure such that the value is directly specified and output instead of using the table selection method. In addition, this eliminates the need for a program for selecting data from the table, making it possible to reduce the program capacity.

Further, a security signal may be output when RAM clear processing is executed, and the security signal output during setting change and the security signal output when RAM clear processing is executed may be a common signal. In the embodiment, the security signal is output during the setting change, and the output of the security signal is stopped when the setting change process is completed. However, the output of the security signal is maintained even after the setting change process is completed. However, the output of the security signal may be stopped after the RAM clear processing is completed. Further, in this case, the timing of stopping the output of the security signal is not limited to after the RAM clearing process is finished, but may be after the RAM clearing notification is finished, or at a predetermined timing during the RAM clearing notification. In addition, since the security signal only needs to be output for a predetermined period of time, when the RAM clearing process is performed after the setting change process is completed, the output of the security signal is further maintained for at least a predetermined period of time (eg, 50 ms) before outputting. may be stopped. This makes it possible to guarantee the output of the security signal for at least a predetermined time (50 ms) when executing the setting change process+RAM clear process.

Alternatively, when the setting change process is completed, the output of the security signal is temporarily stopped, and when the RAM clear process is executed after that, the security signal may be output again for a predetermined time (eg, 50 ms). good.

In addition, although it is configured not to clear the set value information when clearing the RAM, some other information, such as stop pattern information, error information, variation pattern switching information, etc., may also be configured not to be cleared. good. Here, by not clearing the stop pattern information when clearing the RAM, it becomes impossible to guess from the stop pattern whether the setting change processing + RAM clear processing has been executed or whether the backup has been restored. Therefore, it is possible to make it difficult to determine whether or not the setting has been changed by confirming the stop symbol. Further, by not clearing part or all of the error information when clearing the RAM, it is possible to continue to perform error notification and the like for predetermined error information that occurred before the power failure even after the power failure.

Also, by not clearing the switching information of the variation pattern when clearing the RAM (eg, switching from variation pattern selection table A to variation pattern selection table B when it fluctuates 50 times during high probability), after setting change processing + RAM clear processing, When a predetermined number of symbol variations (50 rotations) are performed, the variation pattern selection table A is switched to the variation pattern selection table B. For example, in the first hole in the morning, a predetermined number of symbol variation games are performed. It is possible to determine whether changes have been made. In this way, by making it easier to determine whether or not the setting has been changed, the game may be made more interesting. As described above, regarding the various works set in the RAM area, the work to be cleared by the RAM clearing process and the work not to be cleared by the RAM clearing process can be changed as necessary, for example, in consideration of game playability and security. may be configured to be used properly. The above description is merely an example, and other works not described as examples may also be configured so as not to be cleared in consideration of the improvement of game playability.

1 pachinko machine 2 outer frame 3 front frame 13 game board mounting portion 16 game board 20 game area 22 liquid crystal display means (image display means)
51 Back mounting base 65 Production control board case (detachable member)
66 LCD control board case (detachable member)
67 Main control board case (detachable member)
68 board mounting base 69 power board case 70 delivery control board case 71-79 engagement means 80-82, 168, 169 latch means 83, 84 tightening means 85 back cover (opening/closing member)
86 main control board 87 effect control board 88 liquid crystal control board 90a, 92a, 94a, 97a, 100a bulge portion (peripheral member)
95 Power supply board 98 Payout control board 102 to 106 Heat dissipation hole (Case heat dissipation hole)
105a First heat radiation hole 105b Second heat radiation hole 121, 122 Mounting parts 121a, 174a Mounting holes 123, 171, 177 Engagement bodies 124, 172, 178 Operation body 128 Volume adjustment switch (performance system adjustment means)
130 Sealing means 132 History label 135 Management number marking part 136 Opening history marking part 136a Opener marking part 136b Date marking part 140 AC connector 141 Power switch 144 Power cords 144a, 144b Covering parts 146, 147 Wiring path member 152, 192 Attention display unit 156 Operation space 162 Game information clearing means 185 Heat dissipation hole 185a First cover heat dissipation hole 185b Second cover heat dissipation hole 189 Control chip 195 RAM clear/error release switch (predetermined operation means)
211 game information display means 212 LED
213 Setting change operating means 214 Performance information display means 214a to 214d 7-segment display section 215 Setting display means 216 Performance display means A Push-in position B Pull-out position

Claims (1)

a game machine main body having a base body that can be fixed to a predetermined installation location and a door body attached to the front side of the base body so as to be openable and closable;
lottery means for executing a lottery based on the establishment of the starting condition;
A winning game control means for controlling to a winning game when the lottery result by the lottery means is a winning;
a first display means arranged at a position visible from the front side of the gaming machine main body installed at the installation location without opening the door and capable of displaying the result of the lottery;
When the door is closed, it is not visible from the front side of the gaming machine main body installed at the installation location, but it is arranged at a position where it becomes visible when the door is opened, and is based on the game performance. a second display means capable of displaying the calculated predetermined information;
In a game machine equipped with
Confirmation display processing for displaying a confirmation display on the second display means for a predetermined time after the power is turned on;
a predetermined information display process for displaying the predetermined information on the second display means after executing the confirmation display for a predetermined time,
If the power is cut off during the confirmation display, the confirmation display is executed again for the predetermined time when the power is next turned on,
outputting a first common data signal to the first display means when displaying the lottery result;
outputting a second common data signal to the second display means when displaying the predetermined information;
A gaming machine, wherein the first common data signal and the second common data signal are output from a common output circuit using a common counter.

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