JP2012034746A - Pachinko game machine - Google Patents

Pachinko game machine Download PDF

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Publication number
JP2012034746A
JP2012034746A JP2010175552A JP2010175552A JP2012034746A JP 2012034746 A JP2012034746 A JP 2012034746A JP 2010175552 A JP2010175552 A JP 2010175552A JP 2010175552 A JP2010175552 A JP 2010175552A JP 2012034746 A JP2012034746 A JP 2012034746A
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movable accessory
accessory
movable
driving
retracted
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JP2010175552A
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Japanese (ja)
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JP5089739B2 (en
Inventor
Masakazu Matsui
Masanori Ubukata
政和 松井
正徳 生方
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Kyoraku Sangyo Kk
京楽産業.株式会社
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Priority to JP2010175552A priority Critical patent/JP5089739B2/en
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Abstract

PROBLEM TO BE SOLVED: To improve a performance effect by achieving novel movements of first and second movable accessories by integrally driving the second movable accessory with the first movable accessory and driving the same movable accessory in the same direction as the drive direction of the first movable accessory and at the same time in a separate direction when driving the first movable accessory in a movable accessory device of a Pachinko game machine.SOLUTION: A first accessory drive mechanism 43 drives the first movable accessory 41 via a first halfway position between a first evacuation position and an operation position extending over the first evacuation position and the operation position. When driving the first movable accessory 41 between the first evacuation position and the first halfway position, the second accessory drive mechanism 44 integrally drives the second movable accessory 42 with the first movable accessory 41. When driving the first movable accessory 41 between the first halfway position and the first operation position, the second accessory drive mechanism drives the second movable accessory 42 in the same direction as the drive direction of the first movable accessory 41 and at the same time over a second evacuation position and a second operation position.

Description

  The present invention relates to a pachinko gaming machine, and more particularly, to a movable accessory device including first and second movable accessories and first and second accessory driving mechanisms for driving the first and second movable accessories. It is.

  Conventionally, many pachinko gaming machines are equipped with movable accessory devices for game production, but a plurality of movable actors are provided in a linked state, and a series of operations are performed by interlocking the plurality of movable actors. A movable accessory device that realizes the above game effects has been put into practical use (see, for example, Patent Documents 1 to 3).

  In the movable accessory device of Patent Document 1, the base end portion of the first movable accessory is rotatably supported by the base member, and the second movable accessory is attached to the first movable accessory so as to be extendable and contractable. The first movable combination is rotationally driven by the first electric motor, and the second movable combination is expanded and contracted by the second electric motor. The second electric motor is attached to the first movable combination, and the driving force is transmitted to the second movable combination through the rack and pinion. The first and second movable accessories imitate human arms.

  In the movable accessory device of Patent Document 2, the base end portion of the first movable accessory is rotatably supported by the base member, and the base end portion of the second movable accessory rotates around the distal end portion of the first movable accessory. It is connected freely. When the first movable accessory is rotationally driven by the electric motor, the rotational force is transmitted to the second movable accessory by a plurality of gears provided over the base member and the first and second movable accessories. The second movable accessory is driven to rotate. The first and second movable accessories imitate the human torso and arms.

  In the movable accessory device of Patent Literature 3, the first movable accessory is linearly moved and driven, and an annular groove is formed in the shaft-like portion of the first movable accessory. A base end portion of the second movable accessory is rotatably supported by the base member, and a protrusion that engages with the annular groove of the first movable accessory is provided on the second movable accessory. Due to the engagement between the annular groove and the protrusion, the movable accessory reciprocates in conjunction with the reciprocating movement of the first movable accessory. The first and second movable accessories imitate seeds.

JP2008-18809 JP2007-252734 JP2007-130147

  In the movable accessory device of Patent Document 3, the first movable accessory reciprocates linearly, so that the second movable accessory rotates in conjunction with the reciprocating movement. It is attached to the member so as to be rotatable, and is simply an operation of rotating with respect to the base member. In the movable accessory device of Patent Document 2, the first and second movable accessories rotate in conjunction with each other, but the first and second movable accessories operate with different movements from the beginning to the end. That is, it is difficult to realize a novel operation of the first and second movable accessories.

  In the movable accessory device of Patent Document 1, since the first and second electric motors for driving the first and second movable accessories are necessary, the structure becomes large and the manufacturing cost becomes expensive. Moreover, since the second electric motor is attached to the first movable accessory, the total weight including the second electric motor of the first and second movable accessories is increased. That is, there is a possibility that the load for rotating the first movable combination together with the second movable combination and the second electric motor becomes large, and the first movable combination may not be rotated smoothly. In the movable accessory device of Patent Document 2, since it is necessary to provide a plurality of gears over the base member and the first and second movable accessories, the number of parts increases, the structure becomes complicated, and the manufacturing cost is expensive. become.

  As in the movable accessory device of Patent Document 3, the first movable accessory is moved by the accessory driving mechanism and the second movable accessory is rotated in conjunction with the movement. The driving load of the accessory driving mechanism is larger than that driving only the motor. Therefore, there is a possibility that the first and second movable accessories cannot be driven quickly and smoothly by making them relatively large and operating largely.

  An object of the present invention is to drive the second movable accessory integrally with the first movable accessory when driving the first movable accessory in the movable accessory device of a pachinko gaming machine, For example, by driving in the same direction as the driving direction of the object and driving in another direction, the novel operation of the first and second movable accessories can be realized, and the effect can be enhanced.

  The invention according to claim 1 is the first movable accessory (41) disposed movably over the first retracted position and the first operating position with respect to the base member (40), and the first movable accessory. (41) is movably disposed over a second retracted position overlapping the first movable accessory (41) and a second operating position protruding at least partially from the first movable accessory. A pachinko gaming machine (1) equipped with a movable accessory device (17) comprising two movable accessories (42), wherein the movable accessory device (17) is the first movable accessory (41) Between the first retracted position and the first operating position via a first intermediate position between the two positions, the first accessory driving mechanism (43), and the first movable accessory (41 ) Is driven between the first retracted position and the first intermediate position, the second movable accessory (42) is driven integrally with the first movable accessory (41), and the first movable accessory is driven. When driving (41) between the first intermediate position and the first operating position A second actor driving mechanism (2) that drives the second movable accessory (42) in the same direction as the driving direction of the first movable accessory (41) while driving over the second retracted position and the second operating position ( 44).

  The invention of claim 2 is the invention of claim 1, further comprising an accessory control device (20) for controlling the first and second accessory driving mechanisms (43, 44), and the accessory control device (20). As a first special effect, the first movable accessory (41) is started to move from the first retracted position and moved back and forth a plurality of times between the first retracted position and the first intermediate position, The first movable combination (41) is moved from the first intermediate position to the first operating position, and the second movable combination (42) is moved from the second retracted position to the second operational position.

  According to a third aspect of the invention, in the second aspect of the invention, the accessory control device (20) starts moving the first movable accessory (41) from the first retracted position as a second special effect, After reciprocating a plurality of times between the first retracted position and the first intermediate position, the first movable accessory (41) stops moving to the first retracted position without moving from the first intermediate position to the first operating position. It is characterized by making it.

  According to a fourth aspect of the present invention, in the first aspect of the present invention, the second accessory driving mechanism (44) is configured such that the first intermediate position and the first operation of the first movable accessory (41) are performed. It is characterized by having an accessory interlocking mechanism (45) for reciprocatingly rotating the second movable accessory (42) in conjunction with reciprocation between the position and the position.

  According to a fifth aspect of the present invention, in the fourth aspect of the invention, the movable accessory device (17) includes a spring member (81) for biasing the first movable accessory (41) from the first retracted position to the first operating position. ) Having an assist spring mechanism (80). The assist spring mechanism (80) is configured such that the first movable accessory (41) is at least a first operation position from a set position on the first operation position side of the first intermediate position. The assist force that is applied to the first movable accessory (41) is reduced as the distance from becomes smaller.

  According to the pachinko gaming machine of the present invention, in the movable accessory device, the first movable accessory is moved between the first retracted position and the first operating position by the first accessory driving mechanism. When driving through the first intermediate position and driving the first movable accessory between the first retracted position and the first intermediate position by the second accessory driving mechanism, the second movable accessory is When the first movable combination is driven integrally with the first movable combination and the first movable combination is driven between the first intermediate position and the first operation position, the second movable combination is driven by the first movable combination. Since it is driven over the second retracted position and the second operating position while being driven in the same direction as the direction, it is possible to realize a novel operation of the first and second movable accessories and enhance the effect of production. .

1 is a front view of a pachinko gaming machine according to Embodiment 1. FIG. It is a front view of a game board and a center actor. It is a front view of a center actor. It is a block diagram of the control system of a pachinko gaming machine. It is a front view of a game board and a movable accessory device. It is a rear view of a game board and a movable accessory device. It is a front view of a movable accessory apparatus (a 1st movable accessory is a 1st retreat position). It is a rear view of the state of FIG. 7 of a movable accessory apparatus. It is a disassembled perspective view from the front side of a movable accessory apparatus. It is a disassembled perspective view from the rear side of a movable accessory apparatus. It is a front view of a movable accessory apparatus (a 1st movable accessory is a 1st operation position). It is a rear view of the state of FIG. 11 of a movable accessory apparatus. It is a front view of a movable accessory apparatus (a 1st movable accessory is a 1st intermediate position). It is explanatory drawing of the assist force made to act on a 2nd movable accessory. FIG. 9 is a diagram corresponding to FIG. 8 of the second embodiment. FIG. 13 is a diagram corresponding to FIG.

  The present invention is applied to a movable accessory device equipped in a center accessory of a pachinko gaming machine. Hereinafter, modes for carrying out the invention will be described based on examples.

  As shown in FIGS. 1 and 2, in the pachinko gaming machine 1, an open / close frame 2 is detachably attached to an outer frame attached to the game hall, and an open / close door 3 is detachably attached to the open / close frame 2. . A game board 4 is mounted on the open / close frame 2, and a game area 4 a is formed on the front side of the game board 4. A window 3a is formed in the opening / closing door 3, and a transparent plate 3b is attached to the window 3a, and the front side of the game area 4a is covered by the transparent plate 3b.

  The open / close door 3 is provided with a storage tray 5 below the window 3 a, an effect button device 6 is mounted on the storage tray 5, and a firing handle 7 is mounted on the lower right side of the storage tray 5. When the firing handle 7 is turned, the game balls introduced from the storage tray 5 to the launch position are launched, and when there are a plurality of game balls in the storage tray 5, the plurality of game balls are about 0. 0. Fired continuously at intervals of 6 seconds. The launched game ball is guided by the guide rail 8 and is thrown into the upper part of the game area 4a.

  As shown in FIGS. 2 to 4, the game board 4 includes a plurality of obstacle nails (not shown), a first start port 10, a second start port device 11, a gate 12, a grand prize port device 13, a plurality of The general winning opening 14, the center accessory 15, the image display 16, the movable accessory device 17, and the game display board 19 are mounted in the arrangement shown in FIG. 2, and the control device 20 is mounted on the back side of the game board 4. Yes.

  The first start opening 10 is provided with a first start opening switch 10a for detecting a winning game ball, the gate 12 is provided with a gate SW 12a for detecting a passed game ball, and each general winning opening 14 is won. A general winning opening switch 14a for detecting a game ball is attached. “SW” means a switch.

  The second starter device 11 includes a second starter 11a, an opening / closing member 11b for opening / closing the second starter 11a, a second starter SW11c for detecting a game ball won in the second starter 11a, and an opening / closing member 11b. It has the 2nd starting port SOL11d to drive. “SOL” means a solenoid actuator. The opening / closing member 11b makes it impossible to win a game ball to the second start port 11a in the closed position, and allows the game ball to win the second start port 11a in the open position.

  The big prize opening device 13 includes a big prize opening 13a, an opening / closing member 13b for opening / closing the big prize opening 13a, a big winning opening SW13c for detecting a game ball won in the big prize opening 13a, and a big winning opening for opening / closing the opening / closing member 13b. It has SOL13d. The opening / closing member 13b makes it impossible to win a game ball to the big prize opening 13a in the closed position, and enables winning of the game ball to the big prize opening 13a in the open position.

  The center accessory 15 is a frame member that projects forward from the front surface of the game board 4 and is provided with a size that occupies more than half of the game area 4a from the upper part to the center part of the game board 4. An object main body 15a and a center accessory base frame 15b provided on the rear side of the center accessory main body 15a are provided, and an image display 16 and a movable accessory device 17 are mounted on the center accessory 15.

  A center mounting hole 4b (see FIGS. 5 and 6) is formed in the game board 4, and a center accessory body 15a is fitted into the center mounting hole 4b, and a center accessory base frame 15b is formed on the rear surface of the game board 4. Is installed. The image display 16 is attached to the center accessory base frame 15b from the rear side so that the screen faces most of the inner region of the center accessory main body 15a.

  The movable accessory device 17 has first and second movable accessories 41 and 42 positioned behind the game board 4 and the center accessory body 15a, and a right portion of an inner region of the center accessory body 15a. It is attached from the front side to the right part of the center accessory base frame 15b so as to face the screen of the image display 16.

  The game display board 19 includes a first special symbol indicator 19a, a second special symbol indicator 19b, a normal symbol indicator 19c, a first special symbol hold lamp 19d, a second special symbol hold lamp 19e, and a normal symbol hold lamp 19f. I have.

  On the first special symbol display 19a, the first special symbol is stopped and displayed after the symbol changes based on the winning of the game ball to the first starting port 10, and on the second special symbol indicator 19b, the second starting port is displayed. Based on the winning of the game ball to 11a, the second special symbol is stopped and displayed after the symbol changes. When the big hit symbol is stopped and displayed on the first or second special symbol indicator 19a or 19b, a big hit game is generated, and the big prize opening device 13 opens and closes the opening / closing member 13b, and normally the closed big prize is closed. The mouth 13a is opened and closed over a plurality of rounds.

  On the normal symbol display 19c, the normal symbol is stopped and displayed after the symbol changes based on the winning (passing) of the game ball to the gate 12. When the symbol is stopped and displayed on the normal symbol display 19c, an auxiliary game occurs, and the second starter device 11 opens and closes the opening and closing member 11b, and the normally closed second starter port 11a is set to 1 or Open and close multiple times.

  The first special symbol holding lamp 19d displays a maximum of four so-called first special symbol holding numbers of game balls won in the first starting port 10, and the second special symbol holding lamp 19e has a second starting port. The so-called second special figure hold number of game balls won in 11a is displayed at the maximum four, and the normal symbol hold lamp 19f displays the so-called general figure hold number of game balls won at the gate 12 at a maximum of four. The

  By turning the launch handle 7, the game ball launched into the upper part of the game area 4a hits a plurality of obstacle nails and falls while changing direction, and any one of the winning holes 10, 11a, 13a, 14 When a prize is won, the game area 4a is discharged out of the game area 4a, and when it is not won in any of the winning openings 10, 11a, 13a, 14, it is finally formed at the lower end of the game area 4a. It is discharged out of the game area 4a from the out port 9.

A control system of the pachinko gaming machine 1 will be described.
As shown in FIG. 4, the control device 20 includes a main control device 21 and a sub control device 25. The main control device 21 is configured by providing a game control board 22 with a CPU, a ROM, and a RAM. The game control board 22 is connected to the board external information terminal board 23.

  The sub-control device 25 includes a payout control board 26, an effect control board 27, an image control board 28, and a lamp control board 29 each including a computer including a CPU, ROM, and RAM. The effect control board 27 further includes an RTC. It is prepared for. The payout control board 26 is connected to the frame external information terminal board 24. “RTC” means a real-time clock.

  The computer of the game control board 22 receives the ball detection signal from the first and second start openings SW10a, 11c, the gate SW12a, the big prize opening SW13c, the general prize opening SW14a and the control information from the payout control board 26, It controls the second start opening SOL11d, the big winning opening SOL13d, the symbol displays 19a to 19c, and the symbol holding lamps 19d to 19f, and controls the payout control board 26, the effect control board 27, and the board external information terminal board 23 to control information (games). Information).

  The computer of the payout control board 26 receives the control information from the game control board 22 and the ball detection signals from the payout ball detection SW31, the ball presence detection SW32, and the full tank detection SW33, and controls the payout motor 30 to receive a prize opening. For one winning game ball to 10, 11 a, 13 a, 14, the number of game balls set for each winning opening 10, 11 a, 13 a, 14 is paid out to the storage tray 5, and the game control board 22 and the outside for the frame Control information (payout information) is output to the information terminal board 24.

  The computer of the effect control board 27 receives the control information from the game control board 22 and the button operation signal from the effect button device 6, outputs the control information to the image control board 28, and further receives the control information from the image control board 28. In response to the control information, the control information is output to the lamp control board 29. The computer of the image control board 28 receives the control information from the effect control board 27, controls the image display 16 and the speaker 34, and outputs the control information to the effect control board 27. The computer of the lamp control board 29 receives the control information from the effect control board 27, controls the frame lamp 35 and the panel lamp 36 mainly in synchronization with the control by the image control board 28, and further the movable accessory. The device 17 (electric motor 60) is controlled.

The movable accessory device 17 will be described in detail.
As shown in FIGS. 2, 3, and 5 to 13, the movable accessory device 17 includes a base member 40, a first movable accessory 41 that is movably guided by the base member 40, and a first movable accessory. A second movable accessory 42 rotatably supported by 41; a first accessory driving mechanism 43 for driving the first movable accessory 41; and a second accessory driving mechanism 44 for driving the second movable accessory 42. I have.

  The base member 40 is formed in a synthetic resin rectangular plate whose vertical length is about twice as long as the horizontal length, and is arranged in parallel with the game board 4 and hidden behind the center accessory body 15a. It is attached to at least one of the rear surface portion of the center accessory body 15a and the front portion of the center accessory base frame 15b. A peripheral wall 40a is formed around the entire circumference of the base member 40, and the rigidity of the base member 40 is enhanced by the peripheral wall 40a and the like.

  The first movable accessory 41 is formed elongated in the moving direction, and is disposed on the front side of the base member 40, imitating a pointed long sword. The first movable accessory 41 has a first retracted position (see FIGS. 2, 3, 7, and 8) where most of the first movable accessory 41 is hidden behind the center accessory main body 15a (decorative member), and most of the first movable accessory 41. Is movable relative to the base member 40 in a direction parallel to the game board 4 over the first operating position (see FIGS. 5, 6, 11, and 12) that appears from the center accessory body 15 a. It is arranged.

  The first movable accessory 41 has substantially the same length as the vertical length of the screen of the image display 16 and moves in a direction inclined about 20 degrees from the vertical direction to the left side. When the first movable accessory 41 is in the first retracted position, the lower portion from the vicinity of the center is hidden behind the center accessory body 15a, and the first movable accessory 41 is in the first operation. At the position, a portion other than the portion near the lower end appears from the center accessory body 15a and is positioned on the front side of the screen of the image display 16.

  The first movable accessory 41 has a first accessory base 41a made of synthetic resin and a first accessory decorative cover 41b made of synthetic resin that covers the front side thereof. A substrate (not shown) is attached to the front surface of the first accessory base 41a, and a plurality of LEDs (not shown) are mounted on the front surface of the substrate. The first accessory decorative cover 41b has a transparent lens having a large number of irregularities, and the first movable accessory 41 is illuminated with light from the LEDs and the plurality of LEDs passing through the lens. The base member 40 is provided with a cover member 40e that partially covers the front side of the first movable accessory 41 in the vicinity of the center accessory main body 15a.

  The movable accessory device 17 includes a first accessory guide mechanism 46 that guides and supports the first movable accessory 41 on the base member 40 so as to be linearly movable over the first retracted position and the first operating position. ing. The first accessory guide mechanism 46 includes an engaging member 50 having a pair of engaging portions 50 a provided on the first movable accessory 41 so as to protrude toward the base member 40 (rearward), and the base member 40. A pair of engaging portions 50a are provided so as to engage with each other, and are constituted by straight engaging grooves 52 and the like extending in a direction parallel to the moving direction of the first movable accessory 41.

  The straight engagement groove 52 has a length that is approximately twice the movement stroke of the first movable accessory 41 and has a width in the front-rear direction that is somewhat large. The base member 40 has a trapezoidal first base plate portion 40b and an inverted triangular second base plate portion 40c located on the right side and slightly forward of the first base plate portion 40b. The straight engagement groove 52 is formed in the boundary portion between the first and second base plate portions 40b and 40c.

  The engaging member 50 is mounted in the vicinity of the lower right edge of the first movable accessory 41, and a pair of engaging portions 50a are arranged vertically, and the distance between them is the movement stroke of the first movable accessory 41. It becomes almost the same. The lower engaging portion 50a is engaged with the lower end portion of the straight engaging groove 52, the first movable accessory 41 is in the first retracted position, and the upper engaging portion 50a is the upper end of the straight engaging groove 52. The first movable accessory 41 is in the first operating position by engaging the part. The engaging member 50 has an elongated connecting piece 50b disposed on the front side of the pair of engaging portions 50a.

  The first retracted position of the first movable accessory 41 is the origin position. In order to detect this origin position, the first movable accessory 41 is provided with a detected portion 55, and the origin detection sensor 56 is provided on the base member 40. Is provided. The detected portion 55 is composed of a shielding plate 55 provided in a left projecting shape below the first movable accessory 41, and the origin detection sensor 56 includes a light emitting portion and a light receiving portion attached to the lower portion of the base member 40. The optical sensor 56 having When the first movable accessory 41 is in the first retracted position, the optical sensor 56 is shielded by the shielding plate 55 between the light emitting portion and the light receiving portion, so that the origin position of the first movable accessory 41 (first 1 retreat position) is detected.

  The second movable accessory 42 is formed in an elongated shape with a size slightly smaller than the first movable accessory 41, imitating a pointed dagger, and on the front side of the base member 40 and behind the first movable accessory 41. Arranged on the side. The base end portion of the second movable accessory 42 is rotatably supported by the lower portion of the center portion of the first movable accessory 41 via the shaft member 48 in the front-rear direction.

  The second movable combination 42 is in a second retracted position where the entire second movable combination 42 overlaps the first movable combination 41 and is hidden behind the first movable combination 41 (see FIGS. 7 and 7). 8, and FIG. 13) and a second operating position that turns counterclockwise from the second retracted movement position and appears mostly protruding from the first movable accessory 41 (FIG. 5, FIG. 6, FIG. 13). 11 and FIG. 12).

  The second movable combination 42 has a length of about 3/4 to 2/3 of the first movable combination 41. The second movable accessory 42 rotates about 90 degrees counterclockwise from the second retracted position to become the second operating position, and the portion other than the vicinity of the lower end appears from the first movable accessory 41, It will be in the state located in the front side of the screen of the image display 16.

  The second movable accessory 42 has a second accessory base 42a made of synthetic resin and a second accessory decorative cover 42b made of synthetic resin covering the front side thereof. A substrate (not shown) is attached to the front surface of the second accessory base 42a, and a plurality of LEDs (not shown) are mounted on the front surface of the substrate. The second accessory decorative cover 42b has a transparent lens with a large number of irregularities, and the second movable accessory 42 is illuminated with light from the plurality of LEDs passing through the lens and the lens.

  The first accessory driving mechanism 43 drives the first movable accessory 41 through the first intermediate position (see FIG. 13) between the first retracted position and the first operating position. The second accessory driving mechanism 44 moves the second movable accessory 42 to the first movable accessory 41 when driving the first movable accessory 41 between the first retracted position and the first intermediate position. When the first movable combination 41 is driven between the first intermediate position and the first operation position, the second movable combination 42 is moved in the driving direction of the first movable combination 41. While driving in the same direction, it is driven over the second retracted position and the second operating position.

  The first accessory drive mechanism 43 includes an electric motor 60 (stepping motor 60) attached to the base member 40, and a drive gear 61 (pinion 61) rotated by the electric motor 60 via a plurality of gears 61a. The rack 62 is provided on the first movable accessory 41 and engages with the drive gear 61. The computer of the lamp control board 29 corresponds to an accessory control device, and controls the first and second accessory driving mechanisms 43 and 44 by controlling the electric motor 60.

  The electric motor 60 is attached forward to the rear surface portion of the upper right portion of the base member 40, and the drive gear 61 is disposed on the front side of the base member 40 and on the lower side of the electric motor 60. The rack 62 is provided on the rear surface portion of the right edge of the first movable accessory 41 from the vicinity of the center to the lower end portion. An engaging member 50 is attached to the rack 62 so as to protrude rearward. The second movable accessory 42 rotates from the second retracted position to the second operating position on the opposite side of the rack 62.

  As described above, the second accessory driving mechanism 44, when driving the first movable accessory 41 between the first retracted position and the first intermediate position, moves the second movable accessory 42 to the first movable. Although it is driven integrally with the accessory 41, when the first movable accessory 41 is driven between the first intermediate position and the first operating position, the second movable accessory 42 is moved to the first movable accessory 41. The second accessory driving mechanism 44 includes a shaft member 48, and the shaft member 48 is driven in the same direction as the driving direction. The driving force of the first accessory driving mechanism 43 is transmitted from the first movable accessory 41 to the second movable accessory 42 via the first intermediate position between the first movable accessory 41 and the first operating position. In combination with a reciprocating movement of the second movable accessory 42. Here, the movement range of the first movable accessory 41 is A, the movement range between the first retracted position and the first intermediate position in the movement range A is A1, and the movement between the first intermediate position and the first operating position. The range is A2.

  The accessory interlocking mechanism 45 includes a guide member 70 provided on the second movable accessory 42 so as to protrude toward the base member 40 (backward), and a guide member when the first movable accessory 41 is in the movement range A2. The first movable combination 41 is moved along a plane parallel to the rotation plane of the second movable combination 42 (that is, a plane parallel to the game board 4). And a guide groove 72 extending in a direction not parallel to the direction.

  The guide groove 72 is an arcuate guide groove 72 formed in the left portion of the straight engagement groove 52 at the upper part of the base member 40, and the length of the guide groove 72 in the direction parallel to the moving direction of the first movable accessory 41. (That is, the movement range A2) is a little longer than half of the movement range A. That is, the arcuate guide groove 72 is formed in a relatively gentle arc (having a large curvature). The second movable combination 42 is in the second retracted position when the first movable combination 41 is in the movement range A1, and the second movable combination 42 is in a second position other than the second retracted position when the first movable combination 41 is in the movement range A2. It becomes a position including two operation positions and emerges from the first movable accessory 41.

  The movable accessory device 17 is provided on the base member 40 so that the guide member 70 engages when the first movable accessory 41 is in the movement range A1, is connected to one end of the arcuate guide groove 72, and is the first. A straight guide groove 73 extending in a direction parallel to the moving direction of the movable accessory 41 and a guide member 70 are provided in the base member 40 so as to be engageable with each other. A straight short groove 74 protruding in the direction parallel to the moving direction and projecting to the opposite side of the straight guide groove 73 is provided.

  The straight guide groove 73 is formed on the left side portion of the straight engagement groove 52 of the base member 40 in parallel with the straight engagement groove 52, and its length is slightly shorter than the half of the movement range A, and its upper end portion is It continues to the lower end of the arcuate guide groove 72. The straight short groove 74 is formed in the upper portion of the base member 40 and in the vicinity of the left edge, and the lower end portion thereof is connected to the upper end portion of the arcuate guide groove 72.

  The guide member 70 is mounted on the proximal end side portion of the second movable accessory 42 on the distal end side with respect to the shaft member 48. A straight line passing through the axis of the guide member 70 and the axis of the shaft member 48 is parallel to the moving direction of the first movable accessory 41, and the distance between the guide member 70 and the shaft member 48 is the center of the straight guide groove 73. The shaft member 48 and the guide member 70 are arranged so as to be substantially the same as the distance between the line and the center line of the straight short groove 74.

  When the guide member 70 is engaged with the straight guide groove 73, the second movable accessory 42 is in the second retracted position, and the first movable accessory 41 is in the first retracted position, the guide member 70 is the straight guide. The lower end of the groove 73 is engaged. The guide member 70 engages with the upper end portion of the arcuate guide groove 72 or the straight short groove 74, and the second movable accessory 42 becomes the second operation position.

  The guide member 70 includes a pin member 70 with a hook. The pin member 70 with the hook is rotatably mounted on a support shaft 71 attached to the second movable member 42 so as to protrude rearward, and the hook is used as a rear end. The arc guide groove 72, the straight guide groove 73, and the straight short groove 74 are engaged from the rear side. The pin member 70 with the hook is secured from the support shaft 71 by a C-ring (not shown) attached to the rear end portion of the support shaft 71.

  When the first movable accessory 41 is in the movement range A1 due to the shaft member 48, the guide member 70, the arcuate guide groove 72, the straight guide groove 73, etc., the second movable accessory 42 is linearly moved to the base member 40. And a second accessory guide mechanism 47 that rotatably supports the second movable accessory 42 on the base member 40 when the first movable accessory 41 is in the movement range A2. Has been.

  Next, the movable accessory device 17 has an assist spring having a spring member 81 that urges the first movable accessory 41 in one of the reciprocating movement directions (from the first retracted position to the first operating position). The mechanism 80, cushion members 90 and 91 that absorb the impact caused by the movement stop at the reciprocation end of the first movable accessory 41, and the cushion member 92 that absorbs the impact caused by the movement stop at the reciprocation end of the second movable accessory 42. , 93 are provided.

  The assist spring mechanism 80 has an arm member 82 having one end side portion rotatably connected to the base member 40 and the other end side portion linked to the first movable accessory 41 via an elongated hole 83 and a pin 84. The urging force of the spring member 81 is transmitted to the first movable accessory 41 via the arm member 82.

  The arm member 82 is disposed at a lower portion of the base member 40, and a left end portion of the arm member 82 is rotatably attached to a support shaft 82 a that protrudes rearward from the base member 40. An elongated hole 83 is formed in the length direction. A pin 84 protruding rearward from the connecting piece 50b of the engaging member 50 is slidably engaged with the elongated hole 83. That is, the right portion (the other end portion) of the arm member 84 is engaged with the engaging member 50. It is linked to.

  The spring member 81 is composed of a torsion spring 81 whose coil portion is sheathed around the support shaft 82 a, one end portion of which is locked to the base member 40, and the other end portion of which is locked to the arm member 82. Yes. The torsion spring 81 urges the arm member 82 to rotate counterclockwise when viewed from the front, and urges the first movable accessory 41 upward via the arm member 82.

  The assist spring mechanism 80 reduces the assist force that acts on the first movable combination 41 as the first movable combination 41 approaches the first operation position from the setting position closer to the first operation position than the first midway position. It is configured. This will be described in detail with reference to FIG.

First, assist force: FA is expressed by the following equation.
FA = F × cosθ (1)
F is an urging force that is input from the arm member 82 to the first movable accessory 41 via the pin 84 and faces in the circumferential direction about the support shaft 82a. θ is the rotation angle of the arm member 82, and θ = 0 ° when the length direction of the arm member 82 is orthogonal to the moving direction of the first movable accessory 41.

Next, the relationship of the torque: T for rotating the arm member 82 by the spring member 81, the biasing force: F, and the distance r between the centers of the support shaft 82a of the arm member 82 and the pin 84 is expressed by the following equation. .
F = T / r (2)
Next, when r = r 0 when the length direction of the arm member 82 is orthogonal to the moving direction of the first movable accessory 41, r is expressed by the following equation.
r = r 0 / cos θ (3)

Therefore, FA is represented by the following equation using T, r 0 , and θ according to equations (1) to (3).
FA = T / r 0 × cos 2 θ
= F 0 × cos 2 θ (4)
According to Expression (4), F 0 (= T / r 0 ) is a constant. Therefore, when θ = 0 °, that is, the length direction of the arm member 82 is orthogonal to the moving direction of the first movable accessory 41. Sometimes, the assist force: FA becomes maximum (F 0 ).

When the first movable combination 41 moves from the first retracted position to the first operating position, the first movable combination 41 is set at a position where the first movable combination is slightly closer to the first operating position than the first intermediate position. The length direction is orthogonal to the moving direction of the first movable accessory 41, and the assist force FA is maximized. That is, in the assist spring mechanism 80, as the first movable accessory 41 approaches the first operation position from the setting position on the first operation position side with respect to the first intermediate position, θ increases, that is, cos 2 θ is Since it becomes small, it is comprised so that assist force: FA made to act on the 1st movable accessory 41 may be made small.

  The cushion member 90 is provided in the lower part of the base member 40 and on the upper part of the front protrusion 40d on the left side of the straight engagement groove 52, and the first movable accessory at the first retracted position side moving end of the first movable accessory 41. 41 is contacted from below, and the impact caused by the movement stop at the first retracted position side moving end is absorbed. The cushion member 91 is provided at the upper end portion of the straight engagement groove 52 of the base member 40, and from the upper side to the engagement member 50 of the first movable combination 41 at the first operating position side moving end of the first movable combination 41. It contacts and absorbs the impact caused by the movement stop at the first operating position side moving end.

  The cushion member 92 is provided in a rearwardly bulging shape at the upper end portion of the first movable accessory 41, and comes into contact with the second movable accessory 42 from the right side at the second retracted position side moving end of the second movable accessory 42. The shock due to the movement stop at the moving end at the second retracted position side is absorbed. The cushion member 93 is provided on the upper portion of the bulging member 41 c attached to the rear surface portion of the first movable accessory 41, and is moved to the second movable accessory 42 at the second operating position side moving end of the second movable accessory 42. It contacts from the lower side and absorbs the impact caused by the movement stop at the second operating position side moving end.

The movable accessory device 17 described above operates as follows.
Usually, the first movable accessory 41 is in the first retracted position, most of which is hidden behind the center accessory body 15a, and the second movable accessory 42 is in the second retracted position, all of which are in the first retracted position. Although it is in a state of being hidden behind the movable accessory 41, a special game effect is produced by using the movable accessory device 17 based on a winning (a big hit lottery) or the like of the game balls at the start ports 10 and 11a. When it is done:

  In the first special effect, the first movable accessory 41 is started to move from the first retracted position toward the first intermediate position by the first accessory driving mechanism 43, and the first retracted position and the first intermediate position are The moving area A1 is reciprocated between them. At this time, the guide member 70 is engaged with the straight guide groove 73 by the second accessory driving mechanism 44 so that the second movable accessory 42 is held so as not to rotate, and is integrated with the first movable accessory 41. The movement starts and reciprocates.

  Thereafter, the first movable accessory 41 passes through the first intermediate position, and is moved in the movement area A2 from the first intermediate position to the first operating position. At that time, the guide member 70 is engaged with the arcuate guide groove 72 by the second accessory driving mechanism 44 (the accessory interlocking mechanism 45), and the second movable accessory 42 is moved together with the first movable accessory 41. However, it is rotated from the second retracted position to the second operating position. Finally, the guide member 70 is engaged with the straight short groove 74, the first movable accessory 41 is stopped to move to the first operating position, and the second movable accessory 42 is stopped to move to the second retracting operating position. .

  An assist force for assisting the movement of the first movable accessory 41 from the first retracted position to the first operating position is applied to the first movable accessory 41 by the assist spring mechanism 80, and this assist force is applied to the first movable accessory 41. The accessory 41 gradually increases from the first retracted position to the set position on the first operating position side slightly from the first intermediate position, and then gradually decreases to the first operating position. The cushion member 91 absorbs the impact of stopping the first movable accessory 41 from moving to the first operating position, and the cushion member 93 absorbs the impact of stopping the second movable accessory 42 from moving to the second operating position.

  Thereafter, by the reverse operation, the first movable accessory 41 is stopped from moving from the first operating position to the first retracted position, and the second movable accessory 42 is stopped from moving from the second operating position to the second retracted position. The The cushion member 90 absorbs the impact of stopping the first movable accessory 41 from moving toward the first retreat position, and the cushion member 92 absorbs the impact of stopping the second movable accessory 42 from moving to the second retracted position. The first special effect image is displayed on the screen of the image display 16 together with the operations of the first and second movable actors 41 and 42, and the first special effect sound effect is emitted from the speaker 34. The production with an impact is realized.

  In the second special effect, similarly to the first special effect, the first movable accessory 41 starts to move from the first retracted position toward the first intermediate position by the first accessory driving mechanism 43, and the first The moving area A1 is reciprocated between the retracted position and the first intermediate position. At that time, the second movable accessory 42 starts to move integrally with the first movable accessory 41 and is reciprocated.

  Thereafter, unlike the first special effect, the first movable accessory 41 passes through the first intermediate position and is not moved from the first intermediate position to the first operating position in the movement area A2, that is, the first The first movable accessory 41 is stopped from moving to the first retracted position without the second movable accessory 42 being rotated from the second retracted position to the second operating position. Along with the operations of the first and second movable actors 41 and 42, a second special effect image that is partially in common with the first special effect image is displayed on the screen of the image display 16. A second special effect sound that is partially shared with the special effect sound is produced.

  For example, when the first and second movable actors 41 and 42 operate during the change of the special symbol (that is, when the first or second special effect is executed), the first and second movable actors 41 are moved. , 42 is higher than the case where the big hit game is generated, and the expectation that the big hit game is generated when the first special effect is executed is higher than when the second special effect is executed. Increase the degree.

  Thereby, the player can raise the expectation of occurrence of a big hit when the first and second movable accessories 41 and 42 are operated. When the first and second movable accessories 41 and 42 operate, first, the first movable accessory moves back and forth between the first retracted position and the first intermediate position, but there is still a first special effect. I don't know if this is the second special production. Thereafter, whether the production proceeds first and the second movable combination 42 rotates, or whether the production ends without the second movable combination 42 rotating, by the production of reciprocating the first movable combination 41. It can be excited.

  As a result, the player can further increase the expectation of occurrence of a big hit when the production proceeds first and the second movable accessory 42 rotates to become the first special production. However, even when the second movable accessory 42 does not rotate and the second special effect ends, the expectation of a big hit is higher than when the first and second movable actors 41 and 42 do not operate. Can have.

The movable accessory device 17 has the following effects.
The first accessory driving mechanism 43 drives the first movable accessory 41 through the first intermediate position between the first retracted position and the first operating position via the first intermediate position. When the first movable combination 41 is driven between the first retracted position and the first intermediate position by the object driving mechanism 44, the second movable combination 42 is driven integrally with the first movable combination 41. When the first movable accessory 41 is driven between the first intermediate position and the first operating position, the second movable accessory 42 is driven in the same direction as the driving direction of the first movable accessory 41. However, it is driven over the second retracted position and the second operating position.

  The second interlocking mechanism 45 of the second accessory driving mechanism 44 reciprocates the second movable accessory 42 in conjunction with the reciprocating movement between the first intermediate position of the first movable accessory 41 and the first operating position. Move. That is, the first and second movable combinations 41 and 42 can be driven by one common electric motor 60, and the first movable combination 41 is moved by moving the first movable combination 41. When moving the movement range A1, the second movable combination 42 is moved together with the first movable combination 41 without rotating, and when the first movable combination 41 moves through the movement range A2, the second movable combination 42 is moved. The novel operation of the first and second movable accessories 41 and 42, in which the second movable accessory 42 is rotated while being moved together with the first movable accessory 41, can be realized, and the production effect can be enhanced.

  The accessory interlocking mechanism 45 includes a guide member 70 provided on the second movable accessory 42 so as to protrude toward the base member 40, and the guide member 70 when the first movable accessory 41 is in the movement range A2. Since there is a guide groove 72 provided in the base member 40 so as to be aligned and extending in a direction not parallel to the moving direction of the first movable accessory 41 along a plane parallel to the rotation surface of the second movable accessory 42. The second movable accessory 42 can be reliably reciprocated in conjunction with the reciprocal movement of the first movable accessory 41 in the movement range A2.

  The base member 40 is provided so that the guide member 70 engages when the first movable accessory 41 is in the movement range A1, is connected to one end of the guide groove 72, and is parallel to the movement direction of the first movable accessory 41. Since the straight guide groove 73 extending in the direction is provided, when the first movable accessory 41 moves in the movement range A1, the second movable accessory 42 is held in the second retracted position without being rotated, and The movable member 41 can be moved integrally with the movable member 41. When the first movable member 41 moves over the movement range A1 and the movement range A2, the guide member 80 is moved along the straight guide groove 73 and the guide groove 72. Thus, the engagement can be reliably shifted.

  This is the direction in which the first movable accessory 41 moves from the first retracted position to the first operating position in the reciprocating direction of the first movable accessory 41, and the driving load of the accessory driving mechanism 43 is large due to the influence of gravity or the like. An assist spring mechanism 80 having a spring member 81 for urging the first movable accessory 41 in the moving direction is provided. Accordingly, the load for driving the first movable accessory 41 can be effectively reduced, and the first movable accessory 41 and 42 are operated to be relatively large and large. When the accessory 41 is moved from the first retracted position to the first operating position and the second movable accessory 42 is rotated from the second retracted position to the second operating position, it can be driven quickly and smoothly.

  The assist spring mechanism 80 has an arm member 82 having one end side portion rotatably connected to the base member 40 and the other end side portion linked to the first movable accessory 41 via an elongated hole 83 and a pin 84. Since the urging force of the spring member 81 is transmitted to the first movable accessory 41 via the arm member 82, the first movable accessory 41 is moved from the first retracted position to the first operating position. During the operation, the assist force for assisting the driving of the first movable accessory 41 can be reliably applied.

  An engagement member 50 provided on the first movable accessory 41 so as to protrude toward the guide member 40, and provided so that the engagement member 50 engages with the base member 40. Since the straight engagement groove 52 extending in the direction parallel to the direction is provided, the first movable accessory 41 can be reliably guided and supported on the base member 40 so as to be linearly movable. Since the other end portion of the arm member 82 of the assist spring mechanism 80 is interlocked and connected to the engaging member 50, the first movable accessory 41 can be guided from the desired portion to smoothly guide and drive the base member 40. An urging force can be input to the first movable accessory 41.

  The assist spring mechanism 81 reduces the assist force that acts on the first movable combination 41 as the first movable combination 41 approaches the first operation position from the setting position closer to the first operation position than the first midway position. In other words, when starting to move the second movable accessory 42 from the second operating position to the second retracted position, it is possible to reduce the load that is driven against the assist force, and therefore, the electric motor 60 having a relatively low output. By applying the above, smooth and quick operation of the first and second movable accessories 41 and 42 can be realized.

  The base member 40 is provided with cushion members 90 and 91 for absorbing an impact caused by the movement stop of the first movable accessory 41 at the reciprocating end, and the first movable accessory 41 is provided with the second movable accessory 42 at the reciprocating end. Cushion members 92 and 93 that absorb the impact caused by the movement stop are provided. Accordingly, the first and second movable accessories 41 and 42 and the accessory driving mechanism 43 are damaged by the impact caused by the movement stop at the reciprocating ends of the first and second movable accessories 41 and 42, and the first It is possible to suppress problems such as the fact that the first and second movable accessories are loose and deteriorate in appearance.

  The second embodiment is a partial modification of the first embodiment. Note that components having the same functions as those of the first embodiment are denoted by similar reference numerals, and description thereof is omitted as appropriate.

  As shown in FIGS. 15 and 16, in the movable accessory device 17A, in the accessory interlocking mechanism 45A, a guide member 70A is provided on the base member 40A, and a guide groove 72A (arc-shaped guide groove 72A), a straight guide is provided. A groove 73A and a straight short groove 74A are provided in the second movable accessory 42A. The arcuate guide groove 72A, the straight guide groove 73A, and the straight short groove 74A are shapes obtained by inverting the arcuate guide groove 72, the straight guide groove 73, and the straight short groove 74 of Example 1 by 180 degrees in a front view. It becomes.

  According to the movable accessory device 17A, the same operation as that of the movable accessory device 17 of the first embodiment is realized, and the same effect is obtained. Note that an engagement member that replaces the engagement member 50 of the first embodiment may be provided in the base member 40A, and a straight engagement groove that replaces the straight engagement groove 52 of the first embodiment may be provided in the first movable accessory 41. In this case, the other end side portion of the arm member 82 of the assist spring mechanism 80 is connected to a predetermined portion of the first movable accessory 41 via a long hole and a pin.

  In addition, various modifications can be added without departing from the spirit of the present invention. For example, the shape and size of the first and second movable combinations, the moving direction of the first movable combination, the rotation direction of the second movable combination, the shape of the guide groove, and the like can be appropriately changed. Further, the present invention can be applied to various movable accessory devices mounted on a pachinko gaming machine.

DESCRIPTION OF SYMBOLS 1 Pachinko machine 17 and 17A movable accessory apparatus 20 Control apparatus 40 Base member 41 1st movable accessory 42 and 42A 2nd movable accessory 43 1st accessory drive mechanism 44 2nd accessory drive mechanism 45 and 45A accessory Interlock mechanism 80 Assist spring mechanism 81 Spring member

Claims (5)

  1. A first movable combination that is movably disposed over the first retracted position and the first operating position with respect to the base member, and a second that overlaps the first movable combination with respect to the first movable combination. A pachinko gaming machine equipped with a movable accessory device including a second movable accessory movably disposed over a retracted position and a second operating position protruding at least partially from the first movable accessory. There,
    The movable accessory device is:
    A first accessory driving mechanism for driving the first movable accessory through a first intermediate position between the first retracted position and the first operating position;
    When driving the first movable accessory between the first retracted position and the first intermediate position, the second movable accessory is driven integrally with the first movable accessory, and the first movable accessory is When driving between the first intermediate position and the first operating position, the second retractable position and the second operating position are driven while driving the second movable accessory in the same direction as the driving direction of the first movable accessory. A second actuating mechanism that drives over the distance;
    A pachinko gaming machine characterized by comprising:
  2. An accessory control device for controlling the first and second accessory driving mechanisms;
    As the first special effect, the accessory control device starts moving the first movable accessory from the first retraction position and reciprocates between the first retraction position and the first intermediate position a plurality of times. 2. The pachinko machine according to claim 1, wherein the first movable accessory is moved from the first intermediate position to the first operating position and the second movable accessory is moved from the second retracted position to the second operating position. Gaming machine.
  3.   As the second special effect, the accessory control device starts moving the first movable accessory from the first retraction position and reciprocates between the first retraction position and the first intermediate position a plurality of times. 3. The pachinko gaming machine according to claim 2, wherein the first movable accessory is stopped from moving from the first midway position to the first operating position without being moved to the first retracted position.
  4.   The second accessory driving mechanism has an accessory interlocking mechanism for reciprocatingly rotating the second movable accessory in conjunction with the reciprocating movement between the first intermediate position of the first movable accessory and the first operating position. The pachinko gaming machine according to any one of claims 1 to 3, characterized in that.
  5. The movable accessory device includes an assist spring mechanism having a spring member that biases the first movable accessory from the first retracted position to the first operating position,
    The assist spring mechanism reduces the assist force that acts on the first movable combination as the first movable combination approaches the first operation position from the set position closer to the first operation position than at least the first intermediate position. The pachinko gaming machine according to claim 4, which is configured.
JP2010175552A 2010-08-04 2010-08-04 Pachinko machine Active JP5089739B2 (en)

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Cited By (16)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2012187165A (en) * 2011-03-09 2012-10-04 Sansei R&D:Kk Game machine
JP2012232049A (en) * 2011-05-09 2012-11-29 Toyomaru Industry Co Ltd Performance device and game machine including the same
JP2013048932A (en) * 2012-11-14 2013-03-14 Sansei R&D:Kk Game machine
JP2013230200A (en) * 2012-04-27 2013-11-14 Okumura Yu-Ki Co Ltd Game machine
JP2013240370A (en) * 2012-05-17 2013-12-05 Okumura Yu-Ki Co Ltd Pachinko game machine
JP2014004133A (en) * 2012-06-25 2014-01-16 Heiwa Corp Game machine
JP2014212948A (en) * 2013-04-25 2014-11-17 京楽産業.株式会社 Game machine
JP2015139672A (en) * 2014-01-30 2015-08-03 京楽産業.株式会社 Game machine
JP2015178012A (en) * 2015-06-09 2015-10-08 京楽産業.株式会社 Game machine
JP2016016082A (en) * 2014-07-08 2016-02-01 株式会社三共 Game machine
JP5869077B1 (en) * 2014-08-29 2016-02-24 京楽産業.株式会社 Game machine
JP2016049240A (en) * 2014-08-29 2016-04-11 京楽産業.株式会社 Game machine
JP2016209739A (en) * 2016-09-21 2016-12-15 株式会社サンセイアールアンドディ Game machine
JP2017124328A (en) * 2017-04-27 2017-07-20 株式会社大一商会 Game machine
JP2017136441A (en) * 2017-04-20 2017-08-10 株式会社大一商会 Game machine
JP2018130187A (en) * 2017-02-13 2018-08-23 株式会社三共 Game machine

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JP2007312847A (en) * 2006-05-23 2007-12-06 Newgin Corp Performance device for game machine
JP2008272228A (en) * 2007-04-27 2008-11-13 Okumura Yu-Ki Co Ltd Auxiliary performance device of pachinko game machine
JP2010035718A (en) * 2008-08-01 2010-02-18 Nippon Pachinko Buhin Kk Performance device for game machine and game machine having the same

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Publication number Priority date Publication date Assignee Title
JP2007312847A (en) * 2006-05-23 2007-12-06 Newgin Corp Performance device for game machine
JP2008272228A (en) * 2007-04-27 2008-11-13 Okumura Yu-Ki Co Ltd Auxiliary performance device of pachinko game machine
JP2010035718A (en) * 2008-08-01 2010-02-18 Nippon Pachinko Buhin Kk Performance device for game machine and game machine having the same

Cited By (16)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2012187165A (en) * 2011-03-09 2012-10-04 Sansei R&D:Kk Game machine
JP2012232049A (en) * 2011-05-09 2012-11-29 Toyomaru Industry Co Ltd Performance device and game machine including the same
JP2013230200A (en) * 2012-04-27 2013-11-14 Okumura Yu-Ki Co Ltd Game machine
JP2013240370A (en) * 2012-05-17 2013-12-05 Okumura Yu-Ki Co Ltd Pachinko game machine
JP2014004133A (en) * 2012-06-25 2014-01-16 Heiwa Corp Game machine
JP2013048932A (en) * 2012-11-14 2013-03-14 Sansei R&D:Kk Game machine
JP2014212948A (en) * 2013-04-25 2014-11-17 京楽産業.株式会社 Game machine
JP2015139672A (en) * 2014-01-30 2015-08-03 京楽産業.株式会社 Game machine
JP2016016082A (en) * 2014-07-08 2016-02-01 株式会社三共 Game machine
JP2016049240A (en) * 2014-08-29 2016-04-11 京楽産業.株式会社 Game machine
JP5869077B1 (en) * 2014-08-29 2016-02-24 京楽産業.株式会社 Game machine
JP2015178012A (en) * 2015-06-09 2015-10-08 京楽産業.株式会社 Game machine
JP2016209739A (en) * 2016-09-21 2016-12-15 株式会社サンセイアールアンドディ Game machine
JP2018130187A (en) * 2017-02-13 2018-08-23 株式会社三共 Game machine
JP2017136441A (en) * 2017-04-20 2017-08-10 株式会社大一商会 Game machine
JP2017124328A (en) * 2017-04-27 2017-07-20 株式会社大一商会 Game machine

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