JP2012130556A - Pachinko game machine - Google Patents

Pachinko game machine Download PDF

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Publication number
JP2012130556A
JP2012130556A JP2010286128A JP2010286128A JP2012130556A JP 2012130556 A JP2012130556 A JP 2012130556A JP 2010286128 A JP2010286128 A JP 2010286128A JP 2010286128 A JP2010286128 A JP 2010286128A JP 2012130556 A JP2012130556 A JP 2012130556A
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movable
axis
rotation
decorative
base
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JP2010286128A
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JP5292385B2 (en
Inventor
Hiromi Hattori
Masahiro Ota
真寛 太田
広美 服部
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Kyoraku Sangyo Kk
京楽産業.株式会社
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Abstract

PROBLEM TO BE SOLVED: To provide a Pachinko game machine capable of enhancing a dramatic impact by achieving a series of associated novel actions of first and second decorative members.SOLUTION: A first movable body 43 is rotatively driven via a midway position P3 across first and second positions P1 and P2 around a first axial center C1 by a rotary drive mechanism 47. When the first movable body 43 is rotated across the first position P1 and the midway position P3, the first movable body 43 and a second movable body 44 are integrally held by a movable body holding mechanism 45 and rotated around the first axial center C1. When the first movable body 43 is rotated across the midway position P3 and the second position P2, the first decorative member 51 of the first movable body 43 is rotated across predetermined first and second rotational positions PR1 and PR2 around a second axial center C2 parallel to a surface orthogonal to the first axial center C1 in such a manner as to be interlocked with the rotation of the first movable body 43 in the state of stopping the rotation of the second movable body 43 around the first axial center C1, by a movable body interlocking mechanism 46.

Description

  The present invention relates to a pachinko gaming machine, and in particular, the first and second movable bodies are integrated by rotating the first movable body around a first axis around a first position and a second position. The first decorative member of the first movable body (or the second decorative member of the second movable body) is parallel to a plane orthogonal to the first axis in a state where the second movable body is rotated or stopped. Or rotating around the second axis.

  In general, a pachinko gaming machine is equipped with a stage effect device having a decoration member for a game effect, and the direction member device has a vertical plane perpendicular to the front-rear direction (that is, a board surface of a game board). ) That operate along the line is widely used.

  For example, in the stage effect device described in Patent Document 1, the base end portion of the movable arm is connected to the base member so as to be rotatable around the axial center in the front-rear direction, and the decorative member is disposed in the front-rear direction at the tip portion of the movable arm. Both end portions of the link arm are connected to the base member and the decorative member so as to be rotatable around the axial center in the front-rear direction. The movable arm is rotationally driven by the rotational drive mechanism, and the decorative member swings left and right on the front side of the screen. At this time, the decorative member is always held in the same posture by the link arm.

  On the other hand, in the stage effect device described in Patent Document 2, an accessory body simulating a human torso is supported by a base member so as to be rotatable about an axis in the left-right direction, and an oscillating body simulating a machine gun body Is supported by the base member so as to be rotatable about a longitudinal axis, and a rotating body simulating a plurality of barrels of the machine gun is supported by the swinging body so as to be rotatable about an axis perpendicular to the longitudinal direction. .

  The swinging body is swung up and down together with the rotating body by the first driving mechanism, and the rotating body is rotationally driven by the second driving mechanism provided independently of the first driving mechanism. When the rotating body is driven to rotate by the second drive mechanism, the power is input to the rotating plate disposed on the rear side of the accessory body through a plurality of gears, and the rotating plate is rotated about the axis in the front-rear direction. As a result, the accessory body is driven to swing back and forth by a cam mechanism provided on the rotating plate and the accessory body.

Japanese Patent Laid-Open No. 2003-236086 JP 2008-183030 A

  In a stage effect device such as Patent Document 1, the decorative member operates along a vertical plane orthogonal to the front-rear direction, and is a flat and monotonous operation that does not operate in the front-rear direction, thereby enhancing the effect of presentation. Can not. In the effect accessory device of Patent Document 2, the swinging body swings up and down together with the rotating body, the rotating body rotates around an axis orthogonal to the front-rear direction, and the accessory body swings back and forth. However, since the first drive mechanism for driving the oscillating body and the second drive mechanism for driving the rotating body are provided independently, the overall structure of the first and second drive mechanisms becomes complicated and large in size. Becomes expensive.

  On the other hand, when the rotating body is driven to rotate by the second drive mechanism, the accessory body is driven to swing back and forth in conjunction with the rotation. However, the rotating operation of the rotating body and the swinging operation of the accessory body are always different operations, and it is easy to realize by providing a plurality of conventional decorative members, and lacks novelty. Moreover, in order to drive the accessory body by the second drive mechanism, it is necessary to separately provide a plurality of gears, a rotating plate, a cam mechanism, etc., so that the structure is complicated and large even if the first drive mechanism is ignored. The production cost becomes expensive.

  An object of the present invention is to provide a pachinko gaming machine capable of realizing a series of novel operations of the first and second decorative members and enhancing the effect of the presentation.

  The invention according to claim 1 is a pachinko gaming machine (1) in which a first movable body including a first decorative member (51) rotatably supported around a first axis (C1) by a base member (40). And a second movable body (44) including a base member (40) or a second decorative member (56) supported by the first movable body (43) so as to be movable relative to the first movable body (43). ) And a predetermined intermediate position (P3) between the first movable body (43) and a predetermined first position (P1) and a second position (P2) around the first axis (C1). A rotation drive mechanism (47) that is driven to rotate, and the first drive body (43) is moved between the first position (P1) and the intermediate position (P3) by the rotation drive mechanism (47). The first movable body holding mechanism (45) for holding and rotating the first and second movable bodies (43, 44) integrally and the rotation driving mechanism (47) for the first movement. When the body (43) is rotated between the intermediate position (P3) and the second position (P2), the second movable body (44) is stopped. In conjunction with the rotation of the first movable body (43), the first or second decorative member (51 or 56) is moved to a second axis (parallel to a plane perpendicular to the first axis (C1)). C2) A movable body interlocking mechanism (46) that rotates around a predetermined first rotation position (PR1) and second rotation position (PR2) is provided.

  According to a second aspect of the present invention, in the first aspect of the invention, the first movable body (43) is connected to a base member (40) so as to be rotatable about the first axis (C1) and the rotation is performed. The second axis center includes a first movable base member (50) to which a driving force is input from the drive mechanism (47), and the first decorative member (51) is orthogonal to the first axis (C1). (C2) The first movable base member (50) is connected to the first movable base member (50) so as to be rotatable around.

  According to a third aspect of the present invention, in the second aspect of the invention, the second movable body (44) is connected to a base member (40) so as to be rotatable about the first axis (C1). The second decorative member (56) has a base member (55), and is fixedly connected to the two movable base members (55).

  According to a fourth aspect of the present invention, in the third aspect of the invention, the first and second movable bodies (43, 44) are arranged on a plane orthogonal to the first axial center (C1) from the first axial center (C1). It is provided so that it may extend in two different directions along.

  According to a fifth aspect of the invention, in the fourth aspect of the invention, the movable body holding mechanism (45) is configured such that the first and second movable bodies (43, 44) are set around the first axis (C1). A relative rotation restricting mechanism (70) for restricting relative rotation of the first and second movable bodies (43, 44) in a direction away from each other in a state of being separated by an angle (θα); And a movable body urging mechanism (75) for urging and urging the movable bodies (43, 44) in a direction to separate them from each other.

  According to a sixth aspect of the present invention, in the fifth aspect of the invention, the movable body interlocking mechanism (46) is provided on the first decorative member (51) at a position eccentric from the second axis (C2). A first engaging portion (80); a second engaging portion (82) provided on the second movable body (44) so as to engage with the first engaging portion (80); and the first decoration A spring member (82) for urging and urging the member (51) to the first rotation position (PR1), and the first movable body (43) is moved from the midway position (P3) to the second position ( When rotating to P2), the first engaging portion (80) is pushed by the second engaging portion (81) and the first decorative member (51) resists the biasing force of the spring member (82). When the first movable body (43) is rotated from the second position (P2) to the intermediate position (P3) by rotating from the first rotation position (PR1) to the second rotation position (PR2). The first decorative member (51) is first rotated from the second rotational position (PR2) by the biasing force of the spring member (82) received through the first and second engaging portions (80, 81). Characterized in that it is configured to rotate in the location (PR1).

  According to a seventh aspect of the present invention, in the sixth aspect of the invention, the first and second engaging portions (80, 81) and the spring member (82) of the movable body interlocking mechanism (46) include the movable body holding mechanism ( 45) a movable body urging mechanism (75).

  The invention of claim 8 is the invention according to any one of claims 1 to 7, wherein the first and second movable bodies (43, 44), the movable body holding mechanism (45), and the movable body interlocking mechanism (46). Two sets are symmetrically arranged, and the first and second movable bodies (43, 44) are configured to operate symmetrically by the rotation drive mechanism (47) having one common electric motor (60). It is characterized by that.

  The invention of claim 9 is a pachinko machine (1), comprising a movable body (43) including a decorative member (51) rotatably supported around a first axis (C1) by a base member (40). The movable body (43) is rotated around the first axis (C1) through a predetermined first position (P1) and a second position (P2) via a predetermined intermediate position (P3). A rotational drive mechanism (47) that is dynamically driven, and the rotational drive mechanism (47) for rotating the movable body (43) between the intermediate position (P3) and the second position (P2). In conjunction with the rotation, the decorative member (51) is moved to a predetermined first rotation position (PR1) about a second axis (C2) parallel to a plane perpendicular to the first axis (C1). And a movable body interlocking mechanism (46) that rotates over the second rotation position (PR2).

  According to the pachinko gaming machine of the present invention, since the first and second movable bodies, the rotation drive mechanism, the movable body holding mechanism, and the movable body interlocking mechanism are provided, a series of innovative first and second decorative members are provided. Operation can be realized and the effect of production can be enhanced.

It is a front view of a pachinko gaming machine. It is a block diagram of the control system of a pachinko gaming machine. It is a front view of a stage effect device (the 1st movable body is the 1st position). It is a front view of a stage effect device (a 1st movable body is between a 1st position and a middle position). It is a front view of a stage effect device (the 1st movable body is a middle position). It is a front view of a stage effect device (a 1st movable body is a 2nd position). It is a side view of a stage effect device. It is a rear view of a stage effect device. It is a perspective view of a director effect device. It is a perspective view of the state where a part of direction effect device was omitted. It is a perspective view of the state where a part of direction effect device was omitted. It is a front view in the state where a part of direction effect device (the 1st movable body is the 1st position) was omitted. It is a front view in the state where a part of direction effect device (the 1st movable object is the 2nd position) was omitted. It is a rear view in the state where a part of direction effect device is omitted.

  In the pachinko gaming machine according to the present invention, the first movable body is rotationally driven around the first axis around the predetermined first position and the second position via a predetermined intermediate position, and the first movable body Is rotated around the first position and the intermediate position, the first and second movable bodies are integrally held and rotated around the first axis, and the first movable body is moved in the middle When rotating between the position and the second position, the second movable body is interlocked with the rotation of the first movable body about the first axis in a state where the rotation of the second movable body is stopped about the first axis. The first decorative member of the first movable body is rotated around a predetermined first rotation position and a second rotation position around a second axis parallel to a plane orthogonal to the first axis. .

  As shown in FIG. 1, the pachinko gaming machine 1 has an opening / closing frame 2 attached to an outer frame attached to an island structure of a game hall so as to be opened and closed, and an opening / closing door 3 is attached to the opening / closing frame 2 so as to be opened and closed. Yes. 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, a transparent plate 3b is attached to the window 3a, and the front side of the game area 4a is covered with the transparent plate 3b.

  The open / close door 3 is provided with a storage tray 5 below the window 3 a, an effect button 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. 1 and 2, the game board 4 includes a number of obstacle nails 10, a first start port 11, a second start port device 12, a gate 13, a big winning port device 14, and a plurality of general winning ports 15. The center accessory 16, the image display device 17, the production effect device 18, and the game display board 19 are mounted in the arrangement shown in FIG. 1, and the control device 20 that executes control related to the game is mounted on the back side of the game board 4. ing.

  The first start opening 11 is provided with a first start opening SW switch 11a for detecting a winning game ball, the gate 13 is provided with a gate SW 13a for detecting a passed game ball, and each general winning opening 15 is awarded a prize. A general winning opening SW15a for detecting the played game ball is attached. “SW” means a switch.

  The second starter device 12 includes a second starter 12a, an opening / closing member 12b for opening / closing the second starter 12a, a second starter SW12c for detecting a game ball won in the second starter 12a, and an opening / closing member 12b. It has the 2nd starting port SOL12d to drive. “SOL” means a solenoid actuator. The opening / closing member 12b makes it impossible to win a game ball to the second start port 12a in the closed position, and allows the game ball to win the second start port 12a in the open position.

  The big prize opening device 14 includes a big prize opening 14a, an opening / closing member 14b for opening and closing the big prize opening 14a, a big prize opening SW 14c for detecting a game ball won in the big prize opening 14a, and a big prize opening for opening and closing the opening / closing member 14b. It has SOL14d. The opening / closing member 14b makes it impossible to win a game ball to the big prize opening 14a in the closed position, and allows the game ball to win the big prize opening 14a in the open position.

  The center accessory 16 is formed in a frame shape with a size that occupies more than half of the game area 4a, and is mounted in a state of being fitted into a board hole (not shown) formed in the game board 4. The image display 17 is attached to the center accessory 16 from the rear side so that the screen faces the inner area of the center accessory 16. The stage effect device 18 is a device unique to the present invention for performing game effects, and is provided on the upper portion of the center role 17. For example, an image display is provided so as to increase the degree of expectation for jackpots during execution of a specific effect while a special symbol is changing. It operates on the screen front side of the device 17.

  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 11, and on the second special symbol indicator 19b, the second starting port is displayed. Based on the winning of the game ball to 12a, 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 14 opens and closes the opening / closing member 14b, and normally the big prize for closing is received. The mouth 14a is opened and closed over a plurality of rounds.

  Based on the winning (passing) of the game ball to the gate 13, the normal symbol is stopped and displayed on the normal symbol display 19c after the symbol changes. When the symbol is stopped and displayed on the normal symbol display 19c, an auxiliary game occurs and the second starter device 12 opens and closes the opening / closing member 12b, and the normally closed second starter port 12a 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 11, and the second special symbol holding lamp 19e has a second starting port. The maximum number of so-called second special figure hold numbers of game balls won in 12a is displayed, and the normal symbol hold lamp 19f displays a maximum of four so-called general figure hold numbers of game balls won in the gate 13. The

  By turning the launch handle 7, the game ball launched into the upper part of the game area 4 a hits the plurality of obstacle nails 10 and falls while changing the direction, and any of the winning holes 11, 12 a, 14 a, 15. When the crab is won, it is discharged from the gaming area 4a, and if it does not win any of the winning openings 11, 12a, 14a, 15, it is finally formed at the lower end of the gaming area 4a. It is discharged out of the game area 4a from the out port 4c.

  The control system of the pachinko gaming machine 1 will be described. As shown in FIG. 2, the control device 20 includes a game control board 21, a payout control board 22, an effect control board 23, an image control board 24, and a lamp control board 25. These control boards 21 to 25 are each provided with a computer including a CPU, a ROM and a RAM, and the effect control board 23 is further provided with an RTC. The game control board 21 is connected to the board external information terminal board 26, and the payout control board 22 is connected to the frame external information terminal board 27. “RTC” means a real-time clock.

  The computer of the game control board 21 receives the signals from the first and second start openings SW11a, 12c, the gate SW13a, the big prize opening SW14c, the general prize opening SW15a, and the control information from the payout control board 22, and 2 Control the start opening SOL12d, the big winning opening SOL14d, the symbol displays 19a to 19c, the symbol holding lamps 19d to 19f, and control information (game) to the payout control board 22, the effect control board 23 and the board external information terminal board 26. Information).

  The computer of the payout control board 22 receives the control information from the game control board 21 and the 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 the prize opening 11 , 12 a, 14 a, 15 for one winning game ball, the number of game balls set for each of the winning openings 11, 12 a, 14 a, 15 are paid out to the storage tray 5, and the game control board 22 and the frame external information Control information (payout information) is output to the terminal board 27.

  The computer of the effect control board 23 receives the control information from the game control board 21 and the signal from the effect button 6, outputs the control information to the image control board 24, and further controls the information from the image control board 24. In response, control information is output to the lamp control board 25.

  The computer of the image control board 24 receives the control information from the effect control board 23, controls the game display image display 17 and the speaker 35, and outputs the control information to the effect control board 23. The computer of the lamp control board 25 receives the control information from the effect control board 23 and synchronizes with the control of the image control board 24 mainly by the computer to play a frame lamp 36, a board lamp 38, and an effect agent. The device 18 is controlled.

The stage effect device 18 will be described.
As shown in FIGS. 1 to 14, the production effect device 18 includes a base member 40, a fixed decorative body 41, and two sets of left and right movable body devices 42, and the base member 40 is attached to the upper part of the center accessory 17. Thus, the fixed decorative body 41 and the two sets of movable body devices 42 are positioned on the front side of the upper end side of the screen of the image display 17.

  The base member 40 includes a base front member 40a, a base rear member 40b, and a base cover member 40c, and the base front member 40a and the base rear member 40b are joined in the front-rear direction with a plurality of screws 40a1 and formed in a case shape. The base front member 40a and the base rear member 40b are attached to a front surface portion of a base attachment portion (not shown) fixedly provided on the center accessory 16 with a plurality of screws 40b1. The base cover member 40c is formed in a crank shape in a side view, and an upper portion thereof is attached to the front portion of the base front member 40a with a plurality of screws 40c1, and a lower portion thereof is positioned with a space on the front side of the base front member 40a.

  The fixed decorative body 41 includes a first fixed decorative member 41a having a plurality of pointed blade-shaped portions (shaped portions showing star shine), and a plurality of distal ends disposed on the outer periphery of the first fixed decorative member 41a. And a second fixed decorative member 41b having a pointed blade-like portion (a shape portion that shows the brightness of a star like the first fixed decorative member 41a). The first and second star gimmicks 41a and 41b are integrally formed, and are attached to a plurality of boss portions 40c2 provided in a forward projecting shape at the lower part of the base cover member 40c with screws 41d, on the front side of the base cover member 40c. Located at intervals.

  On the rear side of the fixed decorative member 41, an LED substrate 48a is attached to the front surface portion of the base cover member 40c, and a plurality of LEDs 48b are mounted on the front surface portion of the LED substrate 48a. The fixed decorative member 41 (first fixed decorative member 41) is provided with a lens 48c that diffuses the light from the plurality of LEDs 48b and passes it forward, whereby the fixed decorative body 41 is illuminated.

  The two sets of movable body devices 42 include first and second movable bodies 43 and 44, a movable body holding mechanism 45, and a movable body interlocking mechanism 46, respectively, and one electric motor common to the two sets of movable body devices 42. A rotation drive mechanism 47 having a motor 60 is provided. Most of the two sets of the first and second movable bodies 43 and 44, the two sets of movable body holding mechanisms 45, and the two sets of movable body interlocking mechanisms 46 each have a bilaterally symmetric structure. Two sets of first and second movable bodies 43 and 44 are configured to operate symmetrically.

  The first and second movable bodies 43 and 44, the movable body holding mechanism 45, the movable body interlocking mechanism 46, and the rotation drive mechanism 47 will be described in detail. However, the two sets of the first and second movable bodies 43 and 44, the two sets of movable body holding mechanisms 45, and the two sets of movable body interlocking mechanisms 46 will each be described, and the other will be assigned the same reference numeral. The description is omitted.

  As shown in FIGS. 3 to 14, the first movable body 43 is rotatably supported by the base member 40 around the first axis C <b> 1 in the front-rear direction and coincident with the center of the fixed decorative body 41. The first axial center C1 is provided so as to extend long along a vertical plane perpendicular to the first axial center C1.

  The first movable body 43 is a first movable body in which a base end side portion is connected to the base member 40 through a shaft 49 so as to be rotatable around a first axis C1 and a driving force is input from a rotation driving mechanism 47. The base member 50 and the base end side portion are arranged around the second axis C2 that is orthogonal to the first axis C1 at the tip end portion of the first movable base member 50 and coincides with the length direction of the first movable body 43. And a first decorative member 51 rotatably connected through 43a.

  The first movable base member 50 is disposed between the base front member 40 a and the base cover member 40 c in a state of being hidden behind the fixed decorative body 41. The first decorative member 51 is formed in a blade shape with a sharp tip (a shape showing the brightness of stars), and is disposed in a state of being exposed to the outer periphery of the fixed decorative body 41.

  As shown in FIGS. 3 to 14, the second movable body 44 is supported by the base member 40 so as to be rotatable about the first axis C <b> 1 so as to be rotatable relative to the first movable body 43. It is provided so as to extend from the center C1 along a vertical plane orthogonal to the first axis C1 and in a direction different from the length direction of the first movable body 43.

  The second movable body 44 includes a second movable base member 55 having a base end portion connected to the base member 40 via a shaft 49 so as to be rotatable about the first axis C1, and a base end portion being a second end portion. And a second decorative member 56 fixedly connected to the distal end portion of the movable base member 55.

  The second movable base member 55 is arranged in a position hidden forward of the first movable base member 50 between the base front member 40a and the base cover member 40c in a state of being hidden behind the fixed decorative body 41. In particular, the first movable base member 50 is disposed so as to overlap the front and rear. The second decorative member 56 is formed in a blade shape having a sharp tip substantially the same shape and the same size as the first decorative member 51 (a shape showing the brightness of stars as in the first decorative member 51), and the outer periphery of the fixed decorative body 41 It is arranged in a state exposed to the outside.

  The first and second decorative members 51 and 56 are provided with LED substrates, a plurality of LEDs mounted on the front surface of the LED substrate, and lenses for diffusing the light of the plurality of LEDs and passing them forward. The second decorative members 51 and 56 may be illuminated.

  As shown in FIGS. 3 to 6 and FIGS. 11 to 14, the rotation drive mechanism 47 moves the first movable body 43 around the first axis C <b> 1 to a predetermined first position P <b> 1 (position in FIG. 3). It is rotated by an operating angle θa (for example, θa = 50 °) via a predetermined midway position P3 (position in FIG. 5) over the two positions P2 (position in FIG. 6). For example, the operation angle θb between the first position P1 and the intermediate position P3 of the first movable body 43 is 35 °, and the operation angle θb between the intermediate position P3 and the second position P2 is 15 °.

  The rotation drive mechanism 47 includes an electric motor 60, a drive gear 61 directly connected to the output shaft 60a of the electric motor, a driven gear 62 that meshes with the drive gear 61, and two sets of gear members 63 with arms that mesh with each other. The driven gear 62 is engaged with one of the two sets of gear members 63 with an arm. The electric motor 60 is attached to the upper part of the front surface of the base front member 40a in a rearward direction, and the drive gear 61, the driven gear 62, and the two sets of gear members 63 with arms are accommodated in the base front member 40a and the base rear member 40b. Yes. A driven gear 62 and two sets of arm-equipped gear members 63 are rotatably supported by the base rear member 40b via front and rear shafts 62a and 63a, respectively.

  The two sets of gear members 43 with arms are arranged symmetrically, and are arranged relatively near the first axis C1. The arm portions 63a of the two sets of gear members 43 with arms extend to the tip side portions of the two sets of first movable base members 50, and are connected to the first movable base members 50 through the long holes 64a and the pins 64b, respectively. ing. A long hole 64a is formed in the arm portion 63a so as to extend in the length direction, and a pin 64b is provided on the first movable base member 50 so as to protrude rearward and engages with the long hole 64a.

  An origin SW 65 that detects the origin positions (for example, the first position P1) of the two sets of first movable bodies 43 is provided. The origin SW 65 is composed of, for example, an optical sensor, and detects an origin position by detecting a shielding portion provided on one of the two sets of gear members 63 with an arm.

  As shown in FIGS. 10 to 13, the movable body holding mechanism 45 rotates the first movable body 43 around the first axis C <b> 1 between the first position P <b> 1 and the intermediate position P <b> 3 by the rotation drive mechanism 47. When moving, the first and second movable bodies 43 and 44 are integrally held and rotated around the first axis C1.

  The movable body holding mechanism 45 is configured so that the first and second movable bodies 43 and 44 are separated from each other by a set angle θα (for example, θα = 35 °) about the first axis C1. , 44 restricts relative rotation of the first and second movable bodies 43, 44 around the first axis C1 to each other around the first axis C1. And a movable body urging mechanism 75 that urges to rotate in the separating direction.

  As shown in FIGS. 10 to 14, the relative rotation / rotation restricting mechanism 70 is formed in a portion of the first movable base member 50 that faces the second movable base member 55 in the front-rear direction and is centered on the first axis C1. And an engagement pin 72 provided on the second restricting plate 71b so as to protrude forward so as to be movably engaged with the arc slit 71.

  When the first movable body 43 rotates over the first position P1 and the midway position P3, the engagement pin 72 engages with one end of the arc slit 71, and the first and second movable bodies 43, 44 is held at a set angle θα apart from the first axis C1. On the other hand, when the first movable body 43 rotates between the intermediate position P3 and the second position P2, the first and second movable bodies 43, with the engagement pin 72 inserted in the arc slit 71, The rotation in which the 44 approaches and separates from each other is allowed.

  As shown in FIGS. 10 to 14, the movable body interlocking mechanism 46 rotates the first movable body 43 around the first axis C <b> 1 over the intermediate position P <b> 3 and the second position P <b> 2 by the rotation drive mechanism 47. When the first movable body 43 is moved, the second movable body 44 is interlocked with the rotation of the first movable body 43 around the first axis C1 in a state where the second movable body 44 is turned around the first axis C1. The operating angle of the first decorative member 51 around the second axis C2 over a predetermined first rotation position PR1 (position in FIGS. 3 to 5) and second rotation position PR2 (position in FIG. 6). Rotate by θe (for example, θe = 90 °).

  The movable body interlocking mechanism 46 includes a first engaging portion 80 provided at a position eccentric to the first decorative member 51 of the first movable body 43 from the second axis C2, and a second movable base of the second movable body 44. A first engaging member 51 is connected to a second engaging portion 81 provided on the member 55 so as to engage with the first engaging portion 80 from the circumferential direction centered on the first axis C1. And a spring member 82 made of a torsion spring that is urged to rotate to the first rotation position PR1.

  In addition, the movable body interlocking mechanism 46 has an arc slit 73 formed on the base cover member 40c and centered on the first axis C1 so as to stop the second movable body 44 from rotating about the first axis C1. The second movable base member 55 has an engagement pin 75 provided in a forward projecting manner so as to be movably engaged with the arc slit 74.

  When the first movable body 43 rotates between the intermediate position P3 and the second position P2, the engagement pin 75 engages with one end portion of the arc slit 74, and the second movable body 44 moves to the first shaft. It does not rotate around the center C1. On the other hand, when the first movable body 43 rotates between the first position P1 and the intermediate position P3, the second movable body 44 is rotated with the engagement pin 75 inserted into the arc slit 74. Permissible.

  Then, when the first movable body 43 rotates from the midway position P3 to the second position P2, the movable body interlocking mechanism 46 is pushed by the second engagement section 81 when the first movable body 43 rotates from the intermediate position P3 to the first decoration. When the member 51 rotates from the first rotation position PR1 to the second rotation position PR2 against the biasing force of the spring member 82, the first movable body 43 rotates from the second position P2 to the midway position P3. The first decorative member 51 is configured to rotate from the second rotation position PR2 to the first rotation position PR1 by the urging force of the spring member 82 received through the first and second engaging portions 80 and 81. ing.

  The first and second engaging portions 80 and 81 and the spring member 82 of the movable body interlocking mechanism 46 have a function of rotating and urging the first and second movable bodies 43 and 44 in a direction in which they are separated from each other. That is, the movable body urging mechanism 75 of the movable body holding mechanism 45 is configured. That is, the first and second engaging portions 80 and 81 and the spring member 82 have a common configuration of the movable body urging mechanism 75 and the movable body interlocking mechanism 46 of the movable body holding mechanism 45.

  As shown in FIG. 2, the computer of the lamp control board 25 controls the stage effect device 18, and in this case, receives a control command from the computer of the stage control board 23, and based on the detection signal from the origin SW 65, The electric motor 60 is controlled.

The operation and effect of the effect accessory device 18 described above will be described.
First, when the director device 18 is in the non-operating state, as shown in FIG. 3, the two sets of the first movable bodies 43 are located at the first position P1, which is the lower limit position, and are closest to each other. The second movable bodies 44 are spaced apart from the two sets of first movable bodies 43 by a set angle θd (maximum) around the first axis C1, respectively. The decorative member 51 is located at the first rotation position PR1, and the first decorative member 51 of the two sets of first movable bodies 43 and the second decorative member 56 of the two sets of second movable bodies 44 (four decorative members 51 in total). , 56) are located at intervals of the set angle θd (35 °).

  On the other hand, the stage effect device 18 is activated during execution of a specific stage in which a special symbol is fluctuating, and the stage effect device 18 increases the expectation level of the jackpot or notifies the jackpot. There is an effect or the like that activates during execution and notifies the promotion to a more advantageous jackpot game.

  In this case, the rotation drive mechanism 47 causes the two sets of first movable bodies 43 to move from the first position P1 (FIG. 3) to the second position P2 (FIG. 6) around the first axis C1 (see FIG. 6). 5) and is driven to rotate symmetrically in the directions separated from each other via 5).

  When the first movable body 43 is rotated from the first position P1 (FIG. 3) to the intermediate position P3 (FIG. 5) by the rotation drive mechanism 47, the first and second movable bodies are moved by the movable body holding mechanism 45. 43 and 44 are integrally held and rotated around the first axis C1.

  When the first movable body 43 is rotated from the midway position P3 (FIG. 5) to the second position P2 (FIG. 6) by the rotation drive mechanism 47, the second movable body 44 is moved by the movable body interlocking mechanism 46. In a state where the rotation about the first axis C1 is stopped, the first decorative member 51 of the first movable body 43 is connected to the second axis in conjunction with the rotation of the first movable body 43 about the first axis C1. It is rotated around the C2 from the first rotation position PR1 (FIG. 5) to the second rotation position PR2 (FIG. 6).

  Thereafter, the two pairs of first movable bodies 43 are moved from the second position P2 (FIG. 6) to the first position P1 (FIG. 3) around the first axis C1 by the rotation drive mechanism 47. ) And are driven to rotate symmetrically in the direction of approaching each other.

  When the first movable body 43 is rotated from the second position P2 (FIG. 6) to the intermediate position P3 (FIG. 5) by the rotation drive mechanism 47, the second movable body 44 is moved to the first position by the movable body interlocking mechanism 46. In a state where the rotation about the first axis C1 is stopped, the first decorative member 51 of the first movable body 43 is connected to the second axis in conjunction with the rotation of the first movable body 43 about the first axis C1. It is rotated around the C2 from the second rotation position PR2 (FIG. 6) to the first rotation position PR1 (FIG. 5).

  When the first movable body 43 is rotated from the midway position P3 (FIG. 5) to the first position P1 (FIG. 3) by the rotation drive mechanism 47, the first and second movable bodies are moved by the movable body holding mechanism 45. 43 and 44 are integrally held and rotated around the first axis C1.

  As described above, the two sets of the first movable bodies 43 operate symmetrically, and the second movable bodies 44 operate symmetrically along with the operations of the second movable bodies 43 and 44. A series of novel operations of the first and second decorative members 43 and 44 can be realized to enhance the production effect.

  The first movable body 43 includes a first movable base member 50 that is connected to the base member 40 so as to be rotatable about the first axis C1 and to which a driving force is input from the rotation driving mechanism 47. Since the member 51 is connected to the first movable base member 50 so as to be rotatable around the second axis C2 orthogonal to the first axis C1, the movable body interlocking mechanism 46 allows the first movable body 43 to be rotated. The first decorative member 51 can be reliably rotated about the second axis C2 while being rotated about the first axis C1 in conjunction with the rotation about the first axis C1.

  The second movable body 44 has a second movable base member 55 connected to the base member 40 so as to be rotatable around the first axis C 1, and the second decorative member 56 is fixed to the two movable base members 55. Therefore, the first and second movable bodies 43 and 44 can be rotated around the same first axis C1, and the first axis C1 is orthogonal to the first axis C1. Since it is provided so as to extend in two different directions along the vertical plane, and the shapes of the first and second movable bodies 43 and 44 can be similarly related, it is possible to realize a specific performance operation. it can.

  The movable body holding mechanism 45 moves in a direction in which the first and second movable bodies 43 and 44 are separated from each other in a state in which the first and second movable bodies 43 and 44 are separated from each other by a set angle θα around the first axis C1. Since it has a relative rotation restricting mechanism 70 that restricts relative rotation and a movable body urging mechanism 75 that urges the first and second movable bodies 43 and 44 to move away from each other. The body holding mechanism 45 can securely hold and rotate the first and second movable bodies 43 and 44 integrally.

  The movable body interlocking mechanism 46 is engaged with the first engagement portion 80 provided at a position eccentric to the first decorative member 51 from the second axis C2, and the first engagement portion 80 is engaged with the second movable body 44. The second engaging portion 82 provided in this manner, and a spring member 82 that urges the first decorative member 51 to rotate to the first rotation position PR1, and the first movable body 43 is moved from the intermediate position P3 to the first position. When rotating to the second position P2, the first engagement portion 80 is pushed by the second engagement portion 81, and the first decorative member 51 resists the biasing force of the spring member 82 from the first rotation position PR1. When the first movable body 43 is rotated to the second rotation position PR2 and the first movable body 43 is rotated from the second position P2 to the intermediate position P3, the first decorative member 51 is interposed via the first and second engaging portions 80 and 81. This is configured so that the spring member 82 is configured to rotate from the second rotation position PR2 to the first rotation position PR1 by the biasing force of the spring member 82 received. The first decorative member 51 is moved around the second axis C2 and the first rotation position PR1 in conjunction with the rotation of the first movable body 43 while the second movable body 44 is stopped by the interlocking mechanism 46. It can be reliably rotated over the second rotation position PR2.

  Since the first and second engaging portions 80 and 81 and the spring member 82 of the movable body interlocking mechanism 46 constitute a movable body biasing mechanism 75 of the movable body holding mechanism 45, the movable body interlocking mechanism 46 and the movable body The movable body urging mechanism 75 of the holding mechanism 45 can be configured by using a plurality of common members. In other words, these mechanisms can be simplified and the manufacturing cost can be reduced.

You may change the said Example as follows.
(1) The second movable body 44 is supported on the first movable body 43 (first movable base member 50) so as to be relatively movable with respect to the first movable body 43. In this case, the second movable body 44 is supported by the first movable body 43 so as to be rotatable around an axis parallel to the first axis C1 and different from the first axis C1. Alternatively, the second movable body 44 is supported on the first movable body 43 so as to be linearly movable.

(2) In the first movable body 43, the first movable base member 50 and the first decorative member 51 are integrally fixed. In the second movable body 44, the second decorative member 56 is attached to the second movable base member 55. It is connected so as to be rotatable around an axis perpendicular to the one axis C1.

  When the first movable body 43 is rotated between the first position P1 and the intermediate position P3 by the rotation drive mechanism 47, the first and second movable bodies 43, 44 are integrated by the movable body holding mechanism. When the first movable body 43 is rotated between the intermediate position P3 and the second position P2 by the rotation drive mechanism 47, the second movable body 44 is rotated by the movable body interlocking mechanism. In a state where the second movable base member 55 is stopped from rotating, the second decorative member 56 is moved around the second axis in the first rotation position and the second rotation position in conjunction with the rotation of the first movable body 43. Rotate to turn.

  In addition, various modifications other than the disclosed items can be added and implemented without departing from the spirit of the present invention. In addition, the present invention can be applied as an effect agent device for executing a game effect in various pachinko gaming machines.

DESCRIPTION OF SYMBOLS 1 Pachinko machine 40 Base member 43 1st movable body 44 2nd movable body 45 Movable body holding mechanism 46 Movable body interlocking mechanism 47 Rotation drive mechanism 50 1st movable base member 51 1st decoration member 55 2nd movable base member 56 Second decorative member 70 Relative rotation restricting mechanism 75 Movable body biasing mechanism 80 First engagement portion 81 Second engagement portion 82 Spring member C1 First axis C2 Second axis

Claims (9)

  1. In pachinko machines,
    A first movable body including a first decorative member supported by the base member so as to be rotatable about a first axis;
    A second movable body including a base member or a second decorative member supported by the first movable body so as to be relatively movable with the first movable body;
    A rotation drive mechanism for driving the first movable body to rotate about the first axis through a predetermined intermediate position over a predetermined first position and a second position;
    A movable body holding mechanism that holds and rotates the first and second movable bodies integrally when the first movable body is rotated between the first position and the intermediate position by the rotation drive mechanism. When,
    When the first movable body is rotated between the intermediate position and the second position by the rotation driving mechanism, the second movable body is stopped and rotated in conjunction with the rotation of the first movable body. Then, the first or second decorative member is rotated around a predetermined first rotation position and a second rotation position around a second axis parallel to a plane orthogonal to the first axis. Movable body interlocking mechanism,
    A pachinko gaming machine characterized by comprising:
  2. The first movable body includes a first movable base member that is connected to a base member so as to be rotatable about the first axis and to which a driving force is input from the rotation driving mechanism.
    2. The pachinko gaming machine according to claim 1, wherein the first decorative member is connected to the first movable base member so as to be rotatable about the second axis perpendicular to the first axis. .
  3. The second movable body has a second movable base member coupled to the base member so as to be rotatable about the first axis.
    The pachinko gaming machine according to claim 2, wherein the second decorative member is fixedly connected to the two movable base members.
  4.   The pachinko game according to claim 3, wherein the first and second movable bodies are provided so as to extend in two different directions along a plane orthogonal to the first axis from the first axis. Machine.
  5. The movable body holding mechanism is
    A relative rotation restricting mechanism for restricting relative rotation of the first and second movable bodies in a direction away from each other in a state where the first and second movable bodies are spaced apart from each other by a set angle about the first axis. The pachinko gaming machine according to claim 4, further comprising: a movable body urging mechanism that urges the first and second movable bodies to turn away from each other.
  6. The movable body interlocking mechanism is
    A first engagement portion provided at a position eccentric to the first decorative member from the second axis, and a second engagement provided at the second movable body so as to engage with the first engagement portion. And a spring member for urging and urging the first decorative member to the first rotation position,
    When the first movable body rotates from the midway position to the second position, the first engaging portion is pushed by the second engaging portion, and the first decorative member resists the biasing force of the spring member. When the first movable body is rotated from the first rotation position to the second rotation position and the first movable body is rotated from the second position to the middle position, the first decorative member is interposed via the first and second engaging portions. The pachinko gaming machine according to claim 5, wherein the pachinko gaming machine is configured to be rotated from the second rotation position to the first rotation position by the biasing force of the spring member received.
  7.   The pachinko gaming machine according to claim 6, wherein the first and second engaging portions and the spring member of the movable body interlocking mechanism constitute a movable body biasing mechanism of the movable body holding mechanism.
  8.   Two sets of the first and second movable bodies, the movable body holding mechanism, and the movable body interlocking mechanism are provided symmetrically, and two sets of the first and second movable bodies are formed by the rotation drive mechanism having one common electric motor. The pachinko gaming machine according to any one of claims 1 to 7, wherein the game machine is configured to operate symmetrically.
  9. In pachinko machines,
    A movable body including a decorative member rotatably supported around the first axis by the base member;
    A rotational drive mechanism for rotationally driving the movable body around a predetermined first position and a second position around the first axis through a predetermined intermediate position;
    When the movable body is rotated between the intermediate position and the second position by the rotation drive mechanism, the decoration member is parallel to a plane orthogonal to the first axis in conjunction with the rotation. A movable body interlocking mechanism that rotates around a predetermined first rotation position and a second rotation position around the second axis;
    A pachinko gaming machine characterized by comprising:
JP2010286128A 2010-12-22 2010-12-22 Pachinko machine Expired - Fee Related JP5292385B2 (en)

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2014050528A (en) * 2012-09-06 2014-03-20 Newgin Co Ltd Game machine
US20140268556A1 (en) * 2013-01-08 2014-09-18 Hue Lam Detachable computing system having dual batteries
JP2015177891A (en) * 2014-03-19 2015-10-08 京楽産業.株式会社 Game machine
JP2016135364A (en) * 2016-04-27 2016-07-28 京楽産業.株式会社 Game machine

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Publication number Priority date Publication date Assignee Title
JP2006136424A (en) * 2004-11-10 2006-06-01 Newgin Corp Performance device of game machine
JP2006304953A (en) * 2005-04-27 2006-11-09 Sansei R & D:Kk Game machine
JP2007075325A (en) * 2005-09-14 2007-03-29 Taiyo Elec Co Ltd Game machine

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2006136424A (en) * 2004-11-10 2006-06-01 Newgin Corp Performance device of game machine
JP2006304953A (en) * 2005-04-27 2006-11-09 Sansei R & D:Kk Game machine
JP2007075325A (en) * 2005-09-14 2007-03-29 Taiyo Elec Co Ltd Game machine

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2014050528A (en) * 2012-09-06 2014-03-20 Newgin Co Ltd Game machine
US20140268556A1 (en) * 2013-01-08 2014-09-18 Hue Lam Detachable computing system having dual batteries
US10203736B2 (en) * 2013-01-08 2019-02-12 Intel Corporation Detachable computing system having bi-directional power flow
JP2015177891A (en) * 2014-03-19 2015-10-08 京楽産業.株式会社 Game machine
JP2016135364A (en) * 2016-04-27 2016-07-28 京楽産業.株式会社 Game machine

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