JP5567815B2 - Movable accessory device for gaming machines - Google Patents

Movable accessory device for gaming machines Download PDF

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Publication number
JP5567815B2
JP5567815B2 JP2009246387A JP2009246387A JP5567815B2 JP 5567815 B2 JP5567815 B2 JP 5567815B2 JP 2009246387 A JP2009246387 A JP 2009246387A JP 2009246387 A JP2009246387 A JP 2009246387A JP 5567815 B2 JP5567815 B2 JP 5567815B2
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movable
movable accessory
lever
accessory
drive
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JP2011092252A5 (en
JP2011092252A (en
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大介 前山
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京楽産業.株式会社
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Description

  The present invention relates to a movable accessory device for a gaming machine, and in particular, a game board is provided with first and second movable accessory mechanisms, and each of the first and second movable accessory mechanisms is overlapped. The plurality of movable accessories are rotated at different operating angles individually set around the same axis center between the first position and the second position rotated and developed from the first position. The present invention relates to a movable accessory device.

  2. Description of the Related Art Conventionally, in a pachinko gaming machine, a movable accessory device (see, for example, Patent Documents 1 to 3 and Non-Patent Document 1) including a movable accessory that moves in a direction parallel to the board surface of the game board is known. In the movable accessory devices of Patent Documents 1 to 3 and Non-Patent Document 1, the movable accessory operates in the space in front of the screen of the image display. In the movable accessory device of Patent Document 1, The object moves in parallel in the vertical direction, and in the movable accessory device disclosed in Patent Documents 2 and 3 and Non-Patent Document 1, the movable accessory rotates around the axial center in the front-rear direction perpendicular to the board surface.

  In particular, in the movable accessory device of Non-Patent Document 1, the pair of movable actors rotate over the standby position where the pair of movable actors retreats from the screen front side space and the operation position that appears in the screen front side space, When the pair of movable accessories is in the operating position, their opposing edges are close to each other to form a sector. It can be estimated that each movable accessory of the movable accessory device is not provided with a plurality of independently moving blades, but is rotated integrally as a whole.

JP 2009-311 A Japanese Patent Laid-Open No. 2003-236086 JP 2008-18809 A

Taro Yoshimura, Pachinko original winning method March issue, March 1, 2009, Vol. 36

  In the movable accessory device of Non-Patent Document 1, a pair of movable actors rotate over the standby position where the pair of movable actors retreats from the screen front space and the operating position where they appear in the screen front space. Since the movable member as a whole rotates integrally, even if it is possible to easily configure a rotation drive mechanism for rotating the movable member between the standby position and the operating position, the configuration of the movable member and The operation will lack novelty.

  Accordingly, the inventor of the present application provides the game board with first and second movable accessory mechanisms, and each of the first and second movable accessory mechanisms extends in a direction parallel to the board surface and can overlap in the front-rear direction. The movable accessories are arranged in the same direction in the front-rear direction over the standby position where the plurality of movable accessories overlap each other and the operation position rotated and deployed from the standby position. A movable accessory device that realizes a novel configuration and operation of a movable accessory by rotating different operating angles individually set around the axis was proposed and studied for practical use.

  In this movable accessory device, it is possible to dynamically operate by increasing the size of a plurality of movable actors. However, due to the cooperation with the electric decoration, the plurality of movable accessories of the first movable accessory mechanism rotate in the direction from the first position to the second position, and the second movable accessory. The plurality of movable combinations and the second movable combination of the first movable combination mechanism are arranged such that the rotation direction of the plurality of movable combinations of the mechanism from the first position to the second position is opposite. When the plurality of movable accessories of the mechanism overlap each other when the second position is reached, it is possible to greatly improve the production effect.

  Here, since the total number of parts of the movable accessory device (first and second movable accessory mechanisms) is increased, it is possible to make the parts of the first and second movable accessory mechanisms common. Effective in reducing production costs by reducing the number of types. However, as described above, it is possible to reduce the production cost by reducing the types of parts by realizing the structure and operation of a novel movable accessory and further greatly improving the production effect. It's not easy.

  Moreover, in each of the first and second movable accessory mechanisms, it is difficult to easily configure a rotation drive mechanism that drives the plurality of movable actors to rotate at different operating angles set individually. For example, a rotary drive mechanism that provides a plurality of electric motors respectively corresponding to a plurality of movable accessories and independently drives each movable accessory can be considered. However, the number of electric motors is increased, and thus the structure is complicated. In addition, there is a concern that the mounting space for the rotation drive mechanism cannot be secured, and the manufacturing cost increases.

  Therefore, the inventor of the present application uses a common electric motor as a drive source in each of the rotation drive mechanisms of the first and second movable accessory mechanisms to rotate a plurality of movable actors at different operating angles. Proposed a prototype with multiple gears. However, in this rotational drive mechanism, the number of parts including the number of gears is very large, and therefore the structure is complicated, the assembling property is deteriorated, and the manufacturing cost is increased. And since the torque which rotates a several movable accessory became larger than expected, it is difficult to raise the reliability in an operation surface and a durable surface. In particular, in order to improve the production effect, when multiple movable accessories are enlarged, and when multiple movable accessories are equipped with electrical decorations and the weight of multiple movable accessories is heavy, the above problems need to be improved. It becomes.

  An object of the present invention is to provide a game board with first and second movable accessory mechanisms, and each of the first and second movable accessory mechanisms is a first in which a plurality of movable accessories are overlapped by a rotation drive mechanism. A plurality of movable accessories are driven to rotate at different operating angles individually set around the same axis center between the first position and the second position rotated from the first position. In this way, the structure and operation of a novel movable accessory are realized, the production effect is greatly improved, and the parts of the first and second movable accessory mechanisms are shared, reducing the types of parts, Furthermore, there is provided a movable accessory device for a gaming machine that can simplify the structure of the rotational drive mechanism, improve the assembly, improve the reliability in terms of operation and durability, and reduce the production cost. Is to provide.

According to the first aspect of the present invention, the movable accessory device (17) of the gaming machine (1) provided with the first and second movable accessory mechanisms (17A / 17B (17C) (17D)) provided on the game board (4). ), Each of the first and second movable accessory mechanisms (17A / 17B (17C) (17D)) includes a plurality of movable features (40A, 50A, 60A / 40B, 50B, 60B (40C, 50C, 60C) (40D, 50D, 60D)) and the base end of the plurality of movable accessories (40A, 50A, 60A / 40B, 50B, 60B (40C, 50C, 60C) (40D, 50D, 60D)) A base member (30A / 30B (30C) (30D)) having a first pivotal support (35A, 36A / 35B, 36B) for supporting the side portions so as to be rotatable around the same axis (Aa / Ba), respectively The shaft center from the first position and the first position where the plurality of movable accessories (40A, 50A, 60A / 40B, 50B, 60B (40C, 50C, 60C) (40D, 50D, 60D)) overlap. (Aa / Ba) A plurality of movable accessories (40A, 50A, 60A / 40B, 50B, 60B (40C, 50C, 60C) (40D, (50D, 60D)) is provided with a rotation drive mechanism (70A / 70B (70C) (70D)) that drives to rotate different operating angles set individually. Each of the rotation drive mechanisms (70A / 70B (70C) (70D)) is a drive lever member (71A / 71B) rotatably supported by the base member (30A / 30B (30C) (30D)). (71C) (71D)) and a driving force including an electric actuator (81A / 81B (81C) (81D)) capable of inputting a rotational driving force to the driving lever member (71A / 71B (71C) (71D)) Input means (80A / 80B (80C) (80D)) and the plurality of movable accessories (40A, 50A, 60A / 40B, 50B, 60B (40C, 50C, 60C) (40D, 50D, 60D)), respectively A plurality of integrally driven lever members (44A, 54A, 64A / 44B, 54B, 64B (44C, 54C, 64C) (44D, 54D, 64D)) and the drive lever member (71A / 71B (71C ) (71D)) is converted into individual rotating motions of multiple movable accessories (40A, 50A, 60A / 40B, 50B, 60B (40C, 50C, 60C) (40D, 50D, 60D)) Multiple interlocking mechanism (91A / 90B (90C)) interlockingly connecting a plurality of driven lever members (44A, 54A, 64A / 44B, 54B, 64B (44C, 54C, 64C) (44D, 54D, 64D)) (90D)) and a, at least a portion of the rotary drive mechanism (70A) of said first movable won game mechanism (17A), its Characterized by being constituted by a common part and at least a portion of the second movable won game mechanism corresponding (17B (17C) (17D)) on.

According to the movable accessory device of the gaming machine of the present invention, the parts of the first and second movable accessory mechanisms can be shared, the types of parts can be reduced, and the production cost can be reduced.

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 when the movable accessory of a movable accessory apparatus is a 1st position. It is a front view when the movable accessory of a movable accessory apparatus is a 2nd position. It is a rear view when the movable accessory of a movable accessory apparatus is a 1st position. It is a rear view when the movable accessory of a movable accessory apparatus is a 2nd position. It is a perspective view from the front diagonal upper side of a movable accessory apparatus. It is a perspective view from the back diagonally upper side of a movable accessory apparatus. It is an expansion | deployment perspective view from the front diagonal upper side of the left movable accessory mechanism of Example 1. FIG. It is an expansion | deployment perspective view from the back diagonal upper side of a left movable accessory mechanism. It is a perspective view from the front diagonal upper side of the principal part of the left movable accessory mechanism. It is a perspective view from the back slanting upper side of the principal part of a left movable accessory mechanism. It is an expansion | deployment perspective view from the front diagonal upper side of the right movable accessory mechanism of Example 1. FIG. It is an expansion | deployment perspective view from the back diagonal upper side of a right movable accessory mechanism. It is a perspective view from the front diagonal upper side of the principal part of a right movable accessory mechanism. It is a perspective view from the back slanting upper side of the principal part of a right movable accessory mechanism. It is an expansion | deployment perspective view from the front diagonal upper side of the right movable accessory mechanism of Example 2. FIG. It is an expansion | deployment perspective view from the back diagonal upper side of a right movable accessory mechanism. It is an expansion | deployment perspective view from the front diagonal upper side of the right movable accessory mechanism of Example 3. FIG. It is an expansion | deployment perspective view from the back diagonal upper side of a right movable accessory mechanism.

  In the movable accessory device of the gaming machine of the present invention, the game board is provided with first and second movable accessory mechanisms, and each of the first and second movable accessory mechanisms is parallel to the board surface of the game board. A plurality of movable accessories each extending and overlapping in the front-rear direction perpendicular to the surface of the board are provided, and a second position where the plurality of movable actors are overlapped in the front-rear direction and rotated from the first position is deployed. A plurality of movable accessories are configured to rotate at different operating angles individually set around the same axial center in the front-rear direction over the position. A form is demonstrated based on an Example.

  As shown in FIG. 1, in the pachinko gaming machine 1, an opening / closing frame 2 is attached to an outer frame attached to the 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. A game board 4 is mounted on the open / close frame 2, and a game area 5 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 5 is covered by the transparent plate 3b.

  Below the window 3 a of the open / close door 3, a storage tray 6 for storing game balls and a launch handle 7 for launching game balls in the game area 5 are mounted. When the launch handle 7 is turned, the game balls introduced from the storage tray 6 to the launch position are launched. When there are a plurality of game balls in the storage tray 6, the plurality of game balls are It is fired continuously at intervals of about 0.6 seconds. The launched game ball is guided by the guide rail 8 and thrown into the upper part of the game area 5.

  As shown in FIGS. 1 and 2, the game board 4 includes a number of obstacle nails 10, a start winning opening device 11, a gate 12, a big winning opening device 13, a plurality of general winning openings 14, a center accessory 15, an image. A display 16, a movable accessory device 17, and a game display board 18 are mounted, and a control device 20 is mounted on the back side of the game board 4.

  The start winning port apparatus 11 is arranged below the stage 15a of the center accessory 15 and includes a so-called electric chew. The first start winning port 11a, the second start winning port 11b, and the second start winning port 11b. An opening / closing member 11c that opens and closes, a first start port SW11d that detects a game ball won in the first start winning port 11a, a second start port SW11e that detects a game ball won in the second start winning port 11b, and an opening and closing member 11c An electric chew solenoid 11f for opening and closing the motor is provided. The opening / closing member 11c makes it impossible to win a game ball to the second start winning port 11b in the closed position, and allows the game ball to win the second start winning port 11b in the open position. The gate 12 is disposed on the left side of the center accessory 15, and the gate 12 is provided with a gate SW 12 a for detecting a game ball that has passed.

  The big prize opening device 13 is arranged below the starting prize opening device 11, and is a big prize opening 13a, an opening / closing member 13b for opening and closing the big prize opening 13a, and a big prize opening for detecting a game ball won in the big prize opening 13a. SW 13c and a large winning opening solenoid 13d for opening and closing the opening and closing member 13b. 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. Each general winning opening 14 is provided with a general winning opening SW 14a for detecting a winning game ball.

  The center accessory 15 has a center frame member 15b including a stage 15a extending forward from the board surface (front surface) of the game board 4. The center accessory 15 includes an image display 16 and a movable accessory peculiar to the present plan. A device 17 is provided. The image display 16 includes a liquid crystal display, and is provided so that its screen faces forward from the inside of the center frame member 15b. The movable accessory device 17 will be described later in detail.

  The game display board 18 is disposed on the lower right side of the game board 4 toward the front, and includes a first special symbol display 18a, a second special symbol display 18b, a normal symbol display 18c, a first special symbol hold lamp 18d, A second special symbol holding lamp 18e and a normal symbol holding lamp 18f are provided.

  The first special symbol display 18a displays the first special symbol after the symbol changes in response to the winning of the game ball in the first start winning opening 11a, and the second special symbol display 18b displays the second start winning award. The second special symbol is displayed after the symbol changes in response to the winning of the game ball in the mouth 11b. When a jackpot symbol (a specific special symbol) is displayed on the first or second special symbol indicator 18a or 18b, a jackpot game is generated and the jackpot device 13 is activated, and usually a blockage jackpot. The opening / closing member 13b is opened and closed over a plurality of rounds so as to open 13a.

  On the normal symbol display 18c, the normal symbol is displayed after the symbol changes in response to the winning of the game ball to the gate 12. When the symbol is displayed on the normal symbol display 18c, an auxiliary game is generated, the start winning opening device 11 is operated, and the opening / closing member 11c is set to 1 so as to open the normally closed second start winning port 11b. Or, open and close multiple times.

  The first special symbol holding lamp 18d has up to four first reserved numbers which are the number of game balls won in the first start winning opening 11a and have not yet been subjected to the symbol fluctuation in the first special symbol display 18a. The second special symbol hold lamp 18e is displayed with the number of game balls won in the second start winning slot 11b and the second reserved number that has not yet been used for the symbol variation in the second special symbol display 18b. Up to four are displayed, and the normal symbol holding lamp 18f displays up to four holding numbers which are the number of game balls won in the gate 12 and have not yet been used for the symbol variation on the normal symbol display 18a.

  By turning the launch handle 7, the game ball that is launched and thrown into the upper part of the game area 5 falls while hitting a plurality of obstacle nails 10, changing its direction, and winning holes 11 a, 11 b, 13 a, 14. If any of the winning areas is won, the game area 5 is discharged out of the game area 5, and if any of the winning holes 11a, 11b, 13a, 14 is not won, it is finally formed at the lower end of the gaming area 5. It is discharged out of the gaming area 5 from the out port 9 that has been made.

The control system will be described.
As shown in FIG. 2, the control device 20 includes a main control device 21 and a sub control device 25. The main control device 21 includes a game control board 22 including a CPU, a ROM, and a RAM. The game control board 22 is connected to a 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 of the plurality of control boards 26 to 29 includes a CPU, a ROM, and a RAM. The production control board 27 includes an RTC, and the payout control board 26 is connected to the frame external information terminal board 24.

  The game control board 22 receives the detection signals from the first and second start openings SW11d, 11e, the gate SW12a, the big prize opening SW13c, the general prize opening SW14a, and the control information from the payout control board 26, and the electric control solenoid. 11f, the special winning opening solenoid 13d, the symbol indicators 18a, 18b, 18c, and the symbol holding lamps 18d, 18e, 18f are controlled, and the control information (on the payout control board 26, the effect control board 27, and the board external information terminal board 23) Game information).

  The payout control board 26 receives the control information from the game control board 22 and the detection signals from the payout ball detection SW31, the ball presence detection SW32, and the full tank detection SW33, and controls the payout drive motor 30 to receive the winning openings 11a, For one game ball winning to 11b, 13a, 14, the number of game balls set for each of the winning openings 11a, 11b, 13a, 14 is paid out to the storage tray 6, and the game control board 22 and the frame external information terminal Control information (payout information) is output to the substrate 24.

  The effect control board 27 receives the control information from the game control board 22 and the operation signal from the effect button 35 provided on the storage tray 6, and outputs the control information to the image control board 28. Furthermore, the image control board In response to the control information from 28, the control information is output to the lamp control board 29. The image control board 28 receives control information from the effect control board 27, controls the image display 16 and the speaker 34, and outputs control information to the effect control board 27. The lamp control board 29 receives the control information from the effect control board 27 and controls the frame lamp 36, the panel lamp 37, and the movable accessory device 17 mainly in synchronization with the control by the image control board 28.

The movable accessory device 17 will be described.
As shown in FIGS. 1 and 3 to 16, the movable accessory device 17 includes a left movable accessory mechanism 17 </ b> A (first movable accessory mechanism 17 </ b> A) and a right movable accessory mechanism 17 </ b> B ( A second movable combination mechanism 17B), each of the movable combination mechanisms 17A / 17B includes a base member 30A / 30B, a plurality (three) of movable combinations 40A, 50A, 60A / 40B, 50B, 60B (front side) Movable combination 40A / 40B, rear movable combination 50A / 50B, intermediate movable combination 60A / 60B between front movable combination 40A / 40B and rear movable combination 50A / 50B), rotation drive mechanism 70A / 70B.

  In each movable accessory mechanism 17A / 17B, the base member 30A / 30B is attached to the back side of the game board 4, and moves forward and backward along the proximal end portion of the plurality of movable accessories 40A, 50A, 60A / 40B, 50B, 60B. Each of the movable accessories 40A, 50A, 60A / 40B, 50B, 60B is supported in a direction parallel to the board surface of the game board 4 so as to be rotatable about the same axial center Aa / Ba. Each may extend and overlap in the front-rear direction perpendicular to the board surface.

In each movable accessory mechanism 17A / 17B, the rotation drive mechanism 70A / 70B has a first position (standby position: FIG. 3) where a plurality of movable actors 40A, 50A, 60A / 40B, 50B, 60B overlap each other. And a second position (operating position: see FIG. 4) rotated around the axis Aa / Ba from the first position and a plurality of movable accessories 40A, 50A, 60A / 40B, 50B, 60B individually set different operating angles (e.g., slidable front role of left movable won game mechanism 17A 40A is about 30 degrees, the intermediate-friendly dynamic role object 60A is about 60 degrees, the rear movable combination thereof 50A is approximately 90 degrees, the slidable front role of right movable won game mechanism 17B 40B is approximately 90 degrees, the intermediate-friendly dynamic role object 60B is approximately 60 degrees, the rear movable won game 50B is about 30 degrees) so as to rotate To drive.

Each of the rotation drive mechanisms 70A / 70B includes a rotation direction (clockwise in front view) in which the plurality of movable combinations 40A, 50A, 60A of the left movable combination mechanism 17A are directed from the first position to the second position, The plurality of movable actors 40B, 50B, 60B of the right movable accessory mechanism 17B are configured so that the direction of rotation (counterclockwise in the front view) from the first position to the second position is opposite. Then, the rotational drive mechanism 70A of the left movable accessory mechanism 17A determines the operating angle of the rear movable accessory 50B located on the rearmost side among the plurality of movable actors 40A, 50A, 60A. The rotational drive mechanism 70B of the right movable accessory mechanism 17B is positioned at the foremost side among the plurality of movable actors 40B, 50B, and 60B. Of the front movable accessory 40B It is configured to be larger than the operating angle after the angle of the other side movable won game 50B and the intermediate movable won game 60B.

  When the plurality of movable actors 40A, 50A, 60A of the left movable accessory mechanism 17A and the plurality of movable actors 40B, 50B, 60B of the right movable accessory mechanism 17B are in the first position, the vertical posture is assumed. The display 16 is configured to retreat from the screen front side space to the left and right sides, and to be inclined in the second position so as to be developed in the screen front side space of the image display 16 and overlap in the front-rear direction.

  The base member 30A of the left movable accessory mechanism 17A, the plurality of movable accessories 40A, 50A, 60A, and the rotation drive mechanism 70A will be described in detail with reference to FIGS.

  The base member 30A has a front wall 31A, a rear wall 32A, and a peripheral wall 33A. The base member 30A protrudes leftward and upward from the lower right portion thereof to have a substantially L shape in front view, and the front and rear thicknesses are relatively thin. It is formed in a synthetic resin case. The base member 30A is configured by combining a base member front part 30Aa including a part of the front wall 31A and the peripheral wall 33A, and a base member rear part 30Ab including the rear wall 32A and the remaining part of the peripheral wall 33A. The proximal end portions of the plurality of movable accessories 40A, 50A, and 60A and the majority of the rotational drive mechanism 70A are accommodated in the interior of 30A.

  In the upper left part of the base member 30A, the front wall 31A has a front annular recess 35A centered on the axis Aa on the rear surface side, and the rear wall 32A has a rear annular recess centered on the axis Aa on the front side. 36A is formed. The first annular recess 35A and the rear annular recess 36A support the proximal end portions of the plurality of movable accessories 40A, 50A, 60A so as to be rotatable about the same axis Aa in the front-rear direction. Corresponds to the branch.

  A through hole 31Aa having a smaller diameter than the front annular recess 35A is formed in the front rear end of the front annular recess 35A in the front wall 31A, and the rear wall 32A has a rear side in the rear rear end of the rear annular recess 36A. A through hole 32Aa having a smaller diameter than the annular recess 36A is formed.

  In the central portion of the lower part of the base member 30A in the left-right direction, the front wall 31A is formed with a front pivot support hole portion 37A centering on the axial center Ab so as to protrude rearward, and the rear wall 32A is centered on the axial center Ab. A rear pivot support hole 38A is formed to project forward. The front pivot support hole portion 37A and the rear pivot support hole portion 38A correspond to a second pivot support portion that rotatably supports the drive lever member 71A of the rotational drive mechanism 70A around the axial center Ab in the front-rear direction. .

  A motor mounting port 31Ab is formed on the right side of the front wall 31A, and an arcuate guide slit 32Ab centered on the axis Aa is formed on the lower left side of the rear wall 32A below the rear annular recess 36A. A sensor attachment portion 32Ac is formed in the lower left portion of the rear wall 32A. At the upper left end portion of the base member 30A, there is no peripheral wall 33A, and a movable accessory passage port 33Aa through which a plurality of movable accessories 40A, 50B, 60B passes is formed. The base member 30A has a cover member 39A that is attached to the rear wall 32A from the rear side and covers the guide slit 32Ab and the like.

  The plurality of movable accessories 40A, 50A, and 60A include synthetic resin movable accessory body members 41A, 51A, and 61A, synthetic resin back cover members 42A, 52A, and 62A, and an illumination mechanism 43A. 53A, 63A and synthetic resin driven lever members 44A, 54A, 64A are provided.

  Each movable accessory body member 41A, 51A, 61A has a front part and a peripheral part, and an accessory display part 41Aa, 51Aa, 61Aa in which three blade-shaped parts are formed at the tip part, and an accessory display part It consists of the accessory bases 41Ab, 51Ab, 61bA located on the base end side of 41Aa, 51Aa, 61Aa, and the back side of the accessory display parts 41Aa, 51Aa, 61Aa is covered with the back cover members 42A, 52A, 62A.

When the plurality of movable accessories 40A, 50A, 60A are in the first position, the front and rear are arranged so that the circumferential positions around the axis Aa of the blade-shaped portions of the movable accessory main body members 41A, 51A, 61A coincide. overlap direction, and it rotates to the right and downward from the first position, in which the slidable rear combination thereof 50A is about 90 degrees, the intermediate-friendly dynamic role object 60A is about 60 degrees, the front movable won game 40A Rotate about 30 degrees to the second position. When the plurality of movable accessories 40A, 50A, 60A are in the second position, a total of nine blade-shaped portions of the movable accessory main body members 41A, 51A, 61A are substantially equal in the circumferential direction about the axis Aa. It develops so that it may be located at intervals (see FIGS. 4 and 6).

  Each electric decoration mechanism 43A, 53A, 63A includes a printed circuit board attached to the back cover members 42A, 52A, 62A, a plurality of LEDs mounted on the front surface of the printed circuit board, and surfaces of the movable accessory body members 41A, 51A, 61A. Wiring 43Aa, 53Aa, 63Aa (see FIG. 9) connected to each of the illumination mechanisms 43A, 53A, 63A (to a plurality of LEDs via the printed circuit board) is provided on the lamp control board. 29 or other substrate is connected to an LED drive circuit.

  The driven lever member 44A of the front movable accessory 40A is integrally formed with a cylindrical front side engaging shaft portion 45A that protrudes forward and a partially cylindrical front side connecting shaft portion 46A that protrudes rearward. 44A is fixed from the rear side to the accessory base portion 41Ab of the front movable accessory 40A, the front engagement shaft portion 45A penetrates the hole 41Ac formed in the accessory base portion 41Ab, and the front engagement shaft portion 45A is a front annular shape. The recess 35A is rotatably engaged via a bearing 47A.

  The driven lever member 54A of the rear movable accessory 50A is integrally formed with a cylindrical rear engagement shaft portion 55A that protrudes rearward and a partial cylindrical rear connection shaft portion 56A that protrudes forward. The driven lever member 54A is fixed to the accessory base 51Ab of the rear movable accessory 50A from the rear side, the rear connecting shaft portion 56A passes through the hole 51Ac formed in the accessory base 51Ab, and the rear engagement shaft The portion 55A is rotatably engaged with the rear annular recess 36A via a bearing 57A.

  A partially cylindrical intermediate engaging portion 65A is integrally formed with the driven lever member 64A of the intermediate movable accessory 60A, and the driven lever member 64A is fixed to the accessory base 61Ab of the intermediate movable accessory 60A from the rear side. The intermediate engaging portion 65A passes through the hole 61Ac formed in the accessory base 61Ab. The rear connection shaft portion 56A is rotatably fitted in the front connection shaft portion 46A, and the intermediate engagement portion 65A is rotatably fitted.

  The inside of the front engaging shaft portion 45A and the inside of the front connecting shaft portion 46A are communicated, and both front and rear ends of the front engaging shaft portion 45A and the front connecting shaft portion 46A are opened, and the inside of the rear engaging shaft portion 55A And the inside of the rear connecting shaft portion 56A communicate with each other, and the front end of the rear engaging shaft portion 55A is opened. That is, the front side engagement shaft portion 45A, the front side connection shaft portion 46A, the rear side engagement shaft portion 55A, and the rear side connection shaft portion 56A are each formed in a hollow shape, and their internal spaces are communicated with each other, and the illumination mechanism 43A. , 53A, and 63A are arranged so as to extend out of the front wall 31A of the base member 30A through the internal space and further through the through hole 31Aa of the front wall 31A. (See FIG. 9).

On the back surface of the back cover member 42A of the front movable member 40A, an arcuate sliding protrusion centered on the axis Aa so as to slide with the front surface of the movable member main body member 61A of the intermediate rotating member 60A. 49A is integrally formed, and around the axis Aa to the back of the back cover member 62A of the intermediate-friendly dynamic role object 60A, the movable role of rear pivot combination thereof 50A is front and sliding of the body member 51A An arcuate sliding protrusion 69A is integrally formed.

  As shown in FIGS. 9 to 12, the rotation drive mechanism 70A is rotatable around the axis Ab through a support shaft 75A oriented in the front-rear direction to the front pivot support hole portion 37A and the rear pivot support hole portion 38A. And a drive lever member 71A having first and second lever portions 71Aa and 71Ab extending in a direction parallel to the board surface, and an electric motor capable of inputting a driving force for rotating the drive lever member 71A to the first lever portion 71Aa. A driving force input mechanism 80A (driving force input means) including a motor 81A (stepping motor 81A) and a plurality of movable accessories 40A, 50A, 60A are integrally provided and annular recesses 35A, 36A (axial center Aa). On the other hand, the plurality of driven lever members 44A, 54A, 64A extending toward the second lever portion 71Ab and the rotating operation of the drive lever member 71A are operated by the plurality of movable accessories 40A, 50A, 60A. To convert into another rotational motion, and includes a plurality of driven lever member 44A, 54A, and interlocking connection mechanism 90A that respectively interlockingly connected with 64A to the second lever portion 71ab.

  The drive lever member 71A is a synthetic resin drive lever body member 72A having a first lever portion 71Aa and a part of the second lever portion 71Aa, and a synthetic resin drive having a remaining part of the second lever portion 71Aa. It is comprised with the lever division member 73A. A boss portion 72Aa projecting to the front and rear sides is formed at the center portion of the drive lever main body member 72A, and the boss portion 72Aa is rotatably fitted to the support shaft 75A. A pair of spacers 76A and 77A are externally fitted to the support shaft 75A on both front and rear sides of the boss portion 72Aa, and the drive lever member 71A is held by the spacers 76A and 77A so that the drive lever member 71A can be rotated in the front-rear direction.

  A hole 73Aa is formed in the base end portion of the drive lever dividing member 73A, and a boss portion 72Aa protruding rearward of the drive lever main body member 72A is inserted through the hole 73Aa, so that the drive lever dividing member 73A is inserted into the drive lever main body member 72A. The drive lever dividing member 73A is fixed to the drive lever main body member 72A from the rear side so as to extend in substantially the same direction as the second lever portion 71Ab. The drive lever dividing member 73A is assembled and fixed after the driven lever member 64A of the intermediate movable accessory 60A is assembled to the drive lever main body member 72A. 11 and 12, the drive lever body member 72A is not assembled with the driven lever member 64A of the intermediate movable accessory 60A, and the drive lever body member 72A has a drive lever split member 73A. Indicates a state of being assembled and fixed.

  In the driving force input mechanism 80A, a synthetic resin motor mounting seat 82A is fitted and fixed to a motor mounting port 31Ab formed in the front wall 31A from the front side of the base member 30A, and an electric motor 81A is mounted on the motor mounting seat 82A. It is attached from the front side, and the output shaft 81Aa of the electric motor 81A passes through the motor attachment seat 82A and reaches the rear side of the front wall 31A, that is, the inside of the base member 30A.

  The driving force input mechanism 80A includes a synthetic resin input lever member 83A fixed to the output shaft 81Aa of the electric motor 81A and extending from the output shaft 81Aa toward the first lever portion 71Aa of the drive lever member 71A in a direction parallel to the board surface. The input lever member 83A is interlocked and connected to the first lever portion 71Aa of the drive lever member 71A so that the rotation operation of the input lever member 83A can be converted into the rotation operation of the drive lever member 71A.

  The driving force input mechanism 80A includes an input engagement pin 84Aa provided to protrude rearward from the distal end portion of the input lever member 83A, and a first lever portion 71Aa of the drive lever member 71A in a direction perpendicular to the axis Ab. The input engagement pin 84Aa is formed to extend and has an input long hole 84Ab that engages from the front side via the annular roller member 85A.

  In the interlocking connection mechanism 90A, the plurality of driven lever members 44A, 54A, and 64A are different from each other in the distance from the pivotal support hole portions 37A and 38A (axial center Ab) of the second lever portion 71Ab of the drive lever member 71A ( Linked to the annular recesses 35A, 36A (parts having different distances from the axial center Aa), thereby rotating the plurality of movable accessories 40A, 50A, 60A individually at different operating angles. It is composed.

  The interlocking connection mechanism 90A includes a plurality of (three) engagement pins 91Aa, 92Aa, 93Aa provided at the tip end portion of the second lever portion 71Ab of the drive lever member 71A, and a plurality of driven lever members 44A, 64A, 54A. And a plurality of long holes 91Ab, 92Ab, 93Ab formed so as to extend in a direction orthogonal to the axis Aa. The distance from the shaft center Ab increases in the order of the engagement pin 91Aa → the engagement pin 92Aa → the engagement pin 93Aa.

  The engagement pin 91Aa is provided so as to protrude forward in the middle in the length direction of the drive lever main body member 72A, and is slidably engaged with the long hole 91Ab from the rear side. The engagement pin 92Aa is driven The lever body member 72A is provided so as to protrude rearward and engages the elongated hole 92Ab slidably from the front side. The engagement pin 93Aa is further away from the axis Ab than the engagement pin 92Aa. The drive lever dividing member 72A at the position is provided so as to protrude rearward from the distal end portion of the drive lever dividing member 72A, and is slidably engaged with the long hole 93Ab from the front side.

  The driven lever member 54A of the rear movable accessory 50A is provided with a guide pin 94A that protrudes rearward in the vicinity of the long hole 93Ab, and the guide pin 94A is a guide slit formed in the rear wall 32A of the base member 30A. It is slidably engaged with 32Ab.

  An optical sensor 95A (photo interrupter 95A) is attached to the sensor attachment portion 32Ac of the rear wall 32A. This optical sensor 95A has a light emitting part and a light receiving part, and the light emitting part and the light receiving part are arranged so as to sandwich a partial cylindrical part 72Ab provided so as to protrude rearward from the drive lever main body member 72A. Yes. A slit 72Ac is formed in the partial cylindrical portion 72Ab, and it is detected that the slit 72Ac is located between the light emitting portion and the light receiving portion of the optical sensor 95A. The position of the drive lever member 71A at that time, that is, the movable accessory The positions of 40A, 50A, and 60A are the origin positions, and the electric motor 81A is controlled based on the origin positions.

  The base member 30B of the right movable combination mechanism 17B, the plurality of movable combinations 40B, 50B, and 60B, and the rotation drive mechanism 70B will be described in detail with reference to FIGS. In addition, about each mechanism and each member of the right movable accessory mechanism 17B, what is the same as or similar to the left movable accessory mechanism 17A is similar to the symbols of the corresponding mechanisms and members of the corresponding left movable accessory mechanism 17A. Reference numerals are assigned, and detailed descriptions of structures and functions are omitted as appropriate.

  The base member 30B has a front wall 31B, a rear wall 32B, and a peripheral wall 33B. The base member 30B protrudes rightward and upward from the lower left portion thereof and is formed in a substantially L shape in front view. The base member front portion 30Ba and the base member rear portion 30Bb It is composed by combining. The front wall 31B is formed with a front annular recess 35B centered on the axis Ba, a front pivot hole 37B centered on the axis Bb, a through hole 31Ba, and a motor mounting port 31Bb. An arcuate guide slit 31Bc as the center is formed obliquely above the front annular recess 35B.

  A rear annular recess 36B centered on the axis Ba, a rear pivot hole 38B centered on the axis Bb, and a sensor attachment portion 32Bc are formed on the rear wall 32B. A movable accessory passage port 33Ba is formed in the peripheral wall 32B. The front annular recess 35B and the rear annular recess 36B correspond to the first pivot support portion, and the front pivot support hole portion 37B and the rear pivot support hole portion 38B correspond to the second pivot support portion. The base member 30B includes a cover member 39B that is attached to the front wall 31B from the front side and covers the guide slit 31Bc and the like.

The plurality of movable accessories 40B, 50B, 60B are in a vertical posture at the first position, retreat to the right side from the screen front space of the image display 16, and rotate leftward and downward from the first position. and, this time, the slidable front won game 40B is approximately 90 degrees, the intermediate-friendly dynamic role object 60B is approximately 60 degrees, the rear movable won game 50B is approximately 30 degrees rotation, becomes the second position, the first At the position 2, the tilted posture is developed in the space on the front side of the screen of the image display 16.

  The plurality of movable accessories 40B, 50B, and 60B include movable accessory body members 41B, 51B, and 61B, back cover members 42B, 52B, and 62B, electrical decoration mechanisms 43B, 53B, and 63B, and driven lever members 44B and 54B, respectively. , 64B are provided. Each movable accessory body member 41B, 51B, 61B comprises an accessory display portion 41Ba, 51Ba, 61Ba and an accessory base portion 41Bb, 51Bb, 61bB. The accessory display portion 41Ba, 51Ba, 61Ba and the left movable accessory mechanism. The 17B accessory display parts 41Aa, 51Aa, and 61Aa have substantially symmetrical shapes. Wirings 43Ba, 53Ba, and 63Ba (see FIG. 13) connected to each of the illumination mechanisms 43B, 53B, and 63B (see FIG. 13) are connected to an LED drive circuit configured on the lamp control board 29 or another board.

  When the plurality of movable accessories 40B, 50B, 60B are in the first position, the front and rear are arranged so that the circumferential positions about the axis Ba of the blade-shaped portions of the movable accessory main body members 41B, 51B, 61B coincide. It overlaps in the direction and rotates to the left and downward from this first position. When the plurality of movable accessories 40B, 50B, 60B are in the second position, the nine blade-shaped portions in total of the movable accessory main body members 41B, 51B, 61B are substantially equal in the circumferential direction about the axis Ba. It expand | deploys so that it may be located at intervals (refer FIG. 4, FIG. 6).

  A front engagement shaft portion 45B and a front connection shaft portion 46B are integrally formed on the driven lever member 44B, and the front engagement shaft portion 45B penetrates a hole 41Bc formed in the accessory base portion 41Bb and enters the front annular recess portion 35B. It is engaged via a bearing 47B so as to be rotatable. A rear engagement shaft portion 55B and a rear connection shaft portion 56B are integrally formed on the driven lever member 54B, and the rear connection shaft portion 56B passes through a hole 51Bc formed in the accessory base 51Bb for rear engagement. The shaft portion 55B is rotatably engaged with the rear annular recess 36B via a bearing 57B. An intermediate engagement portion 65B is integrally formed with the driven lever member 64B, and the intermediate engagement portion 65B passes through a hole 61Bc formed in the accessory base 61Bb. A front connection shaft portion 46B is rotatably fitted in the rear connection shaft portion 56B, and an intermediate engagement portion 65B is rotatably fitted.

  The front side engagement shaft portion 45B, the front side connection shaft portion 46B, the rear side engagement shaft portion 55B, and the rear side connection shaft portion 56B are formed in a hollow shape, and their internal spaces are communicated with each other, and the electric decoration mechanisms 43B and 53B. , 63B are arranged so as to extend out of the front wall 31B of the base member 30B through the internal space and further through the through hole 31Ba of the front wall 31B. (See FIG. 13). An arc-shaped sliding projection 49B centered on the axis Ba is integrally formed on the back surface of the back cover member 42B, and an arc-shaped sliding projection centered on the axis Ba on the back surface of the back cover member 62B. The portion 69B is integrally formed.

  As shown in FIGS. 13-16, the rotation drive mechanism 70B was supported by the front side pivot support hole part 37B and the rear side pivot support hole part 38B through the support shaft 75B so as to be rotatable around the axis Bb. Driving force input including a driving lever member 71B having first and second lever portions 71Ba and 71Bb and an electric motor 81B (stepping motor 81B) capable of inputting a driving force for rotating the driving lever member 71B to the first lever portion 71Ba. A plurality of mechanisms 80B (driving force input means) and a plurality of movable accessories 40B, 50B, 60B are provided integrally with each other and extend toward the second lever portion 71Bb with respect to the annular recesses 35B, 36B (axial center Ba). The driven lever members 44B, 54B, and 64B and the drive lever member 71B are converted into individual rotary motions of the movable accessories 40B, 50B, and 60B. Over member 44B, 54B, and a linkage connecting mechanism 90B to respectively interlockingly connected with 64B to the second lever portion 71 bb.

  The drive lever member 71B includes a drive lever main body member 72B having a first lever portion 71Ba and a part of the second lever portion 71Ba, and a drive lever dividing member 73A having a remaining part of the second lever portion 71Ba. ing. A boss portion 72Ba projecting to the front and rear sides is formed at the center of the drive lever body member 72B, and this boss portion 72Ba is rotatably fitted on the support shaft 75B. A pair of spacers 76B and 77B are externally fitted to the support shaft 75B on both front and rear sides of the boss portion 72Ba. A hole 73Ba is formed in the base end portion of the drive lever dividing member 73B, and a boss portion 72Aa protruding rearward of the drive lever main body member 72A is inserted through the hole 73Ba.

  In the driving force input mechanism 80B, the motor mounting seat 82B is fitted and fixed to the motor mounting port 31Bb formed in the front wall 31B. The driving force input mechanism 80B includes an input lever member 83B that is fixed to the output shaft 81Ba and extends from the output shaft 81Ba in a direction parallel to the board surface toward the first lever portion 71Ba. The input lever member 83B is an input lever member. The pivoting movement of 83B is linked to the first lever portion 71Ba so that the pivoting movement of the driving lever member 71B can be converted.

  The driving force input mechanism 80B includes an input engagement pin 84Ba provided so as to protrude rearward from the distal end portion of the input lever member 83B, in order to interlock and connect the input lever member 83B to the first lever portion 71Ba. The lever portion 71Ba has an input long hole 84Bb that is formed so as to extend in a direction orthogonal to the axis Bb and that the input engagement pin 84Ba engages from the front side via the annular roller member 85B.

  In the interlocking connection mechanism 90B, the plurality of driven lever members 44B, 54B, 64B are located at different positions (annular recesses 35B, 36B) from the pivot support holes 37B, 38B (axial center Bb) of the second lever portion 71Bb. It is configured such that the plurality of movable accessories 40B, 50B, 60B are rotated at different operating angles set individually, by interlockingly connecting to (parts having different distances from the axis Ba).

  The interlocking connection mechanism 90B includes a plurality (three) of engagement pins 91Ba, 92Ba, 93Ba provided at the tip side portion of the second lever portion 71Bb, a plurality of driven lever members 44B, 64B, 54B and an axis Ba. It has a plurality of long holes 91Bb, 92Bb, 93Bb formed so as to extend in the orthogonal direction. The distance from the shaft center Bb is closer in the order of the engagement pin 93Ba → the engagement pin 92Ba → the engagement pin 91Ba.

  The engagement pin 91Ba is provided at the front end portion of the drive lever main body member 72B so as to protrude forward, and engages with the elongated hole 91Bb so as to be slidable from the rear side. The engagement pin 92Ba is connected to the drive lever main body member. 72B is provided so as to protrude rearward in the middle in the length direction, and engages with the long hole 92Bb so as to be slidable from the front side. The engagement pin 93Ba is closer to the axis Bb than the engagement pin 92Ba. The drive lever dividing member 72B at the position is provided at the front end portion so as to protrude rearward, and is slidably engaged with the elongated hole 93Bb from the front side.

  The movable accessory body member 41B of the front movable accessory 50B is provided with a guide pin 94B protruding forward near the accessory base 41Bb, and this guide pin 94B is formed in a guide slit 31BC formed on the front wall 31B. It is slidably engaged.

  An optical sensor 95B (photo interrupter 95B) is attached to the sensor attachment portion 32Bc of the rear wall 32B. The optical sensor 95B has a light emitting portion and a light receiving portion, and the light emitting portion and the light receiving portion are arranged so as to sandwich a partial cylindrical portion 72Bb provided to protrude rearward from the drive lever main body member 72B. Yes. A slit 72Bc is formed in the partial cylindrical portion 72Bb, and it is detected that the slit 72Bc is located between the light emitting portion and the light receiving portion of the optical sensor 95B, and the position of the drive lever member 71B at that time, that is, the movable accessory The positions of 40B, 50B, and 60B are the origin positions, and the electric motor 81B is controlled based on the origin positions.

  In the movable accessory device 17 (left and right movable accessory mechanisms 17A, 17B), as can be seen from the above description and drawings, a driving force input mechanism 80A (electrically driven) that is a part of the left movable accessory mechanism 17A. Motor 81A, motor mounting seat 82A, drive lever member 83A, annular roller member 85A) and a corresponding driving force input mechanism 80B (electric motor 81B, motor mounting seat 82B, drive) that is part of the right movable accessory mechanism 17B. The lever member 83B and the annular roller member 85B) are constituted by a plurality of common parts.

  Further, in this movable accessory device 17, a part other than the driving force input mechanism 80A (the bearings 47A and 57A, the support shaft 75A, the spacers 76A and 77A, the optical part) of the rotation driving mechanism 70A of the left movable accessory mechanism 17A. Sensor 95A) and a part of the rotational drive mechanism 70B of the right movable accessory mechanism 17B corresponding thereto other than the drive force input mechanism 80B (bearings 47B and 57B, support shaft 75B, spacers 76B and 77B, optical sensor 95B). Are composed of a plurality of common parts.

According to the movable accessory apparatus 17 demonstrated above, there exist the following effects.
The game board 4 is provided with left and right movable accessory mechanisms 17A / 17B, and each of the movable accessory mechanisms 17A / 17B can extend in a direction parallel to the board surface of the game board 4 and overlap in the front-rear direction perpendicular to the board surface. A plurality of movable accessories 40A, 50A, 60A / 40B, 50B, 60B are provided, and a base end side portion of the plurality of movable accessories 40A, 50A, 60A / 40B, 50B, 60B is an annular recess of the base member 30A / 30B. 35A, 36A / 35B, and 36B are rotatably supported around the same axial center Aa / Ba in the front-rear direction, and a plurality of movable accessories 40A, 50A, 60A / 40B are provided by the rotation drive mechanism 70A / 70B. , 50B, 60B overlapped in the front-rear direction and a second position rotated from the first position about the axis Aa / Ba and deployed to the plurality of movable accessories 40A, 50A , 6 A / 40B, 50B, 60B are driven to different operating angles rotation set individually.

  That is, the configuration and operation of the novel movable combination 40A, 50A, 60A / 40B, 50B, 60B can be realized, and the plurality of movable combination 40A, 50A, 60A / 40B, 50B, 60B is enlarged. Since it can be dynamically operated, the movable decorations 40A, 50A, 60A / 40B, 50B, 60B are further equipped with the illumination mechanisms 43A, 53A, 63A / 43B, 53B, 63B. The production effect can be greatly improved by the cooperation with the electric decoration mechanisms 43A, 53A, 63A / 43B, 53B, and 63B.

  Then, a driving force input mechanism 80A that is a part of the rotational drive mechanism 70A of the left movable accessory mechanism 17A and a corresponding driving force input mechanism that is a part of the rotational drive mechanism 70B of the right movable accessory mechanism 17B. By configuring the 80B with a plurality of common parts, the parts of the left and right movable accessory mechanisms 17A, 17B (driving force input mechanisms 80A, 80B) can be shared, reducing the types of parts and reducing manufacturing costs. can do.

  In each rotary drive mechanism 70A / 70B of each movable accessory mechanism 17A / 17B, a drive lever member 71A / 71B having first and second lever portions 71Aa, 71Ab / 71Ba, 71Bb extending in a direction parallel to the board surface is provided as a base. The pivotal support holes 37A, 38A / 37B, and 38B of the member 30A / 30B are rotatably supported through the support shafts 75A / 75B in the front-rear direction, and the driving lever member 71A / 80B is driven by the driving force input mechanism 80A / 80B. A driving force for rotating 71B is input to the first lever portion 71Aa / 71Ba of the drive lever member 71A / 71B, and the drive lever member 71A / 71B with respect to the annular recesses 35A, 36A / 35B, 36B of the base member 30A / 30B. A plurality of driven lever members 44A, 54A, 64A / 44B extending toward the second lever portion 71Ab / 71Bb 54B and 64B are integrally provided on the plurality of movable accessories 40A, 50A, 60A / 40B, 50B and 60B, respectively, and the plurality of driven lever members 44A, 54A, 64A / 44B, 54B and 64B are interlocked and connected to the second lever portions 71Ab / 71Bb of the drive lever members 71A / 71B, respectively, and the rotational movement of the drive lever member 71A / 71B is a plurality of movable accessories 40A, 50A, 60A / 40B, 50B. , 60B.

  Thus, in each movable accessory mechanism 17A / 17B, the plurality of movable accessories 40A, 50A, 60A / 40B, 50B, 60B are individually rotated around the same axis Aa / Ba in the front-rear direction. In addition, the drive lever member 71A / 71B and the drive force input mechanism 80A / 80B, which are common to the plurality of movable members 40A, 50A, 60A / 40B, 50B, 60B, etc. The structure can be simplified, the assemblability can be improved, the manufacturing cost can be further reduced, and the reliability in terms of operation and durability can be increased. Therefore, by increasing the size of the plurality of movable accessories 40A, 50A, 60A / 40B, 50B, 60B, the plurality of movable combinations 40A, 50A, 60A / 40B, 50B, 60B are further provided with an electric decoration mechanism 43A, 53A. , 63A / 43B, 53B, 63B, the weights of the plurality of movable accessories 40A, 50A, 60A / 40B, 50B, 60B become heavy, but the operating surface and the durability surface of the rotational drive mechanism 70A / 70B It is possible to achieve a significant improvement in the production effect while maintaining high reliability.

  In the rotational drive mechanisms 70A / 70B of the movable accessory mechanisms 17A / 17B, a plurality of driven lever members 43A, 53A, 63A / 43B, 53B, 63B are connected to the drive lever members 71A / 71B by the interlocking connection mechanisms 90A / 90B. Since the distance from the pivotal support hole portions 37A, 38A / 37B, 38B of the base member 30A / 30B in the second lever portion 71Ab / 71Bb is interlocked and connected to different parts, a plurality of movable accessories 40A, 50A, 60A / 40B, 50B, 60B can be driven to reliably rotate different operating angles set individually over the first position and the second position, and each driven lever member 43A, 53A can be driven. , 63A / 43B, 53B, 63B by adjusting the interlocking connection portion to the drive lever member 71A / 71B by the distance, a plurality of movable roles 40A, 50A, 60A / 40B, 50B, the overall operation of 60B as a desired operation, it is possible to set the second position to the desired position.

  In the rotational drive mechanisms 70A and 70B of the movable accessory mechanisms 17A and 17B, the drive force input mechanism 80A / 80B is fixed to the output shaft 81Aa / 81Ba of the electric motor 81A / 81B and is driven from the output shaft 81Aa / 81Ba. The input lever member 83A / 83B extends toward the first lever portion 71Aa / 71Ba of the member 71A / 71B. The input lever member 83A / 83B controls the rotation of the input lever member 83A / 83B. Since the first lever portion 71Aa / 71Ba is linked to the first lever portion 71Aa / 71Ba so that it can be converted into a rotational motion of / 71B, the driving force for rotating the drive lever member 71A / 71B is surely input to the first lever portion 71Aa / 71Ba. Can do.

  The rotational drive mechanism 70A / 70B of each movable accessory mechanism 17A / 17B is a rotational direction in which the plurality of movable actors 40A, 50A, 60A of the left movable accessory mechanism 17A is directed from the first position to the second position. And the plurality of movable accessories 40B, 50B, 60B of the second movable accessory mechanism 17B are configured so that the direction of rotation from the first position to the second position is opposite, In a state where the overall front-rear direction positions of the movable accessory mechanisms 17A and 17B are substantially matched, the plurality of movable actors 40A, 50A and 60A of the left movable accessory mechanism 17A and the plurality of movable members of the right movable accessory mechanism 17B are movable. When the objects 40B, 50B, and 60B are in the second position, they can be overlapped in the front-rear direction, and the effect can be greatly improved.

  The rotational drive mechanism 70A of the left movable accessory mechanism 17A is configured to change the operating angle of the rear movable accessory 50A located on the rearmost side among the plurality of movable actors 40A, 50A, 60A to the other movable actors 40A, 60A. The rotation drive mechanism 70B of the right movable accessory mechanism 17B is configured to be larger than the operation angle of the movable movable component 40B, 50B, 60B, and the front movable accessory 40B located at the foremost side among the plurality of movable actors 40B, 50B, 60B. Since the angle is configured to be larger than the operation angle of the other movable accessory 50B, 60B, the plurality of movable actors 40A, 50A, 60A of the left movable accessory mechanism 17A and the right two movable accessory mechanism 17B. When the plurality of movable combinations 40B, 50B, 60B are in the second position, the front movable combination 40B of the right movable combination mechanism 17B and the rear movable combination 50A of the left movable combination mechanism 17A overlap each other. Be able to Kill.

  When the plurality of movable actors 40A, 50A, 60A of the left movable accessory mechanism 17A and the plurality of movable actors 40B, 50B, 60B of the right movable accessory mechanism 17B are in the first position, the vertical posture is assumed. Since the display device 16 is configured to retreat from the front space of the screen 16 to the left and right sides and to be inclined in the second position so as to expand in the front space of the screen of the image display device 16 and overlap the front and rear. By switching the plurality of movable accessories 40A, 50A, 60A / 40B, 50B, and 60B of the movable accessory mechanism 17A / 17B from the first position to the second position, the image display 16 is moved up and down from the left and right ends, respectively. It can be developed in a fan shape toward one end side, and here, a plurality of movable accessory 40A, 50A, 60A / 40B, 50B, 60B of the left and right movable accessory mechanisms 17A, 17B can be obtained without mutual interference. You can mold, as this allows the front side of the image display unit 16 larger cover that can hide and, by the image display device 16 in cooperation with, can further improve the performance effect.

  Next, Embodiments 2 and 3 in which the right movable accessory mechanism 17B of Embodiment 1 is changed will be described. In addition, the same code | symbol is attached | subjected to each mechanism and each member of Example 1, and the detailed description of the same or similar structure, function, etc. is abbreviate | omitted suitably.

  This movable accessory device includes a left movable accessory mechanism 17A shown in FIGS. 9 and 10 and a right movable accessory mechanism 17C shown in FIGS. 17 and 18, and includes a plurality of left movable accessory mechanisms 17A. All of the movable members 40A, 50A, 60A other than the movable members 40C, 50C, 60C of the right movable member mechanism 17C are composed of a plurality of common parts.

  That is, the base member 30A (base member front portion 30Aa, base member rear portion 30Ab, cover member 39A) of the left movable accessory mechanism 17A and the rotation drive mechanism 70A (a plurality of driven lever members 44A, 54A, 64A, bearing 47A). 57A, drive lever member 71A, drive lever body member 72A, drive lever split member 73A, support shaft 75A, spacers 76A, 77A, drive force input mechanism 80A, electric motor 81A, motor mounting seat 82A, input lever member 83A, annular The roller member 85A, the interlocking connection mechanism 90A, the optical sensor 95A), the base member 30C (base member front portion 30Ca, base member rear portion 30Cb, cover member 39C) and the rotation drive mechanism 70C of the right movable accessory mechanism 17C ( A plurality of driven lever members 44C, 54C, 64C, bearings 47C, 7C, drive lever member 71C, drive lever body member 72C, drive lever split member 73C, support shaft 75C, spacers 76C, 77C, drive force input mechanism 80C, electric motor 81C, motor mounting seat 82C, input lever member 83C, annular roller The member 85C, the interlocking connection mechanism 90C, and the optical sensor 95C) are configured by common parts.

  The base member 30C and the rotational drive mechanism 70C of the right movable accessory mechanism 17C are applied by turning the base member 30A and the rotational drive mechanism 70A of the left movable accessory mechanism 17A upside down. A plurality of movable combinations 40C, 50C, 60C (front movable combination 40C, rear movable combination 50C, intermediate movable combination 60C) of the right movable combination mechanism 17C are respectively movable body main members 41C, 51C, 61C, back cover members 42C, 52C, and 62C, illumination mechanisms 43C, 53C, and 63C, and driven lever members 44C, 54C, and 64C are provided. The movable accessory body members 41C, 51C, and 61C are provided with the accessory display part 41Ca. , 51Ca, 61Ca, and an accessory base 41Cb, 51Cb, 61bC.

Of the plurality of movable accessories 40C, 50C, 60C, the portions other than the accessory bases 41Cb, 51Cb, 61bC are the accessory bases 41Bb, 51Bb, 61bB of the plurality of movable accessories 40B, 50B, 60B of the first embodiment. However, the accessory base 41Cb of the front movable accessory 40C is a structure in which the accessory base 51Ab of the rear movable accessory 50A of the left movable accessory mechanism 17A is turned upside down. The accessory base 51Cb of the rear movable accessory 50C has a structure in which the accessory base 41Ab of the front movable accessory 40A of the left movable accessory mechanism 17A is turned upside down, and the accessory base 61Cb of the intermediate movable accessory 60C. Is a structure in which the accessory base 61Ab of the intermediate movable accessory 60A of the left movable accessory mechanism 17A is turned upside down.

  Therefore, the connecting structure of the plurality of movable combinations 40C, 50C, 60C of the right movable combination mechanism 17C and the plurality of driven lever members 44C, 54C, 64C is changed to the plurality of movable combinations 40A of the left movable combination mechanism 17A. A structure similar to the connection structure of 50A, 60A and the plurality of driven lever members 44A, 54A, 64A can be employed. Thus, similarly to the first embodiment, the plurality of movable accessories 40A, 50A, 60A / 40C, 50C, 60C rotate around the axis Aa / Ba from the first position and the first position where they overlap each other. Thus, it is possible to realize an operation of rotating the plurality of movable accessories 40A, 50A, 60A / 40C, 50C, and 60C at different operating angles that are individually set over the second position developed in this manner.

  According to the movable accessory device provided with the left movable accessory mechanism 17A and the right movable accessory mechanism 17C, all of the rotation drive mechanism 70A of the left movable accessory mechanism 17A and the rotation of the right movable accessory mechanism 17C. Since all of the dynamic drive mechanisms 70C are constituted by common parts, and further, the base member 30A of the left movable accessory mechanism 17A and the base member 30C of the right movable accessory mechanism 17C are constituted by common parts. The manufacturing cost of the apparatus (all of the rotation drive mechanisms 70A / 70C and the base member 30A / 30C) can be significantly reduced. Other effects similar to those of the first embodiment are obtained.

  This movable accessory device includes a left movable accessory mechanism 17A shown in FIGS. 9 and 10, and a right movable accessory mechanism 17D shown in FIGS. 19 and 20, and includes a base of the left movable accessory mechanism 17A. All except the member 30A and the plurality of movable accessories 40A, 50A, 60A, and the base member 30D of the right movable accessory mechanism 17D and all of the plurality of movable accessories 40D, 50D, 60D are configured by a plurality of common parts. Has been.

  That is, all of the rotation drive mechanism 70A of the left movable accessory mechanism 17A (a plurality of driven lever members 44A, 54A, 64A, bearings 47A, 57A, drive lever member 71A, drive lever body member 72A, drive lever split member 73A, Support shaft 75A, spacers 76A and 77A, driving force input mechanism 80A, electric motor 81A, motor mounting seat 82A, input lever member 83A, annular roller member 85A, interlocking coupling mechanism 90A, optical sensor 95A), right movable accessory mechanism All of the 17D rotation drive mechanism 70D (a plurality of driven lever members 44D, 54D, 64D, bearings 47D, 57D, drive lever member 71D, drive lever body member 72D, drive lever split member 73D, support shaft 75D, spacer 76D, 77D, driving force input mechanism 80D, electric motor 81D, motor mounting seat 82D Input lever member 83D, the annular roller member 85D, interlocking connection mechanism 90D, the optical sensor 95D) and is composed of common parts.

  The rotational drive mechanism 70D of the right movable accessory mechanism 17D is applied by turning the rotational drive mechanism 70A of the left movable accessory mechanism 17A upside down. The base member 30D of the right movable accessory mechanism 17D is configured by combining a base member front portion 30Da and a base member rear portion 30Db, and a motor attachment port 31Db is formed in the lower left portion of the base member front portion 30Da. The other part is a configuration in which the part other than the lower right part of the base member rear part 30Ab of the left movable accessory mechanism 17A is reversed in the front-rear direction, and the motor attachment port is not formed in the lower left part of the base member rear part 30Db. The parts other than the lower left part have a configuration in which the parts other than the lower right part of the base member front part 30Aa of the left movable accessory mechanism 17A are turned upside down.

  A plurality of movable combinations 40D, 50D, 60D (front movable combination 40D, rear movable combination 50D, intermediate movable combination 60D) of the right movable combination mechanism 17D are movable combination body members 41D, 51D, 61D, back cover members 42D, 52D, and 62D, illumination mechanisms 43D, 53D, and 63D, and driven lever members 44D, 54D, and 64D are provided. The movable accessory body members 41D, 51D, and 61D are provided with the accessory display portion 41Da. , 51Da, 61Da, and accessory bases 41Db, 51Db, 61bD.

Of the plurality of movable accessories 40D, 50D, 60D, the portions other than the accessory bases 41Db, 51Db, 61bD are the accessory bases 41Bb, 51Bb, 61bB of the plurality of movable accessories 40B, 50B, 60B of the first embodiment. However, the accessory base 41Db of the front movable accessory 40D has a structure in which the accessory base 51Ab of the rear movable accessory 50A of the left movable accessory mechanism 17A is turned upside down. The accessory base 51Db of the rear movable accessory 50D has a structure in which the accessory base 41Ab of the front movable accessory 40A of the left movable accessory mechanism 17A is turned upside down, and the accessory base 61Db of the intermediate movable accessory 60D. Is a structure in which the accessory base 61Ab of the intermediate movable accessory 60A of the left movable accessory mechanism 17A is turned upside down.

  Therefore, the connecting structure of the plurality of movable combinations 40D, 50D, 60D of the right movable combination mechanism 17D and the plurality of driven lever members 44D, 54D, 64D is the plurality of movable combinations 40A of the left movable combination mechanism 17A. A structure similar to the connection structure of 50A, 60A and the plurality of driven lever members 44A, 54A, 64A can be employed. Thus, as in the first embodiment, the plurality of movable accessories 40A, 50A, 60A / 40D, 50D, 60D rotate around the axis Aa / Ba from the first position and the first position where they overlap each other. Thus, it is possible to realize the operation of rotating the plurality of movable accessories 40A, 50A, 60A / 40D, 50D, and 60D at different operating angles that are individually set over the second position developed in this manner.

  According to the movable accessory device provided with the left movable accessory mechanism 17A and the right movable accessory mechanism 17D, all of the rotation drive mechanism 70A of the left movable accessory mechanism 17A and the rotation of the right movable accessory mechanism 17D. Since all of the dynamic drive mechanisms 70D are composed of common parts, the manufacturing cost of the movable accessory device (all of the rotational drive mechanisms 70A / 70D) can be greatly reduced. Although included in the effect of the first embodiment, both electric motors 81A / 81D of the movable accessory mechanism 17A / 17D are both attached to the base member 30A / 30D from the front side. Since the side can be widened, it is advantageous for mounting the movable accessory device 17 and other structures approaching the movable accessory device 17. Other effects similar to those of the first embodiment are obtained.

The above embodiment may be partially changed as follows.
(1) In the driving force input mechanism 80A / 80B (80C) (80D), a servo motor is employed instead of the stepping motor as the electric motor 81A / 81B (81C) (80D). Alternatively, various electric actuators such as solenoid actuators are employed instead of the electric motors 81A / 81B (81C) (80D).
(2) Provide some biasing means for biasing the plurality of movable accessories 40A, 50A, 60A / 40B, 50B, 60B (40C, 50C, 60C) (40D, 50D, 60D) toward the first position. . In this case, the drive lever members 71A / 71B (71C) (71D) may be configured to be biased.

(3) The interlocking coupling mechanism 90A / 90B (90C) (90D) and the plurality of driven lever members 44A, 54A, 64A / 44B, 54B, 64B (44C, 54C, 64C) (44D, 54D, 64D) are driven lever members. Of the second lever portions 71Ab / 71Bb (71Cb) (71Db) of 71A / 71B (71C) (71D), the circumferential positions around the support shafts 75A / 75B (75C) (75D) are different from each other. Linked together.

  Each driven lever member 44A, 54A, 64A / 44B, 54B, 64B (44C, 54C, 64C) (44D, 54D, 64D) is connected to the driving lever member 71A / 71B (71C) (71D) at the distance. In addition to the adjustment in the position in the circumferential direction, the overall operation of the movable members 40A, 50A, 60A / 40B, 50B, 60B (40C, 50C, 60C) (40D, 50D, 60D) is performed. With the desired operation, the second position can be set to a desired position, and the drive lever members 71A / 71B (71C) (71D) are configured as a single member to reduce the number of parts and interlocking connection It can be expected to improve the assemblability of the mechanisms 90A / 90B (90C) (90D).

  In addition, various modifications can be added without departing from the spirit of the present invention. For example, the number, arrangement, size, shape, first position, second position, etc. of the plurality of movable accessories can be changed as appropriate. The movable accessory device of the present invention can be applied to a pachinko gaming machine equipped with a game board or a gaming machine equipped with a game board other than a pachinko gaming machine.

1 Pachinko machine 4 Game board 16 Image display 17 Movable accessory device 17A Left movable accessory mechanism 17B, 17C, 17D Right movable accessory mechanism 30A, 30B, 30C, 30D Base members 35A, 35B Front annular recesses 36A, 36B Rear annular recesses 37A, 37B Front pivot holes 38A, 38B Rear pivot holes 40A, 40B, 40C, 40D Front movable members 44A, 54A, 64A, 44B, 54B, 64B, 44C, 54C, 64C, 44D, 54D, 64D Driven lever members 50A, 50B, 50C, 50D Rear movable combination 60A, 60B, 60C, 60D Intermediate movable combination 70A, 70B, 70C, 70D Rotation drive mechanism 71A, 71B, 71C, 71D Drive Lever member 71Aa, 71Ba 1st lever part 71Ab, 71Bb 2nd lever part 75A, 75B, 75 C, 75D Support shafts 80A, 80B, 80C, 80D Driving force input mechanisms 81A, 81B, 81C, 81D Electric motors 81Aa, 81Ba Output shafts 83A, 83B, 83C, 83D Input lever members 90A, 90B, 90C, 90D Interlocking coupling mechanism

Claims (1)

  1. In the movable accessory device for a gaming machine provided with the first and second movable accessory mechanisms provided on the game board,
    Each of the first and second movable accessory mechanisms is
    A plurality of movable objects that can overlap;
    A base member having a first pivotal support portion that rotatably supports base end side portions of the plurality of movable accessories around the same axis;
    The plurality of movable combinations are individually set over the first position where the plurality of movable combinations overlap and the second position rotated around the axis from the first position and deployed. A rotation drive mechanism for driving to rotate different operating angles,
    Each of the rotation drive mechanisms is
    A drive lever member rotatably supported by the base member;
    A driving force input means including an electric actuator capable of inputting a rotational driving force to the driving lever member;
    A plurality of driven lever members integrally connected to the plurality of movable accessories;
    An interlocking connection mechanism for interlockingly connecting a plurality of driven lever members so as to convert the rotating operation of the drive lever member into individual rotating operations of a plurality of movable accessories;
    A game characterized in that at least a part of the rotational drive mechanism of the first movable accessory mechanism and at least a part of the rotational drive mechanism of the second movable accessory mechanism corresponding thereto are constituted by common parts. The movable accessory device of the machine.
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Publication number Priority date Publication date Assignee Title
JP5069781B2 (en) * 2010-11-04 2012-11-07 株式会社サンセイアールアンドディ Game machine
JP6097176B2 (en) * 2013-08-06 2017-03-15 株式会社ニューギン Game machine
JP6097175B2 (en) * 2013-08-06 2017-03-15 株式会社ニューギン Game machine
JP2015177892A (en) * 2014-03-19 2015-10-08 京楽産業.株式会社 Game machine
JP6450952B2 (en) * 2014-09-05 2019-01-16 株式会社オリンピア Game machine
JP6117271B2 (en) * 2015-04-24 2017-04-19 京楽産業.株式会社 Game machine
JP2016032689A (en) * 2015-11-16 2016-03-10 京楽産業.株式会社 Game machine
JP2018023539A (en) * 2016-08-09 2018-02-15 株式会社大都技研 Game board
JP2018023537A (en) * 2016-08-09 2018-02-15 株式会社大都技研 Game board
JP2018023531A (en) * 2016-08-09 2018-02-15 株式会社大都技研 Game board
JP6290354B2 (en) * 2016-10-20 2018-03-07 京楽産業.株式会社 Game machine

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JP4754389B2 (en) * 2006-03-31 2011-08-24 株式会社ニューギン Movable production device for gaming machines
JP4710752B2 (en) * 2006-08-02 2011-06-29 タイヨーエレック株式会社 Game machine
JP2008110035A (en) * 2006-10-30 2008-05-15 Aruze Corp Game machine
JP4895781B2 (en) * 2006-11-28 2012-03-14 株式会社大一商会 Game machine

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