JP5330133B2 - Movable rendering device for gaming machine and gaming machine equipped with the same - Google Patents

Movable rendering device for gaming machine and gaming machine equipped with the same Download PDF

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JP5330133B2
JP5330133B2 JP2009168419A JP2009168419A JP5330133B2 JP 5330133 B2 JP5330133 B2 JP 5330133B2 JP 2009168419 A JP2009168419 A JP 2009168419A JP 2009168419 A JP2009168419 A JP 2009168419A JP 5330133 B2 JP5330133 B2 JP 5330133B2
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movable
rotating
gear
decorative
gaming machine
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JP2011019783A (en
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義一 足立
澄明 花岡
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日本ぱちんこ部品株式会社
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Abstract

<P>PROBLEM TO BE SOLVED: To provide a movable performance device for a game machine, which is capable of being installed compactly without reducing the display area of the design surface of a decorative body and improving a performance effect by enlarging and displaying the display area of the design surface when a movable body is operated, and to provide the game machine provided with the same. <P>SOLUTION: The movable body 25 movable between a storage position at which it is stored behind the decorative body 20 and an operating position for enlarging and displaying the design surface of the decorative body 20 by being moved to the outer side from the outer periphery of the decorative body according to the rotating direction of a motor 23 is assembled to a rotating body 26. The movable body 25 is moved from the storage position to the operating position when the rotating body 26 is rotated in a prescribed direction for moving the movable body 25 from the storage position to the operating position, and is rotated integrally with the rotating body 26 with a connection shaft 22 as a center while maintaining the operating position when the rotating body 26 is rotated further. <P>COPYRIGHT: (C)2011,JPO&amp;INPIT

Description

  The present invention relates to a movable effect device for a gaming machine and a gaming machine including the same.

  A gaming machine such as a pachinko machine has a gaming board detachably assembled to an inner frame that can be opened and closed with respect to the outer frame. The inner frame is provided with a front frame that can be opened and closed.

In the game area formed on the board surface of the game board, it becomes difficult to secure the installation area of the effect device including the movable body arranged in the game area as the display screen of the symbol display device (liquid crystal display device) is enlarged. ing.
Therefore, there has been proposed a gaming machine that is compactly provided with an effect device that includes an accessory provided around the symbol display device and a movable body provided in the game area, and that has a design surface that expands in accordance with game play. Yes.

  Specifically, a decorative body having a design surface is provided behind the radially divided movable plate, a first position that covers the design surface by driving an actuator, and a second position that exposes a part of the design surface; There has been proposed a gaming machine in which the effect device is reduced in size by moving the movable plate in the radial direction (see Patent Document 1).

  A ring-shaped first and second rotating bodies are coaxially arranged in front of the symbol display device, and a plurality of movable pieces are pivoted between the first and second rotating bodies so as to be rotatable about the first rotating body. Displayed on the symbol display device is supported by being engaged with the second rotating body and rotating the movable piece in the radial direction by rotating the first and second rotating bodies with a speed difference. A gaming machine in which the area is changed has also been proposed (see Patent Document 2).

JP 2007-222436 A JP 2008-284112 A

However, the effect device of Patent Document 1 described above can be installed compactly when it is incorporated around the symbol display device, but it is fascinating because the design surface is hidden. In addition, since the movable plate moves radially in conjunction with game play, it is difficult to achieve the effect of the design. Further, since the movable plate moves radially and the design surface is displayed, it is not possible to provide a decorative part that becomes an obstacle around the effect device.
Further, in the production device of Patent Document 2, the production effect is aimed at by changing the display area of the symbol display device, but the area of the display unit does not increase, and the movable piece is the first and second rotating bodies. The design surface changes in a limited manner by appearing so as to reduce the area of the symbol display device.

  An object of the present invention is a movable effect for a gaming machine that can be installed in a compact manner without reducing the display area of the design surface of the decorative body, and further, when the movable body is operated, the display area of the design surface is enlarged and the effect is improved. An object is to provide a device and a gaming machine equipped with the same.

In order to achieve the above object, the present invention comprises the following configuration.
A movable effect device for a gaming machine attached to a mechanism base provided at a predetermined location of a gaming machine, a decorative body visually recognized from the front of the gaming machine, and assembled to the mechanism base and arranged behind the decorative body A rotating body that is integrally connected via a connecting shaft and that is driven and transmitted from a driving source between the rear mounting member and the decorative body and rotates about the connecting shaft; and An operating position that is assembled so as to be movable and is stored in the rear of the decorative body in accordance with the rotation direction of the drive source, and an operating position that moves outward from the outer periphery of the decorative body and displays the design surface of the decorative body in an enlarged manner And when the rotating body rotates in a predetermined direction to move the movable body from the storage position to the operating position, the movable body moves from the storage position to the operating position. Rotating body rotates It characterized in that it rotates together with the rotary body integrally with the center and the connecting shaft while maintaining the operating position that.

  The rotating body is driven by the drive source to rotate forward and backward about the connecting shaft, and rotates around the rotating shaft parallel to the connecting shaft according to the rotating operation of the main gear. A movable gear that moves the body between a storage position and a movable position; and a case body that rotatably supports the movable gear and that can rotate about the coupling shaft. And a restricting means for positioning the storing position and the operating position of the movable body.

  A restricting piece projecting from the movable gear is inserted into a long hole provided in the case body, and the restricting piece comes into contact with either end of the long hole by the rotation of the movable gear. The movable body is positioned while the movement is restricted at the storage position or the operation position.

  On the opposing surface of the decorative body or the rear mounting member facing the movable gear, there is provided an auxiliary restricting portion for assisting the rotation of the movable body that rotates as the main gear rotates in a predetermined direction. Features.

  When the main gear rotates in a predetermined direction, the movable gear rotates while the restricting piece of the movable gear and the auxiliary restricting portion interfere with each other to move the movable body from the storage position to the operating position. In a state where the restricting piece abuts one end of the elongated hole of the case body and the rotation of the movable gear is restricted and the movable body is positioned at the operating position, and the rotation of the movable gear is restricted. The interference between the restricting piece and the auxiliary restricting portion is avoided, and through the case body that pivotally supports the movable gear while the movable body maintains the operating position by further rotating the main gear in a predetermined direction. Revolving around the main gear.

  On each facing surface of the case body arranged to face the decorative body or the rear mounting member, rotation regulating ribs that allow the rotation of the rotating body in a predetermined direction but restrict the rotation in the reverse direction are formed mutually. It is characterized by being.

  In addition, the gaming machine includes the above-described movable effect device for gaming machines.

  If the above-described movable effect device for a gaming machine is used, the design position of the decorative body is enlarged by moving the storage position stored behind the decorative body and the outer periphery of the decorative body according to the rotation direction of the drive source. Since the movable body that can move between the operating position to be displayed is assembled to the rotating body, it can be installed compactly without reducing the display area of the design surface of the decorative body. Since the movable body moves from the stowed position to the operating position and further rotates when the rotating body rotates, the movable body rotates integrally while maintaining the operating position. An unexpected effect with movement can be performed with the display area of the surface enlarged.

  Further, the rotating body is moved between a storage position and an operating position by a movable gear that rotates about a rotation axis parallel to the connection shaft to a main gear that is driven to rotate forward and backward about the connection shaft by a drive source. Since it is moved, the movable body can be operated by meshing the single drive source and the gears, and the movable effect device can be miniaturized. In addition, since there is a restricting means for positioning the storage position and the operation position of the movable body between the movable gear and the case body, the movable body is reliably positioned at the operation position and the storage position according to the rotation direction of the case body. can do.

  In addition, a restriction piece protruding from the movable gear is inserted into a long hole provided in the case body, and the movable piece is brought into contact with one end of the long hole by rotation of the movable gear. Since the movement is positioned while being restricted at the storage position or the operation position, the movable body appears and disappears from the outer periphery of the decorative body due to the rotation of the movable gear, and the position of the movable body is restricted when the rotation of the movable gear is restricted. Therefore, the moving operation of the movable body can be realized with a simple configuration.

  On the opposing surface of the decorative body or the rear mounting member that faces the movable gear, there is provided an auxiliary restricting portion that assists the rotation of the movable body that rotates as the main gear rotates in a predetermined direction. Since the rotation is assisted, the movable gear can be reliably rotated and the movable body can be smoothly moved from the storage position to the operating position.

  If the rotation restricting ribs that allow rotation in the predetermined direction but restrict rotation in the reverse direction are formed on the opposing surface of the case body that is disposed opposite to the decorative body or the rear mounting member, it is movable. It is possible to stop the revolution of the body with a simple configuration of abutting the rotation restricting ribs provided on the case body and the rear mounting member, and further, the movable body is urged to rotate while the rotation restricting ribs are in contact with each other. Can be moved from the operating position to the storage position.

  In the gaming machine equipped with the movable effect device for a gaming machine described above, the display area of the design surface of the decorative body is enlarged and displayed when the movable body moves to the operating position regardless of the display area of the design surface of the decorative body. When the rotating body rotates, it rotates integrally with the rotating body around the connecting shaft while maintaining the operating position, so that the design surface is enlarged according to the game state, and the rotating body and the movable body are integrated. Since it rotates, it is possible to perform unexpected effects, and it is possible to perform various effects that the player's interest is not exhausted within a limited game area.

It is a front view of a gaming machine. It is the front view and perspective view of a movable production | presentation apparatus. FIG. 4 is an arrow AA sectional view and an arrow BB sectional view of the movable effect device of FIG. 3. It is arrow CC sectional drawing of the movable production | presentation apparatus of FIG. It is the disassembled perspective view seen from the front side of a movable production | presentation apparatus. It is the disassembled perspective view seen from the back side of a movable production | presentation apparatus. It is a disassembled perspective view of the rotary body containing a movable body. It is the rear surface perspective view and front surface perspective view of a back attachment member. It is the rear surface perspective view and front surface perspective view of a 2nd rotation board. It is the rear perspective view and front perspective view which show the meshing state of a planetary gear and a movable gear. It is a perspective view which shows the operation state of the movable body of a movable production | presentation apparatus. It is the state figure seen from the front which shows the relationship between the meshing state of the sun gear in a rotary body, a planetary gear, and a movable gear, and the position of a movable body. It is the state figure seen from the back which shows rotation of a rotating body and the positional relationship of a movable body. It is state explanatory drawing of the rotation control rib with the back attachment member according to the rotation direction of the 2nd rotary body.

Hereinafter, embodiments of the present invention will be specifically described with reference to the drawings.
A schematic configuration of the gaming machine according to the present embodiment will be described with reference to FIG. In this embodiment, a pachinko machine will be described as an example of a gaming machine. The pachinko machine 1 includes an inner frame (not shown) in which an outer frame 2 and a game board 3 are provided, and a front frame 4 that covers the inner frame. An inner frame (not shown) is attached to the outer frame 2 so as to be openable and closable by hinges 4a and 4b. The front frame 5 is attached to the inner frame so as to be openable and closable (the hinge portion is not shown). A window (glass frame) 6 through which a player can visually recognize the game board 3 is provided at the center of the front frame 5. A speaker 7 and a decorative part (not shown) are provided around the window 6.

  Further, below the window 6 is provided a ball tray 8 for storing rental balls and prize balls and guiding the balls to a ball launcher (not shown). On the right side of the ball receiving tray 8, a launch handle 9 is provided for launching a game ball toward a game area by a ball launcher (not shown).

  In the game area formed on the board surface of the game board 3, a center accessory 11 having a symbol display device (liquid crystal display device) 10 is provided at the center, and a nail and through chucker 12 not shown are provided around the center. , Wind turbine 13, electric tulip 14, attacker 15, game board rails 16, side lamps 17 and other board surface parts and out balls (game tulips that have not won the electric tulip 14 and attacker 15) (outlet not shown) ) Etc. are provided.

  The center accessory 11 is provided with a movable effect device 19 in which the movable body moves according to the gaming state. In the movable effect device 19, for example, a movable body, which will be described later, moves between a storage position in which the movable body is stored behind the decorative body 20 and an operating position in which the design surface is enlarged by moving outward from the outer periphery of the decorative body 20. It is assembled as possible.

A schematic configuration of the movable effect device 19 will be described with reference to FIGS.
As shown in FIGS. 2 (a) and 2 (b), the movable effect device 19 is assembled to a mechanism base (fixed plate, movable plate, etc.) assembled at a predetermined location in the game area. The decorative body 20 visually recognized from the front of the gaming machine and the rear mounting member 21 are integrally connected via a connecting shaft 22 (fixed shaft) (see FIG. 5). Between the decorative body 20 and the rear mounting member 21, there is provided a rotating body 26 that is rotated by driving transmission from a motor 23 (driving source) that is a driving source. As the decorative body 20, a structure in which a ring-shaped frame 20b is integrally assembled with a design base 20a with screws 20c is used (see FIGS. 5 and 6).

  In FIG. 5, the rotating body 26 is provided with a movable body 25 that moves according to the rotation of the rotating body 26. The movable body 25 is assembled so as to be movable between a storage position stored behind the decorative body 20 and an operating position that moves outward from the outer periphery of the decorative body 20 and displays the design surface in an enlarged manner. This will be specifically described below.

  In FIG. 3A, the motor 23 is integrally assembled on the rear surface of the rear mounting member 21, and the motor gear 23 b provided on the motor shaft 23 a meshes with the transmission gear 27 assembled on the front side of the rear mounting member 21. ing.

  In FIG. 3A, the rotating body 26 is disposed between the decorative body 20 and the rear mounting member 21, and is driven and transmitted from the motor 23 to be rotated forward and backward about the connecting shaft 22. As for the rotary body 26, the 1st rotary body 26a (1st case body) and the 2nd rotary body 26b (2nd case body) are integrally assembled | attached from the front side by the axial direction (refer FIG. 5). Between them, a sun gear (main gear) 28 that is coaxially and integrally assembled with a transmission gear 27 that is driven to rotate about the connecting shaft 22, and a plurality of planetary gears 29 that mesh around the sun gear 28, Movable gears 30a and 30b meshing with the planetary gear 29 are respectively supported so as to be driven to rotate (see FIG. 7). As shown in FIG. 3B, the boss 28a provided in the sun gear 28 is fitted into the boss hole 27a provided in the transmission gear 27, and is screwed into the screw hole of the boss 28a by the screw 27b from the rear surface of the transmission gear 27. As a result, they are assembled together (see FIGS. 5 and 6). The transmission gear 27 and the sun gear 28 are rotatably supported around the connecting shaft 22.

In FIG. 7, the second rotating body 26 b is formed in a ring shape, and shaft holes 26 c are formed on the inner peripheral side at six equal intervals in the circumferential direction, and the shaft holes 26 d are formed on the outer peripheral side in the circumferential direction. It is formed at equal intervals at 12 locations. Further, every other arc-shaped long hole 26e is formed around the shaft hole 26d (see FIG. 9B).
Further, as shown in FIG. 7, the first rotating body 26a is formed in a disc shape, shaft holes 26f are formed at equal intervals in the circumferential direction at six locations on the inner peripheral side, and the shafts are formed on the outer peripheral side. The holes 26g are formed at 12 positions in the circumferential direction at equal intervals. Further, an arc-shaped long hole 26h is formed around the shaft hole 26g with the curved portion facing inward in the radial direction.

  As shown in FIGS. 10A and 10B, one planetary gear 29 is engaged with a pair of movable gears 30a and 30b. A regulating rib 30c (regulating piece) projects from the rear surface side of one of the pair of movable gears 30a and 30b (see FIG. 10A). Further, bosses 30d are respectively provided on the front sides of the movable gears 30a and 30b (see FIG. 10B). The movable gears 30a and 30b are formed over a predetermined range in the circumferential direction, and are allowed to rotate within the predetermined range.

In FIG. 7, the rotating shaft 29a of the planetary gear 29 is fitted into the shaft hole 26f of the first rotating body 26a and the shaft hole 26c of the second rotating body 26b and is rotatably supported. The rotating shafts 30e of the movable gears 30a and 30b are rotatably supported by being fitted into the shaft holes 26g of the first rotating body 26a and the shaft holes 26d of the second rotating body 26b.
Further, the boss 30d protruding from the front side of the movable gears 30a and 30b is inserted into the long hole 26h of the first rotating body 26a (see FIGS. 12A and 12B), and the rear surface of the movable gear 30b. The regulating rib 30c provided on the side is inserted into the elongated hole 26e of the second rotating body 26b (see FIGS. 13A and 13B).

  The first rotator 26a and the second rotator 26b are each screwed and fixed with screws 26p with the planetary gear 29 and the movable gears 30a and 30b being sandwiched (see FIG. 4). In addition, as shown in FIG. 7, the substrate 31 is superposed on the front surface of the first rotating body 26 a and screwed together with screws 32. A boss 26 i into which the screw 32 is screwed is projected from the rotating body 26. A light emitting component such as an LED 31a is mounted on the substrate 31, and a movable body 25 to be described later is illuminated.

  In FIG. 7, in the movable body 25, a total of 12 fins, six large fins 25a and six small fins 25b, are alternately assembled on the front surface of the first rotating body 26a. Specifically, the screw hole 25c of the small fin 25b is aligned with the boss 30d of the movable gear 30a inserted into the long hole 26h of the first rotating body 26a and fixed by the screw 33. The screw hole 25d of the large fin 25a is aligned and fixed to the boss 30d of the movable gear 30b inserted into the long hole 26h of the first rotating body 26a by the screw 34. Thus, the small fins 25b and the large fins 25a are alternately screwed and fixed to the bosses 30d of the movable gears 30a and 30b inserted alternately into the long holes 26h of the first rotating body 26a.

  8A, on the rear surface of the rear mounting member 21, bosses 21a to which the mechanism base and the motor 23 can be assembled are projected at four locations. Further, a bearing portion 21 b into which a D-cut portion at the rear end portion of the connecting shaft 22 can be inserted is provided at the center portion of the rear mounting member 21. A gear housing portion 21c that houses the transmission gear 27 is provided around the bearing portion 21b. A notch portion 21d is provided in a part of the rear surface side of the gear housing portion 21c, and the transmission gear 27 and the motor gear 23b are assembled so as to mesh with each other through the notch portion 21d (see FIG. 6).

In FIG. 8B, on the front surface of the rear mounting member 21, rotation restricting ribs 21 e are formed at equal intervals at six locations in the circumferential direction on the outer peripheral side of the gear housing portion 21 c. The rotation restricting rib 21e is formed by making a slit 21f in the rear mounting member 21 (see FIG. 8A), and the height of the rotation restricting rib 21e as it rotates clockwise in front view. Is formed so as to gradually increase (see FIG. 8B). Further, on the outer peripheral side of the gear housing portion 21c, arc-shaped protruding wall portions 21g (auxiliary restricting portions) are protruded at equal intervals in six locations in the circumferential direction so that the rotation restricting ribs 21e are adjacent to each other. Yes. The protruding wall portion 21g assists the rotation of the movable body 25 (large fin 25a, small fin 25b) that rotates as the sun gear 28 rotates in a predetermined direction.
Further, in FIG. 9A, on the rear surface side of the second rotating body 26b, rotation restricting ribs 26k are formed at equal positions at six locations in the circumferential direction at positions facing the rotation restricting ribs 21e of the rear mounting member 21. Has been. The rotation restricting rib 26k is formed thick so that the height of the rotation restricting rib 26k gradually increases as it rotates counterclockwise when viewed from the front (see FIG. 14A).

  The rotation restricting rib 21e of the rear mounting member 21 has an end portion 26k1 having a low height of the rotation restricting rib 26k and a low height of the rotation restricting rib 21e when the second rotating body 26b rotates in the clockwise direction. It rides from the end 21e1 and rotates while absorbing the step with the deformation of the rotation restricting rib 21e in the axial direction (see FIGS. 14B and 14C). However, when the second rotating body 26b rotates counterclockwise, the end 26k2 with the high height of the rotation restricting rib 26k abuts against the end 21e2 with the high height of the rotation restricting rib 21e and rotates. Is regulated (see FIG. 14A). That is, the rotation restricting rib 21e of the rear mounting member 21 allows rotation in one direction (clockwise in front view) of the rotating body 26 but restricts rotation in the reverse direction (counterclockwise in front view). It is provided as follows.

  Here, an example of the assembly structure of the movable effect device will be described. 5 and 6, the motor 23 is screwed to the boss 21 a and assembled to the rear surface side of the rear mounting member 21. Further, the connecting shaft 22 is fitted into the bearing portion 21 b on the front surface side of the rear mounting member 21, and the retaining ring 35 a is fitted into the circumferential groove 22 a provided on the shaft end portion protruding to the rear surface side of the rear mounting member 21. It can be assembled together by retaining it. Further, the transmission gear 27 and the sun gear 28 are integrated by screwing with a screw 27b (see FIGS. 3B and 5B), and the transmission gear 27 is accommodated in the gear accommodating portion 21c. Fit into the connecting shaft 22. At this time, the transmission gear 27 meshes with the motor gear 23a (see FIGS. 3A and 5A).

  Next, while the planetary gear 29 and the movable gears 30a and 30b meshing with the planetary gear 29 are rotatably supported between the first rotating body 26a and the second rotating body 26b, the rear surface side of the second rotating body 26b The rotary body 26 is formed by being screwed by the screw 26p (see FIGS. 4 and 6). In a state where the movable body 25 (large fin 25a, small fin 25b) is screwed to the first rotating body 26a of the rotating body 26 by screws 33 and 34 (see FIG. 7), and the substrate 31 is screwed by the screw 32. The rotating body 26 is assembled so that the connecting shaft 22 is inserted into the shaft hole 26m of the first rotating body 26a (see FIG. 4).

Finally, the D-cut front end portion of the connecting shaft 22 is fitted into the bearing portion 20d provided at the center of the design base 20a of the decorative body 20 in which the design base 20a and the frame 20b are assembled together with screws 20c. Thus, the snap ring 35b is fitted into the circumferential groove 22b provided at the shaft end protruding to the front side of the design pedestal 20a so as to be integrally assembled.
At this time, as shown in FIG. 2 (b), the movable body 25 (large fin 25 a, small fin 25 b) is assembled in a state hidden behind the decorative body 20.

  Next, an example of the rendering operation of the movable rendering device configured as described above will be described with reference to FIGS. 1, 2, and 11 to 14. Since there are a plurality of fins of the movable body 25, the operation of the specific large fin 25a and small fin 25b will be mainly described.

  In FIG. 1, the movable effect device 19 is provided, for example, in a part of the center accessory 11 provided at the upper edge of the symbol display device 8. At this time, the movable body 25 (large fin 25a, small fin 25b) is in a storage position hidden behind the decorative body 20 (see FIGS. 2B and 12A). Further, as shown in FIG. 12A, the movable gears 30a and 30b are in positions where the boss 30d abuts against one end 26h1 of the long hole 26h. A large fin 25a and a small fin 25b are screwed to the boss 30d.

  Further, in FIG. 13A, the regulating rib 30c (regulating piece) projecting on the rear surface side of the movable gear 30b is between the projecting wall portions 21g of the rear mounting member 21 and is the length of the second rotating body 26b. The end 26e1 of the hole 26e is in contact with the end 21e2 having a high height of the rotation restricting rib 21e and the end 26k2 having a high height of the restricting rib 26k is in contact (see FIG. 14 (a)). )reference).

For example, the control unit (not shown) activates the motor 23 when a reach occurs in the gaming state or the screen of the symbol display device 8 or a big hit occurs.
In FIG. 12B, when the motor 23 rotates a predetermined amount in a predetermined direction (for example, counterclockwise in the front view of FIG. 5), the sun gear 28 assembled integrally with the transmission gear 27 rotates in the clockwise direction in the front view. Rotate to. At this time, since the planetary gear 29 rotates counterclockwise when viewed from the front, the movable gears 30a and 30b respectively meshed with the planetary gear 29 rotate clockwise when viewed from the front. At this time, in the boss 30d, the movable gears 30a and 30b rotate to a position where the long hole 26h abuts against the other end 26h2. For this reason, the small fins 25b and the large fins 25a that are respectively assembled to the boss 30d move to the operating positions protruding outward from the outer periphery of the rotating body 26. At this time, the movable body 25 (large fin 25a, small fin 25b) is in a state of protruding to the outside of the decorative body 20 (see FIG. 11).

Further, in FIG. 13B, the regulating rib 30c protruding from the rear surface side of the movable gear 30b stops at a position where it hits the other end 26e2 from one end 26e1 of the long hole 26e of the second rotating body 26b. In this state, the rotation of the movable gears 30a and 30b shown in FIG. 12B is locked, so that the rotation of the planetary gear 29 meshing with these is also locked. Accordingly, when the sun gear 28 further rotates in the clockwise direction in front view, the rotating body 26 revolves by a predetermined amount around the sun gear 28 in the clockwise direction in front view through the planetary gear 29. At this time, the restriction rib 30c is in a position (a position where it hits the other end 26e2 of the long hole 26e) that has escaped to the outer peripheral side from the protruding wall portion 21g of the rear mounting member 21, and therefore interferes even if the rotating body 26 revolves. There is nothing. In FIGS. 12A and 12B, in actuality, when the movable gear 30b starts rotating, the rotating body 26 also revolves slightly in the clockwise direction (counterclockwise in front view). At this time, the end of the protruding wall 21g hits the regulating rib 30c shown in FIG. 13A, and the regulating rib 30c is urged to move from one end 26e1 to the other end 26e2 of the long hole 26e, that is, the movable gear 30b. It is designed to assist the rotation.
14B, when the rotating body 26 revolves clockwise in a front view, the position where the end 26k2 of the rotation restricting rib 26k abuts against the end 21e2 of the rotation restricting rib 21e (FIG. 14A). Therefore, the end 26k2 of the rotation restricting rib 26k is separated from the end 21e2 of the rotation restricting rib 21e.

  Next, in FIG. 12B, when the motor 23 is continuously rotated in a predetermined direction (for example, counterclockwise direction), the sun gear 28 assembled integrally with the transmission gear 27 is rotated clockwise. In FIG. 13B, since the planetary gear 29 and the movable gears 30a and 30b are in a locked state, the rotating body 26 revolves around the sun gear 28 in the clockwise direction through the planetary gear 28 in a front view. At this time, as shown in FIG. 14C, the rotating body 26 rotates in the direction of the arrow, and the end portion 26k1 having the low height of the rotation restricting rib 26k rides over the end portion 21e1 having the low height of the rotation restricting rib 21e. While repeating the sliding operation, the rotation restricting rib 21e rotates while absorbing the step with the deformation in the axial direction.

As shown in FIG. 11, the movable effect device 19 rotates in the clockwise direction in a state where the movable body 25 (large fin 25a, small fin 25b) protrudes outside the decorative body 20, that is, in a state where the display area of the design surface is enlarged. Rotate continuously in the direction. At this time, the movable body 25 can be illuminated by turning on the LED 31a (see FIG. 5) mounted on the substrate 31.
Thus, since the display area of the design surface can be enlarged and displayed when the movable body 25 is actuated regardless of the display area of the design surface of the decorative body 20, the design surface can be enlarged depending on the gaming state. A unique decoration effect can be obtained, and it can be installed in a limited game area to provide a variety of effects that the player is not exhausted. Further, by using the movable bodies 25 (large-diameter fins 25a, small fins 25b) having different sizes, they can be stored compactly on the rear surface side of the decorative body 20 at the storage position, moved to the operating position, and further rotated. By doing so, the visual effect is enhanced.

  Next, when the movable body 25 is housed, the driving of the motor 23 that is continuously operated is temporarily stopped and then rotated by a predetermined amount in the direction opposite to that at the time of activation (that is, driven clockwise in front view). Note that the rotation stop position of the motor 23 is in the same state as the expected position shown in FIG.

  At this time, in FIG. 12A, the sun gear 28 assembled integrally with the transmission gear 27 rotates in the counterclockwise direction, and the planetary gear 29 rotates in the clockwise direction. Therefore, the planetary gear 29 meshes with each other. The movable gears 30a and 30b rotate counterclockwise, and the boss 30d moves from the position where the long hole 26h is locked to the other end 26h2 (see FIG. 12B) to the position where it is locked to the one end 26h1. 30b rotate. Since the regulating rib 30c is positioned between the protruding wall portions 21g of the rear mounting member 21 shown in FIG. 13A, it does not interfere with the protruding wall portion 21g when returning to the one end 26e1 of the long hole 26e. Absent. For this reason, from the operation position (refer FIG. 11) where the small fin 25b and the large fin 25a respectively assembled | attached to the boss | hub 30d protruded outside from the outer periphery of the rotary body 26, as shown to Fig.12 (a), the rotary body 26 is shown. It moves to the storage position provided within the projected area in the axial direction. At this time, the movable body 25 (large fin 25a, small fin 25b) is in a state of being housed on the rear side of the decorative body 20 (see FIG. 2B).

  Further, in FIG. 14C, the rotating body 26 rotates in the direction opposite to the arrow in the figure, so that the rotation restricting rib 26k shown in FIG. The rotation is stopped in a state where the end 21e2 of the rib 21e and the end 26e2 of the rotation restricting rib 26k abut against each other.

  The motor 23 may stop once when the movable body moves from the storage position to the operating position, and may hold the operating position of the movable body 25 (a state where the design surface is enlarged), or may rotate without stopping the motor 23. The body 26 may be rotated as it is. Alternatively, the motor 23 may be reversely rotated from the operating position of the movable body 25 and returned to the storage position.

  Although the said embodiment demonstrated the case where the movable production | presentation apparatus 19 operate | moves with being attached to the mechanism base to which the center accessory 11 of the pachinko machine 1 shown in FIG. 1 was fixed, it is not limited to this, It may be assembled to a movable mechanism base. For example, depending on the gaming state, the movable arm 36 shown by the phantom line in FIG. 1 is in front space of the symbol display device (liquid crystal display device) 10 from above the symbol display device (liquid crystal display device) 10 due to the rack-pinion meshing. The movable effect device 19 may be provided at the tip of the movable arm 36.

  In addition, although a pachinko gaming machine has been described as an example of a gaming machine, it can also be applied to an effect device provided in other gaming machines such as an arrangement ball gaming machine, a pachislot gaming machine, and a sparrow ball gaming machine. .

1 Pachinko machine 2 Outer frame
3 Game board
4a, 4b Hinge
5 Front frame
6 windows
7 Speaker
8 ball tray
9 Launch handle
10 Symbol display device (liquid crystal display device)
11 Center character
12 Through chucker
13 Windmill
14 Electric tulips
15 Attacker
16 game board rails
17 Side lamp
19 Movable production device
20 decorative body
20a Design base
20b frame
20c, 26p, 27b, 32, 33, 34 screw
20d, 21b Bearing part
21 Rear mounting member
21a, 26i, 28a, 30d Boss
21c Gear receiving part
21d Notch
21e, 26k rotation restriction rib
21f slit
21g Projection wall
22 Connecting shaft
22a, 22b Circumferential groove
23 Motor
23a Motor shaft
23b Motor gear
24 Rotation drive mechanism
25 Movable body
25a Large fin
25b Small fin
25c, 25d screw hole
26 Rotating body
26a First rotating body (first case body)
26b Second rotating body (second case body)
26c, 26d, 26f, 26g, 26m Shaft hole
26e, 26h long hole
27 Transmission gear
27a Boss hole
28 Sun gear (main gear)
29 Planetary gear
29a, 30e Rotating shaft
30a, 30b Movable gear
30c Restriction rib
31 substrates
31a LED
35a, 35b Retaining ring
36 Movable arm

Claims (7)

  1. A movable effect device for a gaming machine attached to a mechanism base provided at a predetermined location of the gaming machine,
    A decorative body visually recognized from the front surface of the gaming machine and a rear mounting member assembled to the mechanism base and disposed rearward of the decorative body are integrally connected via a connecting shaft, and the rear mounting member and the decorative body A rotating body that is driven and transmitted from a driving source to rotate about the connecting shaft;
    The decorative body is movably assembled to the rotating body and is moved outward from the outer periphery of the decorative body and the storage position stored behind the decorative body in accordance with the rotation direction of the drive source to enlarge the design surface of the decorative body A movable body that moves between operating positions to be displayed,
    When the rotating body rotates in a predetermined direction to move the movable body from the storage position to the operating position, the movable body moves from the storage position to the operating position, and when the rotating body further rotates, the connection position is maintained while maintaining the operating position. A movable effect device for a gaming machine, characterized by rotating integrally with the rotating body around an axis.
  2. The rotating body is driven by the drive source to rotate forward and backward about the connecting shaft, and rotates around the rotating shaft parallel to the connecting shaft according to the rotating operation of the main gear. A movable gear that moves the body between a storage position and a movable position, and a case body that rotatably supports the movable gear and that rotates about the connecting shaft;
    The movable effect device for a gaming machine according to claim 1, further comprising a restricting unit that positions a storage position and an operation position of the movable body between the movable gear and the case body.
  3.   A restricting piece projecting from the movable gear is inserted into a long hole provided in the case body, and the restricting piece comes into contact with either end of the long hole by the rotation of the movable gear. The movable effect device for a gaming machine according to claim 2, wherein the movable body is positioned while movement is restricted at the storage position or the operating position.
  4.   An auxiliary restricting portion for assisting rotation of the movable body that rotates as the main gear rotates in a predetermined direction is provided on a facing surface of the decorative body or the rear mounting member that faces the movable gear. The movable effect device for gaming machines according to 2 or 3.
  5.   When the main gear rotates in a predetermined direction, the movable gear rotates while the restricting piece of the movable gear and the auxiliary restricting portion interfere with each other to move the movable body from the storage position to the operating position. In a state where the restricting piece abuts one end of the elongated hole of the case body and the rotation of the movable gear is restricted and the movable body is positioned at the operating position, and the rotation of the movable gear is restricted. The interference between the restricting piece and the auxiliary restricting portion is avoided, and through the case body that pivotally supports the movable gear while the movable body maintains the operating position by further rotating the main gear in a predetermined direction. The movable effect device for a gaming machine according to claim 4, wherein the periphery of the main gear revolves.
  6.   On each facing surface of the case body arranged to face the decorative body or the rear mounting member, rotation regulating ribs that allow the rotation of the rotating body in a predetermined direction but restrict the rotation in the reverse direction are formed mutually. The movable effect device for a gaming machine according to any one of claims 1 to 5.
  7.   A gaming machine comprising the movable effect device for a gaming machine according to any one of claims 1 to 6.
JP2009168419A 2009-07-17 2009-07-17 Movable rendering device for gaming machine and gaming machine equipped with the same Active JP5330133B2 (en)

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Application Number Priority Date Filing Date Title
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JP5330133B2 true JP5330133B2 (en) 2013-10-30

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JP2015012968A (en) * 2013-07-04 2015-01-22 株式会社大一商会 Game machine
JP6327529B2 (en) * 2015-07-24 2018-05-23 豊丸産業株式会社 Production equipment
JP6090942B2 (en) * 2015-08-06 2017-03-08 株式会社サンセイアールアンドディ Game machine
JP6019447B2 (en) * 2015-08-06 2016-11-02 株式会社サンセイアールアンドディ Game machine
JP6019450B2 (en) * 2015-08-06 2016-11-02 株式会社サンセイアールアンドディ Game machine
JP6045088B2 (en) * 2015-08-06 2016-12-14 株式会社サンセイアールアンドディ Game machine
JP6019448B2 (en) * 2015-08-06 2016-11-02 株式会社サンセイアールアンドディ Game machine
JP6019449B2 (en) * 2015-08-06 2016-11-02 株式会社サンセイアールアンドディ Game machine
JP2016073849A (en) * 2016-01-18 2016-05-12 株式会社大一商会 Game machine

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JP2007075329A (en) * 2005-09-14 2007-03-29 Olympia:Kk Movable generator of game machine
JP4703432B2 (en) * 2006-02-24 2011-06-15 株式会社オリンピア Movable device for gaming machine
JP2008132261A (en) * 2006-11-29 2008-06-12 Heiwa Corp Pinball game machine
JP4912248B2 (en) * 2007-07-27 2012-04-11 タイヨーエレック株式会社 Game machine

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