JP6249378B2 - Game machine - Google Patents

Description

  The present invention relates to a gaming machine including a movable member that is moved by the power of a drive source.

  As such a gaming machine, one described in Patent Document 1 below is known. The gaming machine described in Patent Document 1 is capable of operating a plurality of movable members stepwise by one drive source.

JP 2009-113758 A

  However, the gaming machine described in Patent Document 1 has a large number of gears and racks (power transmission members) that transmit the power of the drive source to each movable member, and the drive mechanism becomes large. In other words, there is a problem that the drive mechanism of the movable member becomes large when trying to make the movable member move with an interesting movement that attracts the interest of the player.

  An object of this invention is to provide the game machine provided with the movable member which moves the movement which attracts a player's interest by a compact drive mechanism.

A gaming machine according to the invention of claim 1, which has been made to solve the above-described problems, is a gaming machine including a rendering device that performs a predetermined rendering, wherein the rendering device is fixed to a base member and the base member. A driving source, a first movable member supported to be displaceable with respect to the base member, a second movable member supported to be displaceable with respect to the first movable member, and the first movable member A member supported in a displaceable manner, wherein at least part of a power transmission mechanism between the drive source and the first movable member, and a power transmission mechanism between the drive source and the second movable member. The power transmission member that constitutes at least a part of the power transmission member and the first position and the second position are movable, and the power transmission target of the drive source is switched to either the first movable member or the power transmission member. A switching member, and a front When the switching member is located at the first position, the switching member prevents displacement of the power transmission member with respect to the first movable member, so that the power of the drive source is transmitted through the power transmission member. The power transmission member and the first movable member are displaced relative to the base member while the second movable member is not displaced relative to the first movable member, while being transmitted to the first movable member, while the switching member Is positioned at the second position, the displacement of the power transmission member is allowed with respect to the first movable member, so that the power of the drive source is transmitted to the second movable member via the power transmission member. The power transmission member and the second movable member are displaced with respect to the first movable member in a state where the first movable member is not displaced with respect to the base member, Previous When the first movable member displaces the relative position with respect to the base member from the original position to the terminal position, an output switching unit that moves the switching member located at the first position to the second position is provided. The first movable member is rotatable with respect to the base member, and the base member includes a first guide portion that constitutes the output switching portion and that extends in a rotation direction of the first movable member, and the first When a second guide portion is formed that extends in a direction intersecting with the rotation direction of the first movable member and is connected to the one guide portion, and the first movable member is rotated with respect to the base member from a position in the original position, When the switching member slides relatively in the first guiding portion while being in the first position, and the first movable member reaches the terminal position, the switching member located in the first guiding portion is Second invitation The switching member is configured to move from the first position to the second position by entering the guide portion, and the power transmission member is a member that is rotatably supported on one side surface of the first movable member. The power transmission member includes a permissible portion that is a long hole extending in the rotation direction, and a restriction portion that is a long hole that extends in a direction that intersects the permissible portion and intersects the rotation direction. wherein when located in the first position, by which the switching member is located within the restricting portion, the rotation of the power transmitting member with respect to the first movable member is prevented, the power of the driving source is the power transmission member while the state is transmitted to the first movable member through, when the switching member is positioned at the second position, by which the switching member is located relatively slidable position within the allowable unit , The rotation of the power transmission member relative to the first movable member is allowed, and the power of the drive source is configured to be transmitted to the second movable member via the power transmission member, and the base The rotation axis of the first movable member with respect to the member and the rotation axis of the power transmission member with respect to the first movable member coincide with each other, the distance from the rotation axis to the first guide portion, It is characterized by being different from the distance to the permissible portion .

In the first aspect of the invention, when the switching member is located at the first position, the power of the driving source is output to the first movable member, while when the switching member is located at the second position, the power of the driving source is output. Is output to the second movable member. That is, the power output target of the drive source differs depending on the position of the switching member. In this way, it is possible to provide a compact and interesting presentation device in which a plurality of members are displaced by a single drive source.
Further, by forming a first permissible portion extending in the rotational direction and a first restricting portion extending in a direction crossing the rotational direction on the power transmission member, the first movable portion is located when the switching member is located in the first restricting portion. When the rotation of the power transmission member with respect to the member is prevented and the switching member is located within the first permissible portion, the rotation of the power transmission member with respect to the first movable member can be permitted. That is, it is possible to adopt a configuration in which the power output of the drive source can be switched depending on whether or not the rotation of the power transmission member relative to the first movable member is allowed depending on the position of the switching member.
Further, by making the distance from the rotation shaft to the first guide portion different from the distance from the rotation shaft to the first permissible portion, the first movable member displaces the relative position with respect to the base member from the original position to the end position. In this case, it is possible to easily construct a configuration in which the switching member is moved from the first position to the second position by the guide portion.

It is a front view of the gaming machine according to the present embodiment. It is the figure which showed the center base and the production | presentation apparatus attached to it. FIG. It is a front view of an effect device when a base member is located in an original position. It is a front view of a production | presentation apparatus when a base member is located in an advance position, Comprising: The state which the 1st movable member and the 2nd movable member are located in an original position is shown. It is a front view of a production | presentation apparatus when a base member is located in an advance position, Comprising: The 1st movable member is located in a terminal position, and the state which the 2nd movable member is located in an original position is shown. It is a front view of the rendering device when the base member is located at the advanced position, and shows a state where the first movable member and the second movable member are located at the terminal position. They are a front view (a) when a 1st movable member and a 2nd movable member are located in an original position, and an AA sectional view (b). In addition, the enlarged view of (b) is an enlarged view of the said location in the state which removed the switching member. They are a front view (a) when a 1st movable member is located between an original position and a terminal position, and a BB sectional view (b). They are a front view (a) when a 1st movable member is located in a termination position, and a 2nd movable member is located in an original position, and CC sectional view (b). They are a front view (a) when a 1st movable member and a 2nd movable member are located in a termination position, and DD line sectional drawing (b). It is sectional drawing (schematic diagram) for demonstrating the relationship between each slot and groove | channel where a switching member and a switching member enter. It is the figure which showed the positional relationship of the rotation direction position of a 1st movable member and a power transmission member, and a switching member along operation | movement of an effect production apparatus, Comprising: (a) is the state which the 1st movable member was located in the original position, ( b) shows the state immediately before the first movable member reaches the end position, (c) shows the state where the first movable member is located at the end position, and (d) shows the state where the second movable member is located at the end position. Is. It is the figure which showed the positional relationship of a base member and a switching member along operation | movement of a production | presentation apparatus, Comprising: (a) is the state in which the 1st movable member was located in the original position, (b) is the 1st movable member in termination | terminus position (C) shows a state where the first movable member is located at the end position (regardless of the position of the second movable member). It is the figure which showed the power transmission path (gear train) from the 2nd gear part of a power transmission member to the 2nd movable member.

  Hereinafter, embodiments according to the present invention will be described in detail with reference to the drawings. In the following description, the plane direction is a direction along (parallel to) the plane direction of the game board 90, and the front-rear direction is a direction orthogonal to the plane direction of the game board 90 (the player side is front and the opposite side is the front side). In the following description, the vertical direction refers to the vertical direction in FIG. 1, and the width direction (horizontal direction) refers to the horizontal direction in FIG.

  First, the overall configuration of the gaming machine 1 will be briefly described with reference to FIG. In FIG. 1, components of the gaming machine 1 that are not related to the present invention, such as a frame body of the gaming machine 1, a launching device that launches a game ball, a lower plate and an upper plate that store the game ball, are omitted. . About these, the thing of the structure similar to a well-known game machine is applicable.

  The gaming machine 1 includes a game board 90. The game board 90 is formed of a substantially square plywood, and is a strip-like plate made of a thin metal plate that guides a game ball (corresponding to a game medium in the present invention) launched by the operation of the launcher to the game area 902. The guide rail 903 is provided so as to have a substantially arc shape.

  In the game area 902, a display device 91, a first start winning opening 904, a second starting winning opening 905, a big winning opening 906, an out opening 907, and the like are provided. As the display device 91, for example, a liquid crystal display device is used, and a special symbol, a normal symbol, or the like is displayed on the display screen (display unit) of the display device 91. The display screen of the display device 91 is visible through an opening 901 formed in the game board 90.

  In addition, the game area 902 is provided with a plurality of game nails as obstacles that change the flow-down mode of the game balls when the flow-down game balls collide. The game ball flowing down the game area 902 changes into various modes depending on the condition when it collides with the game nail.

  In such a gaming machine 1, a game ball is launched toward the game area 902 by operating the launching device. When a game ball flowing down the game area 902 wins a winning port such as the start winning ports 904 and 905 or the big winning port 906, a predetermined number of award balls are paid out by the payout device. In addition, the jackpot lottery method, effects, and the like can be applied to those similar to known game machines, and thus description thereof is omitted.

  The gaming machine 1 according to the present embodiment includes an effect device 1m having a movable member that advances to the front of the display screen of the display device 91 and is visible through the opening 901 of the game board 90 when a predetermined effect is executed. As shown in FIG. 2, the rendering device 1 m is attached to a center base 25 provided behind the game board 90. Hereinafter, the configuration of the rendering device 1m will be described in detail with reference to FIGS.

  The rendering device 1m in the present embodiment includes a base member 10, a drive source 20, a first movable member 30, a second movable member 40, a power transmission member 50, and a switching member 60. The base member 10 is attached to the upper side of the center base 25. The base member 10 is a substantially rectangular member, and is positioned so that the longitudinal direction is along the vertical direction at the original position (see FIG. 4), and is positioned so that the longitudinal direction is along the width direction at the advanced position (FIG. 5). reference). When the base member 10 is in the original position, the first movable member 30 and the second movable member 40 attached to the base member 10 are covered above the opening 901 of the game board 90. When the base member 10 is located at the advanced position, the first movable member 30 and the second movable member 40 are visible through the opening 901 of the game board 90. In this embodiment, the base drive motor 11 can reciprocate the base member 10 between the original position and the advanced position. Specifically, when the base drive motor 11 is rotated forward, the base member 10 located at the original position rotates clockwise and reaches the advanced position. When the base drive motor 11 is reversely rotated, the base member 10 located at the advanced position rotates counterclockwise and reaches the original position. Since the drive mechanism for transmitting the power of the base drive motor 11 to the base member 10 may have any configuration, description thereof is omitted. Note that the following description of each configuration is based on the state in which the base member 10 is located at the advanced position, unless otherwise specified.

  On the lower surface of the base member 10, a groove (which may be a long hole penetrating the base member 10) formed by a wall portion protruding downward is formed. The groove is a first guide portion 13 that extends in the rotation direction of the first movable member 30, which will be described in detail later, and a second portion that extends in a direction that intersects with the rotation direction of the first movable member 30 and continues to the first guide portion 13. The guidance part 14 is included (refer FIGS. 8-11, FIG. 14, etc.). The second guiding portion 14 is a groove extending from the first guiding portion 13 side to the end portion so as to go radially outward. In the present embodiment, the angle formed by the first guiding portion 13 and the second guiding portion 14 is set to be over 90 degrees.

  On the upper side of the base member 10, a drive source 20 (a motor in this embodiment) of the first movable member 30 and the second movable member 40 that operate as will be described later is fixed. The power of the drive source 20 is directly or indirectly transmitted to a drive gear (not shown) that forms part of a power transmission mechanism that transmits the power of the drive source 20 to the first movable member 30 and the second movable member 40. Transmitted (via another gear). The drive gear is located on the lower side of the base member 10.

  The first movable member 30 is a member that exhibits a production effect, and is a member that is attached to the base member 10 so as to be displaceable. The size of the cross section obtained by cutting the first movable member 30 along a plane orthogonal to the vertical direction is substantially the same as the size of the base member 10 in the plane direction. That is, the shape of the cross section is a substantially rectangular shape. The first movable member 30 is formed with a shaft-like portion 31 that protrudes upward. The base member 10 is formed with a cylindrical portion 12 that protrudes upward. The shaft portion 31 of the first movable member 30 is inserted inside the tubular portion 12 of the base member 10. The first movable member 30 is rotatable with respect to the base member 10 about the central axis of the shaft-like portion 31 inserted inside the tubular portion 12 as a rotation center. The first movable member 30 has a position in the rotational direction that is the same as that of the base member 10 with respect to the base member 10 (the first movable member 30 is covered by the base member 10 when viewed from above). It is free to rotate. At the upper end of the shaft-shaped portion 31, a flange-shaped portion 32 that is larger than the inner diameter of the tubular portion 12 is attached. The tubular portion 12 prevents the first movable member 30 from dropping from the base member 10 (the shaft-like portion 31 is removed from the tubular portion 12).

  An elongated hole (groove) extending in a direction intersecting the rotation direction is formed on the upper surface of the first movable member 30 (a wall portion between a first gear portion 51 and a second gear portion 52 described later). This embodiment is a long hole extending in the radial direction. The elongated hole includes a radially inner rotation preventing portion 35 (corresponding to a second restricting portion in the present invention) and a radially outer rotatable portion 36 (corresponding to a second permissible portion in the present invention) (FIG. 8 to 11 and 13). Details of both parts will be described later.

  A first decorative surface 33 is formed on the front surface of the first movable member 30 located at the original position. On the opposite surface of the first movable member 30 (the front surface of the second movable member 40 located at the second effect position), the other-side decorative surface 34 is formed. Any aspect of the decorative surfaces may be used. In this embodiment, the decoration (unevenness | corrugation) of a predetermined | prescribed aspect is given to the transparent board, and it has become the aspect illuminated with the light radiate | emitted from the light source provided in the back. When the base member 10 is in the original position, the one-side decorative surface 33 or the other-side decorative surface 34 is covered with the game board 90, but when the base member 10 is in the advanced position, the one-side decorative surface 33 or the other side decorative surface 34 is visible through the opening 901 of the game board 90.

  The second movable member 40 is a member that exerts a rendering effect together with the first movable member 30, and is a member attached to the first movable member 30 so as to be displaceable. In the present embodiment, two second movable members 40 (a left second movable member and a right second movable member) are provided. The left second movable member is rotatably supported on the left edge of the other decorative surface 34 of the first movable member 30, and the right second movable member is rotatable on the right edge of the other decorative surface 34 of the first movable member 30. It is supported by. When both the second movable members are in their original positions, the left second movable member covers the substantially left half of the other side decorative surface 34, and the right second movable member covers the substantially right half of the other side decorative surface 34. When both the second movable members 40 located in the original position rotate in directions away from each other and reach the end position, the other-side decorative surface 34 is exposed. In addition, since both the 2nd movable members 40 are comprised by the transparent board, when the light source provided in the 1st movable member 30 is driven when both the 2nd movable members 40 are located in an original position, from the light source The second movable member 40 is also illuminated by the emitted light. Therefore, both the second movable members 40 are also provided with a predetermined form of decoration (unevenness).

  A support shaft 41 is fixed to the left side edge of the left second movable member and the right side edge of the right second movable member. The support shaft 41 is rotatably passed through through holes formed on both sides in the width direction of the first movable member 30. An output gear 42 constituting a power transmission mechanism from the drive source 20 to the second movable member 40 is fixed to the upper ends of the both support shafts 41. As the output gear 42 rotates, both the second movable members 40 rotate with respect to the first movable member 30.

  The power transmission member 50 is a member that constitutes a part of the power transmission mechanism, and is supported to be displaceable with respect to the first movable member 30. Specifically, a through hole is formed in the center of the power transmission member 50, and the shaft-like portion 31 of the first movable member 30 is passed through the through hole. That is, the power transmission member 50 is rotatably supported with respect to the first movable member 30 with the center of the through hole (the shaft-shaped portion 31 of the first movable member 30) as the rotation center axis. The power transmission member 50 includes two gear portions that are aligned in the vertical direction and rotate integrally (also referred to as a so-called compound gear). A driving gear that is rotated by the driving source 20 is engaged with the upper first gear portion 51. An input gear 43 constituting a power transmission mechanism from the drive source 20 to the second movable member 40 is engaged with the lower second gear portion 52 (see FIG. 15). The rotation of the input gear 43 is transmitted to the two output gears 42 directly or indirectly (via another gear 44 as in the configuration shown in FIG. 15). That is, when the input gear 43 rotates, the output gear 42 rotates. The power transmission mechanism from the second gear portion 52 and the drive source 20 to the second movable member 40 is supported by the first movable member 30.

  Further, a long hole penetrating in the vertical direction is formed inside the outer periphery of the portion where the first gear portion 51 of the power transmission member 50 is formed. The elongated hole extends in the rotation direction of the power transmission member 50 (corresponding to a first permission portion in the present invention), and extends in the direction that intersects the rotation direction (this embodiment). Then, a rotation restricting portion 54 (corresponding to the first restricting portion in the present invention) extending in the radial direction of the power transmission member 50 is included (see FIGS. 8 to 11, FIG. 13 and the like).

  The positional relationship between the rotation allowing portion 53 and the rotation restricting portion 54, the first guiding portion 13 and the second guiding portion 14 of the base member 10, and the rotation blocking portion 35 and the rotatable portion 36 of the first movable member 30. (The positional relationship when the position of the first movable member 30 with respect to the base member 10 is the original position and the position of the second movable member 40 with respect to the first movable member 30 is the original position) is as follows.

  The rotation restricting portion 54 and the portion where the rotation restricting portion 54 and the rotation allowing portion 53 intersect (the end portion on the rotation restricting portion 54 side of the rotation allowing portion 53) are the rotation preventing portion 35 and the rotatable portion of the first movable member 30 in the vertical direction. It overlaps with 36. Specifically, the rotation restricting portion 54 and the rotation preventing portion 35 overlap, and a portion where the rotation restricting portion 54 and the rotation allowing portion 53 intersect with each other overlaps the rotatable portion 36 (see FIG. 8 and the like). That is, the radial position of the rotation allowing portion 53 (referring to the distance from the rotation center axis of the first movable member 30; hereinafter the same) coincides with the rotatable portion 36. On the other hand, the radial positions of the rotation restricting portion 54 and the rotation blocking portion 35 coincide with the radial position of the first guiding portion 13. Further, the radial positions of the rotation allowing portion 53 and the rotatable portion 36 coincide with the radial position of the tip of the second guide portion 14. Therefore, the radial position of the rotation allowing portion 53 is outside the radial position of the first guiding portion 13.

  The switching member 60 is a member (pin) for switching the output of the drive source 20, and as shown in FIG. 12 and the like, the upper shaft portion 61, the lower shaft portion 62, and the upper shaft portion 61 and the lower side. It has a partition part 63 that partitions the shaft part 62. The upper shaft portion 61 is a portion that enters into the first guide portion 13 or the second guide portion 14 formed in the base member 10. The lower shaft portion 62 is a portion that enters the rotation restricting portion 54 or the rotation allowance portion 53 formed in the power transmission member 50 and the rotation preventing portion 35 or the rotatable portion 36 formed in the base member 10. is there. The partition part 63 is a bowl-shaped part provided at the boundary between the upper shaft part 61 and the lower shaft part 62, and is on the periphery of the rotation restricting part 54 or the rotation permission part 53 formed in the power transmission member 50. This is a portion for preventing the switching member 60 from moving downward in the direction of gravity.

  The switching member 60 is movable with respect to the first movable member 30 (the rotation blocking portion 35 or the rotatable portion 36). Specifically, it can move between a first position that is relatively radially inward and a second position that is radially outward.

  Although the operation (action) of the rendering device 1m having the above configuration partially overlaps with the above description, it will be described in detail below. Note that the following operations are controlled by a control means (a board for controlling effects and the like) of the gaming machine 1 (not shown).

  When the stage using the stage device 1m is performed, the base drive motor 11 is rotated forward. As a result, the base member 10 moves from the original position to the advanced position (displaces from the state shown in FIG. 4 to the state shown in FIG. 5). As the base member 10 moves, the first movable member 30, the second movable member 40, the power transmission member 50, and the switching member 60 supported by the base member 10 also move.

  When the base member 10 moves to the advanced position, the first movable member 30 whose original position is relative to the base member 10 is in a state where the one-side decorative surface 33 is directed forward (see FIG. 5). . When performing an effect using the one-side decorative surface 33 (hereinafter also referred to as a first effect), a light source provided behind the one-side decorative surface 33 is driven to illuminate the one-side decorative surface 33.

  When the drive source 20 is driven (normally rotated) with the base member 10 positioned at the advanced position, the power is output to the first movable member 30 as follows. When the position of the first movable member 30 with respect to the base member 10 is the original position, the switching member 60 is located at the first position, the upper shaft portion 61 is the first guide portion 13, and the lower shaft portion 62 is the rotation restricting portion. 54 and the rotation prevention unit 35 (see FIGS. 8, 13A, 14A, etc.). If it does so, the motive power of the drive source 20 will be transmitted to the power transmission member 50 which has the 1st gear part 51 which meshes with it via the drive gear 21. Thereby, the power transmission member 50 supported rotatably with respect to the first movable member 30 tends to rotate in one direction. However, since the lower shaft portion 62 of the switching member 60 enters the rotation restricting portion 54 of the power transmission member 50 and the rotation blocking portion 35 of the first movable member 30, the power transmission member 50 for the first movable member 30 is present. Is prevented by the switching member 60. That is, the switching member 60 located in the first position and entering the rotation restricting portion 54 extending in the direction intersecting the rotation direction cannot change the rotation direction position with respect to the power transmission member 50. The relative rotation of the power transmission member 50 with respect to the one movable member 30 is prevented.

  Thus, the relative rotation of the power transmission member 50 with respect to the first movable member 30 is in a state in which the first movable member 30 and the power transmission member 50 are integrated in the rotational direction. That is. Accordingly, when the power of the drive source 20 is transmitted to the power transmission member 50, the first movable member 30 supporting the power transmission member 50 and the power transmission member 50 also rotate (FIGS. 9, 13B, 14B). ) Etc.). In this way, the first movable member 30 rotates relative to the base member 10 and reaches the end position (see FIGS. 10, 13C, 14C, etc.). The first movable member 30 that has reached the end position is in a state in which the other-side decorative surface 34 is directed forward. Moreover, since the relative position of the second movable member 40 with respect to the first movable member 30 is the original position, the other-side decorative surface 34 is covered with the second movable member 40. When performing an effect using the other side decorative surface 34 that is covered by the second movable member 40 (hereinafter also referred to as a second effect), a light source provided behind the other side decorative surface 34 To illuminate the other decorative surface 34 and the second movable member 40.

  When the first movable member 30 rotates with respect to the base member 10, the upper shaft portion 61 of the switching member 60 moves toward the second guide portion 14 in the first guide portion 13 provided along the rotation direction. Slide. Then, immediately before the first movable member 30 reaches the end position, the upper shaft portion 61 of the switching member 60 enters the second guiding portion 14 (FIG. 14B), and the second guiding portion 14 reduces the diameter. It is guided outward in the direction (FIG. 14C). In the present embodiment, since the angle formed by the first guiding portion 13 and the second guiding portion 14 is set to be more than 90 degrees, the upper shaft portion 61 of the switching member 60 enters the second guiding portion 14 smoothly. When the first movable member 30 reaches the end position, the upper shaft portion 61 of the switching member 60 reaches the tip of the second guide portion 14. In this way, the switching member 60 moves from the first position to the second position.

  When the drive source 20 is further driven (forward rotation) in a state where the first movable member 30 has reached the end position, the power is output to the second movable member 40 as follows. When the switching member 60 is located at the second position, the lower shaft portion 62 enters the rotation permission portion 53 (the portion where the rotation restriction portion 54 and the rotation permission portion 53 intersect) and the rotation prevention portion 35 (FIG. 10). FIG. 13 (c), FIG. 14 (c), etc.). That is, since the lower shaft portion 62 of the switching member 60 is in a state where it enters the rotation allowance portion 53 formed along the rotation direction, the power transmission member 50 is allowed to rotate by the length of the rotation allowance portion 53. Is done. Therefore, the power transmission member 50 rotates relative to the first movable member 30 by the power of the drive source 20. At this time, since the lower shaft portion 62 of the switching member 60 is located in the rotation allowing portion 53, the switching member 60 is prevented from entering the first guide portion 13, and the first movable member 30 is moved to the base member 10. In contrast, it is not displaced. In other words, when the first movable member 30 reaches the end position, the power of the drive source 20 is not transmitted to the second movable member 40.

  When the power transmission member 50 rotates relative to the first movable member 30, each gear constituting the power transmission mechanism from the input gear 43 to the output gear 42 that meshes with the second gear portion 52 of the power transmission member 50 (FIG. 15) rotates. The gears from the input gear 43 to the output gear 42 are supported so as to be rotatable with respect to the first movable member 30. When the output gear 42 rotates, the support shaft 41 with the output gear 42 fixed to one end rotates. That is, the second movable member 40 (the left second movable member and the right second movable member) rotates with respect to the first movable member 30 and reaches the end position (see FIGS. 11 and 13D). When the second movable member 40 reaches the end position, the other-side decorative surface 34 of the first movable member 30 covered with the second movable member 40 is exposed. When performing an effect using the other side decorative surface 34 that is not covered (exposed) by the second movable member 40 (hereinafter also referred to as a third effect), the rear side of the other side decorative surface 34 The provided light source is driven to illuminate the other decorative surface 34.

  Thus, when the rendering device 1m in the present embodiment drives the drive source 20, first, the power is transmitted to the first movable member 30 via the power transmission member 50, and the first movable member 30 is the base member 10. Rotates relative to When the first movable member 30 reaches the end position, the switching member 60 moves from the first position to the second position, whereby the power of the drive source 20 is transmitted to the second movable member 40 via the power transmission member 50. The second movable member 40 rotates relative to the first movable member 30, and the second movable member 40 reaches the end position. If the drive source 20 is driven in the reverse direction (reverse rotation) with the second movable member 40 reaching the end position, the second movable member 40 located at the end position returns to the original position, and then the end position is reached. The first movable member 30 located at the position returns to the original position.

  In the gaming machine 1 according to the present embodiment described above, when the switching member 60 is located at the first position, the power of the drive source 20 is output to the first movable member 30, while the switching member 60 is located at the second position. When positioned, the power of the drive source 20 is output to the second movable member 40. Specifically, when the switching member 60 is located at the first position, the first movable member 30 rotates relative to the base member 10 while the relative position of the second movable member 40 with respect to the first movable member 30 remains at the original position. When the first movable member 30 reaches the end position, the switching member 60 moves to the second position, and the relative position of the first movable member 30 with respect to the base member 10 remains at the end position. The two movable members 40 rotate. In this way, a plurality of members are displaced by one drive source 20 (a plurality of effects such as a first effect, a second effect, and a third effect can be performed), and the effect device 1m is compact and interesting. It is possible.

  Although the embodiments of the present invention have been described in detail above, the present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the gist of the present invention.

  The rendering device 1m according to the embodiment described above is such that the first movable member 30 rotates relative to the base member 10 and the second movable member 40 rotates relative to the first movable member 30. However, the movement is not limited to “rotation”. That is, if the first movable member 30 is displaced with respect to the base member 10 and the second movable member 40 is displaced with respect to the first movable member 30, the first movable member is moved from the original position to the terminal position. The technical idea of the present invention that the switching member 60 is moved by the displacement of the member 30 and the output target (movable member) of the drive source 20 is switched by the movement of the switching member 60 is applicable.

1 gaming machine 1m stage device 10 base member 13 first guide part 14 second guide part 20 drive source 30 first movable member 33 one side decorative face 34 other side decorative face 35 rotation prevention part (second restricting part)
36 Rotating part (second permissible part)
40 Second movable member 50 Power transmission member 53 Rotation permission part (first permission part)
54 Rotation restriction part (first restriction part)
60 Switching member 61 Upper shaft portion 62 Lower shaft portion

Claims (1)

In a gaming machine equipped with a production device that performs a predetermined production,
The stage device is
A base member;
A drive source fixed to the base member;
A first movable member supported to be displaceable with respect to the base member;
A second movable member supported to be displaceable with respect to the first movable member;
A member supported to be displaceable with respect to the first movable member, at least a part of a power transmission mechanism between the drive source and the first movable member, and the drive source and the second movable member A power transmission member constituting at least a part of the power transmission mechanism between
A switching member that is movable between a first position and a second position and that switches a power transmission target of the drive source to either the first movable member or the power transmission member;
With
When the switching member is located at the first position, the switching member prevents displacement of the power transmission member with respect to the first movable member, so that the power of the drive source is transmitted via the power transmission member. While the power transmission member and the first movable member are displaced with respect to the base member in a state where the power is transmitted to the first movable member and the second movable member is not displaced with respect to the first movable member,
When the switching member is located at the second position, displacement of the power transmission member is allowed with respect to the first movable member, so that the power of the drive source is transmitted to the second movable member via the power transmission member. The power transmission member and the second movable member are displaced relative to the first movable member in a state where the first movable member is not displaced relative to the base member.
The base member includes an output switch that moves the switching member located at the first position to the second position when the first movable member displaces the relative position with respect to the base member from the original position to the terminal position. Part is provided,
The first movable member is rotatable relative to the base member;
The base member includes a first guide portion that constitutes the output switching portion and that extends in a rotation direction of the first movable member, and a direction that is connected to the first guide portion and intersects the rotation direction of the first movable member. An extended second guiding portion is formed,
When the first movable member is rotated with respect to the base member from a state where the first movable member is located at the original position, the switching member is relatively slid within the first guiding portion while being located at the first position,
When the first movable member reaches the end position, the switching member that has been located in the first guiding portion enters the second guiding portion, and the switching member moves from the first position to the second position. Configured to
The power transmission member is a member that is rotatably supported on one side surface of the first movable member. The power transmission member includes a permissive portion that is a long hole extending in the rotation direction, and the permissible portion . A restricting portion that is a long hole extending in a direction crossing the rotation direction is formed,
When the switching member is positioned at the first position, by which the switching member is located within the restricting portion, the rotation of the power transmitting member with respect to the first movable member is prevented, the power of the driving source is the While being in a state of being transmitted to the first movable member via a power transmission member,
When the switching member is positioned at the second position, by which the switching member is located relatively slidable position in the permitting portion, rotation of the power transmitting member with respect to the first movable member is permitted The power of the drive source is configured to be transmitted to the second movable member via the power transmission member,
The rotational axis of the first movable member relative to the base member is coincident with the rotational axis of the power transmission member relative to the first movable member,
A gaming machine, wherein a distance from the rotary shaft to the first guide portion is different from a distance from the rotary shaft to the permissible portion .

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