JP2016174622A - Game machine - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enhance interest of a game (performance) by making operation modes of a plurality of movable members interesting in a game machine provided with the plurality of movable members.SOLUTION: A game machine 1 is provided with a first movable member 20L and a second movable member 20R one end sides of which are freely rotatably supported with respect to a certain member (for example, a performance member 10). By power of a driving source 50 being transmitted to the other end sides of the first movable member 20L and the second movable member 20R, both the first movable member 20L and the second movable member 20R rotate with the one end side supported by the certain member as a fulcrum and are displaced in the direction in which the other end sides of the first movable member 20R and second movable member 20L approximate to each other or move away from each other.SELECTED DRAWING: Figure 6

Description

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

  Many game machines are equipped with a movable member (so-called accessory) for enhancing the production effect. For example, as described in the following Patent Document 1 and the like, various gaming machines are known in which a plurality of movable members are driven by a single drive source to enhance the effect. In this way, not only the plurality of movable members can be operated without increasing the drive source, but also the operation mode of the plurality of movable members is interesting (unprecedented). It is required to improve the taste of

JP 2011-255235 A

  An object of the present invention is to improve the game (drafting) preference by making the operation modes of the plurality of movable members interesting in a gaming machine including a plurality of movable members.

  A gaming machine according to the present invention includes a first movable member and a second movable member that are rotatably supported at one end side with respect to a certain member, and the power of a drive source is the first movable member and the second movable member. When the first movable member and the second movable member are both transmitted to the other end side, the first movable member and the second movable member rotate with the one end side supported by the certain member as a fulcrum. The other end side of the member is displaced in a direction toward or away from each other.

  In the gaming machine according to the present invention, when the power of the drive source is transmitted to the two movable members (the first movable member and the second movable member), only one end side (the other end side) of both approaches each other. Displace in the direction or away. That is, it is possible to realize the interesting movement of the movable member that is displaced in different directions only on one end side by the power of the drive source.

  By providing an effect member on which one end side of the first movable member and the second movable member is supported, and the other end side of the first movable member and the second movable member is displaced in a direction toward or away from each other, The size of the region where each movable member and the effect member overlap may be changed.

  The one end side of two movable members can be set as the structure supported by the production member which expresses a production effect with a movable member. If it does in this way, it can be set as the interesting aspect (operation | movement) aspect from which the magnitude | size of the area | region where each movable member and the said presentation member overlap changes.

  The power of the drive source is transmitted to the effect member and the effect member is displaced, and the other of the first movable member and the second movable member is transmitted to the first movable member and the second movable member. It is preferable to switch between a state in which the end sides are displaced toward or away from each other.

  In this way, if the structure in which the power of the drive source is output is switched so as to be an effect member or a movable member, a drive source for driving the effect member and a drive source for driving the movable member are provided separately. There is no need.

  A slide member that slides linearly by the power of the drive source may be provided, and both the first movable member and the second movable member may be displaced as the slide member slides.

  By using such a slide member, it is possible to construct a simple structure in which both movable members are displaced at once.

  The slide member engages with the first relay member, and engages with an engagement portion provided at an end portion on the first movable member side and a gear portion formed on the second relay member. And a rack portion provided in the rack.

  If the slide member has an engaging portion for transmitting power to the first movable member and a rack portion for transmitting power to the second movable member, the slide member can be increased in size or both movable. It is possible to suppress the power transmission mechanism to the member from becoming complicated.

  According to the present invention, the operation modes of the plurality of movable members become interesting, and it is possible to improve the preference of the game (production).

1 is a front view of a gaming machine according to an embodiment of the present invention, and shows a state in which an effect device is located in its original position (a known member such as a launching device (launching handle) is omitted). It is the front view (front view of the state which removed the game board) of the center base and the production | presentation apparatus fixed to it, Comprising: The figure which showed the production member located in the original position, and a movable member in a 1st state is there. It is the front view (front view of the state which removed the game board) of the center base and the production | presentation apparatus fixed to it, Comprising: The figure which showed what a production member is located in a production | presentation position, and a movable member is in a 2nd state is there. FIG. It is the front view of a production | presentation apparatus, Comprising: It is the figure which showed what has a movable member in a 1st state. It is the front view of a production | presentation apparatus, Comprising: FIG. It is an external view of the rendering device with the rendering member removed, and is a diagram for explaining a power transmission mechanism from the drive source to the rendering member and the movable member. FIG. 11 is a rear view of the effect device, showing a movable member in a first state. FIG. 11 is a rear view of the effect device, showing a movable member in a second state. It is a schematic diagram for demonstrating the positional relationship of the light source in the front-back direction, an effect member, and a 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) the game area 902, and the front-rear direction is a direction orthogonal to the game area 902 (the player side is the front and the opposite side is the rear). The left-right direction (width direction) refers to the left-right direction in FIG. 1, and the up-down direction refers to the up-down direction in FIG.

  First, the overall configuration of the gaming machine 1 will be briefly described with reference to FIG. The gaming machine 1 includes a game board 90. The game board 90 is formed of a substantially square plywood, and a strip-shaped guide rail 903 made of a thin metal plate for guiding a game ball fired by the operation of the launcher to the game area 902 has a substantially arc shape. Is provided.

  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 a launching device (not shown). 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 is a so-called pachinko gaming machine, but the configuration described below can be applied to other types of gaming machines such as a slot machine.

  Hereinafter, the rendering device 1a included in the gaming machine 1 according to the present embodiment will be described in detail with reference to the drawings. In the present embodiment, one rendering device 1a is provided on each of the left and right sides of the center base 80 (see FIGS. 1 to 3). Hereinafter, the rendering device 1a provided on the left side will be described. Since the basic structure of the rendering device 1a provided on the right side is the same as that provided on the left side (the opposite is left and right), description thereof is omitted. The rendering device 1a shown in FIGS. 4 to 9 is provided on the left side. The rendering device 1a according to the present embodiment includes a rendering member 10, a movable member 20, and a power transmission member 40 (corresponding to a slide member in the present invention).

  The effect member 10 is an elongated member having a shape imitating a “sword”. On the other hand, the movable member 20 is an elongated member having a shape imitating a “flame” (see FIGS. 4 to 6 and the like). In the present embodiment, two movable members 20 are provided: a left movable member 20L (corresponding to the first movable member in the present invention) and a right movable member 20R (corresponding to the second movable member in the present invention). Both movable members 20 are located behind the effect member 10. The positions of the left movable member 20L and the right movable member 20R in the front-rear direction are substantially the same. On the tip side of each of the left movable member 20L and the right movable member 20R (the lower side when positioned in the original position in the present embodiment), supported holes (left supported hole 21 and right supported hole 21R) that are through holes. ) Is formed (see FIG. 7 and the like). In each of the supported holes, support protrusions (the left support protrusion 11L and the right support protrusion 11R) provided on the tip side of the effect member 10 (the lower side when the original member is located in the original position in this embodiment) are fitted. It is crowded. That is, the left movable member 20L can be rotated with the left support protrusion 11L engaged with the left supported hole 21 as a fulcrum, and the right movable member 20R is supported with the right supported hole 21R. It is possible to turn the projection 11R as a fulcrum (see FIGS. 5 to 7).

  On the base end side of the effect member 10, a guided protrusion 15 that is a protrusion protruding rearward is formed. The guided protrusion 15 is fitted in a guide groove 811 formed in a plate member 81 fixed to a center base 80 provided at the rear of the game board 90 (see FIGS. 3, 8, 9 and the like). ). The guided protrusion 15 can slide in the guide groove 811. The guide groove 811 is an arc-shaped groove. As will be described in detail later, the effect member 10 having the guided protrusion 15 is displaced along the arc-shaped guide groove 811.

  A power transmission member 40 shown in detail in FIG. 7 is supported on the effect member 10 and the movable member 20 so as to be displaceable. The power transmission member 40 includes a transmission shaft engaging hole 41, a first engaged hole 42, a second engaged hole 43, a transmission protrusion 44 (corresponding to the engaging portion in the present invention), and a transmission toothpick 45. (Corresponding to the rack portion in the present invention) is formed.

  The transmission shaft engagement hole 41 is a hole with which the transmission shaft 511 of the transmission gear 51 that rotates by the power of the drive source 50 (motor in this embodiment) is engaged. Although the transmission shaft engaging hole 41 in the present embodiment is a through hole, it need not be a through hole. When the inner surface of the transmission shaft engagement hole 41 is pushed by the transmission shaft 511, the power transmission member 40 is displaced. The shape of the transmission shaft engaging hole 41 is set so that the effect member 10 and the movable member 20 operate as described later.

  The first engaged hole 42 and the second engaged hole 43 are elongated holes that are provided in the effect member 10 and into which engaging protrusions are fitted. Although the first engaged hole 42 and the second engaged hole 43 in this embodiment are through holes, they need not be through holes. The first engagement protrusion 12 is fitted in the first engaged hole 42, and the second engagement protrusion 13 is fitted in the second engaged hole 43. The width of the first engaged hole 42 and the diameter of the first engaging protrusion 12 are substantially the same as the width of the second engaged hole 43 and the diameter of the second engaging protrusion 13 (slightly the diameter of the engaging protrusion). It is possible to displace each engaging projection in the longitudinal direction of each engaged hole (displace the relative position with respect to the engaged hole), but in the width direction of each engaged hole. Can hardly be displaced.

  The transmission protrusion 44 is engaged with a left relay member 60L (corresponding to the first relay member in the present invention) provided on one movable member 20 (left movable member 20L in this embodiment) side. The left relay member 60L is rotatably supported by the effect member 10, and the left first relay hole 61L, which is a long hole on one side of the fulcrum, and the left second relay hole 62L, which is a long hole on the other side. Is formed. The transmission protrusion 44 is engaged with the left first relay hole 61L. The width of the left first relay hole 61L and the diameter of the transmission protrusion 44 are substantially the same (the diameter of the transmission protrusion 44 is slightly smaller), and the transmission protrusion 44 is displaced in the longitudinal direction of the left first relay hole 61L. Although it is possible to displace the relative position with respect to the left first relay hole 61L, it can hardly be displaced in the width direction of the left first relay hole 61L.

  In addition, the left operating projection 22L provided on the base end side of the left movable member 20L (the upper side when positioned at the original position in the present embodiment) is engaged with the second left relay hole 62L. The width of the left second relay hole 62L and the diameter of the left operating protrusion 22L are substantially the same (the diameter of the left operating protrusion 22L is slightly smaller), and the left operating protrusion 22L is in the longitudinal direction of the left second relay hole 62L. Can be displaced (the relative position with respect to the left second relay hole 62L is displaced), but can hardly be displaced in the width direction of the left second relay hole 62L.

  The transmission toothed hook 45 is formed on the side surface of the power transmission member 40 and corresponds to the right relay member 60R (the second relay member in the present invention) provided on the other movable member 20 (the right movable member 20R in this embodiment) side. Engaged). The right relay member 60R is rotatably supported by the effect member 10 similarly to the left relay member 60L. On one side (power transmission member 40 side) of the right relay member 60R, there is a relay gear part 61R (corresponding to the gear part in the present invention) whose center is the same as the rotation center, and on the other side is a long hole. A right relay hole 62R is formed. The transmission toothed hook 45 meshes with the relay gear portion 61R of the right relay member 60R. That is, when the transmission toothed hook 45 is displaced, the relay gear portion 61R (the right relay member 60R) that meshes with the transmission gear wheel 45 is rotated.

  Further, the right actuating protrusion 22R provided on the base end side of the right movable member 20R (the upper side when it is located at the original position in this embodiment) is engaged with the right relay hole 62R. The width of the right relay hole 62R and the diameter of the right operating protrusion 22R are substantially the same (the diameter of the right operating protrusion 22R is slightly smaller), and the right operating protrusion 22R is displaced in the longitudinal direction of the right relay hole 62R ( It is possible to displace the relative position with respect to the right relay hole 62R), but it is hardly possible to displace in the width direction of the right relay hole 62R.

  In the present embodiment, the light source 30 is provided further rearward than the movable member 20 (see FIG. 10 and the like). Specifically, a plurality of light sources 30 are mounted on a substrate 31 (a front surface of the substrate 31) disposed further rearward than the movable member 20. Each light source 30 emits light forward. The light source 30 in this embodiment is an LED.

  The effect member 10 and the movable member 20 have a light transmission part that transmits the light emitted from the light source 30. The production member 10 has the first light transmitting portions 14 at least on both sides in the width direction (the “blade” portion of the “sword” is the first light transmitting portion 14) (see FIGS. 4 to 6, etc.). . The first light transmission portion 14 in the present embodiment is colorless and transparent. Locations other than the first light transmission portion 14 (for example, the shielding portion 141 that is the central portion in the width direction) are formed of a material that does not transmit light.

  On the other hand, the movable member 20 (the left movable member 20L and the right movable member 20R) has a second light transmission part. In the present embodiment, substantially the entire left movable member 20L and right movable member 20R are formed of a light transmissive material (substantially the entire second light transmitting portion). The second light transmission portion in the present embodiment is colored (blue in the present embodiment) and transparent.

  The operation (action) of the rendering device 1a configured as described above will be described below. The production member 10 and the movable member 20 located at the original position are located along the vertical direction. At this time, the effect member 10 and the movable member 20 (the left movable member 20L and the right movable member 20R) are at least partially overlapped in the front-rear direction. That is, at least a part of the movable member 20 is covered with the effect member 10 (see FIG. 5 and the like).

  If the drive source 50 is rotated in one direction (forward rotation) from the state where the effect member 10 and the movable member 20 are positioned, the effect member 10 and the movable member 20 move toward the effect position. Specifically, it is as follows. The power of the drive source 50 is transmitted to the transmission gear 51, and the transmission gear 51 rotates. One or a plurality of other gears may be interposed between the drive source 50 and the transmission gear 51. When the transmission gear 51 rotates, the transmission shaft 511 provided on the transmission gear 51 is displaced about the rotation center of the transmission gear 51.

  When the transmission shaft 511 is displaced, the transmission shaft 511 pushes the side surface of the transmission shaft engaging hole 41 in the power transmission member 40 (the surface intersecting in the width direction when the effect member 10 is located at the original position). . Specifically, since the transmission shaft 511 is displaced toward the inner side in the width direction, the power transmission member 40 also tends to be displaced toward the inner side in the width direction. The first engagement protrusion 42 and the second engagement protrusion 13 of the effect member 10 are engaged with the first engagement hole 42 and the second engagement hole 43 of the power transmission member 40, respectively. Since the protrusion can displace the relative position only in the longitudinal direction of each engaged hole, when the power transmission member 40 tries to displace inward in the width direction, each engaging protrusion Press one inner surface in the width direction. Thereby, the effect member 10 is displaced toward the inner side in the width direction. Since the guided protrusion 15 of the effect member 10 is engaged with the guide groove 811 formed in the center base 80, the effect member 10 is displaced inward in the width direction along the guide groove 811. . Since the guide groove 811 in the present embodiment has an arc shape, the effect member 10 rotates inward in the width direction. Specifically, the effect member 10 advances to a position overlapping the display device 91.

  When the effect member 10 is rotated by a predetermined amount, the transmission shaft 511 of the transmission gear 51 is below the lower surface of the transmission shaft engaging hole 41 in the power transmission member 40 (a surface that intersects in the vertical direction when the effect member 10 is located at the original position). ) Is pushed by the transmission shaft 511. Thereby, the power transmission member 40 tends to be displaced in a direction along the longitudinal direction of the effect member 10. The first engagement protrusion 42 and the second engagement protrusion 13 of the effect member 10 are engaged with the first engagement hole 42 and the second engagement hole 43 of the power transmission member 40, respectively. Since the protrusion can displace the relative position in the longitudinal direction of each engaged hole (longitudinal direction of the effect member 10), the power transmission member 40 pushed by the transmission shaft 511 is displaced. Specifically, the power transmission member 40 is displaced (slid) in a direction approaching the movable member 20 (the leading end side of the effect member 10 and the movable member 20).

  When the power transmission member 40 is displaced in this way, the transmission projection 44 pushes the inner surface of the left first relay hole 61L while moving in the left first relay hole 61L of the left relay member 60L. As a result, the left relay member 60L rotates. Since the left operating projection 22L of the left movable member 20L is engaged in the left second relay hole 62L of the left relay member 60L, the left relay member 60L is rotated to the left inner surface of the left second relay hole 62L. The operating protrusion 22L is pushed, and the left movable member 20L is displaced with respect to the effect member 10. Specifically, with the left support protrusion 11L of the effect member 10 with which the left supported hole 21 is engaged as a fulcrum, the left movable member 20L has an effect member 10 in a direction in which the base end side overlaps the effect member 10 in a smaller direction. Displacement (rotation).

  On the other hand, when the power transmission member 40 is displaced, the transmission tooth hook 45 formed thereon is also displaced. Since the transmission toothed hook 45 meshes with the relay gear portion 61R of the right relay member 60R, the right relay member 60R rotates. Since the right operating projection 22R of the right movable member 20R is engaged in the right relay hole 62R of the right relay member 60R, the right operating projection 22R is formed on the inner surface of the right relay hole 62R of the rotating right relay member 60R. The right movable member 20 </ b> R is displaced with respect to the effect member 10 by being pushed. Specifically, with the right support protrusion 11R of the effect member 10 with which the right supported hole 21R is engaged as a fulcrum, the right movable member 20R has the effect that the base end side of the effect member 10 decreases in a direction where the effect member 10 overlaps. Displacement (rotation).

  Thus, when the power transmission member 40 is displaced (slid) in a direction approaching the movable member 20, the power is transmitted to the left movable member 20L via the left relay member 60L and to the right via the right relay member 60R. It is transmitted to the movable member 20R. In the present embodiment, the left relay member 60L and the right relay member 60R are displaced (turned) in a direction away from each other. As a result, the left movable member 20L that engages with the left relay member 60L and the right movable member 20R that engages with the right relay member 60R are displaced in directions in which the base ends (opposite sides of the pivoting fulcrum) are separated from each other ( (See FIGS. 6 and 9). In this way, the effect member 10 rotates until the drive amount of the drive source 50 reaches a predetermined amount. At this time, the relative position of the effect member 10 and the movable member 20 is maintained. After the drive amount of the drive source 50 exceeds a predetermined amount, the power is transmitted to the movable member 20 via the power transmission member 40 and the relay member. Thereby, the movable member 20 changes the relative position with respect to the production member 10. Specifically, both the left movable member 20L and the right movable member 20R are displaced in the direction of reducing the range overlapping the effect member 10.

  When the drive source 50 is rotated (reversely rotated) to the other side, the effect member 10 and the movable member 20 perform operations opposite to those described above. That is, when the power transmission member 40 is displaced (slid) in a direction approaching the movable member 20, the left relay member 60L and the right relay member 60R are displaced (rotated) in a direction approaching each other and engaged with the left relay member 60L. The right movable member 20R that engages the left movable member 20L and the right relay member 60R is displaced in a direction in which the base end sides (opposite sides of the pivoting fulcrum) approach each other (see FIGS. 5 and 8). After the relative position of both movable members 20 with respect to the effect member 10 returns to the original position, the effect member 10 returns to the original position together with the both movable members 20.

  In the present embodiment, such a production device 1a is provided on each of the left and right, and when the production member 10 and the movable member 20 supported by the production device 10 reach the production position, they are mutually connected on the near side of the display device 91. An intersecting effect mode is constructed (see FIG. 3). One effect member 10 and the movable member 20 and the other effect member 10 and the movable member 20 are provided by shifting the position in the front-rear direction so as not to interfere with each other at the effect position.

  As described above, in the gaming machine 1 according to the present embodiment, when the power of one drive source 50 (motor) is transmitted to the two movable members 20 (the left movable member 20L and the right movable member 20R), Only one end side (base end side) of each of them is displaced toward or away from each other (see FIGS. 5, 6, 8, 9, etc.). That is, it is possible to realize the interesting movement of the movable member 20 that is displaced in different directions only on one end side by the power of the drive source 50.

  Further, in the present embodiment, one end side (tip side) of the two movable members 20 is supported by the effect member 10 that produces an effect together with the movable member 20. It is possible to provide the effect device 1a that performs an interesting operation in which the size of the region where the member 10 overlaps changes.

  Further, in the present embodiment, after the effect member 10 is displaced to the effect position, both movable members 20 are displaced with respect to the effect member 10. In other words, after the effect member 10 is displaced by the power of the drive source 50, the movable member 20 is displaced with respect to the effect member 10 (the reverse when returning from the effect position to the original position) by the action of the power transmission member 40. Since the output target is automatically switched, it is not necessary to separately provide the driving source 50 and the power transmission mechanism for driving the effect member 10 and the driving source 50 and the power transmission mechanism for driving the movable member 20.

  Further, it is possible to construct a simple structure in which both the movable members 20 are displaced at a time by the action of the power transmission member 40. Specifically, the power transmission member 40 has a transmission projection 44 (engagement portion) for transmitting power to the left movable member 20L, and a transmission tooth hook 45 (rack portion) for transmitting power to the right movable member 20R. ), It is possible to suppress an increase in size of the power transmission member 40 (slide member) and a complicated power transmission mechanism to both the movable members 20.

  In the present embodiment, the state before the movable members 20 are displaced with respect to the effect member 10 (hereinafter also referred to as the first state) and the state after the displacement (hereinafter referred to as the second state). In other words, the size of the region where both movable members 20 overlap with the first light transmitting portion 14 formed on the effect member 10 is set to be different. Specifically, in a state before the two movable members 20 are displaced with respect to the effect member 10 (see FIG. 5, FIG. 8, etc.), the left movable member 20 </ b> L and the right movable member 20 </ b> R are The region overlapping with the one light transmitting portion 14 is relatively large (compared to when in the second state), and the state after the movable member 20 is displaced with respect to the effect member 10 (see FIGS. 6 and 9). Then, the region where the left movable member 20L and the right movable member 20R overlap with the first light transmitting portion 14 of the effect member 10 in the front-rear direction is relatively small (compared to when in the first state).

  Therefore, when light is emitted from the light source 30, each movable member 20 with respect to the first light transmitting portion 14 is when the both movable members 20 are in the first state and when both movable members 20 are in the second state. Since the sizes of the overlapping areas are different, the way the light is seen through the first light transmission portion 14 (light addition / subtraction) is different. That is, it is possible to improve the preference of the effect using the effect member 10 illuminated by the light source 30 (to increase the variation of the effect).

  Moreover, in the present embodiment, when both the movable members 20 are in the second state, the movable members 20 are set so as not to overlap the light source 30 in the front-rear direction (see FIGS. 6 and 9). With such a configuration, when both the movable members 20 are in the second state, the light source 30 is not located behind the movable member 20, so that when light is emitted from the light source 30 in the second state, Although the amount of light that illuminates the member 10 is large, the amount of light that illuminates the movable member 20 is small, and the brightness and darkness of the movable member 20 and the effect member 10 become clearer. Therefore, it is possible to increase the difference in the mode (impression received by the player) when in the first state and when in the second state.

  Moreover, in this embodiment, the 1st light transmission part 14 is colorless and transparent, and the 2nd light transmission part (the whole movable member 20 in this embodiment) is colored and transparent. Therefore, the color of the light that can be visually recognized by the player is different when both the movable members 20 are in the first state and when they are in the second state. In the present embodiment, when in the first state, a part of the light is emitted through the portion where the first light transmission portion 14 and the second light transmission portion overlap (see FIGS. 5 and 8 etc.). The color is determined by the color of the second light transmission part (if the light from the light source 30 is colorless, it becomes the color of the second light transmission part). Since the light is emitted through the light transmission unit 14 (see FIGS. 6 and 9 and the like), the color of the light is the light color of the light source 30 itself. As described above, it is possible to produce a highly interesting effect that causes a change in the color of light along with the displacement of the movable member 20.

  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.

  For example, in the above embodiment, it has been described that the movable member 20 is supported by the effect member 10, but the movable member 20 may be supported by another member. The member that supports the movable member 20 may be a member that does not move. Even in the case of obtaining such a rendering device 1a, it is possible to apply the above technical idea in constructing a configuration in which only one end of the two movable members 20 is displaced in a direction away from each other or a direction in which the movable members 20 are closer to each other. is there.

  In the above-described embodiment, it has been described that the left movable member 20L and the right movable member 20R are displaced toward or away from each other when the power transmission member 40 is displaced. The member 20) may be displaced (operated). Any configuration may be employed as long as at least the left movable member 20L and the right movable member 20R are displaced when the power transmission member 40 is displaced.

1 gaming machine 1a stage device 10 stage member 11L left support protrusion 11R right support protrusion
12 First engagement protrusion 13 Second engagement protrusion 14 First light transmitting portion 15 Guided protrusion 20 Movable member 20 L Left movable member (first movable member)
21L Left supported hole 22L Left operating projection 20R Right movable member (second movable member)
21R Right supported hole 22R Right operation protrusion 30 Light source 40 Power transmission member (slide member)
41 Transmission shaft engaging hole 42 First engaged hole 43 Second engaged hole 44 Transmission protrusion (engaging portion)
45 Transmission toothpaste (rack part)
50 Drive source 51 Transmission gear 511 Transmission shaft 60L Left relay member (first relay member)
61L Left first relay hole 62L Left second relay hole 60R Right relay member (second relay member)
61R Relay gear 62R Right relay hole

Claims (6)

A first movable member and a second movable member that are rotatably supported at one end side with respect to a certain member;
One end side where both the first movable member and the second movable member are supported by the certain member by transmitting the power of the drive source to the other end side of the first movable member and the second movable member , And the other end side of the first movable member and the second movable member is displaced in a direction toward or away from each other. An effect member on which one end side of the first movable member and the second movable member is supported,
The size of the region where each movable member and the effect member overlap changes as the other end sides of the first movable member and the second movable member are displaced toward or away from each other. The gaming machine according to 1.   The power of the drive source is transmitted to the effect member and the effect member is displaced, and the other of the first movable member and the second movable member is transmitted to the first movable member and the second movable member. The gaming machine according to claim 2, wherein a state in which the end sides are displaced in a direction toward or away from each other is switched.   A slide member that slides linearly by the power of the drive source is provided, and both the first movable member and the second movable member are displaced when the slide member slides. The gaming machine according to claim 3. A first relay member and a second relay member to which the displacement of the slide member is transmitted;
When the slide member slides in a direction approaching the first movable member and the second movable member, the first relay member and the second relay member rotate in directions away from each other, and the first movable member and the The second movable member is displaced in a direction away from each other,
When the slide member slides in a direction away from the first movable member and the second movable member, the first relay member and the second relay member rotate in a direction approaching each other, and the first movable member and the second movable member are rotated. The gaming machine according to claim 4, wherein the second movable members are displaced in directions toward each other. The slide member is
An engaging portion provided at an end of the first movable member that engages with the first relay member;
A rack portion provided on a side surface that engages with a gear portion formed on the second relay member;
The gaming machine according to claim 5, comprising:

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