JP5462112B2 - Switchgear - Google Patents

Description

  The present invention relates to an opening / closing device disposed on a game board surface in a gaming machine.

  2. Description of the Related Art Conventionally, an opening / closing device having a pair of movable pieces, each movable piece being composed of a plurality of members is known (see Patent Document 1).

Japanese Unexamined Patent Publication No. 63-161982

However, in the switchgear according to Patent Document 1, the movable range of each of the pair of movable pieces is narrow.
For example, in the opening / closing apparatus according to Patent Document 1, a closed state in which the inflow of game balls into a predetermined area cannot be configured only by a pair of movable pieces, and a roof member is used to configure the closed state. Necessary.
The subject of this invention is expanding the movable range of each of a pair of movable piece in an opening / closing apparatus.

  In order to achieve the above object, an opening / closing device according to a first aspect of the present invention includes a base member, an open state attached to the base member and allowing a game ball to flow into the predetermined area, and the opening to the predetermined area. Corresponding to each of the pair of movable pieces, a pair of movable pieces that can constitute a closed state in which inflow of game balls is impossible, a drive source for driving each of the pair of movable pieces And a link mechanism that transmits the movement of the drive source to the corresponding movable piece, wherein each of the pair of movable pieces is attached to the base member by a first connecting shaft. A first member rotatably connected to the first member, and a second member rotatably connected to the first member by a second connecting shaft, wherein the link mechanisms are provided eccentric to each other. First operation shaft and second operation A crank member having a shaft, and a link member for transmitting the movement of the drive source to the crank member, wherein the first operating shaft is concentric with the second connecting shaft. The link member is fixed to two members, and the movement of the drive source is transmitted to the second operation shaft.

In the opening / closing apparatus according to the first aspect, the first operating shaft of the crank member is fixed to the second member so as to be concentric with the second connecting shaft that connects the first member and the second member. Yes. The link member transmits the movement of the drive source to the second operation shaft of the crank member. Here, the first operation shaft and the second operation shaft are provided so as to be eccentric from each other.
Thereby, a 1st member and a 2nd member can be moved by driving a drive source and moving a crank member.

Further, the first operation shaft of the crank member can be rotated by driving the drive source and moving the second operation shaft of the crank member.
And the 2nd member can be rotated with respect to the 1st member by rotating the 1st operation axis of a crank member.
As described above, in the opening / closing device according to the first invention, the drive source is driven to move the first member and the second member, and the second member is rotated relative to the first member. ,It can be performed.
Therefore, according to the switchgear according to the first invention, it is possible to widen the movable range of each of the pair of movable pieces with a simple configuration.

  Here, for example, an opening / closing device 600 described later corresponds to the opening / closing device. For example, a base member 700 described later corresponds to the base member. For example, the entrance 210 described later corresponds to the predetermined area. For example, a movable piece 610 described later corresponds to the movable piece. As the drive source, for example, a movable piece solenoid 322 described later is applicable. For example, a link mechanism 800 described later corresponds to the link mechanism. For example, a first connecting shaft 710 described later corresponds to the first connecting shaft. For example, the first member 620 described later corresponds to the first member. For example, the second connection shaft 634 described later corresponds to the second connection shaft. For example, the second member 630 described later corresponds to the second member. As the first operation axis, for example, a first operation axis 811 described later corresponds. For example, a second operation shaft 812 described later corresponds to the second operation shaft. For example, a crank member 810 described later corresponds to the crank member.

The opening / closing apparatus according to the second invention is characterized in that, in the opening / closing apparatus according to the first invention, the base portion is provided with a restricting portion for restricting movement of the first operating shaft. .
In the switchgear according to the second invention, in a state where the restricting portion does not restrict the movement of the first operation shaft of the crank member, the first operation shaft is moved together with the second operation shaft by moving the second operation shaft. Is moved, and the first member and the second member are moved.

On the other hand, in a state where the restricting portion restricts movement of the first operation shaft of the crank member, the second member is moved by moving the second operation shaft without moving the first operation shaft. Is rotated against.
Therefore, according to the opening / closing device according to the second invention, the operation of bringing the pair of movable pieces into an open state or a closed state can be performed in stages.
Here, as the restricting portion, for example, a first restricting surface 721 and a second restricting surface 722 described later correspond.

The opening / closing device according to a third invention is the opening / closing device according to the first or second invention, wherein each of the first member and the second member is formed in a rod shape, and the first connecting shaft is One end of the first member and the base member are connected, and the second connection shaft connects the other end of the first member and one end of the second member. And
According to the opening / closing device according to the third aspect of the present invention, the movable range of each of the pair of movable pieces can be further expanded.

Moreover, the opening / closing apparatus according to a fourth invention is the opening / closing apparatus according to the third invention, wherein, when the pair of movable pieces constitutes the closed state, the other end of the second member of one movable piece. And the other end of the second member of the other movable piece are in contact with each other.
According to the opening / closing device according to the fourth aspect of the present invention, the closed state can be configured only by the pair of movable pieces. That is, it is possible to configure a closed state without providing a roof member.

Furthermore, the switchgear according to a fifth invention is the switchgear according to the third or fourth invention, wherein each of the first member and the second member has a planar inner surface, and the pair of When the movable piece constitutes the open state, in each movable piece, the inner side surface of the first member and the inner side surface of the second member are a series.
According to the opening / closing device according to the fifth aspect, when the pair of movable pieces constitutes the open state, it is possible to smoothly flow the game balls into the predetermined area.
Here, for example, inner surfaces 622 and 632 described later correspond to the inner surfaces.

  According to the present invention, each movable range of the pair of movable pieces can be expanded.

It is the figure which showed typically the front part of the game board surface in a pachinko machine, especially the part required for description. It is a block diagram which shows the structure of the control system of a pachinko machine. It is a disassembled perspective view of an opening / closing device. It is a front view of a base member. It is a perspective view which shows the opening / closing apparatus in which the movable piece comprises the closed state. It is a front view of the switchgear shown in FIG. It is a rear view of the opening / closing apparatus shown in FIG. It is a perspective view which shows the opening / closing apparatus in which the movable piece comprises the open state. It is a front view of the switchgear shown in FIG. It is a rear view of the switchgear shown in FIG. It is a front view which shows the opening / closing apparatus which is in the middle of the movable piece changing from a closed state to an open state. It is a rear view of the switchgear shown in FIG. It is a front view which shows the switchgear which is in the middle of the movable piece changing from an open state to a closed state. It is a rear view of the switchgear shown in FIG.

Embodiments of the present invention will be described below with reference to the drawings.
In the present embodiment, the opening / closing device 600 according to the present invention is applied to the pachinko machine 1.
(Composition of game board surface)
First, the configuration of the game board surface 100 in the pachinko machine 1 will be described.
FIG. 1 is a diagram schematically showing a front portion of a game board surface in a pachinko machine, particularly a portion necessary for explanation.
As shown in FIG. 1, the game board surface 100 is provided with an outer rail 102 and an inner rail 103 that constitute a launch path 101 for a game ball. On the game board surface 100, a circular area surrounded by the outer rail 102 is a game area 104 for rolling the game ball. In the game area 104, a plurality of nails (not shown) are arranged so as to guide the game ball to each winning opening described later. Then, a game ball launched by a launching device (not shown) is launched from the launch path 101 to the game area 104.

In the center of the game area 104, an accessory device 200 is disposed. The accessory device 200 is arranged on a downstream side of the game ball guiding unit 220, a ball entrance (predetermined area) 210 through which the game ball flows, a game ball guiding unit 220 for guiding the game ball flowing into the ball entrance 210, and the game ball guiding unit 220. And a specific winning port 230 and a discharge port 240 provided.
The accessory device 200 includes an opening / closing device 600. The opening / closing device 600 has a pair of movable pieces 610. The pair of movable pieces 610 are in an open state (see FIG. 8) in which a game ball can flow into the ball entrance 210 and in a closed state (see FIG. 5) in which a game ball cannot flow into the ball entrance 210. ) And can be configured. The pair of movable pieces are opened and closed by a movable piece solenoid 322 (see FIG. 2). The pair of movable pieces 610 are normally closed. And a pair of movable piece 610 will be in an open state in a predetermined pattern, when winning a small hit lottery (small hit A lottery, small hit B lottery).

The specific prize opening 230 is a prize opening opened upward, and game balls can always be awarded. When a game ball wins the specific winning port 230, a specific winning port switch 317 (see FIG. 2) disposed inside the pachinko machine 1 detects the winning of the game ball. Then, when detecting the winning of a game ball, the specific winning opening switch 317 inputs a detection signal to the main control device 400 described later, and gives an opportunity for a special symbol lottery.
The outlets 240 are disposed on both sides of the specific prize opening 230 in the left-right direction. Each discharge port 240 collects game balls that have not won the specific winning port 230.

  On the left side of the accessory device 200, a first start winning opening 110 is arranged. The first start winning opening 110 is a winning opening opened upward, and game balls can always be won. When a game ball wins the first start winning port 110, a first start winning port switch 310 (see FIG. 2) disposed in the pachinko machine 1 detects the winning of the game ball. When the first start winning port switch 310 detects the winning of the game ball, it inputs a detection signal to the main control device 400 described later and gives an opportunity for the small hitting A lottery.

  A start gate 120 is provided on the right side of the accessory device 200. The starting gate 120 can always pass a game ball. When the game ball passes through the start gate 120, a start gate switch 311 (see FIG. 2) disposed in the pachinko machine 1 detects the passage of the game ball. When the start gate switch 311 detects the passing of the game ball, the start gate switch 311 inputs a detection signal to the main control device 400 to give a trigger for the normal symbol lottery.

  Below the start gate 120, a second start winning opening 130 is disposed. The second start winning opening 130 is a variable winning opening having an opening / closing member 131 that is opened and closed by a start winning opening solenoid 320 (see FIG. 2). The second start winning opening 130 is normally in a state in which the opening / closing member 131 is closed and the game ball cannot win. When the normal start lottery is won, the opening / closing member 131 is opened in a predetermined pattern so that the game ball can win. When a game ball wins the second start winning opening 130, a second start winning opening switch 312 (see FIG. 2) disposed in the pachinko machine 1 detects the winning of the game ball. Then, when the second start winning port switch 312 detects winning of the game ball, it inputs a detection signal to the main control device 400 and gives an opportunity for a small hit B lottery.

  Below the second start winning opening 130, a large winning opening 140 is arranged. The special winning opening 140 is a variable winning opening having an opening / closing member 141 that is opened and closed by a special winning opening solenoid 321 (see FIG. 2). The special winning opening 140 is normally in a state where the opening / closing member 141 is closed and the game ball cannot win. Then, when the special winning lot 140 is won in the special symbol lottery, it is opened in a predetermined pattern, and the game ball can win. When a game ball wins the big winning opening 140, a big winning opening switch 313 (see FIG. 2) arranged in the pachinko machine 1 detects the winning of the game ball. When the winning ball switch 313 detects the winning of the game ball, it inputs a detection signal to the main control device 400 and gives an opportunity to pay out the number of winning balls corresponding to the number of winning game balls.

A state display device 170 that displays the gaming state of the pachinko machine 1 is disposed at the lower left of the first start winning opening 110. The state display device 170 displays the result of the special symbol lottery, the result of the normal symbol lottery, the result of the small hit A lottery, the result of the small hit B lottery, and the like.
An out port 180 for collecting game balls that have not won any of the prize winning ports and any of the accessory devices 200 is provided below the accessory device 200 and at the bottom of the game area 104.

(Control system configuration)
Next, the configuration of the control system in the pachinko machine 1 will be described.
FIG. 2 is a block diagram showing the configuration of the control system of the pachinko machine.
As shown in FIG. 2, the pachinko machine 1 includes a first start prize port switch 310, a second start prize port switch 312, a start gate switch 311, a big prize port switch 313, a specific prize port switch 317, It has.
The pachinko machine 1 includes a main control device 400 and a sub-control device 500 as control units. The main control device 400 and the sub control device 500 are mounted on separate boards for preventing illegal acts. In the control unit, data can be transmitted from the main control device 400 to the sub control device 500 only in one direction.

  The main control device 400 mainly detects the winning of the game ball at the first start winning port 110, the detection of the game ball at the second start winning port 130, and the detection of the winning of the game ball at the specific winning port 230. In accordance with each of these, various random numbers are acquired (small hit A lottery, small hit B lottery, special symbol lottery is executed). The main control device 400 then transmits a control command and controls the entire game based on the acquired various random numbers.

Further, the main control device 400 directly controls the status display device 170, the winning ball payout control device 510, the start winning port solenoid 320, the big winning port solenoid 321, the movable piece solenoid 322, and the like.
Main controller 400 includes CPU 410, ROM 420, RAM 430, input port 440, and output port 450.
The input port 440 outputs detection signals input from the various switches 310, 312, 311, 313, and 317 to the CPU 410.

The output port 450 outputs a control command to each of the sub-control device 500, the status display device 170, and the prize ball payout control device 510, and also includes a start winning port solenoid 320, a big winning port solenoid 321 and a movable piece solenoid 322. A control signal is output for each. Further, the output port 450 outputs the output information of the pachinko machine 1 and an abnormality signal to the hall computer 910.
The ROM 420 stores a program for controlling the pachinko machine 1 executed by the main control device 400, game control data, and the like.
The RAM 430 temporarily stores input / output data for the main control device 400, data for arithmetic processing, various counters including a random number counter related to the game, a lottery result and a flag for managing the game state.

The main controller 400 is connected to a power supply circuit 900 for supplying power.
Similar to the main controller 400, the sub controller 500 includes a CPU, a ROM, a RAM, an input port, and an output port.
The ROM of the sub control device 500 stores a program for controlling the production, various data, and the like. The RAM of the sub control device 500 temporarily stores control commands input from the main control device 400, data for performing arithmetic processing, and the like. The CPU of the sub control device 500 executes processing according to the program stored in the ROM in accordance with the control command received from the main control device 400. As a result, the CPU of the sub control device 500 performs control of the lamp 530, control of output of sound effects from the speaker 540, and the like.

(Configuration of switchgear 600)
Next, the configuration of the opening / closing device 600 will be described.
FIG. 3 is an exploded perspective view of the switchgear. FIG. 4 is a front view of the base member. FIG. 5 is a perspective view showing an opening / closing device in which the movable piece constitutes a closed state. 6 is a front view of the switchgear shown in FIG. 7 is a rear view of the switchgear shown in FIG. FIG. 8 is a perspective view showing an opening / closing device in which the movable piece is in an open state. FIG. 9 is a front view of the switchgear shown in FIG. 10 is a rear view of the switchgear shown in FIG.

In the following description, the front-rear direction means the depth direction shown in FIGS. 6, 7, 9, and 10. Moreover, the up and down direction means the up and down direction shown in FIGS. Furthermore, the left-right direction means the left-right direction shown in FIG. 6, FIG. 7, FIG. 9, and FIG.
3 to 10 includes a base member 700, a pair of movable pieces 610 attached to the base member 700, a link mechanism 800 provided corresponding to each of the pair of movable pieces 610, and a movable member. A single solenoid (drive source) 322.

  The base member 700 is formed in a flat plate shape. As shown in FIGS. 3 and 4, a pair of first connecting shafts 710 are provided on the front surface of the base member 700. Each first connecting shaft 710 is formed in a cylindrical shape. Each first connecting shaft 710 extends along the front-rear direction. Each first connecting shaft 710 is provided so as to protrude toward the front side of the base member 700.

  As shown in FIGS. 7 and 10, a first support shaft 731 is provided at a position corresponding to each first connection shaft 710 on the back surface of the base member 700. Each first support shaft 731 is formed in a cylindrical shape. Each of the first support shafts 731 is provided so as to be concentric with the corresponding first connection shaft 710 (a state in which the shafts are matched). Each first support shaft 731 is provided so as to protrude toward the back side of the base member 700.

As shown in FIGS. 3 and 4, the base member 700 is provided with a restriction hole 720 corresponding to each of the pair of first connecting shafts 710. Each restriction hole 720 is provided above the corresponding first connecting shaft 710. Each restriction hole 720 is provided in an arc shape with the corresponding first connecting shaft 710 as the center.
As shown in FIG. 4, one end (outer end) of each restriction hole 720 extends to a position where the vertical line x is rotated outward by a predetermined angle α around the first connecting shaft 710. . On the other hand, the other end (inner end) of each regulation hole 720 extends to a position where the vertical line x is rotated inward by a predetermined angle β around the first connecting shaft 710. In the present embodiment, the predetermined angle α and the predetermined angle β are the same angle.

Outer end surfaces of both the end surfaces of each restricting hole 720 are first restricting surfaces (restricting portions) 721 that restrict the movement of the first operation shaft 811 described later. In addition, an inner end face of both the end faces of each restricting hole 720 is a second restricting face (restricting portion) 722 that restricts the movement of the first operating shaft 811.
Further, as shown in FIGS. 7 and 10, a second support shaft 732 is provided on the back surface of the base member 700. The second support shaft 732 is provided at a substantially central portion of the base member 700 in the left-right direction. The second support shaft 732 is formed in a cylindrical shape. The second support shaft 732 extends along the front-rear direction. The second support shaft 732 is provided so as to protrude toward the back side of the base member 700.
As shown in FIGS. 3, 6 and 9, each movable piece 610 is disposed on the front side of the base member 700. Each movable piece 610 includes a first member 620 and a second member 630 connected to the first member 620.

  The first member 620 is formed in a rod shape extending linearly. In the present embodiment, the first member 620 is formed in a prismatic shape having a planar outer surface 621 and an inner surface 622. A first bearing hole 623 into which the first connecting shaft 710 of the base member 700 is inserted is provided at one end of the first member 620. A connecting portion 624 is provided at the other end of the first member 620. The connecting portion 624 has a notch 624a formed on the front side and a notch 624b formed on the back side. The connecting portion 624 is provided with a second bearing hole 625 through which the second connecting shaft 634 is inserted. Each of the first bearing hole 623 and the second bearing hole 625 is a cylindrical through hole. The first bearing hole 623 and the second bearing hole 625 each extend along the front-rear direction.

  The second member 630 is formed in a bar shape extending linearly. In the present embodiment, the second member 630 is formed in a prismatic shape having a planar outer surface 631 and an inner surface 632 (see FIG. 8). A connecting portion 633 is provided at one end of the second member 630. The connecting portion 633 has a notch 633a formed on the front side. The thickness (dimension in the front-rear direction) of the connecting portion 633 is substantially the same as the thickness of the notch 624b of the connecting portion 624. A second connection shaft 634 is provided on the front surface of the connection portion 633. The second connecting shaft 634 is formed in a cylindrical shape. The second connecting shaft 634 extends along the front-rear direction. The second connecting shaft 634 is provided so as to protrude toward the front side of the connecting portion 633.

  The first member 620 and the second member 630 are connected to each other by inserting the second connection shaft 634 of the second member 630 into the second bearing hole 625 of the first member 620. Each movable piece 610 is configured by connecting the first member 620 and the second member 630. In each movable piece 610, the second member 630 is rotatable with respect to the first member 620 about the second connecting shaft 634.

  Each movable piece 610 is coupled to the base member 700 by inserting the first coupling shaft 710 of the base member 700 into the first bearing hole 623 of the first member 620. As a result, the first member 620 of each movable piece 610 is rotatable with respect to the base member 700 about the first connecting shaft 710. That is, each movable piece 610 is rotatable with respect to the base member 700 around the first connecting shaft 710.

As shown in FIGS. 3, 7, and 10, each link mechanism 800 is disposed on the back side of the base member 700. Each link mechanism 800 transmits the movement of the movable piece solenoid 322 to the corresponding movable piece 610. Each link mechanism 800 includes a crank member 810, a first link member (link member) 820, and a second link member (link member) 830.
The crank member 810 transmits the movement of the first link member 820 to the second member 630 of the movable piece 610. The crank member 810 includes a connecting plate 813 and a first operating shaft 811 and a second operating shaft 812 that are connected to each other by the connecting plate 813.

As shown in FIG. 3, the connecting plate 813 is formed in a flat plate shape. A fitting recess 814 into which the first operation shaft 811 is fitted is provided on the front surface of the connecting plate 813. The fitting recess 814 is provided at one end of the connecting plate 813.
A second operating shaft 812 is provided on the back surface of the connecting plate 813. The second operating shaft 812 is provided at the other end of the connecting plate 813. The second operating shaft 812 extends along the front-rear direction. The second operating shaft 812 is provided so as to protrude toward the back side of the connecting plate 813.

  In the present embodiment, the first operation shaft 811 is fixed to the second member 630. Specifically, one end portion of the first operation shaft 811 is fixed to the back surface of the connecting portion 633 of the second member 630. Here, the first operating shaft 811 is fixed to the back surface of the connecting portion 630 so as to be concentric with the second connecting shaft 634 provided on the front surface of the connecting portion 630. The other end of the first operation shaft 811 is fitted to the coupling plate 813 by fitting into the fitting recess 814 of the coupling plate 813. As a result, the first operating shaft 811 and the second operating shaft 812 are provided in the connecting plate 813 so as to be eccentric from each other (with the axes shifted in parallel).

The first link member 820 transmits the movement of the second link member 830 to the crank member 810. In the present embodiment, the first link member 820 is a cam member that transmits the movement of the second link member 830 to the crank member 810 by rotation. The first link member 820 is formed in a substantially triangular flat plate shape.
A bearing portion 821 into which the first support shaft 731 of the base member 700 is inserted is provided on the front surface of the first link member 820. The bearing portion 821 is provided at a first corner portion (downward and outer corner portion) among the three corner portions of the first link member 820. The bearing portion 821 is formed in a cylindrical shape.

An operation shaft 822 is provided on the back surface of the first link member 820. The operation shaft 822 is provided at the second corner (downward and inner corner) of the three corners of the first link member 820. The operation shaft 822 is provided so as to protrude toward the back side of the first link member 820.
Furthermore, a cam hole 823 into which the second operation shaft 812 of the crank member 810 is inserted is provided at a third corner (upper corner) of the three corners of the first link member. The cam hole 823 is provided so as to extend substantially linearly along the vertical direction. Here, the inner peripheral surface of the cam hole 823 transmits the movement to the second operation shaft 812 of the crank member 810.

The second link member 830 transmits the movement of the movable piece solenoid 322 to the first link member 820. The second link member 830 is formed in a substantially rectangular flat plate shape.
A bearing portion 831 into which the second support shaft 732 of the base member 700 is inserted is provided at one end portion of the second link member 830. The bearing portion 831 is formed in a cylindrical shape. An operation hole 832 through which the operation shaft 822 of the first link member 820 is inserted is provided at the other end of the second link member 830.

A connection hole 833 through which a connection shaft 325 described later is inserted is provided between the bearing portion 831 and the operation hole 832 in the second link member 830.
As shown in FIGS. 3, 7, and 10, each movable piece solenoid 322 is disposed on the back side of the base member 700. Each movable piece solenoid 322 has a plunger 323 and a coil portion 324 into which the plunger 323 is inserted.

As shown in FIGS. 7 and 10, a connecting shaft 325 is disposed at the tip of the plunger 323. When the movable piece solenoid 322 is not energized, the plunger 323 is biased by a spring (not shown) so as to protrude downward with respect to the coil portion 324 and is disposed at the protruding position (see FIG. 7). On the other hand, when the movable piece solenoid 322 is energized (during driving), the plunger 323 is drawn upward with respect to the coil portion 324 and is disposed at the drawing position (see FIG. 10).
The second link member 830 is attached to the base member 700 by inserting the second support shaft 732 of the base member 700 into the bearing portion 831. The second link member 830 and the plunger 323 are connected to each other by inserting the connecting shaft 325 of the plunger 323 into the connecting hole 833 of the second link member 830.

  Thereby, the movement of the plunger 323 of the movable piece solenoid 322 can be transmitted to the second link member 830. Specifically, according to the movement of the plunger 323, the second link member 830 can be rotated with respect to the base member 700 about the second support shaft 732. The second link member 830 includes a lower position (see FIG. 7) corresponding to the plunger 323 being disposed at the protruding position, and an upper position (see FIG. 10) corresponding to the plunger 323 being disposed at the retracted position. It is possible to rotate between.

The first link member 820 is attached to the base member 700 by inserting the first support shaft 731 of the base member 700 through the bearing portion 821. Further, the first link member 820 and the second link member 830 are connected to each other when the operation shaft 822 of the first link member 820 is inserted into the operation hole 832 of the second link member 830.
Thereby, the movement of the second link member 830 can be transmitted to the first link member 820. Specifically, the first link member 820 can be rotated with respect to the base member 700 about the first support shaft 731 according to the movement of the second link member 830. The first link member 820 includes an inner position (see FIG. 7) corresponding to the second link member 830 disposed at the lower position and an outer position corresponding to the second link member 830 disposed at the upper position. (See FIG. 10).

The crank member 810 is disposed in a state where the first operation shaft 811 is inserted through the restriction hole 720 of the base member 700. One end of the first operation shaft 811 is fixed to the second member 630 of the movable piece 610, and the other end is attached to the connecting plate 813. The crank member 810 and the first link member 820 are connected to each other by inserting the second operation shaft 812 of the crank member 810 into the cam hole 823 of the first link member 820.
Thus, the movement of the first link member 820 can be transmitted to the crank member 810 (second operation shaft 812). The movement transmitted to the crank member 810 is transmitted to the second member 630 of the movable piece 610 via the first operation shaft 811.

  Specifically, the first operation shaft 811 can be moved along the restriction hole 720 in accordance with the movement of the first link member 820. Then, the first member 620 and the second member 630 of the movable piece 610 can be moved by moving the first operation shaft 811 along the restriction hole 720. Further, the first operation shaft 811 can be rotated according to the movement of the first link member 820. Then, by rotating the first operating shaft 811, the second member 630 can be rotated with respect to the first member 620. The crank member 810 has a first state (see FIG. 7) corresponding to the first link member 820 disposed at the inner position and a second state corresponding to the first link member 820 disposed at the outer position. (See FIG. 10).

(Operation of switchgear 600)
Next, the operation of the opening / closing device 600 will be described.
FIG. 11 is a front view showing the opening / closing device in a state where the movable piece is in the middle of changing from the closed state to the open state. 12 is a rear view of the switchgear shown in FIG. FIG. 13 is a front view showing the opening / closing device in a state where the movable piece is in the middle of changing from the open state to the closed state. 14 is a rear view of the switchgear shown in FIG.

In the following description, the inside means the inside of the pair of movable pieces 610 (sides approaching each other). Moreover, the outside means the outside (side away from each other) of the pair of movable pieces 610.
As shown in FIGS. 5 to 7, when the movable piece solenoid 322 is not energized, the pair of movable pieces 610 constitute a closed state.
Specifically, as shown in FIG. 7, when the movable piece solenoid 322 is not energized, the plunger 323 of the movable piece solenoid 322 is disposed at the protruding position.
By arranging the plunger 323 at the protruding position, the second link member 830 is arranged at the lower position. That is, when the plunger 323 is arranged at the protruding position, the second link member 830 is rotated downward about the second support shaft 732. As a result, the operation hole 832 of the second link member 830 is moved downward.

  Moreover, the 1st link member 820 is arrange | positioned in an inner position by arrange | positioning the 2nd link member 830 in a downward position. That is, when the operation hole 832 of the second link member 830 is moved downward, the operation shaft 822 of the first link member 820 inserted through the operation hole 832 is pressed downward. . Thus, the first link member 820 is rotated about the first support shaft 731 in a direction in which the cam hole 823 is moved inward. Accordingly, the cam hole 823 of the first link member 820 is moved inward.

  Furthermore, the first link member 820 is disposed at the inner position, whereby the crank member 810 is disposed in the first state. That is, when the cam hole 823 of the first link member 820 is moved inward, the second operation shaft 812 of the crank member 810 inserted through the cam hole 823 is moved inward. . As a result, the first operation shaft 811 of the crank member 810 comes into contact with the second restriction surface 722 of the restriction hole 720 of the base member 700. Further, the crank member 810 is rotated around the first operation shaft 811 in a direction in which the second operation shaft 812 is moved upward and inward (hereinafter referred to as inward direction).

  Then, the second member provided to be concentric with the first operation shaft 811 when the first operation shaft 811 of the crank member 810 comes into contact with the second restriction surface 722 of the restriction hole 720. The second connecting shaft 634 of 630 is moved inward. As a result, the first member 610 is inclined inward. Further, when the crank member 810 is rotated inward, the second member 630 is rotated inward with respect to the first member 620 around the second connecting shaft 634. . As a result, the second member 630 is inclined toward the inside with respect to the first member 620. As described above, the pair of movable pieces 610 form a closed state.

Here, in this embodiment, in the pair of movable pieces 610 constituting the closed state, the distal end portions (the other end portions) of the second members 630 are in contact with each other. Thus, the closed state can be configured only by the pair of movable pieces 610. That is, it is possible to configure a closed state without providing a roof member.
In the opening / closing device 600 in which the pair of movable pieces 610 constitutes a closed state, when energization to the movable piece solenoid 322 is started (drive is started), the plunger 323 of the movable piece solenoid 322 is pulled upward.
When the plunger 323 is pulled upward, the second link member 830 is rotated upward about the second support shaft 732. Thereby, the operation hole 832 of the second link member 830 is moved upward.

Further, when the operation hole 832 of the second link member 830 is moved upward, the operation shaft 822 of the first link member 820 inserted through the operation hole 832 is pulled upward. Accordingly, the first link member 820 is rotated around the first support shaft 731 in a direction in which the cam hole 823 is moved outward. Therefore, the cam hole 823 of the first link member 820 is moved outward.
Further, when the cam hole 823 of the first link member 820 is moved outward, the second operation shaft 812 of the crank member 810 inserted through the cam hole 823 is moved outward.

  Then, when the second operation shaft 812 of the crank member 810 is moved outward, the first operation shaft 811 is moved outward along the restriction hole 720 of the base member 700. Further, when the first operation shaft 811 of the crank member 810 is moved outward, the first member 620 of the movable piece 610 faces outward with respect to the base member 700 about the first connection shaft 710. Is rotated. As a result, the first member 620 and the second member 630 of the movable piece 610 are both moved outward (in the opening direction). At this time, the rotation of the second member 630 relative to the first member 620 is not performed.

  Further, when the second operation shaft 812 of the crank member 810 is moved outward, the first operation shaft 811 of the crank member 810 is moved into the restriction hole 720 of the base member 700 as shown in FIGS. It contacts the first regulating surface 721. Thereby, the movement of the crank member 810 toward the outside of the first operation shaft 811 is blocked (restricted). Therefore, the outward rotation of the first member 620 relative to the base member 700 is prevented.

  If the first link member 820 is further rotated and the cam hole 823 is moved outward while the first operation shaft 811 is in contact with the first restriction surface 721, the second operation of the crank member 810 is performed. The shaft 812 is moved downward and outward along the cam hole 823. Accordingly, the crank member 810 is rotated around the first operation shaft 811 in a direction in which the second operation shaft 812 is moved downward and outward (hereinafter referred to as an outward direction). That is, the first operating shaft 811 of the crank member 810 is rotated outward while the movement is prevented. As a result, the second member 630 of the movable piece 610 is rotated outward (in the opening direction) with respect to the first member 620 around the second connecting shaft 634.

Then, as shown in FIGS. 8 to 10, the plunger 323 of the movable piece solenoid 322 is disposed at the retracted position, so that the pair of movable pieces 610 constitute an open state.
In each movable piece 610 constituting the open state, the first member 620 and the second member 630 are linearly arranged to constitute one prism. Thereby, the outer surface 621 of the first member 620 and the outer surface 631 of the second member 630 form a series of planes. Further, the inner surface 622 of the first member 620 and the inner surface 632 of the second member 630 form a series of planes. This makes it possible to smoothly flow the game ball into the entrance 210.

Moreover, each movable piece 610 which comprises the open state will be in the state which inclined the upper end side toward the outer side.
In the opening / closing device 600 in which the pair of movable pieces 610 constitutes an open state, when energization to the movable piece solenoid 322 is stopped, the plunger 323 of the movable piece solenoid 322 is pushed downward.
When the plunger 323 is pushed downward, the second link member 830 is rotated downward about the second support shaft 732. Thereby, the operation hole 832 of the second link member 830 is moved downward.

Further, when the operation hole 832 of the second link member 830 is moved downward, the operation shaft 822 of the first link member 820 inserted through the operation hole 832 is pushed downward. As a result, the first link member 820 is rotated around the first support shaft 731 in a direction in which the cam hole 823 is moved inward. Accordingly, the cam hole 823 of the first link member 820 is moved inward.
Further, when the cam hole 823 of the first link member 820 is moved inward, the second operation shaft 812 of the crank member 810 inserted through the cam hole 823 is moved inward.

  Then, when the second operation shaft 812 of the crank member 810 is moved inward, the first operation shaft 811 is moved inward along the restriction hole 720 of the base member 700. Further, when the first operation shaft 811 of the crank member 810 is moved inward, the first member 620 of the movable piece 610 is directed inward with respect to the base member 700 around the first connection shaft 710. Is rotated. As a result, the first member 620 and the second member 630 of the movable piece 610 are both moved inward (in the closing direction). At this time, the rotation of the second member 630 relative to the first member 620 is not performed.

  Further, when the second operation shaft 812 of the crank member 810 is moved inward, the first operation shaft 811 of the crank member 810 is moved into the restriction hole 720 of the base member 700 as shown in FIGS. The second regulating surface 722 is contacted. Thereby, the movement of the crank member 810 toward the inside of the first operation shaft 811 is prevented (restricted). Accordingly, the inward rotation of the first member 620 relative to the base member 700 is prevented.

  When the cam hole 823 is moved inward by the rotation of the first link member 820 while the first operation shaft 811 is in contact with the second restriction surface 722, the second operation shaft of the crank member 810 is moved. 812 is moved along the cam hole 823 upward and inward. Accordingly, the crank member 810 is rotated inward about the first operation shaft 811. That is, the first operating shaft 811 of the crank member 810 is rotated inward while being prevented from moving. Accordingly, the second member 630 of the movable piece 610 is rotated inward (in a closing direction) with respect to the first member 620 around the second connection shaft 634.

Here, in the present embodiment, the second member 630 is configured to rotate inward with respect to the first member 620 after the first operation shaft 811 contacts the second restriction surface 722. However, when the first operating shaft 811 exceeds the vertical line x, the second member 630 may be configured to rotate inward with respect to the first member 620 by its own weight.
As shown in FIGS. 5 to 7, the plunger 323 of the movable piece solenoid 322 is arranged at the protruding position, so that the pair of movable pieces 610 constitute a closed state.

As described above, in the opening / closing device 600, the operation of moving the first member 620 and the second member 630 by driving the movable piece solenoid 322 and the operation of rotating the second member 630 relative to the first member 620. And can be done.
Therefore, according to the opening / closing device 600, the movable range of each of the pair of movable pieces 610 can be expanded with a simple configuration.
Further, in the opening / closing device 600, in a state where the first restriction surface 721 or the second restriction surface 722 does not restrict the movement of the first operation shaft 811 of the crank member 810, the first operation shaft 811 is moved, The first member 620 and the second member 630 are moved.

On the other hand, in a state where the first restriction surface 721 or the second restriction surface 722 restricts the movement of the first operation shaft 811, the first operation shaft 811 is not moved, but the second operation shaft 812 is moved. The first operation shaft 811 is rotated, and the second member 630 is rotated with respect to the first member 620.
Therefore, according to the opening / closing device 600, the operation of bringing the pair of movable pieces 610 into an open state or a closed state can be performed in stages.

(Modification)
As mentioned above, although embodiment of this invention was described, in the said embodiment, a various change is possible.
For example, in each of the above embodiments, the movable piece solenoid 322 is provided corresponding to each of the pair of movable pieces 610. However, a configuration in which the pair of movable pieces 610 is driven by one movable piece solenoid 322 may be employed.

In the present embodiment, the first operation shaft 811 is fixed to the second member 630. However, the first operating shaft 811 may be fixed to the connecting plate 813.
Further, the shapes of the first member 620 and the second member 630 can be appropriately changed.
Further, in each of the above embodiments, the case where the opening / closing device 600 according to the present invention is provided on the game board surface 100 of the pachinko machine 1 has been described. However, the present invention is not limited to this, and other amusement games are within the scope of the present invention. It can also be applied to gaming machines such as machines.

DESCRIPTION OF SYMBOLS 1 Pachinko machine 100 Game board surface 104 Game area 200 Equipment apparatus 110 1st start winning opening 120 Starting gate 130 2nd starting winning opening 131 Opening and closing member 140 Large winning opening 141 Opening and closing member 170 Status display device 210 Entrance opening 220 Game ball guidance Part 230 Specific winning port 240 Discharge port 310 First starting winning port switch 312 Second starting winning port switch 311 Start gate switch 313 Large winning port switch 317 Specific winning port switch 322 Movable piece solenoid 323 Plunger 324 Coil unit 325 Coupling shaft 400 Main Control device 500 Sub control device 600 Opening / closing device 610 Movable piece 620 First member 621 Outer side surface 622 Inner side surface 623 First bearing hole 624 Connection portion 625 Second bearing hole 630 Second member 631 Outer surface 632 Inner side surface 633 Connection portion 634 Two connection shafts 700 Base member 710 First connection shaft 720 Restriction hole 721 First restriction surface 722 Second restriction surface 731 First support shaft 732 Second support shaft 800 Link mechanism 810 Crank member 811 First operation shaft 812 Second operation shaft 813 Connection plate 814 Fitting recess 820 First link member 821 Bearing portion 822 Operation shaft 823 Cam hole 830 Second link member 831 Bearing portion 832 Operation hole 833 Connection hole

Claims (5)

A base member;
A pair of movable members attached to the base member and capable of constituting an open state in which a game ball can flow into the predetermined area and a closed state in which the game ball cannot flow into the predetermined area With a piece,
A drive source for driving each of the pair of movable pieces;
A link mechanism that is provided corresponding to each of the pair of movable pieces and that transmits the movement of the drive source to the corresponding movable piece;
Each of the pair of movable pieces includes a first member rotatably connected to the base member by a first connecting shaft, and a first member rotatably connected to the first member by a second connecting shaft. Two members,
The link mechanism includes a crank member having a first operation shaft and a second operation shaft that are provided eccentric to each other, and a link member that transmits the movement of the drive source to the crank member,
The first operating shaft is fixed to the second member so as to be concentric with the second connecting shaft;
The link member transmits the movement of the drive source to the second operation shaft.   The opening / closing apparatus according to claim 1, wherein the base portion is provided with a restriction portion that restricts movement of the first operation shaft. Each of the first member and the second member is formed in a rod shape,
The first connecting shaft connects one end of the first member and the base member,
3. The switchgear according to claim 1, wherein the second connecting shaft connects the other end of the first member and one end of the second member.   When the pair of movable pieces constitutes the closed state, the other end portion of the second member of one movable piece and the other end portion of the second member of the other movable piece are in contact with each other. The switchgear according to claim 3, wherein the switchgear is provided. Each of the first member and the second member has a planar inner surface,
When the pair of movable pieces constitutes the open state, in each movable piece, the inner surface of the first member and the inner surface of the second member are a series. The switchgear according to claim 3 or 4.

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