JP4649994B2 - Game machine - Google Patents

Description

  The present invention relates to a gaming machine provided with a hinge device.

  Conventionally, gaming machines such as pachinko machines and slot machines are provided with opening and closing parts such as a front frame assembled with main parts such as gaming machines and a front frame assembled with a glass window. These opening / closing sections are configured to be openable and closable using hinges in order to inspect and repair the inside of the gaming machine. By the way, in recent years, there is a tendency that a three-dimensional decorative member protruding forward is provided on the front surface of the gaming machine (for example, the front surface of the front frame). Therefore, when opening the opening / closing part (for example, the front frame) provided with such a three-dimensional decorative member, the decorative member is connected to a device (for example, another gaming machine or ball lending device) provided next to the gaming machine. In order to suppress contact with the machine, a method using a hinge device having a link mechanism has been proposed (for example, see Patent Document 1).

JP-A-9-253302

  Moreover, since various decorative members tend to be provided in the opening / closing part of a recent gaming machine, the weight of the opening / closing part itself tends to be heavy (for example, it may be about 7 kg). As a result, in order to make the strength of the hinge device capable of withstanding the weight of the opening / closing portion, the hinge device may be increased in size.

  The present invention has been made to solve the above-described conventional problems, and an object of the present invention is to provide a technique capable of reducing the size of a hinge device used in a gaming machine.

In order to solve at least a part of the above problems, a gaming machine according to the present invention includes a frame, an opening / closing part, and a hinge device for connecting the opening / closing part to the frame so as to be openable and closable. The hinge device is a first link plate having a fixing portion fixed to the frame, an opening / closing fixing portion fixed to the opening / closing portion, first to third shafts, and a longitudinal direction and a lateral direction. The first end is connected to the fixed portion so that one end in the longitudinal direction can be rotated by the first shaft, and the other end is connected to the open / close fixed portion so as to be rotatable by the second shaft. A link plate, and a second link plate having a longitudinal direction and a short direction, wherein one end in the longitudinal direction is opposite to the end in the longitudinal direction of the end connected to the fixed portion in the first link plate. The end and the open / close fixing portion are respectively connected to be rotatable by the second shaft. A third link plate having a second link plate connected to the open / close fixing portion so that the other end is rotatable by the third shaft, and a longitudinal direction and a short direction, One end of the second link plate is connected to the end opposite to the end connected to the first link plate and the open / close fixing portion in the second link plate, and the open / close fixing portion by the third shaft, respectively. A third link plate rotatably connected to the spring, and one end of the third link plate is opposite to the end of the third link plate connected to the second link plate and the opening / closing fixing portion in the longitudinal direction. The other end is connected to the fixed portion, and the opening and closing portion is disposed along the direction from the second axis to the first axis in the closed state, and the third link The third link in a direction from the plate toward the fixed portion And the fixing portion receives a vertical force from at least one link plate of the first to third link plates when the opening / closing portion is in an open state. The second shaft is disposed with the spring across a virtual straight line connecting the first shaft and the third shaft when the opening / closing portion opens. It is configured to move from the side to the side where the spring is not arranged.

In this gaming machine, when the opening / closing part is opened , the second axis is arranged with the spring from the side where the spring is arranged across a virtual straight line connecting the first axis and the third axis. Since the second shaft is positioned on the side where the spring is arranged with respect to the virtual straight line when the opening / closing part is closed, it is attached by the spring. The force acts as a force in the direction of closing the opening / closing part, and when the opening / closing part opens, the second axis is located on the side where the spring is not arranged with respect to the virtual straight line. Works as a force in the closing direction. Therefore, it can suppress that an opening-and-closing part opens unintentionally and closes unintentionally.

  In the gaming machine, the link mechanism includes a plurality of link members, and at least a part of the plurality of link members is in a direction opposite to a direction in which the closed opening / closing portion opens. The supporting portion may be configured to receive a force in a vertical direction in contact with the protruding portion when the opening / closing portion is in an open state.

  According to this configuration, the position at which the support portion receives the force is on the side opposite to the position of the open / closed portion when viewed from the link member in contact with the support portion. Therefore, it is possible to reduce the size of the hinge device.

  In the above gaming machine, the link mechanism includes a plurality of link members, and the hinge device further includes at least one of a shaft and a shaft hole and an opening / closing fixing portion fixed to the opening / closing portion. The plurality of link members include a shaft member having at least the other of a shaft and a shaft hole for connecting the open / close fixing portion, and the support portion includes a horizontal position of the shaft and a horizontal position of the shaft. Further, it may be configured to receive force from at least a part of the plurality of link members at a horizontal position closer to a horizontal position of the center of gravity of the opening / closing portion than the horizontal position. .

  According to this configuration, the support portion receives force from the link member at at least one of the horizontal position of the shaft and the horizontal position closer to the horizontal position of the center of gravity of the opening / closing portion than the horizontal position of the shaft. Therefore, the strength of the hinge device is improved, and the hinge device can be downsized.

  In the above gaming machine, when the opening / closing fixing part and the link mechanism are connected by a plurality of axes, and the axis of the plurality of axes closest to the horizontal position of the center of gravity of the opening / closing part is referred to as the nearest axis In addition, the support portion has the plurality of link members at at least one of a horizontal position of the nearest axis and a horizontal position closer to the horizontal position of the center of gravity of the opening / closing portion than the horizontal position of the nearest axis. It is good also as being comprised so that the force from at least one part may be received.

  According to this configuration, the opening / closing fixing part and the link mechanism are connected by a plurality of axes, and the support part is closer to the horizontal position of the nearest axis and the horizontal position of the center of gravity of the opening / closing part than the horizontal position of the nearest axis Since the force from the link member is received at at least one of the horizontal positions, the strength of the hinge tool is improved, and the hinge tool can be downsized.

  In each of the above gaming machines, the hinge device includes an upper hinge device provided relatively vertically above and a lower hinge device provided relatively below vertically, and the link of the upper hinge device Each of the mechanism and the link mechanism of the lower hinge tool is composed of a plurality of link members, and the upper hinge tool further has at least one of a shaft and a shaft hole and is fixed to the opening / closing portion. And the plurality of link members of the upper hinge include an upper shaft member having at least the other of a shaft and a shaft hole for connecting the upper opening / closing fixing portion, and the lower hinge The tool further includes at least one of a shaft and a shaft hole and a lower opening / closing fixing part fixed to the opening / closing part, and the plurality of link members of the lower hinge tool include the lower opening / closing fixing part. A length of a portion inserted into the shaft hole of the shaft for connecting the upper opening / closing fixing portion and the upper shaft member, including a lower shaft member having at least the other of a shaft and a shaft hole for connection May be shorter than the length of the portion inserted into the shaft hole of the shaft for connecting the lower opening / closing fixing portion and the lower shaft member.

  According to this configuration, when the opening / closing part is connected to the frame body, the upper shaft can be attached to the bearing part after the lower shaft is attached to the bearing part, so that the opening / closing part can be easily connected. Can be.

  Each of the above gaming machines further includes an outer frame body to which the frame body is connected to be openable and closable, and the hinge device further includes at least one of a shaft and a shaft hole and is fixed to the outer frame body. An outer frame fixing portion may be included, and the fixing portion may include at least the other of a shaft and a shaft hole for connecting the outer frame fixing portion.

  According to this configuration, since the hinge tool is shared by the connection between the frame body and the opening / closing portion and the connection between the outer frame body and the frame body, the location of the frame body for attaching the hinge tool becomes excessively wide. This can be prevented.

  In addition, this invention can be implement | achieved with various forms, for example, can be implement | achieved with forms, such as a hinge device for game machines, a game machine provided with the hinge device.

Hereinafter, embodiments of the present invention will be described in the following order based on examples.
A. First embodiment:
B. Second embodiment:
C. Third embodiment:
D. Variation:

A. First embodiment:
FIG. 1 is a front view of a pachinko gaming machine as an embodiment of the present invention. The pachinko gaming machine 900 includes an outer frame 10, an inner frame 20 provided on the front surface of the outer frame 10, and a front frame 30 provided on the front surface of the inner frame 20. Each of these frames 10, 20, and 30 is squarely assembled using wood, synthetic resin, metal, or the like. Further, an upper hinge device 80 is provided at the upper left of the pachinko gaming machine 900, and a lower hinge device 90 is provided at the lower left. These hinge tools 80 and 90 connect the outer frame 10 and the inner frame 20 so that they can be opened and closed, and further connect the inner frame 20 and the front frame 30 so that they can be opened and closed. The front frame 30 has a glass window 32, and a three-dimensional decorative member 34 is provided around the glass window 32. Various game machines are attached to the inner frame 20. A part of these gaming machines is arranged so as to be seen through the glass window 32 (not shown).

  FIG. 2 is a perspective view of the pachinko gaming machine 900 with the front frame 30 opened. The outer frame front direction 10F is a direction toward the front of the outer frame 10, the inner frame front direction 20F is a direction toward the front of the inner frame 20, and the front frame front direction 30F is toward the front of the front frame 30. Direction. An upper front bearing portion 300 is fixed to the upper left of the front frame 30 as viewed from the front, and a lower front bearing portion 600 is fixed to the lower left of the front frame 30. On the other hand, the upper inner shaft portion 200 is fixed to the upper left of the inner frame 20 as viewed from the front, and the lower inner shaft / bearing portion 500 is fixed to the lower left. The upper inner shaft portion 200 and the upper front bearing portion 300 are rotatably assembled, and the lower inner shaft / bearing portion 500 and the lower front bearing portion 600 are also rotatably assembled (details will be described later). ).

  FIG. 3 is a perspective view of the pachinko gaming machine 900 with the inner frame 20 removed from the outer frame 10. The upper outer bearing portion 100 is fixed to the upper left of the outer frame 10 as viewed from the front, and the lower outer shaft portion 400 is fixed to the lower left. The upper outer bearing portion 100 and the upper inner shaft portion 200 are rotatably assembled, and the lower outer shaft portion 400 and the lower inner shaft / bearing portion 500 (FIG. 2) are also rotatably assembled. (Details will be described later).

  FIG. 4 is a perspective view showing the configuration of the upper hinge tool 80. The upper hinge tool 80 includes an upper outer bearing portion 100, an upper inner shaft portion 200, and an upper front bearing portion 300.

  The upper outer bearing portion 100 has a shaft hole 132, and the upper inner shaft portion 200 has a shaft 232. The shaft 232 is inserted into the shaft hole 132, and the upper outer bearing portion 100 (outer frame 10) and the upper inner shaft portion 200 (inner frame 20) can rotate about the shaft 232.

  Specifically, the upper outer bearing portion 100 includes an L-shaped fixing portion 120 that is fixed in contact with the upper surface and the left side surface of the outer frame 10, and an outer frame front direction 10F from the upper surface portion of the fixing portion 120. And a flat plate-like bearing portion 140 extending toward the surface. A shaft hole 132 is provided at the end of the bearing 140 along the vertical direction. The fixed part 120 and the bearing part 140 are integrally formed by bending a metal plate.

  The upper inner shaft portion 200 has a U-shaped fixing portion 202 that is fixed to the inner frame 20. The fixing portion 202 includes a flat side surface portion 220 fixed to a vertical surface of the inner frame 20, a flat bottom surface portion 210 extending from the lower portion of the side surface portion 220 toward the inner frame front direction 20F, and a side surface. A flat plate-like upper surface portion 230 extending from the upper portion of the portion 220 toward the inner frame front direction 20F. Each surface part 210, 220, 230 is integrally formed by bending a metal plate. A shaft 232 extending downward in the vertical direction is provided on the left front side of the upper surface portion 230. The shaft 232 is inserted into the shaft hole 132 of the upper outer bearing portion 100. In addition, a notch 233 is provided on the shaft 232 side of the connection portion (bending portion) between the upper surface portion 230 and the side surface portion 220. When the inner frame 20 is closed toward the outer frame 10, the bearing portion 140 of the upper outer bearing portion 100 is inserted into the notch 233.

  Further, a link mechanism 290 is connected to the bottom surface portion 210 of the upper inner shaft portion 200, and the link mechanism 290 has two shafts 252 and 254. On the other hand, the upper front bearing portion 300 has two shaft holes 352 and 354. The first front shaft 252 is inserted into the first front shaft hole 352, and the second front shaft 254 is inserted into the second front shaft hole 354. As a result, the upper front bearing portion 300 (front frame 30) and the upper inner shaft portion 200 (inner frame 20) can be rotated.

  Specifically, the upper front bearing portion 300 includes a flat plate-like fixing portion 320 that is fixed to a vertical surface of the front frame 30, and a rear surface from the upper portion of the fixing portion 320 (a direction opposite to the front frame front direction 30F). A flat plate-like upper surface portion 330 extending toward the surface. The upper surface portion 330 is provided with shaft holes 352 and 354 along the vertical direction. These shaft holes 352 and 354 are arranged along a direction perpendicular to the front frame front direction 30F. Further, the fixing portion 320 and the upper surface portion 330 are integrally formed by bending a metal plate.

  On the other hand, the link mechanism 290 of the upper inner shaft portion 200 includes a fixed link plate 240, an intermediate link plate 250, and a slide link plate 260. These link plates 240, 250, and 260 are formed by processing metal plates. One end of the fixed link plate 240 is connected to the right front of the bottom surface portion 210 so as to be rotatable by a fixed shaft 242. The other end of the fixed link plate 240 is connected to one end of the intermediate link plate 250 so as to be rotatable by the first front shaft 252. The other end of the intermediate link plate 250 is connected to the slide link plate 260 so as to be rotatable by the second front shaft 254. The slide link plate 260 is slidably connected to the bottom surface portion 210 by two slide shafts 266 and 268. The two link plates 240 and 260 are placed on the bottom surface portion 210, and the intermediate link plate 250 is placed on the two link plates 240 and 260. Further, the slide link plate 260 is provided with a protrusion 262 extending in the rear direction opposite to the inner frame front direction 20F. The protrusion 262 is inserted into a groove 222 provided in the side surface 220 along the horizontal direction. Details of the operation of the link mechanism 290 will be described later. Further, the two shafts 252 and 254 of the link mechanism 290 extend upward in the vertical direction and are inserted into the two shaft holes 352 and 354 of the upper front bearing portion 300.

  FIG. 5 is a perspective view showing the configuration of the lower hinge tool 90. The lower hinge tool 90 includes a lower outer shaft portion 400, a lower inner shaft / bearing portion 500, and a lower front bearing portion 600.

  The lower outer shaft portion 400 has a shaft 412, and the lower inner shaft and bearing portion 500 has a shaft hole 512. The shaft 412 is inserted into the shaft hole 512, and the lower outer shaft portion 400 (outer frame 10) and the lower inner shaft / bearing portion 500 (inner frame 20) are rotatable about the shaft 412.

  Specifically, the lower outer shaft portion 400 includes a fixing portion 410 that is fixed to the upper surface of the bottom side 12 of the outer frame 10. The fixing portion 410 has a horizontal flat plate shape extending toward the outer frame front direction 10F, and a shaft 412 extending upward in the vertical direction is provided on the left front side thereof. On the other hand, the lower inner shaft / bearing portion 500 has an L-shaped fixing portion 502 fixed to the inner frame 20. The fixing portion 502 includes a flat plate-like side surface portion 520 fixed to a vertical surface of the inner frame 20, and a flat plate-shaped bottom surface portion 510 extending from the lower portion of the side surface portion 520 toward the inner frame front direction 20F. Have. The surface portions 510 and 520 are integrally formed by bending a metal plate. A shaft hole 512 along the vertical direction is provided on the left front side of the bottom surface portion 510. The shaft 412 of the lower outer shaft portion 400 is inserted into the shaft hole 512.

  A link mechanism 590 is connected to the bottom surface portion 510. The link mechanism 590 has the same configuration as the link mechanism 290 of the upper inner shaft portion 200 (FIG. 4) described above, and has two shafts 552 and 554. On the other hand, the lower front bearing portion 600 has two shaft holes 652 and 654. The first front shaft 552 is inserted into the first front shaft hole 652, and the second front shaft 554 is inserted into the second front shaft hole 654. As a result, the lower front bearing portion 600 (front frame 30) and the lower inner shaft / bearing portion 500 (inner frame 20) can rotate.

  Specifically, the lower front bearing portion 600 is fixed to the vertical surface of the front frame 30 and is directed from the lower portion of the fixed portion 620 to the rear surface (the direction opposite to the front frame front direction 30F). And a flat bottom portion 610 extending in the direction. The bottom surface portion 610 is provided with shaft holes 652 and 654 along the vertical direction. These shaft holes 652 and 654 are arranged along a direction perpendicular to the front frame front direction 30F. On the other hand, the link mechanism 590 of the lower inner shaft / bearing portion 500 includes a fixed link plate 540, an intermediate link plate 550, and a slide link plate similar to the link mechanism 290 of the upper inner shaft portion 200 (FIG. 4) described above. 560. The first front shaft 552 and the second front shaft 554 that connect the intermediate link plate 550 and the other link plates 540 and 560 extend upward in the vertical direction, and the two of the lower front bearing portions 600 are connected to each other. The shaft holes 652 and 654 are inserted.

  FIG. 6 shows a change in the shape of the link mechanism 590 as the front frame 30 is opened and closed. FIG. 6 shows a top view of the lower inner shaft / bearing portion 500. In FIG. 6, the inner frame front direction 20F is a downward direction. 6A shows the case where the front frame 30 is in the closed state, FIG. 6B shows the state where the front frame 30 is opened, and FIG. 6C shows the state shown in FIG. In this state, the front frame 30 is further opened (fully opened state).

  The bottom surface portion 510 and the fixed link plate 540 are rotatably connected by a fixed shaft 542 at the front right side (lower right side in the figure) of the bottom surface portion 510. In the closed state of the front frame 30 (FIG. 6A), the fixed link plate 540 extends from the fixed shaft 542 to the left, and its end can be rotated by the intermediate link plate 550 and the first front shaft 552. It is connected to. The intermediate link plate 550 extends to the left from the first front shaft 552, and an end portion thereof is rotatably connected to the slide link plate 560 and the second front shaft 554. The slide link plate 560 extends rearward (upward in the drawing), and is connected to the bottom surface portion 510 by two slide shafts 566 and 568. The first slide shaft 566 is located on the rear side of the second front shaft 554 and is inserted into the first slide groove 516 provided in the bottom surface portion 510, and can move along the groove 516. The second slide shaft 568 is located on the right side of the first slide shaft 566 and is inserted into the second slide groove 518 provided in the bottom surface portion 510, and can move along the groove 518. The second slide groove 518 is formed so as to extend rightward from the position of the second slide shaft 568 in the closed state (FIG. 6A). On the other hand, the first slide groove 516 is formed so as to extend from the position of the first slide shaft 566 in the closed state in the diagonally forward right direction and then to change the direction in the right direction.

  A spring engagement portion 564 extending upward in the vertical direction is provided on the right side of the slide link plate 560 (FIG. 5), and a spring engagement extending toward the inner frame front direction 20F is provided on the right side of the side surface portion 520. A portion 524 is provided. The spring engaging portion 524 is located on the right side of the spring engaging portion 564 of the slide link plate 560. Further, a spring 504 is hung on these spring engaging portions 524 and 564. The slide link plate 560 is urged rightward by the spring 504.

  When the front frame 30 is opened, the fixed link plate 540 is rotated toward the front, and the first front shaft 552 (intermediate link plate 550) is also moved toward the front. Then, the slide link plate 560 is pulled by the intermediate link plate 550 and moves rightward (FIG. 6B). Here, since the intermediate link plate 550 is urged to the right by the spring 504, it can move smoothly. In addition, the first slide shaft 566 moves in the right direction after moving in the diagonally forward right direction. As a result, the second front shaft 554 moves obliquely right forward and then moves right behind the first front shaft 552 (FIG. 6C).

  By the way, the front frame 30 is rotated and opened about the second front shaft 554 located on the left side when viewed from the front. At this time, the shaft 554 moves in the right direction as described above. As a result, when the front frame 30 is opened, the entire front frame 30 moves to the right, so that the three-dimensional decorative member 34 (FIG. 1) provided on the front frame 30 moves to the left of the pachinko gaming machine 900. It becomes possible to suppress contact with the equipment (for example, other pachinko gaming machines and ball lending machines). Therefore, the degree of freedom of the size and shape of the decorative member 34 provided on the front frame 30 can be increased.

  Further, the slide link plate 560 has a protruding portion 562 that protrudes in the backward direction opposite to the direction in which the closed front frame 30 opens (inner frame forward direction 20F). The protruding portion 562 is inserted into a groove 522 provided in the side surface portion 520 along the horizontal direction (FIG. 5). The protrusion 562 is positioned on the left side of the groove 522 in the open state (FIG. 6A), and moves to the right side of the groove 522 by opening the front frame 30 (FIGS. 6B and 6C).

  FIG. 7 is a schematic side view of the lower inner shaft / bearing portion 500 viewed from the left when the front frame 30 is in the open state (FIGS. 6B and 6C). In FIG. 7, the inner frame front direction 20F is the right direction.

  A slide link plate 560 and a fixed link plate 540 are placed on the bottom surface portion 510. The protruding portion 562 of the slide link plate 560 is inserted into a groove 522 provided in the side surface portion 520. The inner frame 20 is also provided with a groove for the protrusion 562 to move (not shown).

  An intermediate link plate 550 is placed on the fixed link plate 540 and the slide link plate 560. Further, the first front shaft 552 and the second front shaft 554 extend further upward from the intermediate link plate 550 in the vertical direction. On the intermediate link plate 550, the bottom surface portion 610 fitted into the shafts 552 and 554 is located.

  When the front frame 30 is in the open state, the intermediate link plate 550 receives a load from the bottom surface portion 610 (front frame 30) and tends to tilt so that the inner frame front direction 20F side is down. Then, the slide link plate 560 connected to the intermediate link plate 550 tends to tilt so that the rear side is up. Even in such a case, since the protrusion 562 provided on the rear side of the slide link plate 560 is pressed downward in the vertical direction by the side surface portion 520, the link mechanism 590, that is, the front frame 30 is prevented from being inclined. .

  Thus, in the link mechanism 590 of the present embodiment, when the front frame 30 is in the open state, the side surface portion 520 receives the vertical force from the slide link plate 560, so that the link mechanism 590 has an unintended shape. Deformation can be suppressed and the strength of the link mechanism 590 can be improved. As a result, the link mechanism 590 can be reduced in size. Further, since a heavier front frame 30 can be assembled, a wider variety of gaming machines can be provided. In the present embodiment, the portion of the side surface portion 520 that receives a force from the slide link plate 560 in the open state (the upper right portion of the groove 522) corresponds to the “support portion”.

  The link mechanism 590 of the lower inner shaft / bearing portion 500 has been described above, but the configuration and function of the link mechanism 290 of the upper inner shaft portion 200 are the same. In the present embodiment, the upper front bearing portion 300 corresponds to an “upper opening / closing fixing portion”, and the lower front bearing portion 600 corresponds to a “lower opening / closing fixing portion”.

  Incidentally, the first front shaft 552 (FIG. 7) is provided with a flange 552s sandwiched between the intermediate link plate 550 and the bottom surface portion 610, and the second front shaft 554 is also provided with a similar flange 554s. Yes. As a result, the shafts 552 and 554 are inserted into the shaft holes 652 and 654 until the bottom surface portion 610 contacts the flanges 552s and 554s. The shaft length Ln in the figure indicates the length of the shaft inserted into the shaft hole (hereinafter referred to as “insertion shaft length”). In the example of FIG. 7, the insertion shaft lengths Ln of the two shafts 552 and 554 are the same. Similarly, the insertion shaft length can be defined for the first front shaft 252 and the second front shaft 254 of the upper inner shaft portion 200.

  Here, the insertion shaft length (hereinafter referred to as “upper insertion shaft length”) of the shafts 252 and 254 (FIG. 4) of the link mechanism 290 provided on the upper side is referred to as the shaft 552 of the link mechanism 590 provided on the lower side. It is preferable to make it shorter than the insertion axis length of 554 (hereinafter referred to as “lower insertion axis length”). In this way, while maintaining the state where the lower shafts 552 and 554 are inserted into the shaft holes 652 and 654, the front frame 30 is slightly shifted upward and the upper shafts 252 and 254 are inserted into the shaft holes 352 and 354, respectively. can do. As a result, the operation of attaching the front frame 30 to the inner frame 20 can be facilitated. Here, the difference between the upper insertion shaft length and the lower insertion shaft length is preferably 3 mm or more, particularly preferably 5 mm or more, and most preferably 7 mm or more.

  Further, as shown in FIG. 6, the slide link plate 560 of the lower inner shaft and bearing portion 500, that is, the second front shaft 554 is urged by the spring 504 in the direction toward the fixed shaft 542 (right direction). ing. Here, in the closed state (FIG. 6A), the center C of the first front shaft 552 located between the shafts 554 and 542 is a virtual straight line connecting the centers of the shafts 554 and 542. It is located behind L (the direction opposite to the inner frame front direction 20F). When the front frame 30 is opened from this state, the center C crosses the virtual straight line L and moves to the front side of the virtual straight line L (inner frame front direction 20F) (FIGS. 6B and 6C).

  Therefore, in the closed state, the urging force by the spring 504 acts as a force for moving the first front shaft 552 further rearward from the virtual straight line L, that is, a force for closing the front frame 30. On the other hand, in the open state (FIGS. 6B and 6C), the biasing force by the spring 504 is in the direction of moving the first front shaft 552 further forward than the virtual straight line L, that is, in the direction of opening the front frame 30. Work as a force. In this manner, the spring 504 biases the force in a direction to maintain the open state when the front frame 30 is in the open state, and in the direction to maintain the closed state when the front frame 30 is in the closed state. Energize power. In other words, the link mechanism 590 is configured such that the direction of the urging force is switched from the closing direction to the opening direction while opening the front frame 30. Therefore, it is possible to suppress the front frame 30 from being opened unintentionally and being closed unintentionally. The same applies to the upper link mechanism 290 (FIG. 4).

  As described above, the configuration of the mechanism in which the direction of the urging force is switched from the closing direction to the opening direction in the middle of opening the front frame 30 is not limited to the configuration of the link mechanism 590 shown in FIG. can do. However, a link mechanism that does not urge such force may be adopted as the hinge tool.

B. Second embodiment:
FIG. 8 is an explanatory diagram showing the configuration of the lower inner shaft / bearing portion 500a in the second embodiment. FIG. 8 shows a top view of the lower inner shaft / bearing portion 500a. The difference from the lower inner shaft / bearing portion 500 of the first embodiment shown in FIG. 6 is that the bottom surface portion 510a is extended in the inner frame front direction 20F. Further, the protrusion 562 is omitted from the slide link plate 560a, and the groove 522 is omitted from the side surface 520a. The structure of the other parts and the operation of the link mechanism 590a are the same as those of the lower inner shaft / bearing portion 500 (link mechanism 590 (FIG. 6)) of the first embodiment.

  FIG. 8 shows a change in the shape of the link mechanism 590a of the lower inner shaft / bearing portion 500a as the front frame 30 is opened and closed. 8A shows a case where the front frame 30 is in an open state, FIG. 8B shows a state where the front frame 30 is opened, and FIG. 8C shows a state shown in FIG. 8B. 3 shows a state where the front frame 30 is further opened (fully opened state). The shape of the link mechanism 590a in each state is the same as the shape of the link mechanism 590 shown in FIG.

  In the second embodiment, the link mechanism 590a is included in the area occupied by the bottom surface portion 510a regardless of whether the front frame 30 is opened or closed when viewed along the vertical direction. In other words, the range (trajectory) of the movable component (link plates 540, 550, 560a and shafts 542, 552, 554, 566, 568) of the link mechanism 590a that moves as the front frame 30 is opened and closed is When viewed along the vertical direction, it is within the range surrounded by the contour of the bottom surface portion 510a.

  FIG. 9 is an explanatory diagram showing a position where the bottom surface portion 510a supports the link mechanism 590a. FIG. 9 is a top view of the lower inner shaft / bearing portion 500a similar to FIG. FIG. 9A shows the same open state as FIG. 8B, and FIG. 9B shows the same fully open state as FIG. 8C.

  The hatched portion in the drawing shows a portion closer to the center of gravity 30c of the front frame 30 than the first front shaft 552, in the portion where the bottom surface portion 510a supports the link mechanism 590a. Specifically, the horizontal distance from the center of gravity 30c is a portion shorter than the horizontal distance between the center of gravity 30c and the center C of the first front shaft 552. Here, the “horizontal distance” means a distance between horizontal positions. The “horizontal position” means a position obtained by projecting on a horizontal plane perpendicular to the vertical direction. An arc 30arc in the figure is an arc centered on the horizontal position of the center of gravity 30c and passing through the horizontal position of the center C of the first front shaft 552. The hatching is given to the inner part of the arc 30 arc in the part in contact with the fixed link plate 540 of the bottom part 510 a.

  The load on the front frame 30 is mainly applied to the two shafts 552 and 554 connected to the lower front bearing portion 600 fixed to the front frame 30. In particular, when the front frame 30 is opened, the front frame 30 is supported by these shafts 552 and 554. Even in such a case, since these two shafts 552 and 554 are supported upward in the vertical direction by the bottom surface portion 510a, the front frame 30 is suppressed from being inclined. As a result, the strength of the link mechanism 590a is improved, and the link mechanism 590a can be downsized.

  Here, the first front shaft 552 is the shaft having the shortest horizontal distance from the center of gravity 30c among all the shafts 552 and 554 that connect the lower front bearing portion 600 and the link mechanism 590a (hereinafter referred to as “recent shaft”). Called). Since the bottom surface portion 510a supports the link mechanism 590a at the horizontal position of the nearest shaft 552, the effect of improving the strength of the link mechanism 590a becomes remarkable.

  Furthermore, in the example of FIG. 9, the bottom surface portion 510a is closer to the center of gravity 30c of the front frame 30 than the nearest axis 552 (the horizontal distance from the center of gravity 30c is short) (the hatched position in FIG. 9). The force from the link mechanism 590a (in the example of FIG. 9, fixed link board 540) is received. As a result, the tilt of the front frame 30 in the open state is suppressed, and the effect of improving the strength of the link mechanism 590a becomes particularly significant. As a result, it is possible to reduce the size of the hinge tool.

  In this embodiment, the portion of the bottom surface portion 510a that receives no force from the link mechanism 590a in the closed state and receives the force from the link mechanism 590a in the open state corresponds to the “support portion”.

  Although the lower inner shaft and bearing portion 500a has been described above, the configuration and function of the upper inner shaft portion are the same.

C. Third embodiment:
FIG. 10 is an explanatory diagram showing the configuration of the lower inner shaft / bearing portion 500b in the third embodiment. FIG. 10 shows a top view of the lower inner shaft / bearing portion 500b. The difference from the lower inner shaft / bearing portion 500 of the first embodiment shown in FIG. 6 is that the spring 504b is provided on the back side of the side surface portion 520b (the side opposite to the inner frame front direction 20F). is there. The configuration of the other parts and the operation of the link mechanism 590b are the same as those of the lower inner shaft / bearing portion 500 (link mechanism 590 (FIG. 6)) of the first embodiment.

  A hole 563b is provided in the protrusion 562b of the slide link plate 560b of the third embodiment. The hole 563b is provided in a portion of the protruding portion 562b protruding to the back side of the side surface portion 520b. Further, the spring engaging portion 524b of the third embodiment extends in the rear direction opposite to the inner frame front direction 20F. The spring 504b is hung on the hole 563b and the spring engaging portion 524b. As a result, the spring 504b is positioned behind the side surface portion 520b.

  Thus, in the lower inner shaft / bearing portion 500b of the third embodiment, the protrusion 562b protrudes to the rear side of the side surface portion 520b, and the spring 504b is hung on the protruding portion. As a result, since the spring 504b can be hidden behind the side surface portion 520b, it is possible to prevent foreign matter (for example, a game ball or a repair screw) from being caught by the spring 504b when the front frame 30 is opened. it can.

  Although the lower inner shaft and bearing portion 500b has been described above, the configuration and function of the upper inner shaft portion are the same.

  In addition, as a link mechanism, not only the link mechanism 590b shown in FIG. 10 but various link mechanisms are employable. In general, when the urging means is provided in the link mechanism, a wall having a hole is provided on the rear side of the link mechanism (the side opposite to the side where the opening and closing part is opened), and this wall is provided in a part of the link member It is preferable to provide a projecting portion that penetrates the hole and connect the biasing means to the projecting portion. In this way, the urging means can be hidden behind the wall, so that it is possible to prevent foreign matter from being caught by the urging means. The biasing means is not limited to a spring, and an elastic body such as rubber may be used.

D. Variation:
The present invention is not limited to the above-described examples and embodiments, and can be implemented in various modes without departing from the gist thereof. For example, the following modifications are possible.

Modification 1:
The configuration of the link mechanism is not limited to the configurations of the above-described embodiments, and other configurations can be employed. In any case, the hinge device has a fixing portion fixed to the frame body and a link mechanism connected to the fixing portion, and the support provided in the fixing portion when the opening / closing portion is in the open state. It is preferable that the portion receives a vertical force from the link mechanism. Further, it is preferable that the support portion is provided at a position where it does not receive a vertical force from the link mechanism when the opening / closing portion is in the closed state. In this way, the support portion receives force from the link mechanism in the open state in particular, so that the link mechanism in the open state, that is, the opening / closing portion can be appropriately prevented from tilting.

  Here, as in the first embodiment shown in FIGS. 4 to 7, a part of the link member has a protruding portion that extends in the backward direction, which is the direction opposite to the direction in which the closed opening / closing portion opens. The support part provided in the fixed part may be in contact with the protrusion and receive a vertical force. If it carries out like this, the position where a support part supports a link member will be located in the opposite side to the position of the opening-and-closing opening part seeing from the link member. As a result, the link mechanism in the open state, that is, the opening / closing portion is prevented from being inclined, and the hinge device can be downsized. Moreover, since it is prevented that a support part protrudes in the front surface of a hinge tool, it can suppress that a hinge tool influences the design of the front surface of an opening-and-closing part.

  In addition, the protrusion part of a link member is not restricted to what protrudes back irrespective of the opening-and-closing state of an opening-and-closing part, What is necessary is just to extend to the back of the link member in an open state. For example, you may move to the back of the link member by opening an opening-and-closing part.

  Further, as in the second embodiment shown in FIGS. 8 and 9, the support portion has a horizontal position of the nearest axis and a horizontal position closer to the horizontal position of the center of gravity of the opening / closing portion than the horizontal position of the nearest axis. It is good also as a structure which supports a link member in at least one horizontal position. Here, “nearest axis” means an axis used for connection between the opening / closing fixing part fixed to the opening / closing part and the link mechanism and whose horizontal position is closest to the horizontal position of the center of gravity of the opening / closing part. is doing. Here, when the support portion receives a force at the horizontal position of the nearest shaft, the support portion may receive the force directly in contact with the nearest shaft, or may receive the force in contact with another link member instead.

  Here, a configuration may be used in which the support portion receives force at the horizontal position of the nearest axis and does not receive force at a horizontal position where the horizontal distance from the center of gravity of the opening / closing portion is shorter than the nearest axis. By so doing, it is possible to reduce the size of the support portion. Further, a configuration may be used in which the force is not received at the horizontal position of the nearest axis, and the force is received at a horizontal position where the horizontal distance from the center of gravity of the opening / closing portion is shorter. Also in this case, since the opening / closing portion is prevented from being inclined, the entire hinge device can be downsized.

  Further, the number of shafts for connecting the open / close fixing portion and the link mechanism may be more than two or one. In any case, it is preferable to employ a configuration in which the support portion receives force from the link mechanism at least one of the horizontal position of the nearest axis and the horizontal position where the horizontal distance between the center of gravity of the opening and closing portion is shorter. In addition, when connecting an opening-and-closing fixing | fixed part and a link mechanism with one axis | shaft, it is preferable that the cross-sectional shape of an axis | shaft and a shaft hole shall be non-circular shape (for example, rectangular shape or elliptical shape). In this way, it is possible to prevent the opening / closing part from rotating even though the link mechanism is not moving.

Modification 2:
In each of the above-described embodiments, the insertion shaft lengths of the two front shafts (for example, the front shafts 252 and 254 in FIG. 4) of the upper inner shaft portion are the two front shafts (for example, FIG. 5 is preferably shorter than the insertion shaft length of the front shafts 552 and 554). This makes it easy to connect the front frame 30 to the inner frame 20.

  In general, when connecting the link mechanism provided on the frame and the opening / closing fixing part fixed to the opening / closing part using a combination of a shaft and a shaft hole at two locations, the upper and lower parts in the vertical direction. Preferably, the insertion shaft length of the upper shaft is shorter than the insertion shaft length of the lower shaft. At this time, the difference between the lower insertion shaft length and the upper insertion shaft length is preferably 3 mm or more, particularly preferably 5 mm or more, and most preferably 7 mm or more.

Modification 3:
In the above-described embodiment, the three frames of the outer frame 10, the inner frame 20, and the front frame 30 are connected to a common hinge (for example, the upper inner shaft portion 200 in FIG. 4 and the lower inner shaft / bearing portion in FIG. 5). 500), but may be connected using separate hinges. For example, a hinge tool for connecting the outer frame 10 and a hinge tool for connecting the front frame 30 may be separately provided on the inner frame 20. However, if it connects using a common hinge tool, it can prevent that the place requested | required in order to attach a hinge tool becomes large too much. In addition, the configuration of the hinge tool can be simplified.

Modification 4:
In each of the above-described embodiments, the relationship between the shaft of each hinge tool and the shaft hole may be reversed. However, if the shaft is provided in the link mechanism (for example, the link mechanism 590 in FIG. 5) and the shaft hole is provided in the open / close fixing portion (for example, the lower front bearing portion 600 in FIG. 5), the configuration of the link mechanism 590 is provided. Can be prevented from becoming excessively complicated.

1 is a front view of a pachinko gaming machine as an embodiment of the present invention. It is a perspective view of the pachinko gaming machine 900 in a state where the front frame 30 is opened. 2 is a perspective view of a pachinko gaming machine 900 with an inner frame 20 removed from an outer frame 10. FIG. 4 is a perspective view showing a configuration of an upper hinge tool 80. FIG. It is a perspective view which shows the structure of the lower hinge tool 90. FIG. The shape change of the link mechanism 590 accompanying opening and closing of the front frame 30 is shown. It is the schematic side view which looked at the lower inner shaft and bearing part 500 from the left. It is explanatory drawing which shows the structure of the lower side inner shaft and bearing part 500a in 2nd Example. It is explanatory drawing which shows the position where the bottom face part 510a supports the link mechanism 590a. It is explanatory drawing which shows the structure of the lower inner shaft and bearing part 500b in 3rd Example.

Explanation of symbols

10 ... Outer frame 12 ... Bottom 20 ... Inner frame 30 ... Front frame 30c ... Center of gravity 32 ... Glass window 34 ... Decoration member 80 ... Upper hinge 90 .. Lower hinge tool 100 ... Upper outer bearing portion 120 ... Fixed portion 132 ... Shaft hole 140 ... Bearing portion 200 ... Upper inner shaft portion 202 ... Fixed portion 204 ... Spring 210 ... bottom part 220 ... side part 222 ... groove 224 ... spring engaging part 230 ... top part 232 ... shaft 233 ... cut 240 ... fixed link plate 242. .. Fixed shaft 250 ... Intermediate link plate 252 ... First front shaft 254 ... Second front shaft 260 ... Slide link plate 262 ... Protrusion 264 ... Spring engaging portion 266. .. First slide shaft 268 ... Second slide shaft 290 ... Link mechanism 300 ... Upper front bearing portion 320 ... Fixed portion 330 ... Upper surface portion 352 ... First front shaft hole 354 ... Second front shaft hole 400 ... Lower outer shaft portion 410 ... fixed part 412 ... shaft 500, 500a, 500b ... lower inner shaft and bearing part 502 ... fixed part 504, 504b ... spring 510, 510a ... bottom part 512 ... Shaft hole 516 ... 1st slide groove 518 ... 2nd slide groove 520, 520a, 520b ... Side surface part 522 ... Groove 524, 524b ... Spring engagement part 540 ... Fixed link plate 542 ... Fixed shaft 550 ... Intermediate link plate 552 ... First front shaft 552s ... 鍔 554 ... Second front shaft 554s ... 鍔 560, 560a, 560b ... Slide link plate 562, 562b ... projection 563b ... hole 564 ... spring engagement part 566 ... first slide shaft 568 ... second slide shaft 590, 590a, 590b ... link mechanism 600 .. .Lower front bearing portion 610 ... bottom surface portion 620 ... fixed portion 652 ... first front shaft hole 654 ... second front shaft hole 900 ... pachi Nco game machine

Claims (1)

A gaming machine,
A frame,
An opening and closing part;
A hinge for connecting the opening / closing part to the frame so as to be opened and closed;
With
The hinge device is
A fixing part fixed to the frame;
An opening / closing fixing part fixed to the opening / closing part;
First to third axes;
A first link plate having a longitudinal direction and a lateral direction, wherein one end in the longitudinal direction is rotatably connected to the fixed portion by the first shaft, and the other end is rotated by the second shaft. A first link plate movably coupled to the open / close fixing portion;
A second link plate having a longitudinal direction and a short direction, wherein one end in the longitudinal direction is an end on the opposite side in the longitudinal direction of the end connected to the fixing portion in the first link plate; and A second link plate connected to the open / close fixing portion so as to be rotatable by the second shaft and having the other end connected to the open / close fixing portion so as to be rotatable by the third shaft;
A third link plate having a longitudinal direction and a short direction, wherein one end in the longitudinal direction is a longitudinal direction of an end of the second link plate connected to the first link plate and the opening / closing fixing portion. A third link plate rotatably connected to the opposite end and the open / close fixing portion by the third shaft,
One end of the spring is connected to the opposite end in the longitudinal direction of the end linked to the second link plate and the opening / closing fixing portion in the third link plate, and the other end is connected to the fixing portion And the opening / closing part is disposed along the direction from the second axis toward the first axis in the closed state, and the third link extends from the third link plate toward the fixing part. A spring that biases the plate,
Have
The fixing portion includes a support portion that receives a vertical force from at least one link plate of the first to third link plates when the opening / closing portion is in an open state,
When the opening / closing portion opens, the second shaft crosses a virtual straight line connecting the first shaft and the third shaft, and the spring is arranged from the side where the spring is arranged. Configured to move to the side that is not,
Gaming machine.

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