JP2018191685A - Game machine - Google Patents

Abstract

To provide a game machine capable of preventing a harness from being connected to a power supply box by mistake.SOLUTION: A game machine comprises: a game machine housing for storing a power supply box which supplies power to an appliance which is required for a game; and a power cable which is connected to the power supply box and which can be connected to an external power supply which supplies power to the power supply box. The power supply box comprises: a connector which is connected to a harness which can supply power to an appliance; a guard plate which can be moved between an exposure position where the connector is exposed to outside, and a blocking position for blocking the connector from outside; and a movement control part for controlling movement of the guard plate. The movement control part performs a control for moving the guard plate from the exposure position to the blocking position when power is supplied to the power supply box.SELECTED DRAWING: Figure 6

Description

  The present invention relates to a gaming machine in which electric power is supplied to various devices by connecting a harness to a power supply box.

  In conventional gaming machines such as pachinko machines and pachislot machines, a connector exposure opening is formed in the power supply box that houses the power supply board, and the connector on the power supply board side is exposed from this connector exposure opening. By connecting a connector on the harness side connected to various devices of the gaming machine, power is supplied to the various devices of the gaming machine via the harness.

  By the way, in the conventional gaming machine described above, an unauthorized person inserts a fraudulent instrument from a portion other than the connector in the connector exposure port of the power supply box, and the tip is brought into contact with the wiring portion of the wiring surface of the power supply board. In some cases, an illegal act such as causing a malfunction to a control board or the like for controlling the machine and illegally obtaining profits (for example, paying out medals or prize balls) may be performed. For this reason, for example, in Patent Document 1, an unauthorized access to a control board or the like is formed by forming a flange portion that closely adheres to the edge of the connector exposure opening on the edge of the connector exposure opening on the outer periphery of the connector cover opening that covers the harness-side connector. It is possible to prevent.

JP 2008-229168 A

  However, in the conventional connector cover described in Patent Document 1, for example, the harness-side connector is supplied with a power box (connector exposure port) when the power is on, or power higher than the original voltage value. It is not possible to prevent accidental insertion into the power supply box (connector exposure port). For this reason, in the conventional connector cover, the harness is erroneously connected to the power supply box by inserting the wrong connector on the harness side, thereby causing the power supply box itself to break down or being connected via the harness. Various devices of the gaming machine may be damaged.

  This invention is made | formed in view of such a condition, and it aims at providing the gaming machine which can prevent connecting a harness accidentally to a power supply box.

  The present invention employs the following configuration in order to solve the above-described problems. Note that reference numerals and the like in parentheses indicate correspondence with embodiments described later to help understanding of the present invention, and do not limit the scope of the present invention.

A gaming machine (10) which is one embodiment of the present invention is:
A gaming machine housing (1) in which a power supply box (3) for supplying power to equipment (4, 5, etc.) necessary for gaming is housed;
A power cord connected to the power supply box and connectable to an external power supply for supplying power to the power supply box, and a gaming machine comprising:
The power box is
A connector (32) connected to a harness (42) capable of supplying power to the device;
A guard plate (movable between an exposed position for exposing the connector to the outside (see, for example, FIG. 6 (1)) and a shielding position for shielding the connector from the outside (for example, see, FIG. 6 (2))). 75)
A movement control unit (7, 301) for controlling the movement of the guard plate,
The movement control unit controls the movement of the guard plate from the exposed position to the shielded position when power is supplied to the power supply box.

  According to this configuration, when power is supplied to the power supply box (when the power supply of the power supply box is turned on), the guard plate moves from the exposed position to the shielded position, thereby shielding the connector from the outside. As a result, the harness cannot be connected to the connector. For this reason, it is possible to prevent the harness from being erroneously connected to the connector (power supply box) when the power supply box is turned on.

Also,
The power supply box further includes a determination unit (3011) for determining whether power is supplied to the power supply box.
The movement control unit (301) performs control to move the guard plate from the exposure position to the shielding position based on the determination that the determination unit determines that power is supplied to the power supply box. May be a feature.

  According to this configuration, since the guard plate moves to the shielding position by determining whether the power supply to the power supply box has been performed or not, the power supply of the power supply box is more reliably turned on. It is possible to prevent the harness from being erroneously connected to the connector in the state.

Also,
The power box is
A switch (31) for supplying power to the power supply box when pressed;
A trigger portion (64) that moves when the switch is pressed,
The trigger portion is configured to be interlocked with the guard plate,
The movement control unit (7) may control the movement of the guard plate from the exposure position to the shielding position in conjunction with movement of the trigger unit.

  According to this configuration, when the switch for supplying power to the power supply box is pressed (that is, when the power supply box is turned on), the trigger portion moves, and the guard plate is exposed in conjunction with the movement of the trigger portion. Since it moves from the position to the shielding position, the guard plate can be mechanically moved to the shielding position simply by pressing a switch for supplying power to the power supply box. For this reason, it is possible to more easily prevent the harness from being erroneously connected to the connector when the power supply box is powered on.

Also,
When the guard plate is moved to the shielding position by the movement control unit, the guard plate may be fitted with the connector to shield the connector from the outside.

  According to this configuration, when the guard plate moves to the shielding position, it is fitted with the connector, so that it is impossible to connect the harness to the connector. For this reason, it can prevent more reliably connecting a harness to a connector accidentally in the state in which the power supply of the power supply box is on.

  ADVANTAGE OF THE INVENTION According to this invention, the gaming machine which can prevent connecting a harness accidentally to a power supply box can be provided.

It is the schematic which shows an example of the back surface structure of the game machine which concerns on embodiment of this invention. It is the schematic which shows an example of the power supply box which concerns on embodiment of this invention. It is the schematic which shows an example of the power supply side connector which concerns on embodiment of this invention. It is a disassembled perspective view which shows an example of the control mechanism of the guard plate which concerns on embodiment of this invention. It is a disassembled perspective view which shows an example of the control mechanism of the guard plate which concerns on embodiment of this invention. It is a figure for demonstrating an example of the exposure position and shielding position which concern on embodiment of this invention. In embodiment of this invention, it is a figure for demonstrating an example of control of a guard plate when power is supplied to a power supply box after a harness is connected. It is the schematic which shows an example of the some guard plate which concerns on embodiment of this invention. It is a functional block diagram which shows an example of a functional structure of the power supply box which concerns on the modification of this invention. It is a flowchart explaining an example of a movement control process which CPU of the power supply box which concerns on the modification of this invention performs.

  Hereinafter, a gaming machine according to an embodiment of the present invention will be described with reference to the drawings.

[Schematic configuration of gaming machine]
First, a schematic configuration of a gaming machine 10 according to an embodiment of the present invention will be described with reference to FIG. FIG. 1 is a schematic diagram illustrating an example of a back configuration when the gaming machine 10 is viewed from the back side. In the gaming machine 10 according to the present invention, for example, a big hit lottery starts when a game ball launched by a player's operation wins a predetermined start opening, and a predetermined special win is won by winning the big hit lottery. This is a pachinko gaming machine configured such that a prize ball is paid out when a game ball is awarded to a special prize opening that is opened.

  As shown in FIG. 1, the appearance of the gaming machine 10 viewed from the back side includes a housing 1 as a gaming machine housing and a back door 2 disposed on the back side of the housing 1. Note that the back door 2 is not provided, and the housing 1 may be opened to the back side.

  A power box 3, a main board 4, a sub board 5, and various devices (not shown) are housed inside the housing 1 (the back of the gaming machine 10). The power supply box 3 houses a power supply circuit (not shown) and supplies driving power to the main board 4, the sub board 5, and various devices. The main board 4 is provided with an electronic circuit for performing main control such as a big hit lottery of the gaming machine 10. The sub-board 5 is provided with electronic circuits for controlling a launching device for launching a game ball, controlling award ball payout, and performing various sub-controls such as various effects during the game. In addition, arrangement | positioning of the power supply box 3 etc. which are shown in FIG. 1 is only an illustration, and is not restricted to this.

[Power box]
Next, a schematic configuration of the power supply box 3 according to the embodiment of the present invention will be described with reference to FIG. FIG. 2 is a schematic diagram illustrating an example of the power supply box 3.

  The shape of the power supply box 3 is a substantially rectangular parallelepiped composed of a back surface, a front surface, a left side surface, a right side surface, a top surface, and a bottom surface, and the power box 3 is connected to an external power source (not shown) that supplies power to the power box 3. A power cord 34 is connected.

  Further, the power supply box 3 is provided with a power switch 31 at the upper left on the back side. The power switch 31 is typically a rocker switch, and is a switch that switches the power ON / OFF by alternately pressing both ends of the switch. In the present embodiment, when the power cord 34 is connected to an external power source, pressing the upper end side of the power switch 31 switches the power source ON, and pressing the lower end side of the power switch 31 switches the power source OFF.

  The power supply box 3 is provided with three power supply side connectors 32 slightly on the right side of the center of the upper surface. Each power supply side connector 32 is provided as a recess on the upper surface of the power supply box 3, and the recess has a substantially rectangular parallelepiped shape having side surfaces on the back surface, the front surface, the left side surface, and the right side surface, and the upper surface being open. Has been. A harness side connector 41 having a convex portion formed so as to be fitted in the concave portion is fitted into the power source side connector 32. A harness 42 for supplying power to various devices (such as the main board 4) of the gaming machine 10 is connected to the harness-side connector 41. A power supply terminal (not shown) that is electrically connected to the power supply circuit of the power supply box 3 is disposed on the side surface of the substantially rectangular parallelepiped recess of the power supply side connector 32. And the convex part of the harness side connector 41 fits with the power supply side connector 32, and the harness 42 connected to the harness side connector 41 and this power supply terminal are electrically connected. In other words, when the harness 42 is electrically connected to the power supply side connector 32, the power (voltage) defined for the power supply side connector 32 can be supplied to the harness 42. As shown in FIG. 2, in the present embodiment, the three power supply side connectors 32 are arranged. However, the number and arrangement are not limited to this. For example, a plurality of harnesses 42 are provided. Are connected to various devices corresponding to different voltage values, and a plurality of specified voltage values are different so that a voltage value corresponding to each of a plurality of harnesses connected to the various devices can be supplied. The power supply side connector 32 may be provided.

  Further, the power supply box 3 is formed with a guide groove 33 in the vicinity of the upper surface side inside thereof, on the right side surface and the back surface side. The guide groove 33 is a substantially rectangular parallelepiped cavity whose longitudinal direction is the direction from the back surface to the front surface, and the upper surface is opened. Function. Although details will be described later, the movement of the guide wheel 76 is restricted by the guide groove 33, thereby assisting the slide portion 7 to move in the front direction or the back direction.

[Connector configuration]
Next, a schematic configuration of the power supply side connector 32 according to the embodiment of the present invention will be described with reference to FIG. FIG. 3 is a schematic diagram illustrating an example of the power supply side connector 32.

  As described above, the power supply side connector 32 is a concave portion having a substantially rectangular parallelepiped shape whose upper surface is opened, and the convex portion of the harness side connector 41 can be inserted into the power supply side connector 32 by opening the upper surface. ing. Hereinafter, the state in which the upper surface of the power supply side connector 32 is opened so that the convex part of the harness side connector 41 can be inserted into the power supply side connector 32 is referred to as “the opening of the power supply side connector 32 is exposed. State ".

  The power connector 32 has a slit 322 formed on the side surface on the back side. The slit portion 322 is a slit formed so that a later-described guard plate 75 can be inserted. Specifically, the slit portion 322 has a direction from the left side to the right side according to the insertion width and thickness of the guard plate 75. It is formed in a substantially rectangular shape having a longitudinal direction (width direction of the guard plate 75) and a vertical direction (short direction of the guard plate 75). Although details will be described later, when the guard plate 75 is inserted through the slit portion 322, the upper surface of the opened power supply side connector 32 is shielded by the guard plate 75, so that the convex portion of the harness side connector 41 is provided. Cannot be inserted into the power supply side connector 32. Hereinafter, the state in which the upper surface of the power supply side connector 32 is shielded so that the convex portion of the harness side connector 41 cannot be inserted into the power supply side connector 32 is referred to as “the opening of the power supply side connector 32 is shielded. State ". Hereinafter, a surface parallel to the upper surface of the power supply box 3 and having a height at which the slit portion 322 is formed is referred to as a “slit surface”.

[Control mechanism of power switch and guard plate]
Next, a control mechanism for the power switch 31 and the guard plate 75 according to an embodiment of the present invention will be described with reference to FIGS. 4 is an exploded perspective view showing an example of a control mechanism of the guard plate 75 when the power switch 31 is set to OFF, and FIG. 5 is a guard plate when the power switch 31 is set to ON. It is a disassembled perspective view which shows an example of 75 control mechanisms.

  As shown in FIGS. 4 and 5, the power switch 31 includes a switch body portion 311, a support shaft 312, a rotating portion 313, a spring portion 314, a pressing portion 315, a movable piece 316, and a contact portion 317. , Substrate 318, support column 319, OFF terminal 320, and ON terminal 321. When the upper end or the lower end of the switch body 311 is pressed, the switch body 311 rotates about the support shaft 312 as a fulcrum. Specifically, the switch body 311 rotates clockwise with the support shaft 312 as a fulcrum when the upper end is pressed, and rotates counterclockwise with the support 312 as a fulcrum when the lower end is pressed. Further, the rotation unit 313 is connected to the switch body 311, and the rotation shaft thereof is the same as that of the support shaft 312, so that the rotation shaft 313 rotates around the support shaft 312 as the switch body 311 rotates. The pressing portion 315 is attached to the switch main body 311 via a spring portion 314 that biases substantially in the front direction, and biases the movable piece 316 substantially in the front direction. The center of the movable piece 316 comes into contact with the column 319 attached to the substrate 318, and when the upper end of the movable piece 316 is urged substantially in the front direction by the pressing portion 315, the center of the movable piece 316 comes into contact with the column 319. When the movable piece 316 rotates clockwise at the fulcrum, the contact portion 317 attached to the upper end of the movable piece 316 is electrically connected to the OFF terminal 320 attached to the substrate 318. The OFF terminal 320 is connected to the power supply circuit, and the supply of power to the power supply box 3 is stopped when the contact portion 317 is connected to the OFF terminal 320. On the other hand, when the lower end portion of the movable piece 316 is urged substantially in the front direction by the pressing portion 315, the lower end of the movable piece 316 is rotated counterclockwise with the center in contact with the support column 319 as a fulcrum. The contact part 317 attached to the part is electrically connected to the ON terminal 321 attached to the substrate 318. The ON terminal 321 is connected to a power supply circuit, and when the contact portion 317 is connected to the ON terminal 321, supply of power to the power supply box 3 is started. Note that the power supply to the power supply box 3 is stopped when the contact portion 317 is not electrically connected to the OFF terminal 320 but the electrical connection between the contact portion 317 and the ON terminal 321 is released. It is also good to do.

  From the above, as shown in FIG. 4, when the lower end of the power switch 31 (switch body 311) is pressed, the upper end of the movable piece 316 is urged substantially in the front direction by the pressing portion 315. As a result, the contact portion 317 is electrically connected to the OFF terminal 320, and the power supply of the power supply box 3 is turned off. On the other hand, as shown in FIG. 5, in a state where the upper end portion of the power switch 31 is pressed, the lower end portion of the movable piece 316 is urged toward the front surface by the pressing portion 315, so By being electrically connected, the power supply of the power supply box 3 is turned on.

  By the way, in this embodiment, not only the power supply box 3 is turned ON / OFF by pressing the upper end and the lower end of the power switch 31, but also the movement control of the guard plate 75 is performed. Hereinafter, a specific description will be given with reference to FIGS. 4 and 5.

  As shown in FIGS. 4 and 5, the rotating part 313 connected to the switch body 311 of the power switch 31 functions as a rotating part of the slide crank 6 by being connected to the slide crank 6. Specifically, the slide crank 6 includes a connection plate 61, a movable shaft 62, a slide plate 63, a slide shaft 64, a slide groove 65, and a base portion 66, and the connection plate 61 is a rotating portion 313. By being connected and fixed to, the rotation unit 313 rotates according to the rotation. The movable shaft 62 connects one end of the slide plate 63 and one end of the connection plate 61 so that the slide plate 63 can move relative to the connection plate 61, and the slide shaft 64 is disposed at the other end of the slide plate 63. Thus, it is configured to be movable in the slide groove 65 in accordance with the movement of the slide plate 63. The slide groove 65 is provided in the base portion 66 and is a hollow portion (groove) whose longitudinal direction is the direction from the front surface side to the back surface side. Therefore, when the movement of the slide shaft 64 is restricted in the slide groove 65, The slide shaft 64 moves in the front direction or the back direction.

  As shown in FIG. 4, when the lower end of the power switch 31 (switch body 311) is pressed down (the power is off), the slide shaft 64 is at the end on the back side of the slide groove 65. To position. In this state, when the upper end of the power switch 31 (switch body 311) is pressed down (the power is turned on), the rotating unit 313 rotates clockwise as shown in FIG. The connecting plate 61 connected and fixed to the rotating portion 313 also rotates around the rotating shaft of the rotating portion 313, whereby the slide plate 63 connected by the movable shaft 62 moves, and the slide shaft 64 moves in the slide groove 65 in the front direction. Moving. That is, when the upper end of the power switch 31 is pressed and the power supply of the power supply box 3 is switched from OFF to ON, the slide shaft 64 moves in the slide groove 65 toward the front, and conversely the power supply of the power supply box 3. When is switched from ON to OFF, the opposite control is performed, so that the slide shaft 64 moves back in the slide groove 65 to return to the original position shown in FIG.

  Also, as shown in FIGS. 4 and 5, the slide shaft 64 functions as a trigger for sliding the slide unit 7 by being movably connected to the slide unit 7. Specifically, the slide portion 7 includes an L-shaped plate 71, a spring mounting plate 72, a spring portion 73, a connecting plate 74, a guard plate 75, and a guide wheel 76. Is moved in accordance with the movement of the slide shaft 64 by being movably connected to the slide shaft 64. A guide wheel 76 is attached to one end of the L-shaped plate 71, and the guide wheel 76 is regulated so as to move in the above-described guide groove 33. Thereby, even if the slide shaft 64 rotates, the L-shaped plate 71 does not move in the rotation direction, and the movement direction is restricted to the front direction and the back direction. A spring mounting plate 72 is disposed at a predetermined position of the L-shaped plate 71 so as to be substantially perpendicular to the L-shaped plate 71. One end of 73 is attached, and a connection plate 74 connected to the guard plate 75 is attached to the other end of the spring portion 73. As a result, when the guard plate 75 is urged in the back direction, the guard plate 75 can be moved in the back direction by compressing the spring portion 73. The guard plate 75 is a substantially rectangular plate (preferably insulating and highly rigid plate-like resin), and can be inserted into the power supply side connector 32 through the slit portion 322. The power connector 32 is formed in a shape that fits with the power connector 32 (for example, the same shape as the opening of the power connector 32). Accordingly, when the guard plate 75 is fitted to the power supply side connector 32 through the slit portion 322, the upper surface of the power supply side connector 32 is shielded. The shape of the L-shaped plate 71, the mounting position of the spring mounting plate 72, the mounting position of the guide wheel 76, the installation position of the guide groove 33, and the like are such that the guard plate 75 moves within the slit surface, and As shown in FIG. 5, when the guard plate 75 moves in the front direction, the guard plate 75 is appropriately adjusted to a position where the guard plate 75 is inserted into the slit portion 322 and shields the upper surface of the power supply side connector 32.

  From the above, as described with reference to FIGS. 4 and 5, the power switch 31 (switch body) is switched from the state where the lower end of the power switch 31 (switch body 311) is pressed (the power is turned off). When the upper end of the portion 311) is pressed down (the power is turned on), the guard plate 75 moves in the slit surface in the front direction as the slide shaft 64 moves in the slide groove 65 in the front direction. . That is, when the power supply box 3 is turned from OFF to ON by depressing the upper end of the power switch 31, the guard plate 75 moves in the slit direction toward the front, and conversely, the power supply of the power supply box 3 is turned on. When is turned from ON to OFF, the opposite control is performed, so that the guard plate 75 moves in the slit direction in the back direction.

[Exposure position and shielding position]
Next, with reference to FIG. 6, the position of the guard plate 75 when the power supply of the power supply box 3 is in the OFF state and when it is in the ON state will be described in one embodiment of the present invention. FIG. 6A shows the position of the guard plate 75 when the power supply of the power supply box 3 is OFF, and FIG. 6B shows the position of the guard plate 75 when the power supply of the power supply box 3 is ON. Indicates the position.

  As shown in FIG. 6 (1), when the power supply of the power supply box 3 is OFF, the lower end of the power switch 31 is pressed, so that the slide shaft 64 has a slide groove 65 as shown in FIG. Since the slide portion 7 (L-shaped plate 71 and the like) is located on the back side, the guard plate 75 is also located on the back side. As a result, the opening of the power supply side connector 32 is located. Will be exposed. For this reason, the convex part of the harness side connector 41 can be inserted into the power source side connector 32. As shown in FIG. 6A, the position of the guard plate 75 when the opening of the power supply side connector 32 is exposed is referred to as an exposed position.

  As shown in FIG. 6 (2), when the power supply of the power supply box 3 is ON, the upper end portion of the power switch 31 is pressed, so that the slide shaft 64 is formed in the slide groove 65 as shown in FIG. Therefore, the guard plate 75 is inserted into the power supply side connector 32 through the slit portion 322 when the slide portion 7 (L-shaped plate 71 or the like) moves to the front side. As a result, the opening of the power supply side connector 32 is shielded. For this reason, the convex part of the harness side connector 41 cannot be inserted into the power source side connector 32. As shown in FIG. 6B, the position of the guard plate 75 when the opening of the power supply side connector 32 is shielded is referred to as a shielding position.

  As described above, in this embodiment, the guard plate 75 moves between the exposed position and the shielded position in the slit plane when the power switch 31 that switches ON / OFF of the power supply of the power supply box 3 is pressed. Thus, the exposed / shielded state of the opening of the power supply side connector 32 is switched. Specifically, when the power supply of the power supply box 3 is switched from OFF to ON, the guard plate 75 moves in the slit surface from the exposed position to the shielding position, so that the opening of the power supply side connector 32 is shielded. The convex portion of the side connector 41 cannot be inserted into the power source side connector 32. For this reason, it is possible to prevent the harness 42 (harness side connector 41) from being electrically connected to the power source side connector 32 by mistake when the power supply of the power supply box 3 is in the ON state. On the other hand, when the power supply of the power supply box 3 is switched from ON to OFF, the guard plate 75 moves in the slit surface from the shielding position to the exposure position, so that the opening of the power supply side connector 32 is exposed and the harness side connector 41 is exposed. Can be inserted into the power supply side connector 32. For this reason, when the power supply of the power supply box 3 is in an OFF state, the harness 42 (harness side connector 41) can be electrically connected to the power supply side connector 32.

  Next, referring to FIG. 7, in one embodiment of the present invention, when the power supply of the power supply box 3 is OFF, the convex portion of the harness side connector 41 is inserted into the power supply side connector 32, and then the power supply box 3 Control of the guard plate 75 when the power is turned on will be described.

  As shown in FIG. 7, when the convex portion of the harness side connector 41 is inserted into the power source side connector 32, the concave portion of the power source side connector 32 is filled with the convex portion of the harness side connector 41. 75 cannot be inserted. However, when the power supply of the power supply box 3 is switched from OFF to ON, the slide part 7 (L-shaped plate 71 and the like) moves to the front side as in the case shown in FIG. It is controlled to move to the front side. However, when the guard plate 75 moves to the front side and comes into contact with the convex portion of the harness side connector 41 inserted into the power source side connector 32 through the slit portion 322, this becomes a wall and the guard plate 75 having high rigidity is provided. Is biased to the back side. Then, the spring part 73 is compressed in the back direction, so that the guard plate 75 can move in the back direction relative to the L-shaped plate 71. Thereby, even if the power supply box 3 is turned on after the convex portion of the harness side connector 41 is inserted into the power supply side connector 32, the movement control of the guard plate 75 can be performed without any inconvenience. In this state, when the harness-side connector 41 is pulled out, the spring portion 73 is extended, so that the guard plate 75 is moved to the original shielding position, whereby the opening of the power-side connector 32 is shielded. It will be in the state.

  In the above-described embodiment, the opening of one specific power supply side connector 32 among the plurality of power supply side connectors 32 is exposed / shielded by the guard plate 75. The specific one power supply side connector 32 may be any type, but may be, for example, the power supply side connector 32 to which power of a higher voltage (for example, 100 V) is supplied. In this way, for example, the risk of causing the device to malfunction by accidentally connecting the harness 42 connected to the device requiring low voltage (for example, 24V) power to the high voltage power supply side connector 32 is avoided. It becomes possible to do.

  Further, instead of one specific power supply side connector 32, all of the plurality of power supply side connectors 32 may be exposed / shielded by the guard plate 75. Specifically, as shown in FIG. 8, the slit portions 322 described above are provided in each of the three power supply side connectors 32, and three guard plates 75 are provided so as to be inserted into the respective slit portions 322. These three guard plates 75 may be coupled to each other by the L-shaped plate 71. At this time, the guide groove 33 is expanded in the front direction, and the guide wheel 76 corresponding to each guard plate 75 may be moved in the guide groove 33. In this way, when the power supply of the power supply box 3 is switched from OFF to ON, each guard plate 75 moves in the slit surface from the exposed position to the shielded position, so that the open ports of all the power supply side connectors 32 are shielded. It is possible to prevent the harness 42 (harness side connector 41) from being electrically connected to the power source side connector 32 by mistake. On the other hand, when the power supply of the power supply box 3 is switched from ON to OFF, each guard plate 75 moves in the slit surface from the shielding position to the exposure position, so that the open ports of all the power supply side connectors 32 are exposed, and the harness 42 (harness side connector 41) can be electrically connected to one of the power source side connectors 32.

  In FIG. 8, a plurality of guard plates 75 corresponding to the respective power supply side connectors 32 are provided in order to shield the opening openings of the plurality of power supply side connectors 32. One guard plate may be provided to shield the screen. In this case, depending on the arrangement of the power supply side connector 32, the constructed guard plate occupies a larger area. However, if the slit portion 322 provided in the power supply side connector 32 is provided only on the side surface on the front side. However, it may be provided on the other side. By doing in this way, since it becomes easy for a guard plate to move a slit surface, it becomes possible to reduce regulation of the installation position of a guard plate.

[Modification]
In the above-described embodiment, the slide shaft 64 is moved by pressing the upper end portion and the lower end portion of the power switch 31, and the slide portion 7 is moved by using the movement of the slide shaft 64 as a trigger, and the guard plate 75 is moved. It was. That is, in the above-described embodiment, the pressing operation of the power switch 31 is converted into the movement operation of the guard plate 75. However, in a modification, the movement of the guard plate 75 may be controlled by a computer provided in the power supply box 3. Hereinafter, although it demonstrates concretely with reference to FIG. 9, FIG. 10, also in a modification, the structure of the guard plate 75 and the power supply side connector 32 shall be the same as that of above-described embodiment.

  FIG. 9 is a functional block diagram illustrating a functional configuration example of the power supply box 3. As shown in FIG. 9, the power supply box 3 includes a CPU (Central Processing Unit) 301, a detection unit 302, and a drive unit 303.

  The CPU 301 executes various processes according to a program or the like recorded in a ROM (not shown). The CPU 301 functions as a determination unit 3011 and a control unit 3012.

  Based on the electrical signal in the power supply circuit of the power supply box 3, the detection unit 302 detects the ON signal when the power supply of the power supply box 3 is ON, and detects the OFF signal when the power supply of the power supply box 3 is OFF (ON signal). Is not detected).

  Based on the ON signal detected by the detection unit 302, the determination unit 3011 of the CPU 301 determines whether the power supply of the power supply box 3 has been switched from OFF to ON or has been switched from ON to OFF.

  The control unit 3012 of the CPU 301 transmits a drive signal to the drive unit 303 based on the determination result of the determination unit 3011. Specifically, when the determination unit 3011 determines that the power supply of the power supply box 3 has been turned from OFF to ON, the control unit 3012 transmits a shielding signal as a drive signal. On the other hand, when the determination unit 3011 determines that the power supply of the power supply box 3 has been switched from ON to OFF, the control unit 3012 transmits an exposure signal as a drive signal.

  The drive unit 303 is typically a power source such as a motor. Upon receiving a shielding signal from the control unit 3012, the drive unit 303 controls the movement of the guard plate 75 from the exposed position to the shielded position, thereby opening the power connector 32. When the exposure signal is received from the control unit 3012, the opening of the power supply side connector 32 is exposed by controlling the movement of the guard plate 75 from the shield position to the exposure position. The movement control of the guard plate 75 may be realized in any way. For example, when the drive unit 303 drives the sliding motion, the guard plate 75 moves in the slit plane between the shielding position and the exposure position. It may be controlled to be slidable.

  Next, a movement control process executed by the CPU 301 of the power supply box 3 having such a functional configuration will be described with reference to FIG. FIG. 10 is a flowchart for explaining the flow of movement control processing executed by the CPU 301. Note that the process shown in FIG. 10 is repeatedly executed every predetermined time (for example, 30 msec) from when the power supply box 3 is turned on until immediately after the power supply is turned off.

  In step S <b> 101, the determination unit 3011 of the CPU 301 determines whether or not the power supply of the power supply box 3 has been turned on from OFF based on the ON signal detected by the detection unit 302. If this determination is YES, the process proceeds to step S102, and if this determination is NO, the process proceeds to step S103.

  In step S102, the control unit 3012 of the CPU 301 transmits the shielding signal as a driving signal to the driving unit 303, thereby moving the guard plate 75 from the exposed position to the shielding position. Then, the movement control process ends.

  In step S <b> 103, the determination unit 3011 of the CPU 301 determines whether or not the power supply of the power supply box 3 has been switched from ON to OFF based on the ON signal detected by the detection unit 302. If this determination is YES, the process proceeds to step S104, and if this determination is NO, the movement control process ends.

  In step S104, the control unit 3012 of the CPU 301 transmits an exposure signal as a drive signal to the drive unit 303, thereby moving the guard plate 75 from the shield position to the exposure position. Then, the movement control process ends.

  In the movement control process described above, the processes in step S103 and step S104 are performed until the voltage becomes “0” after it is detected that the voltage has dropped due to the power supplied to the power supply box 3 being cut off. It may be executed during this period, or power may be stored in the standby power supply while power is being supplied to the power supply box 3, and may be executed by using this standby power supply. Good.

  As described above, in the modified example, since the movement of the guard plate 75 is controlled by the computer (CPU 301) provided in the power supply box 3, it is more erroneous when the power supply of the power supply box 3 is in an ON state. It is possible to prevent the harness 42 from being electrically connected to the power supply side connector 32.

  The gaming machine 10 according to one embodiment of the present invention has been described above, but the present invention is not limited to the above-described embodiment. Further, the effects described in the present embodiment are merely a list of the most preferable effects resulting from the present invention, and the effects of the present invention are not limited to those described in the present embodiment.

  In the above-described embodiment, as described with reference to FIGS. 4 and 5, the pressing operation of the power switch 31 is performed by the movement of the guard plate 75 (slide movement) by the slide crank 6 and the slide portion 7. However, the present invention is not limited to this as long as the operation of pressing the power switch 31 is converted into the movement operation of the guard plate 75. Further, the movement method of the guard plate 75 from the exposed position to the shielding position may be any method as long as it shields the opening of the power supply side connector 32, and is not limited to sliding movement, for example, rotational movement. It may be.

  In the above-described embodiment, as described with reference to FIG. 6, the guard plate 75 moves from the exposed position to the shielding position within the slit surface, and is inserted into the power supply side connector 32 through the slit portion 322. As a result, the opening of the power supply side connector 32 is shielded. However, as long as the opening of the power supply side connector 32 is shielded, the guard plate 75 is not limited to moving within the slit surface, and may be one that moves on the upper surface of the power supply box 3, for example.

  In the above-described embodiment, as described with reference to FIG. 7, when the power supply box 3 is turned on after the convex portion of the harness-side connector 41 is inserted into the power-side connector 32, the spring By compressing the portion 73 in the back direction, the rigid guard plate 75 moves in the back direction relative to the L-shaped plate 71. However, the spring part 73 may not be provided by molding the guard plate 75 with, for example, elastically deformable elastic resin. In this case, when the guard plate 75 comes into contact with the convex portion of the harness-side connector 41 inserted into the power-side connector 32 through the slit portion 322, the movement of the guard plate 75 is inconvenient due to elastic deformation. It becomes possible to do without.

  Further, in the above-described modification, the functional block diagram shown in FIG. 9 is merely an example, and other functional configurations are possible as long as the power supply box 3 has a function capable of controlling the movement of the guard plate 75 described above. It may be.

  In the embodiment and the modification described above, the guard plate 75 is controlled to move according to whether the power supply of the power supply box 3 is ON or OFF. However, the trigger for the movement control of the guard plate 75 is as follows. However, it is not limited to this. Specifically, when the harness-side connector 41 is inserted into a specific power-side connector 32 among the plurality of power-side connectors 32, the guard plate 75 is shielded from the exposed position with respect to the other power-side connectors 32. It is good also as what moves to a position. This movement control may be realized by applying a mechanism for converting the insertion operation of the harness side connector 41 into the movement operation of the guard plate 75 in the above-described embodiment. It may be realized by detecting that the harness-side connector 41 is inserted, for example, by a sensor. In this way, once the harness 42 is connected to the specific power supply side connector 32, the harness 42 cannot be connected to the other power supply side connector 32, which is unnecessary for the power supply box 3. The risk of damaging the power supply box or the like can be reduced by incorrectly connecting the harness 42.

  In the above-described embodiments and modifications, a so-called pachinko gaming machine has been described as the gaming machine 10. However, the present invention is not limited to this, and a power supply box that supplies power to various devices when the harness 42 is connected. 3 may be another gaming machine (for example, a so-called pachislot machine, a gaming machine, an amusement machine, etc.).

  The features of the present embodiment and the variations thereof have been described above, but it goes without saying that these features may be combined appropriately.

DESCRIPTION OF SYMBOLS 1 Case 2 Back door 10 Game machine 3 Power supply box 4 Main board 5 Sub board 6 Slide crank 7 Slide part 31 Power switch 32 Power supply side connector 33 Guide groove 34 Power supply cord 41 Harness side connector 42 Harness 301 CPU
302 Detection Unit 303 Drive Unit 311 Switch Main Body 312 Supporting Shaft 313 Rotating Unit 314 Spring Unit 315 Pressing Unit 316 Movable Piece 317 Contact Unit 318 Substrate 319 Supporting Column 320 OFF Terminal 321 ON Terminal 322 Slit Unit 61 Connecting Plate 62 Movable Shaft 63 Slide Plate 64 Slide shaft 65 Slide groove 66 Base 71 L-shaped plate 72 Spring mounting plate 73 Spring part 74 Connecting plate 75 Guard plate 76 Guide wheel 3011 Judgment part 3012 Control part

Claims (4)

A gaming machine housing that houses a power supply box for supplying power to equipment required for gaming;
A power cord connected to the power supply box and connectable to an external power supply for supplying power to the power supply box,
The power box is
A connector connected to a harness capable of supplying power to the device;
A guard plate that is movable between an exposure position that exposes the connector to the outside and a shielding position that shields the connector from the outside;
A movement control unit for controlling the movement of the guard plate,
The game machine according to claim 1, wherein the movement control unit performs control to move the guard plate from the exposed position to the shielded position when power is supplied to the power supply box. The power supply box further includes a determination unit that determines whether power is supplied to the power supply box.
The movement control unit performs control to move the guard plate from the exposure position to the shielding position based on the determination that the power supply to the power supply box is performed by the determination unit. The gaming machine according to claim 1. The power box is
A switch that supplies power to the power supply box when pressed;
A trigger unit that moves when the switch is pressed,
The trigger portion is configured to be interlocked with the guard plate,
The gaming machine according to claim 1, wherein the movement control unit controls the movement of the guard plate from the exposed position to the shielding position in conjunction with movement of the trigger unit. The said guard plate will shield the said connector from the exterior by fitting with the said connector, if it moves to the said shielding position by the said movement control part, The said connector is characterized by the above-mentioned. The gaming machine according to the item.

Images