JP2004173739A - Pinball game machine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To prevent a vent hole for radiating heat of an electronic device from being blocked with a falling game ball even if the vent hole is disposed on the top surface. <P>SOLUTION: In the pinball game machine, a falling game ball is prevented from staying on the vent hole 74 for radiating heat of the electronic device. Each opening part 74a of the vent hole 74 is formed in the shape of a slit in the longitudinal direction and has a closed opening area. A recessed part 74b, whose height is lower than a part X4 continued from a part X3 between the opening parts 74a to the outer edge X1 of an opening part forming member 70, is formed in a part continued from one end X2 in the longitudinal direction of each opening part 74a to the outer edge X1 of the opening part forming member 70 with the opening width of the opening part 74a. The recessed part 74b is formed so that the lower end of a game ball is not brought into contact with the recessed part 74b when the game ball, after moving on the opening part 74a in the longitudinal direction of the opening part 74a, moves on the recessed part 74b. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a ball game machine in which a heat radiation hole of an electronic device or a ventilation hole for dissipating heat of an electronic device is arranged on a top surface side, wherein a falling game ball stops on the heat radiation hole or the ventilation hole. It is related to technology for preventing such situations.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, in a game arcade or the like, a plurality of ball-and-ball game machines are juxtaposed in a facility called an island. Also, a gutter for transporting game balls is provided inside the island, and the game balls are transported by the gutter and supplied to a prize ball tank provided on the upper rear side of each ball game machine. It is formed to be.
[0003]
Here, the gutter generally does not have a structure for completely closing the game balls to be conveyed, for the purpose of facilitating maintenance and the like. The prize ball tank of the ball game machine is formed in a substantially box shape, is formed in a shape having an open upper surface, and is formed so that game balls conveyed by a gutter are poured into the prize ball tank. ing.
For this reason, the game ball being conveyed by the gutter may fall off the gutter during conveyance, or the game ball may overflow from the prize ball tank of the ball game machine.
[0004]
Therefore, it is known to provide a cover for protecting mounted electronic devices (including electronic components and boards) from falling game balls on the back side of the ball game machine. For example, as disclosed in Patent Literature 1, there is a known one in which a cover body capable of covering a game control circuit board is provided on the back surface of a ball-and-ball game machine. In Patent Document 1, a cover body is provided to prevent unauthorized alteration. However, a cover body for protecting an electronic device from falling game balls is also provided in FIG. And so on.
[0005]
Various electronic devices are mounted on the ball-and-ball game machine. However, since these electronic devices generate heat, heat radiation holes and air holes are formed at predetermined locations. Then, in order to prevent the falling game balls from blocking the heat radiating holes and the ventilation holes, for example, do not arrange the heat radiating holes and the ventilation holes on the upper surface side or, for example, the upper surface of the housing of the electronic device. An L-shaped heat radiating hole or air hole is formed so as to straddle both the rear surface and the back surface, thereby preventing the falling game ball from staying on the heat radiating hole or the air hole.
[0006]
[Patent Document 1]
JP 2001-246112 A (FIG. 1)
[0007]
[Problems to be solved by the invention]
However, the above-described conventional technology has a problem that the positions of the heat radiating holes and the ventilation holes of the electronic device are restricted. As described above, by not arranging the heat radiating hole and the vent on the upper surface side, it is possible to prevent the falling game ball from staying on the heat radiating hole and the vent. In consideration of the heat radiation efficiency, the heat radiation holes and the air holes are preferably provided on the upper surface (top surface) side of the electronic device (device that generates heat). The hot air (high-temperature air) generated by the electronic device moves upward. Therefore, among the heat radiating holes and the air holes, particularly those that function as the exhaust holes, it is better to provide them on the upper surface side. This is because hot air can be discharged more efficiently.
[0008]
In addition, when the entire electronic device is covered with a cover body as in Patent Document 1, it is necessary to provide a ventilation hole in the cover body. It is preferable to provide a vent on the upper surface side of the body. However, in the case where the ventilation hole is provided on the upper surface side, the same problem as described above occurs if the dropped game ball stays on the ventilation hole.
[0009]
Therefore, the problem to be solved by the present invention is that even when the heat radiating hole of the electronic device or the air hole for radiating heat of the electronic device is arranged on the upper surface side, the heat radiating hole or the air hole falls and The purpose is to prevent the game ball from being blocked by the coming game ball (the game ball stays on the heat radiating hole or the ventilation hole).
[0010]
[Means for Solving the Problems]
The present invention solves the above-mentioned problems by the following means.
The present invention is a ball game machine including a ventilation hole forming member having a ventilation hole for radiating heat of an electronic device, wherein a falling game ball is prevented from staying on the ventilation hole. The pores are formed by arranging a plurality of openings in parallel.Each of the openings has an opening width smaller than the diameter of the game ball, is formed in a slit shape in the longitudinal direction, and forms a closed opening area. A portion having an opening width of the opening from one end side in the longitudinal direction of each of the openings to a portion connected to the outer edge of the opening forming member, and the opening of the opening forming member from between the openings. By forming the drop portion having a height lower than the portion connected to the outer edge, after the game ball moves along the longitudinal direction of the opening portion on the opening portion and then moves on the drop portion, a game The lower end of the ball and the drop Wherein the but are formed so as not to contact.
[0011]
In the present invention, the ventilation hole forming member is formed, for example, so that the game ball rolls down from one end of the opening in the longitudinal direction. In this case, when the game ball placed on the ventilation hole forming member rests on the opening of the ventilation hole, it is guided along the opening to one end in the longitudinal direction of the opening.
[0012]
Then, when the game ball reaches one end of the opening, it rolls on the dropping portion following the one end and falls from the outer edge of the ventilation hole forming member. In this case, when the game ball rolling on the opening moves from one longitudinal end of the opening to the dropping portion, the dropping portion is formed so as not to contact the lower end of the game ball. Therefore, the game ball falls from the outer edge of the ventilation hole forming member without stopping between the opening and the outer edge of the ventilation hole forming member. Further, by providing the drop portion between one end side of the opening in the longitudinal direction and the outer edge of the ventilation hole forming member, the strength around the ventilation hole in the ventilation hole forming member can be secured.
[0013]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings and the like.
(1st Embodiment)
FIG. 1 is a front view of the back side showing the entire ball game machine 1 in the first embodiment. As shown in FIG. 1, a main control board 2 housed in a sealed case is mounted on the back side of the ball game machine 1. The main control board 2 is a board that controls the progress of the game and the like, and includes a CPU that performs calculations and the like, a ROM that stores a game program, a RAM that temporarily stores data, and the like. Further, on the back side of the ball game machine 1, various electronic devices such as the symbol display device 10 are mounted, and are electrically connected by a harness or the like.
[0014]
On the back side of the ball-and-ball game machine 1, a prize ball tank 3 is provided on the upper left side in FIG. The prize ball tank 3 has a substantially box shape with an upper surface opened, and an opening 3a is formed in a part of the bottom surface. A rail 4 having a guide is arranged below the opening 3a, and game balls (prize balls) in the prize ball tank 3 are sent into the rail 4 from the opening 3a on the bottom surface. . The rail 4 has a substantially concave cross section, for example, and is formed so as to transport game balls in two rows (see FIG. 10). The rail 4 is connected to a ball discharge device 5.
[0015]
FIG. 2 is a front view showing an outline of an island 100 in which the ball game machines 1 are juxtaposed as viewed from the front side (player side).
As shown in FIG. 2, a gutter 101 common to the juxtaposed ball game machines 1 extends above the ball game machines 1 inside the island 100. Further, on each ball game machine 1 of the gutter 101, a ball carry-in portion 102 for sending the game balls in the gutter 101 to the prize ball tank 3 of the ball game machine 1 is provided.
[0016]
Thus, inside the island 100, the game balls are conveyed by the gutters 101, and the game balls are added to the prize ball tank 3 of each ball game machine 1 as needed (when the number of the game balls in the prize ball tank 3 decreases). Is formed so as to be supplied.
In addition, game balls that have been fired into the game area of the ball game machine 1 by the operation of the player and have been played are stored in a collection box 103, and a cylindrical portion 103a formed on the bottom surface of the collection box 103. Sent from below.
[0017]
FIGS. 3 and 4 are perspective views showing the symbol display device 10 provided in the ball game machine 1 alone, that is, the symbol display device 10 removed from the ball game machine 1 in FIG. FIG. 3 is a view from the front side (player side), and FIG. 4 is a view from the back side (back side). FIG. 5 is a perspective view of the symbol display device 10 exploded into representative units, and is a view as seen from the same direction as FIG. In the ball game machine 1 of FIG. 1, the back side of the symbol display device 10 is visible.
In the following description, the player side is defined as the front side, and the opposite side is defined as the rear side.
[0018]
The symbol display device 10 is a device for starting and stopping the variation of the symbol and controlling the variation of the symbol based on the winning of the game ball into the symbol starting winning port.
As shown in FIGS. 3 to 5, the symbol display device 10 includes a control board case 30, a control board cover 40, a sub control board 50, a liquid crystal unit 60, and a ventilation hole forming member 70.
[0019]
The liquid crystal unit 60 includes a liquid crystal main body 61 on a front portion and is covered by a liquid crystal case 62. The liquid crystal case 62 is formed in a substantially box shape, and accommodates the liquid crystal main body 61, a liquid crystal control board, and the like (not shown) therein.
[0020]
The liquid crystal main body 61 is a display using liquid crystal as a display, and is formed in a thin plate shape having a substantially square surface.
Further, inside the liquid crystal unit 60, a fan 64 is provided near the top surface, and a heat radiation hole (fan hole) 62a is formed in a position of the liquid crystal case 62 corresponding to the fan 64. The heat radiation hole 62a is formed by a combination of a plurality of arc-shaped openings.
[0021]
Further, the fan 64 mounted inside the liquid crystal unit 60 includes the above-described liquid crystal control board (not shown) provided inside, particularly, an IC and a heat sink mounted on the liquid crystal control board, This is a blower for radiating heat from the liquid crystal main body 61 and sending air upward from below. Therefore, although not shown, an intake hole is formed in the liquid crystal unit 60 on the bottom surface side of the liquid crystal case 62, and air is taken into the liquid crystal unit 60 from the intake hole by the fan 64 and the heat radiation hole 62a. It is formed to discharge. Therefore, inside the liquid crystal unit 60, the high-temperature air accumulates on the upper side (on the side of the fan 64). Therefore, the heat radiation effect is enhanced by providing the heat radiation hole 62a on the top surface side of the liquid crystal unit 60.
[0022]
The control board case 30 is formed in a substantially frame shape, and the liquid crystal unit 60 is fitted inside the frame shape. When the liquid crystal unit 60 is disposed in the control board case 30, the outer peripheral wall 31 of the control board case 30 covers the side surface of the liquid crystal unit 60.
[0023]
At the bottom of the outer peripheral wall 31 of the control board case 30, an air hole 32 (vent) is formed in which a plurality of substantially oval-shaped holes (long holes) are juxtaposed. The air hole 32 plays a role of an intake hole of the symbol display device 10. Then, when the liquid crystal unit 60 is mounted in the control board case 30, the above-described intake holes formed on the bottom surface side of the liquid crystal unit 60 are arranged on the air holes 32.
[0024]
Further, a notch 34 is formed at a position facing the air hole 32 of the control board case 30 so as to cut out a part of the outer peripheral wall 31 in a substantially concave shape. The notch 34 is for exposing the heat radiation hole 62 a of the liquid crystal unit 60. When the liquid crystal unit 60 is mounted in the control board case 30, the heat radiating holes 62 a of the liquid crystal unit 60 are arranged in the notches 34. As a result, the periphery of the heat radiation hole 62a is surrounded by the wall surface of the outer peripheral wall 31 of the control board case 30.
[0025]
Further, as shown in FIGS. 3 to 5, two mounting portions 35 are provided on the left and right side edges of the control board case 30, respectively. A hole 35a is formed substantially at the center of the mounting portion 35. The hole 35a is a hole for attaching the symbol display device 10 to the ball game machine 1. By inserting a screw into this hole 35a and screwing it into a screw hole (not shown) provided on the side of the ball game machine 1, as shown in FIG. Fixed to 1.
[0026]
Further, the control board cover 40 is formed in a substantially box shape (cross section is concave) with an opening surface on the control board case 30 side (front side). It is formed in a size that can be stored. As shown in FIGS. 4 and 5, a connector window 41a for exposing a connector 51 (see FIG. 4) provided on the sub-control board 50 to the outside is formed on the front wall 41 of the control board cover 40. Have been. Therefore, a harness or the like can be inserted and removed from the outside of the symbol display device 10 to the connector 51 of the sub-control board 50 via the connector window 41a.
[0027]
Further, as shown in FIG. 4, an air hole 41b is formed in the front wall 41 of the control board cover 40. The air hole 41b is formed in a substantially band-like region above the front wall 41. The air holes 41b are formed by arranging a large number of small holes such as circles or squares. The air holes 41b allow air to flow inside and outside the symbol display device 10, and have a heat radiation effect of releasing the heat of the sub-control board 50 to the outside. It is to enhance.
[0028]
Further, as shown in FIG. 5, bosses 46 for attaching the sub-control board 50 are formed at the four corners of the control board cover 40 (only one place is visible in FIG. 5). The sub-control board 50 is screwed to the control board cover 40 by the boss 46. When the sub-control board 50 is fixed, the sub-control board 50 is covered with the control board cover 40, and only the connectors 51 of the sub-control board 50 are exposed from outside the control board cover 40. .
[0029]
The sub-control board 50 is a board that controls the output of the effect, and controls sound output, lighting of lamps, image display by the liquid crystal unit 60, and the like. The liquid crystal control board provided inside the liquid crystal unit 60 described above is a board belonging to a lower level of the sub control board 50, and is a board in charge of controlling the liquid crystal display of the liquid crystal unit 60. The sub-control board 50 and the liquid crystal control board are electrically connected, transmit a command from the sub-control board 50 to the liquid crystal control board, and the liquid crystal control board is configured to perform liquid crystal display control based on the command. I have.
[0030]
FIG. 6 is an external perspective view showing the ventilation hole forming member 70 in more detail. FIG. 7 is a front view of the ventilation hole forming member 70 as viewed from the rear side.
The ventilation hole forming member 70 has a substantially L-shaped cross section when cut in a direction perpendicular to the longitudinal direction. The ventilation hole forming member 70 includes a top wall portion 71, a side wall portion 72, and a mounting portion 73.
[0031]
The mounting portions 73 are provided at both ends on the front side, respectively, and have mounting holes 73a. A screw is inserted through the hole 73a, and the screw is passed through a mounting hole 31a (see FIG. 5) formed on the upper surface of the outer peripheral wall portion 31 of the control board case 30, and the liquid crystal unit 60 is inserted into the control board case 30. In the mounted state, the ventilation hole forming member 70 is fixed to the control board case 30 by screwing it into a screw hole 63 (see FIG. 5) formed on the top surface side of the liquid crystal unit 60.
[0032]
As shown in FIG. 7, a cylindrical boss 73b that is convex downward is formed on the lower surface side of the mounting portion 73. The boss 73b is inserted into the hole 31b formed near the mounting hole 31a of the control board case 30 when attaching the ventilation hole forming member 70 to the control board case 30, so that the ventilation hole forming member 70 is attached to the control board case. 30 for positioning.
[0033]
A ventilation hole 74 is formed in the top wall 71 of the ventilation hole forming member 70. The vent hole 74 is located at a position facing the heat radiating hole 62 a of the liquid crystal unit 60 (just above the heat radiating hole 62 a) when attached to the control board case 30, and above the cutout portion 34 of the control board case 30. It is arranged to be located at. That is, when the ventilation hole forming member 70 is attached to the control board case 30, it is attached to the upper portion of the heat radiation hole 62 a, that is, to the upper surface of the outer peripheral wall portion 31 so as to cover the cutout portion 34.
[0034]
Here, as shown in FIG. 7, two ribs 75 are formed on the back surface of both ends of the ventilation hole 74 in the longitudinal direction of the ventilation hole forming member 70. The rib 75 is arranged inside the notch 34 when the vent hole forming member 70 is attached to the control board case 30. Thus, the heat radiation hole 62a of the liquid crystal unit 60 becomes a closed space in which the ventilation hole 74 is formed directly above by the cutout portion 34 of the control board case 30 and the ventilation hole forming member 70.
[0035]
In the top wall portion 71, guide ribs 71a having a height of about several mm are provided at outer edges on the front side and both side surfaces. The guide rib 71a is for preventing a game ball from dropping from the front side or both side surfaces when the game ball is placed on the top wall portion 71 of the ventilation hole forming member 70. On the other hand, since the guide rib 71a is not provided on the rear side of the top wall 71, the game ball placed on the top wall 71 falls from the rear side. In FIG. 6, a guide rib 71b indicated by a two-dot chain line is provided in the second embodiment, and the guide rib 71b will be described later.
[0036]
As shown in FIG. 7, the surface of the top wall portion 71 has a curved surface (cylindrical shape) having a large radius of curvature so as to be convex upward in the longitudinal direction of the ventilation hole forming member 70 (the left-right direction in FIG. Surface). As a result, the game ball placed on the top wall 71 rolls toward both side surfaces of the top wall 71. Further, the surface on the top wall portion 71 is formed so as to have an inclined surface (inclination angle α described later) descending from the front to the rear. Therefore, the game ball placed on the top wall 71 moves behind the top wall 71, that is, the direction in which the guide rib 71a is not formed, and falls from the rear side.
As described above, the surface shape of the top wall portion 71 is formed such that the game ball is guided in a direction away from the ventilation hole 74.
[0037]
Further, the vent hole 74 is constituted by a plurality of, in particular, in this embodiment, five juxtaposed openings 74a. Each opening 74a is formed to extend in a slit shape (a long hole shape) in the longitudinal direction. Furthermore, since the opening width of each opening 74a (the width of the opening 74a in the longitudinal direction of the ventilation hole forming member 70) is formed smaller than the diameter of the game ball, the game ball falls from the opening 74a. It won't.
Further, each opening 74a has a closed opening area. Here, if each opening 74a is opened at the rear outer edge X1 (see FIG. 6) of the top wall 71 of the ventilation hole forming member 70 (see FIG. 6), that is, if the ventilation hole 74 is formed in a substantially comb-tooth shape, Although the strength of the pores 74 becomes weaker, the problem of strength reduction is reduced when each of the openings 74a is closed as in the present embodiment. Therefore, even if the game ball falls on the ventilation hole 74, damage to the ventilation hole 74 can be prevented.
[0038]
As shown in FIG. 6, a portion having an opening width of the opening 74 a from the one end X2 side in the longitudinal direction of each opening 74 a and being connected to the outer edge X1 on the rear side of the top wall 71 has a dropping portion 74 b. Is formed. The height of the drop portion 74b is lower than the portion X4 that is connected to the outer edge X1 from between the openings 74a (portion X3 in FIG. 6). When the game ball placed on the top wall 71 of the ventilation hole forming member 70 rolls along the longitudinal direction of the opening 74a (from the front to the rear), the dropping portion 74b moves in the longitudinal direction of the opening 74a. This is to prevent the game ball from abutting on one end X2 and the game ball and stopping on the opening 74a. Further, since the opening 74a can be made a closed opening area by providing the recess 74b, the strength of the ventilation hole 74 can be increased by the recess 74b.
[0039]
FIG. 8 is a diagram for explaining a more detailed shape of the drop portion 74b. FIG. 8A is a cross-sectional view of the side surface showing the downward inclined surface (inclination angle α) from the front to the rear of the ceiling wall portion 71 described above. Thus, each opening 74a of the ventilation hole 74 formed in the ceiling wall 71 also has the inclination angle α. In the drawing, the game ball A indicated by a two-dot chain line shows a state where the vicinity of the lower end enters the opening 74a.
[0040]
FIG. 8B is a plan view showing the opening width of the opening 74a (the width of the opening 74a in the longitudinal direction of the ventilation hole forming member 70 as described above) as t. In FIG. 8B, an arrow indicated by a two-dot chain line indicates a rolling direction (downward direction) of the game ball placed on the opening 74a. That is, in FIG. 8B, the lower side is the rear side.
Further, FIG. 8C is a front view showing a state where the game ball A is placed on the drop portion 74b. In FIG. 8C, the depth (drop amount) of the drop portion 74 b is x, the radius of the game ball A is r, and the distance from the center of the game ball A to the surface of the top wall portion 71 of the vent hole forming member 70 is x. x '.
[0041]
In this case (with precondition α> 0),
(Equation 1) x = r−x ′
It is. Also,
(Equation 2) x ′ = √ (r ² − (T / 2) ² )
It becomes.
Therefore, from Equations 1 and 2,
The depth x of the drop part is
(Equation 3) x> r−x ′ = r−√ (r ² − (T / 2) ² )
Is satisfied, when the game ball A rolls on the drop portion 74b, the lower end of the game ball A (Y portion in FIG. 8C) does not contact the drop portion 74b, that is, the game ball A drops. The portion 74b can be formed so as not to be stopped.
[0042]
Note that, as described above, the opening width t of the opening 74a may be smaller than the diameter of the game ball A. That is,
(Equation 4) t <2 × r
Is fine.
[0043]
FIG. 9 is a front view showing the back side of the ball game machine 1, and shows the vicinity of the upper center of the symbol display device 10 in FIG. 1 in more detail. FIG. 10 is a cross-sectional side view showing the ventilation hole forming member 70 and the vicinity thereof.
As described above, the game balls are carried into the prize ball tank 3 from the gutter 101, and are sent from the prize ball tank 3 to the ball discharge device 5 by the rail 4. At this time, a game ball falls from the gutter 101 (game ball A1 in FIG. 9), spills from the prize ball tank 3 (game ball A2 in FIG. 9), or spills over the guide of the rail 4 ( In FIG. 9, the game ball A3) may be played.
[0044]
These dropped game balls may fall on the top wall 71 of the ventilation hole forming member 70 (game ball A21 in FIG. 10).
Here, as described above, the top wall portion 71 of the ventilation hole forming member 70 has an inclined surface that is convex upward and descends to both ends in the longitudinal direction, and is on the rear side (on the control board cover 40 side). Slope. For this reason, the game balls placed on the top wall 71 of the vent hole forming member 70 are sent to both ends in the longitudinal direction of the vent hole forming member 70 (the game balls A4 or A5 in FIG. 9), and are moved rearward. It is sent, falls from the top wall 71 of the vent hole forming member 70, passes through the top wall 42 of the control board cover 40 (game ball A22 in FIG. 10), and falls (game ball A6 or A7 in FIG. 9). , And in FIG. 10, a game ball A23).
[0045]
Alternatively, when a game ball is placed on the opening 74a of the ventilation hole 74 before being guided to the longitudinal end of the ventilation hole forming member 70 by the inclined surface of the top wall 71 of the ventilation hole forming member 70 ( In FIG. 9, the game ball A8) is sent rearward along the opening 74a, and then falls from the top wall 71 of the ventilation hole forming member 70 (game ball A9 in FIG. 9).
[0046]
In this manner, in the present embodiment, the game balls that have fallen on the top wall 71 of the ventilation hole forming member 70 do not stay on the top wall 71. Further, even when the game ball is placed on the opening 74a of the ventilation hole 74, the opening 74a is also an inclined surface that descends backward along the shape of the top wall 71 of the ventilation hole forming member 70. Therefore, the game ball placed on the opening 74a is sent backward along the opening 74a.
[0047]
In this case, when the game ball reaches the rear end (one end X2 in FIG. 6) of the opening 74a, it rolls from that position on the dropping portion 74b formed along the opening 74a to form a vent hole. The member 70 falls from the outer edge X1 (FIG. 6). Here, even when the game ball rolls on the drop portion 74b, as described above, the game ball does not come into contact with the drop portion 74b. It can be guided to the outer edge X1 of the member 70 and dropped from the top wall 71 of the vent hole forming member 70.
[0048]
Further, as shown in FIG. 9, the connector 51 is exposed from the connector window 41a on the back surface (control board cover 40) of the symbol display device 10, but in the present embodiment, the connector 51 and the ventilation hole 74 are arranged in the horizontal direction. Are staggered. That is, the connector 51 is arranged so that the connector 51 does not exist directly below the ventilation hole 74. As a result, in FIG. 9, among the game balls that have fallen on the top wall portion 71 of the ventilation hole forming member 70, the game balls that have fallen just above the connector 51 (the game ball A10 in FIG. 9) Along the inclined surface of the top wall portion 71 of the ventilation hole forming member 70, it is guided to both ends in the longitudinal direction of the ventilation hole forming member 70 or to the ventilation hole 74.
[0049]
Therefore, the game balls dropped from both ends in the longitudinal direction of the vent hole forming member 70 or the vent holes 74 are apparent from FIG. As a result, it is possible to prevent the dropped game balls from coming into contact with the connector 51 or the harness or the like connected to the connector 51, thereby preventing the damage or poor connection thereof.
[0050]
In the present embodiment, the game ball is dropped so as to avoid the connector 51. However, it is preferable that the game ball collides with an electronic device other than the connector 51, or a portion of the back surface of the ball game machine 1 where the structural strength is weak. Even if a non-existing configuration is provided on the back surface of the ball game machine 1, the game ball is guided to a specific position (a position where there is no problem even if the game ball is dropped) avoiding the electronic device and the above-mentioned parts. Thus, the inclined surface of the ceiling wall 71 may be formed.
[0051]
It is assumed that the game ball dropped from the top wall 71 of the ventilation hole forming member 70 stays on the top wall 42 of the control board cover 40 at the position of the game ball A22 shown in FIG. However, even if the game ball stays at this position, it does not affect the ventilation hole 74 of the ventilation hole forming member 70 (it does not block the ventilation hole 74), so that there is no particular problem.
[0052]
(2nd Embodiment)
In FIG. 6, a ventilation hole forming member 70 including a guide rib 71b indicated by a two-dot chain line shows a second embodiment of the present invention. The second embodiment is different from the first embodiment only in that a guide rib 71b is provided in the ventilation hole forming member 70, and the other is the same as the first embodiment.
The guide rib 71b is provided on a part of the outer edge X1 of the top wall 71 of the ventilation hole forming member 70. Other shapes are the same as those of the first embodiment. The guide rib 71b is provided so as to be located directly above the connector 51 exposed from the front wall 41 of the control board cover 40.
[0053]
If the ventilation hole forming member 70 is formed in this manner, the game ball never falls from the position where the guide rib 71b is provided unless the guide rib 71b is climbed. Therefore, the connector 51 can be reliably protected from the game ball.
The guide rib 71b may be formed from a member different from the vent hole forming member 70 and attached to the vent hole forming member 70, or may be integrated with the vent hole forming member 70 when the vent hole forming member 70 is formed as a molded product. May be formed.
[0054]
(Third embodiment)
FIG. 11 is a perspective view illustrating a symbol display device 10 ′ according to the third embodiment of the present invention, and is a diagram illustrating a ventilation hole forming member 70 ′ and the vicinity thereof. The symbol display device 10 'of the third embodiment is different from the first and second embodiments only in the ventilation hole forming member 70', and is otherwise the same as the first and second embodiments.
[0055]
In the first and second embodiments, the top wall portion 71 of the ventilation hole forming member 70 is formed to have a curved surface that is convex upward. However, the top wall portion 71 ′ of the third embodiment has a downward convex shape. It is formed on a curved surface. In the top wall 71 ′ of the ventilation hole forming member 70 ′, the lowest position in the longitudinal direction is the ventilation hole 74. Furthermore, in the short direction (front-back direction) of the ventilation hole forming member 70 ′, as in the first and second embodiments, the ventilation hole forming member 70 ′ is formed on an inclined surface descending from the front to the rear.
[0056]
Further, a guide rib 71a 'is provided at a portion other than the vent hole 74 on the rear outer edge X1 of the top wall portion 71' of the vent hole forming member 70 '. That is, as shown in FIG. 6, the guide ribs 71a of the first and second embodiments are provided only on the front side and both side surfaces of the ceiling wall 71, and are not provided on the outer edge X1 on the rear side. On the other hand, the guide rib 71a 'of the third embodiment is formed on the outer periphery of the top wall portion 71' except for the portion of the rear outer edge X1 where the vent hole 74 is formed.
[0057]
In the above-described vent hole forming member 70 ′, as shown in FIG. 11, the game balls (game balls A31 and A32 in FIG. 11) placed on the top wall 71 ′ of the vent hole forming member 70 ′ are shown in FIG. In FIG. 11, as shown by the two-dot chain line arrow, the inclined surface of the top wall portion 71 'guides the air hole 74 to the rear side and the rear side. Then, when placed on the opening 74a of the ventilation hole 74 (game ball A33 in FIG. 11), it is guided along the opening 74a and falls from behind (game ball A34 in FIG. 11).
[0058]
In addition, since the game ball does not fall from the portion where the guide rib 71a 'is provided unless the guide ball 71a' is climbed over, in most cases, the game ball moves rearward along the opening 74a of the ventilation hole 74. Guided and falls.
As a result, similarly to the first and second embodiments, the game ball dropped from the top wall portion 71 'of the ventilation hole forming member 70' does not contact the connector 51 exposed from the control board cover 40. .
[0059]
(Fourth embodiment)
FIG. 12 is a perspective view of the back side showing the ball game machine 1 'of the fourth embodiment. In the symbol display device 10 ″ of the fourth embodiment, the air hole forming member 70 and the like as shown in the first to third embodiments are not provided. It is attached directly to the back of the ball game machine 1 '.
[0060]
The ventilation hole forming member 70 "is attached so as to cover the upper part of the symbol display device 10". The ventilation holes 74 of the ventilation hole forming member 70 ″ have the same openings 74 a as those in the first to third embodiments, but the longitudinal direction of the opening 74 a is different from that of the ventilation holes forming member 70. "In the longitudinal direction. Further, a drop-in portion 74b 'is formed at the left end in FIG. 12 in the longitudinal direction of the opening 74a, as in the first to third embodiments. The drop portion 74b 'is formed in an upwardly sloped shape, and the height thereof increases toward the left side, and is finally formed so as to coincide with the surface of the ceiling wall portion 71 ".
[0061]
Further, the top wall portion 71 "of the ventilation hole forming member 70" is formed so as to have a slope descending to the left in FIG. As a result, the game ball that has fallen on the top wall portion 71 ″ of the ventilation hole forming member 70 ″ falls mainly from the left outer edge on the top wall portion 71 ″ of the ventilation hole forming member 70 ″. Also, even if the game ball rolls leftward in FIG. 12 along the opening 74a, the dropping portion 74b 'is provided, so that the game ball stops at the left end of the opening 74a in FIG. It will not be lost. Therefore, the game ball does not stay on the top wall 71 ″ of the ventilation hole forming member 70 ″ and does not block the ventilation hole 74. With such a configuration, hot air does not remain in the top wall portion 71 ″, and the exhaust of the fan 64 can be made more efficient by providing the opening 74 a.
The fourth embodiment can also be applied to a cover body that covers the entire back surface of a conventional gaming machine. That is, the upper part of the conventional cover body may be formed in the shape of the ventilation hole forming member 70 ″ of the fourth embodiment.
[0062]
As shown in the fourth embodiment, the ventilation hole forming member is not limited to one attached to the symbol display device, and may be one directly attached to the ball game machine.
In the fourth embodiment, the vent hole forming member 70 ″ is preferably as small as possible from the viewpoint of facilitating maintenance and the like as long as it covers the upper part of the symbol display device 10 ″.
[0063]
In any of the first to fourth embodiments, the ventilation hole forming members 70 to 70 ″ are detachable from the symbol display devices 10 to 10 ″ or the ball game machines 1 to 1 ′. Therefore, maintenance can be performed after removing the ventilation hole forming members 70 to 70 ″, so that maintenance can be facilitated.
[0064]
Furthermore, the symbol display devices 10 to 10 ″ may be attached to a slot machine using a medal as a game medium, and used to display an effect image of the slot machine.
When the symbol display devices 10 to 10 "are provided in the slot machine, the ventilation holes 74 cannot be closed by the game balls. In this case, the ventilation hole forming members 70 to 70" are attached. It is good not to have. If the ventilation hole forming members 70 to 70 "are provided only when the symbol display devices 10 to 10" are attached to the ball game machines 1 to 1 'as in the present embodiment, respectively, the slot machine and the ball game machine 1 1 'can be shared with the symbol display devices 10 to 10 ". Further, by providing the ventilation hole forming members 70 to 70" only in the case of the ball and ball game machines 1 to 1', the parts Cost reduction such as reduction of points can be achieved.
[0065]
【The invention's effect】
According to the present invention, when a game ball rolling on the opening of the ventilation hole moves from one longitudinal end of the opening to the dropping portion, the dropping portion does not come into contact with the lower end of the game ball. The game ball can be dropped from the ventilation hole forming member without stopping at the outer edge of the ventilation hole forming member.
As a result, the ventilation hole is not blocked by the falling game balls, so that a sufficient opening area of the ventilation hole is always ensured, and high heat radiation efficiency can be maintained.
In addition, the provision of the drop portion can ensure the strength around the ventilation hole in the ventilation hole forming member.
[Brief description of the drawings]
FIG. 1 is a front view of a back surface side showing an entire ball game machine according to a first embodiment.
FIG. 2 is a front view showing an outline of an island in which a ball game machine is juxtaposed as viewed from the front side (player side).
FIG. 3 is a diagram showing a single symbol display device provided in the ball game machine, as viewed from the front side (player side).
FIG. 4 is a diagram showing a single symbol display device provided in the ball game machine, viewed from the rear side (rear side).
FIG. 5 is a perspective view showing the symbol display device exploded into representative units, as viewed from the same direction as FIG. 3;
FIG. 6 is an external perspective view showing the ventilation hole forming member in more detail.
FIG. 7 is a front view of the ventilation hole forming member as viewed from the rear side.
FIG. 8 is a diagram illustrating a more detailed shape of a dropping portion.
FIG. 9 is a front view showing the back side of the ball game machine, showing in more detail the vicinity of the upper center of the symbol display device in FIG.
FIG. 10 is a cross-sectional side view showing a ventilation hole forming member and the vicinity thereof.
FIG. 11 is a perspective view showing a symbol display device according to a third embodiment of the present invention, showing a ventilation hole forming member and its vicinity.
FIG. 12 is a perspective view of a back side showing a ball game machine of a fourth embodiment.
[Explanation of symbols]
1,1'ball game machine
2 Main control board
3 prize ball tank
3a Opening
4 rails
5 Ball export device
10, 10 ', 10 "symbol display device
30 Control board case
31 Outer wall
31a Mounting hole
31b hole
32 air hole
34 Notch
35 Mounting part
35a hole
40 Control board cover
41 Front wall
41a Connector window
41b air hole
42 ceiling
46 Boss
50 Sub-control board
51 Connector
60 liquid crystal unit
61 LCD body
62 LCD case
62a Heat dissipation hole
63 screw hole
64 fans
70, 70 ', 70 "vent forming member
71, 71 ', 71 "ceiling
71a, 71a ', 71b Guide rib
72 Side wall
73 Mounting part
73a hole
73b boss
74 vent
74a opening
74b, 74b 'drop-down part
75 ribs
100 islands
101 gutter
102 Ball loading section
103 Collection Box
103a tube
A, A1 to A10, A21 to A23, A31 to A34
X1 A rear outer edge of the top wall portion 71 of the ventilation hole forming member 70
X2 One end of the opening 74a in the longitudinal direction
X3 Between the openings 74a
X4 Portion from the opening X3 between the openings 74a to the outer edge X1
Y Lower end of game ball A
r radius of game ball A
t Opening width of opening 74a (width of opening 74a in longitudinal direction of ventilation hole forming member 70)
x Depth of drop part 74b (drop amount)
x ′ Distance from the center of the game ball A to the surface of the top wall 71 of the ventilation hole forming member 70
α Tilt angle

Claims (1)

A ball game machine including a ventilation hole forming member having a ventilation hole for radiating heat of an electronic device, wherein a falling game ball is prevented from staying on the ventilation hole,
The vent is a plurality of openings are arranged side by side,
Each of the openings has an opening width smaller than the diameter of the game ball, is formed in a slit shape in the longitudinal direction, and has a closed opening area,
A portion having an opening width of the opening and connected to the outer edge of the opening forming member from one end side in the longitudinal direction of each of the openings, and a portion connected to the outer edge of the opening forming member from between the openings. By forming a drop part with a lower height,
After the game ball moves along the longitudinal direction of the opening on the opening, and moves on the dropping portion, the lower end of the game ball does not contact the dropping portion. A ball game machine characterized by the following.

Images