JP4174573B2 - Pachinko game machine - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to a pachinko game machine that takes into account the influence of static electricity generated on a pachinko ball, and in particular, a pachinko machine that reliably eliminates static electricity charged on the pachinko ball in a prize ball payout system arranged on the back of the pachinko game machine. It relates to game machines.
[0002]
[Prior art]
  In recent pachinko game machines, various kinds of accessories are provided to increase the interest of a player who uses the pachinko game machine by changing the game content. Under such circumstances, the pachinko game machine incorporates a large number of electronic control circuits for controlling various devices including the control of an accessory, and various types such as an accessory control circuit, a display circuit, or a prize ball discharge control circuit. A circuit exists. In such a circuit, an electronic control circuit including a microcomputer or the like has become the mainstream, and its structure has become very complicated.
  On the other hand, pachinko balls used in pachinko game machines are made of iron, which is a conductor, and polished, etc., but the pachinko balls are charged with static electricity due to friction with the abrasive. Will be. In addition, pachinko balls used in circulation generate static electricity due to friction between the pachinko balls or friction between the pachinko balls and a passage in which a plastic material or celluloid material is used.
[0003]
  Therefore, in the pachinko game machine, malfunction due to static electricity generated in such a pachinko ball is a problem. That is, the various electronic circuits described above are vulnerable to noise, and various troubles such as malfunction of the circuit and stop of operation occur due to static electricity generated as pulse noise from the pachinko sphere. This is because the electric charge charged in the pachinko sphere is generated as a high voltage pulse like a discharge phenomenon, and is generated as noise in a microcomputerized electronic circuit.
  In view of this, various approaches have been made from the viewpoint of hardware and software as countermeasures against such static electricity. However, these are effective against relatively small pulse noise, but with large pulse noise such as discharge, a voltage exceeding the withstand voltage of the electronic circuit is applied and each electronic circuit is physically destroyed. It was not possible to deal with the problem of end.
[0004]
  By the way, pachinko balls are circulated from the bottom to the top of the island facility and are supplied to each pachinko game machine. Therefore, pachinko balls in the island facility and pachinko game machines are connected to pachinko balls like a prize ball tank. There is a place where a lot of balls are collected. In such a place, pachinko balls collide with each other and static electricity is particularly likely to occur. Therefore, conventionally, as a countermeasure against static electricity, a method has been adopted in which a metal plate is installed in a prize ball tank and the metal plate is connected to a ground side such as a gaming machine main body frame with a ground wire.
  Various pachinko game machines with such countermeasures against static electricity have been developed, and other examples include pachinko game machines disclosed in JP-A-6-269552. Therefore, this conventional example will be briefly described below with reference to FIGS. FIG. 10 is a perspective view of the pachinko gaming machine according to the conventional example with the front frame opened. Further, FIG. 11 is a perspective view of the main part shown with the main board box removed from the mechanism plate of the pachinko gaming machine according to the conventional example.
[0005]
  As shown in FIG. 10, the pachinko gaming machine 101 is attached to the front surface of the side frame 102 so that the front frame 103 can be opened and closed and rotated on an axis. A game board 104 is attached to the back of the front frame 103 so that the game board 104 is detachable. The game board mounting frame 105 is usually formed of a synthetic resin, but is formed of an iron plate which is a conductive member in this conventional example.
  A synthetic resin mechanism plate 106 is attached to one side of the game board mounting frame 105 by a hinge so as to be freely opened and closed. The mechanism plate 106 has a plate-like portion 106a facing the back surface of the game board 104 attached to the game board attachment frame 105, and is large enough to project the board box 108 at the approximate center of the plate-like portion 106a. The window portion 107 is formed.
  The plate-like portion 106a of the mechanism plate 106 is provided with a prize ball tank 109 at the upper back. Below the prize ball tank 109, a saddle rail 110 is formed as a ball path through which prize balls are aligned and guided. A prize ball case 111 for paying out a predetermined number of prize balls is provided below the saddle rail 110, and is connected to a vertical ball path 112 shown in FIG.
[0006]
  On the other hand, as shown in FIG. 11, a main board box 113 that houses an electronic circuit board for controlling the operation of various electrical components is mounted on the mechanism plate 106. The main board box 113 forms a box with a cover 114 made of synthetic resin and a bottom plate 115 made of an iron plate as a conductive member. A contact piece 116 bent in an L shape as viewed from the side is integrally formed on one side of the bottom plate 115 of the main board box 113. On the other hand, the mechanism plate 106 to which the main board box 113 is attached has openings 117 at positions corresponding to the plurality of screw holes and the contact pieces 116.
  Therefore, when the main board box 113 is mounted on the mechanism plate 106 and the front frame 103 is closed, the contact piece 116 that has penetrated the opening 117 comes into contact with the lower surface 105 a stretched below the game board mounting frame 105. (See Fig. 10)
  Accordingly, the static electricity charged on the pachinko balls and the mechanism plate 106 is released to the bottom plate 115 of the main board box 113 or the game board mounting frame 105, and the discharge to the electronic circuit board housed in the main board box 113 is prevented. it can.
[0007]
[Problems to be solved by the invention]
  However, the conventional pachinko gaming machine described above has the following problems.
  First, in a pachinko game machine in which a grounding wire is passed over a metal plate placed at a position in contact with a charged pachinko ball, such as a prize ball tank, and connected to the ground side, the ground side is opened and closed when the frame is opened and closed. There is a problem that the wire is forcibly pulled and cut. In addition, in order to avoid such an accident, it is necessary to remove the contact portion of the metal plate or the grounding wire on the ground side every time it is opened and closed, which is very time-consuming and reduces work efficiency. is there.
[0008]
  On the other hand, in the conventional pachinko game machine described with reference to the drawings, there is no inconvenience when opening and closing the frame as described above because there is no need to use a ground wire to discharge charged static electricity. There's a problem.
  First, the conventional example is intended to remove static electricity charged in the pachinko balls and the mechanism plate 106, but it is intended to prevent the main substrate from being discharged. For this reason, the game board mounting frame 105 and the bottom plate 115 of the main board box 113 are formed of conductive members, and when the front frame 103 is closed, both are electrically connected by the contact piece 116 formed integrally with the bottom plate 115. Therefore, other control circuits, for example, an electronic circuit board housed in the board box 108, are still affected by static electricity charged in the pachinko balls. Therefore, although the conventional pachinko game machine can cope with the discharge to the main board, the problem in the case of discharging from the pachinko ball to another circuit board has not been solved.
[0009]
  Further, if the game board mounting frame 105 is made of a conductive member such as an iron plate instead of the resin one, there is a problem that the manufacturing cost increases.
  Furthermore, the bottom plate 115 of the main board box 113 is an iron plate, and the contact piece 116 is integrally formed with the bottom plate 115, while the opening 117 for allowing the contact piece 116 to pass through the game board mounting frame 105 is required. In view of the number of parts and the complexity of the configuration, there is a problem that the assembly work efficiency is lowered and the manufacturing cost is increased.
[0010]
  Accordingly, the present invention has an object to provide a pachinko game machine that is easy to handle and has a simple configuration, and that can reliably eliminate static electricity generated by friction of a pachinko ball, etc., in order to eliminate such problems. To do.
[0011]
[Means for Solving the Problems]
  In order to achieve the above object, a pachinko gaming machine according to claim 1 is attached to an outer frame and the outer frame so as to be opened and closed.WoodenAn award provided on an inner frame and a mechanism panel disposed on the back side of the inner frame, receiving and storing pachinko balls falling from a replenishing device, and sequentially awarding the pachinko balls as the award balls are paid out. With ball payout systemA lower plate receiving portion that is fixed below the inner frame and receives award balls overflowing from the upper plate and guides them to the lower plate, and a control circuit that controls the gaming operation of the pachinko game machine. Main boardIn a pachinko game machine equipped withThe prize ball payout system includes a prize ball tank for storing pachinko balls, a prize ball guide unit for guiding a predetermined number of pachinko balls to a prize ball case, and a prize ball guide unit from below the prize ball tank. A tank rail that forms a passage for feeding a pachinko ball to the third metal plate that is attached to the inside of the passage near the passage entrance so as to contact the pachinko ball of the tank rail, and the prize ball guide A plurality of prize ball passages for sending pachinko balls to the prize ball case are formed in the part, and a plurality of fourth metal plates attached in each prize ball passage, the lower plate receiving part, and the inner frame, A fifth metal plate having an extending portion that is sandwiched between the inner frame and grounded to the inner frame and covers the bottom surface in the lower tray receiving portion And a sixth metal plate fixed to the back side of the mechanism board facing the longitudinal center of the tank rail,WithThe main board is disposed in the vicinity of the passage entrance side of the tank rail, and the third metal plate and each fourth metal plate are connected to the sixth metal plate by ground wires, and 6 metal plates are routed from the sixth metal plate to the winning ball guide portion side, and then connected to the fifth metal plate by a ground wire that is routed downward. The electrostatic charge that has flowed to the fourth metal plate is collected on the sixth metal plate, and then flows to the fifth metal plate to be grounded to the inner frame.It is characterized by that.
[0012]
  In the pachinko gaming machine according to claim 1 having such characteristics,Static electricity charged on the pachinko ball passing through the tank rail and static electricity charged by friction of the tank rail itself with the pachinko ball, etc., flow from the third metal plate to the sixth metal plate via the ground wire, and further to the ground. Since it flows to the fifth metal plate via the wire and is grounded to the inner frame, it is almost static neutralized and prevents the adverse effect of static electricity on the main board located near the tank rail passage entrance. Can do. Further, even when there are almost no pachinko balls in the prize ball tank, the static electricity charged in the pachinko balls in the tank rail and the tank rail itself can be eliminated through the third metal plate. Furthermore, since the pachinko balls fall from the prize ball tank onto the third metal plate, wear due to the fall of the pachinko balls at the tank rail inlet can be prevented.
  In addition, since a plurality of fourth metal plates are attached in each of the award ball paths formed in the award ball guide portion, static electricity charged in the pachinko balls passing through the award ball guide portion is grounded from each of the fourth metal plates. Since it flows to the sixth metal plate via the wire, and further flows to the fifth metal plate via the ground wire and is grounded to the inner frame, it can be almost discharged and disposed near the upper side of the prize ball guide. Adverse effects of static electricity on the relay circuit board and the like can be prevented.
  In addition, since one end portion of the fifth metal plate covers the bottom surface of the lower plate receiving portion, the static electricity charged in the pachinko sphere at the lower plate entrance can be almost eliminated through the fifth metal plate. The adverse effect of static electricity on the control board or the like in the control box disposed at the position can be effectively prevented. Further, since the pachinko balls fall from the upper plate onto the fifth metal plate in the lower plate receiving portion, it is possible to prevent wear due to the falling of the pachinko balls on the bottom surface of the lower plate receiving portion.
  Further, the third metal plate and each fourth metal plate are once connected to the sixth metal plate by ground wires, and then the sixth metal plate is connected to the fifth metal plate by ground wires. Since it is grounded to the inner frame, it is possible to shorten the length of the grounding wires drawn from the third metal plate and each fourth metal plate, and the grounding wire from the sixth metal plate to the fifth metal plate. Therefore, the number of grounding wires can be greatly reduced, and the working efficiency can be improved.
[0013]
[0014]
[0015]
[0016]
[0017]
[0018]
[0019]
[0020]
[0021]
[0022]
[0023]
[0024]
[0025]
[0026]
[0027]
[0028]
[0029]
[0030]
[0031]
[0032]
[0033]
[0034]
[0035]
[0036]
[0037]
DETAILED DESCRIPTION OF THE INVENTION
  Next, an embodiment of a pachinko game machine according to the present invention will be specifically described. FIG. 1 is a rear view showing the entire pachinko gaming machine according to the present embodiment. This pachinko game machine 1 is for paying out a predetermined amount of pachinko balls as prize balls, and a wooden inner frame 16 is attached to a wooden outer frame 2 through a hinge member or the like so as to be freely opened and closed. Further, a metal mechanism board 17 such as an iron plate is attached to the inner frame 16 so that the game board is detachable. A mechanism set board 3 made of synthetic resin is attached to one side of the mechanism board 17 by a hinge so as to be freely opened and closed. At present, the outer frame 2 and the inner frame 16 are mainly made of resin, but in the present embodiment, the outer frame 2 and the inner frame 16 are made of wood in order to obtain a charge eliminating effect described later.
  A prize ball tank 4 opened upward is fixed to the mechanism set board 3 at the uppermost back side of the pachinko game machine 1. A replenishing device 5 is disposed immediately above the prize ball tank 4, and the discharge portion 5a descends vertically. The prize ball tank 4 has a communication hole 4A (see FIG. 3) formed on an inclined bottom surface, and an inclined tank rail 6 capable of aligning and flowing pachinko balls in two rows is attached below the communication hole 4A. In addition, a ground plate 14 constituting a first metal plate, which is a conductive member described later, is mounted on the side surface of the prize ball tank 4. In addition, a tank rail grounding plate 22 constituting a third metal plate, which is a conductive member described later, is attached to the pachinko ball entrance of the tank rail 6 (see FIG. 4). A grounding relay plate 21 constituting a sixth metal plate, which is a conductive member, which will be described later, is screwed to the back side of the center of the tank rail 6 of the mechanism set panel 3.
[0038]
  Further, in the prize ball guide section 7 that guides the pachinko balls to the prize ball case 12, a sending rod 8A that forms two rows of prize ball passages 8 for further decompressing and feeding the pachinko balls on the downstream side of the tank rail 6; 8B is screwed, and in each prize ball passage 8, prize ball case ground plates 23 and 24 constituting a fourth metal plate which is a conductive member described later are sandwiched and screwed. (See FIG. 5).
  The prize ball case 12 includes a confirmation switch for confirming the number of pachinko balls passing through each prize ball passage 8, a payout solenoid for adjusting the delivery of the pachinko balls, and the like (both not shown). The prize ball tank 4, the tank rail 6, the prize ball guide unit 7, the prize ball case 12, the confirmation switch, the payout solenoid, and the like constitute a prize ball payout system.
  A discharge portion is formed on the downstream side of the prize ball case 12, and a discharge passage 9b in which a discharge passage 9a and a lower tray full tank switch are installed is formed to open below the lower end portion. A lower tray box 19 constituting a lower tray receiving portion that receives a prize ball overflowing from the upper plate and guides it to the lower plate is attached to the back side of the inner frame 16 with a bolt. Further, a lower tray ground plate 25 constituting a fifth metal plate, which is a conductive member described later, is sandwiched and fixed between the lower tray box 19 and the inner frame 16 (see FIG. 6).
[0039]
  Further, on the mechanism set board 3, a main board 10 disposed in the board box is fixed in a state of being attached to a center cover 11 covering the back of the game board. The main board 10 is configured with a control circuit that controls the gaming operation of the pachinko gaming machine 1 and the like. The control circuit includes a CPU that can execute a control operation in a predetermined procedure, a ROM that stores the operation program data, a RAM that writes and reads data, an input / output circuit, a clock generator, and the like. A microcomputer is installed.
  A control box 18 with a control board mounted is attached to the lower side of the main board 10. The control board constitutes a control circuit for performing control such as prize ball payout. Further, a relay substrate 20 is provided at the upper corner (upper right corner in FIG. 1) of the mechanism set board 3. The relay board 20 is a board that connects the pachinko game machine 1 and the hall computer.
[0040]
  Next, the prize ball tank ground plate 14 attached to the prize ball tank 4 will be described with reference to FIGS. FIG. 2 is a perspective view showing the prize ball tank 4 of the pachinko gaming machine 1 according to the present embodiment. FIG. 3 is a partial cross-sectional view showing a side surface of the pachinko gaming machine 1 according to the present embodiment.
  As shown in FIG. 2, the prize ball tank 4 forms a box that opens upward, and a prize ball tank ground plate 14 made of galvanized copper is mounted on the side surface of the mechanism set board 3 side. The prize ball tank ground plate 14 is formed by protruding a contact piece 14A on one side of a rectangular plate in the longitudinal direction, and the step hole 14B bent vertically is formed in the communication hole 4A to the tank rail 6. ing.
[0041]
  In addition, as shown in FIG. 3, the top of the contact piece 14 </ b> A of the prize ball tank ground plate 14 is mounted so as to contact the outer frame 2. The outer frame 2 of the pachinko game machine 1 is made of wood as described above, and the contact portion with which the contact piece 14A of the prize ball tank ground plate 14 contacts is a conductive member. A discharge plate 15 constituting a metal plate is attached. For example, aluminum or stainless steel is used for the discharge plate 15. On the other hand, the step piece 14 </ b> B is inserted into a communication hole 4 </ b> A opened at the bottom of the prize ball tank 4.
[0042]
  As a result, the pachinko balls stored in the prize ball tank 4 collide violently in the tank by the charge eliminating means comprising the prize ball tank ground plate 14 and the discharge plate 15 attached to the outer frame 2. Even if a large amount of static electricity is charged, the electric charge is grounded to the wooden outer frame 2 via the discharge plate 15 by contacting the prize ball tank ground plate 14. In particular, since the prize ball tank ground plate 14 is provided to the communication hole 4A along the flow of the pachinko balls in the prize ball tank 4, the static electricity of the pachinko balls stored in the prize ball tank 4 is Most of the charge is eliminated before reaching the tank rail 6.
[0043]
  Next, the tank rail grounding plate 22 attached to the tank rail 6 will be described with reference to FIG. FIG. 4 is a perspective view showing mounting of the tank rail ground plate 22 to the tank rail 6 of the pachinko gaming machine 1 according to the present embodiment.
  As shown in FIG. 4, the tank rail 6 made of synthetic resin has two rows of passages formed by ribs 6A provided on a flat portion of the bottom surface inside the passage. Further, a side wall 6B is provided on the end face of the passage entrance facing the communication hole 4A of the prize ball tank 4, and the side wall 6B is gently curved from the lower end edge to the bottom face.
  The tank rail ground plate 22 made of aluminum, stainless steel or the like has a substantially L shape, and its bottom bent portion is formed so as to follow the curvature of the bottom of the passage inlet portion of the tank rail 6. Further, a groove 22A is formed in a portion facing the rib 6A, and the tank rail ground plate 22 is in close contact with the bottom surface inside the passage of the tank rail 6. In addition, attachment pieces 22B and 22B which are bent at a right angle are formed on each end face portion which is in close contact with the bottom surface, and are inserted into a through hole formed on the bottom surface of the tank rail 6 at the time of attachment and then folded at a right angle. Bend. Further, the edge of the side surface of the tank rail ground plate 22 that is in close contact with the side wall 6B is bent outward at a right angle and then bent downward at a right angle with the width of the side wall 6B. A connecting piece 22C is formed on this end surface portion by being bent outward at a substantially right angle. Thus, the tank rail ground plate 22 is attached to the passage entrance of the tank rail 6 by inserting the bent portion into the side wall 6B and bending the attachment pieces 22B and 22B.
[0044]
  As a result, the static electricity of the pachinko ball that could not be completely neutralized by the prize ball tank ground plate 14 attached in the prize ball tank 4 falls from the prize ball tank 4 to the tank rail 6. Sometimes the tank rail grounding plate 22 flows by coming into contact with the tank rail grounding plate 22. Further, the static electricity charged when being sent through the tank rail 6 also flows into the tank rail ground plate 22 through the pachinko balls when the pachinko balls are clogged in the tank rail. Further, static electricity charged by the tank rail 6 due to friction with the pachinko ball or the like also flows through the tank rail ground plate 22.
[0045]
  Next, the prize ball passage ground plates 23 and 24 attached to the respective prize ball passages 8 of the prize ball guide unit 7 will be described with reference to FIG. FIG. 5 is a perspective view showing the mounting of the award ball passage ground plates 23 and 24 and the delivery rods 8A and 8B to the mechanism set board 3 of the pachinko game machine 1 according to the present embodiment.
  As shown in FIG. 5, a groove for a substantially S-shaped prize ball path is formed on the mechanism set board 3 side of each of the sending rods 8A and 8B made of synthetic resin. A prize ball passage ground plate 23 made of aluminum, stainless steel or the like sandwiched and fixed between the mechanism set board 3 and the delivery rod 8A substantially covers a groove formed for the prize ball passage of the delivery rod 8A. It is formed as follows. In addition, a through hole 23A for attachment and a through hole 23B through which the connection piece 24A of the prize ball passage ground plate 24 is inserted are formed in a substantially central portion of the prize ball passage ground plate 23 that does not cover this groove. Further, a connection piece 23 </ b> C that is bent at a right angle toward the mechanism set board 3 is formed at substantially the center of the upper end surface of the prize ball passage ground plate 23.
  Further, the prize ball passage ground plate 24 made of aluminum, stainless steel or the like is formed in a substantially S-shape so as to cover a groove formed for the prize ball passage of the delivery rod 8B. A connection piece 24 </ b> A that is bent at a right angle toward the mechanism set board 3 is formed on the inner side of the substantially central bent portion.
  Each prize ball passage ground plate 23, 24 and each delivery rod 8A, 8B are attached by inserting the post 3C of the mechanism set board 3 into the through hole 23A of the prize ball passage ground plate 23 and setting the connection piece 23C as a mechanism. The prize ball passage ground plate 23 is brought into close contact with the mechanism set board 3 by being inserted into the through hole 3A of the board 3. Next, the delivery rod 8A is brought into close contact with the prize ball passage ground plate 23. Next, the connecting piece 24A of the prize ball passage ground plate 24 is brought into close contact with the prize ball basket 8A while being inserted into the through hole 3B of the mechanism set board 3. Next, the delivery rod 8B is brought into close contact with the prize ball passage ground plate 24 and attached by screwing.
[0046]
  As a result, two rows of prize ball passages 8 are formed in the prize ball guide section 7, and one side surface of each prize ball passage 8 is formed by each of the prize ball passage ground plates 23 and 24. Accordingly, the pachinko balls in the respective prize ball passages 8 formed in the prize ball guide section 7 come into contact with the respective prize ball passage ground plates 23 and 24, so that the friction between the tank rail 6 and the prize ball passage 8, etc. When a large amount of static electricity is charged, when the prize ball passage 8 is sent, the electrostatic charge flows through each of the prize ball passage ground plates 23 and 24.
[0047]
  Next, the lower tray ground plate 25 made of aluminum, stainless steel, or the like, sandwiched between the synthetic resin lower tray box 19 and the wooden inner frame 16, will be described with reference to FIG. FIG. 6 is a perspective view showing the mounting of the lower saucer ground plate 25 and the lower saucer box 19 to the inner frame 16 of the pachinko gaming machine 1 according to the present embodiment.
  As shown in FIG. 6, a lower dish ball outlet 16 </ b> B is formed at a substantially central portion on the lower side of the wooden inner frame 16. And the lower saucer grounding plate 25 sandwiched and fixed between the inner frame 16 and the lower saucer box 19 has a substantially rectangular shape so as to cover the left and right and lower sides of the peripheral edge of the lower saucer ball outlet 16B. It has a letter shape, and the end surface of the lower peripheral edge thereof extends substantially perpendicularly to the rear side to form an extended portion 25A. The extending portion 25 </ b> A has substantially the same shape as the inner bottom surface of the lower tray box 19. Moreover, connection piece 25B, 25B is formed in the right-and-left both ends edge part of the rear-end surface of this extension part 25A. Further, on the left side of the lower tray ground plate 25, a connecting piece 25C is punched and then bent at a right angle to the rear side. Further, at the left and right peripheral edge portions of the lower tray ground plate 25, relief portions for avoiding the respective mounting holes 16A for mounting the lower tray boxes 19 formed on the left and right sides of the lower tray ball outlet 16B are formed.
  The lower tray box 19 is formed with mounting holes 19A, 19A at positions corresponding to the mounting holes 16A, 16A of the inner frame 16, and at positions corresponding to the connection pieces 25C of the lower tray ground plate 25. The through hole 19B for connection is formed, and further, through holes (not shown) are formed at positions corresponding to the connection pieces 25B and 25B.
[0048]
  The lower tray ground plate 25 and the lower tray box 19 are attached in such a manner that the lower tray ground plate 25 is in close contact with the inner side of the inner frame 16 so as to cover the lower peripheral edge of the inner frame 16. While the extending portion 25A is inserted, each connection piece 25B is inserted into a through-hole (not shown) formed in the left and right end portions on the rear side of the bottom surface of the lower tray box 19, and the connection piece 25C passes through for connection. The lower tray box 19 is inserted into the hole 19B and attached to the inner frame 16 with bolts.
[0049]
  Thus, when the prize ball falling into the lower tray box 19 is charged with a large amount of static electricity due to friction with the discharge portions 9a, 9b made of synthetic resin or the lower tray box 19, this lower tray ground plate By making contact with the 25 extending portions 25 </ b> A, the electrostatic charges are discharged to the wooden inner frame 16 through the lower tray ground plate 25.
[0050]
  Next, the grounding of the ground plates 22, 23, 24 to the lower tray ground plate 25 via the grounding relay plate 21 will be described with reference to FIG. FIG. 7 is a perspective view showing a connection state of the grounding relay plate 21, the tank rail grounding plate 22, the prize ball passage grounding plates 23 and 24, and the lower tray grounding plate 25 of the pachinko game machine 1 according to the present embodiment. is there.
  As shown in FIG. 7, a connection piece 31 is formed on the end face of the tank rail 6 on the passage entrance side of the grounding relay plate 21 made of aluminum, stainless steel or the like screwed to the back side of the tank rail 6 of the mechanism setting panel 3. In addition, connection pieces 32, 33, and 34 are formed on the end face on the prize ball guiding portion 7 side.
  The connection piece 22 </ b> C of the tank rail ground plate 22 and the connection piece 31 of the grounding relay plate 21 are connected by a connector via the ground wire 36. Further, the connection piece 23C of the prize ball passage ground plate 23 and the connection piece 32 of the grounding relay plate 21 are connected by a connector via the ground wire 37. The connection piece 24A of the prize ball passage ground plate 24 and the connection piece 33 of the grounding relay plate 21 are connected by a connector via the ground wire 38. Further, the connection piece 34 of the grounding relay plate 21 and the connection piece 25C of the lower tray ground plate 25 are connected by a connector via the ground wire 39. Further, the lower tray ground plate 25 is pressed against the peripheral edge of the lower tray ball outlet 16B of the wooden inner frame 16 and is in surface contact.
  As a result, the electrostatic charge that has flowed through the ground plates 22, 23, 24 flows to the ground relay plate 21 via the ground wires 36, 37, 38. Then, the electrostatic charge flowing through the grounding relay plate 21 flows through the ground wire 39 to the lower tray ground plate 25 and is grounded to the wooden inner frame 16 that is in surface contact with the lower tray ground plate 25. Will be.
[0051]
  Next, in the pachinko gaming machine 1 having the above-described configuration, an experimental example in which the static electricity neutralizing effect of the prize ball tank ground plate 14 has been confirmed will be described with reference to FIG. FIG. 8 is a diagram showing an experimental result of an electrostatic neutralization effect measurement experiment using the prize ball tank ground plate 14 of the pachinko game machine 1 according to the present embodiment.
  First, in the experiment of the static electricity elimination effect by the prize ball tank ground plate 14, a ground wire is attached to the prize ball tank ground plate 14, and (1) the ground wire is not connected to the ground side (that is, not connected to the outer frame 2). Case), (2) When a ground wire is connected to a metal plate attached to the plastic outer frame 2 (that is, when the outer frame 2 is made of synthetic resin), (3) Affixed to the wooden outer frame 2 A case where a ground wire was connected to the attached discharge plate 15 was compared.
  The installation method is such that a prize ball tank earth plate 14 is attached in the prize ball tank 4 of the pachinko game machine 1 so as to contact the pachinko ball, and in the cases (2) and (3), the prize ball tank earth plate 14 One end of the ground wire is connected to the discharge plate 15 and the other end is connected to the discharge plate 15 attached to the plastic or wooden outer frame 2. Then, a static electricity measuring device (Shimco Japan Co., Ltd. MODEL FM200) is installed at a position 25 mm away from the prize ball tank ground plate 14 attached to the prize ball tank 4 in parallel.
  Next, the pachinko ball of the pachinko gaming machine 1 is paid out, and the pachinko ball that moves and contacts the prize ball tank 4 is charged with static electricity. Then, when the static electricity in the prize ball tank 4 rises to about 1000 volts, the prize ball is paid out and measured. Thereafter, the value of the static electricity measurement value is read at a predetermined time interval (in this experiment, 10 minutes at 30 second intervals).
[0052]
  The above experimental results are shown in FIG. First, (1) the change in electrostatic energy of the prize ball tank ground plate 14 when not connected to the ground side is indicated by a solid line. The initial value was about 100 mVA. After 0.5 minutes, it was about 98 mVA. After 1 minute, it was about 97 mVA. After 2 minutes, it was about 95 mVA. After 3 minutes, it was about 94 mVA. After 4 minutes, it was about 91 mVA. After 5 minutes, it was about 92 mVA. After 6 minutes, it was about 89 mVA. After 7 minutes, it was about 89 mVA. After 8 minutes, it was about 88 mVA. After 9 minutes, it was about 85 mVA. After 10 minutes, it was about 84 mVA.
  Further, (2) a change in electrostatic energy of the prize ball tank ground plate 14 when the ground wire is connected to a metal plate attached to the plastic outer frame 2 is indicated by a one-dot chain line. The initial value was about 100 mVA. After 0.5 minutes, it was about 78 mVA. After 1 minute, it was about 76 mVA. After 2 minutes, it was about 73 mVA. After 3 minutes, it was about 70 mVA. After 4 minutes, it was about 67 mVA. After 5 minutes, it was about 64 mVA. After 6 minutes, it was about 62 mVA. After 7 minutes, it was about 60 mVA. After 8 minutes, it was about 58 mVA. After 9 minutes, it was about 56 mVA. After 10 minutes, it was about 55 mVA.
  Further, (3) the change in electrostatic energy of the prize ball tank ground plate 14 when a ground wire is connected to the discharge plate 15 attached to the wooden outer frame 2 is indicated by a broken line. The initial value was about 100 mVA. After 0.5 minute, it was about 19 mVA. After 1 minute, it was about 19 mVA. After 2 minutes, it was about 16 mVA. After 3 minutes, it was about 8 mVA. After 4 minutes, it was about 11 mVA. After 5 minutes, it was about 8 mVA. After 6 minutes, it was about 10 mVA. After 7 minutes, it was about 9 mVA. After 8 minutes, it was about 8 mVA. After 9 minutes, it was about 5 mVA. After 10 minutes, it was about 6 mVA.
[0053]
  As is apparent from this result, the effect of static elimination when the ground wire is connected to the discharge plate 15 attached to the wooden outer frame 2 was extremely large. Of course, the difference was obvious even when nothing was grounded, as compared with the case where the ground wire was connected to the metal plate affixed to the plastic outer frame 2. This result seems to be caused by the following.
  First, since the wooden outer frame 2 used in this embodiment also contains moisture, it has a high charge leakage effect and a high conductivity. Accordingly, the static electricity charged in the pachinko sphere is easily discharged to the ground side, and the charge eliminating effect is enhanced accordingly.
  Next, a combination of metal and wood, which are materials as close as possible to each other in the charged train, is used. Since the positions of the metal and wood charged rows are very close, the difference in charge between the two is very small, whereas the positions of the metal and plastic are far away. Therefore, in the case of the wooden outer frame 2, the static electricity charged on the pachinko sphere is easily transferred to the metal and easily discharged to the ground side, so that the static electricity removing effect was high.
  Therefore, the static electricity generated in the prize ball tank 4 of the pachinko game machine 1 of the present embodiment can be removed with high efficiency by grounding the wooden ball frame 2 by the prize ball tank ground plate 14.
[0054]
  Next, in the pachinko game machine 1 having the above-described configuration, an experimental example in which the static electricity removing effect of the lower tray ground plate 25 has been confirmed will be described with reference to FIG. FIG. 9 is a diagram for explaining the result of the electrostatic charge amount measurement experiment of the tank rail 6 of the pachinko game machine 1 according to the present embodiment. FIG. 9A shows the result of the charge amount measurement at the passage entrance of the tank rail 6. FIG. 4B is a diagram showing the charge amount measurement result at the passage exit of the tank rail 6.
  First, the tank rail grounding plate 22 and each prize ball passage grounding plate 23, 24 are connected to the grounding relay plate 21 via the grounding wires 36, 37, 38, and this grounding relaying plate 21 is connected to the grounding wire 39. Then, the contact piece 14 A of the prize ball tank ground plate 14 is brought into contact with the discharge plate 15 of the wooden outer frame 2. Then, a first static electricity measuring device (Simco Japan Co., Ltd. MODEL FM200) is installed at a position 25 mm parallel to the passage entrance of the tank rail 6. In addition, a second static electricity measuring device (Shimco Japan Co., Ltd. MODEL FM200) is installed at a position 25 mm away from the passage exit of the tank rail 6 in parallel.
  Next, the pachinko ball of the pachinko gaming machine 1 is paid out, and the pachinko ball that moves and contacts the prize ball tank 4 is charged with static electricity. Then, (1) when pachinko balls are continuously sent in contact with each other in the tank rail 6 (hereinafter referred to as balls), (2) the pachinko balls are sent while being interrupted in the tank rail 6. Measure in the case (hereinafter referred to as no sphere).
[0055]
  FIG. 9 shows the experimental results of performing the above experiment five times. First, FIG. 9A shows the measurement result at the tank rail inlet. (1) When there is a sphere, as shown by the solid line with a circle, the first time is about -0.03 kVA, the second time is about -0.05 kVA, the third time is about -0.06 kVA, and the fourth time is about -0.04 kVA, the fifth time is about -0.04 kVA. (2) When there is no sphere, the first time is about 0.6 kVA, and the second time is about 0.09 kVA, as indicated by the broken line with x mark. The third time was about 0.19 kVA, the fourth time was about 0.09 kVA, and the fifth time was about 0.05 kVA.
  Moreover, the measurement result in a tank rail exit is shown in FIG.9 (b). (1) When there is a sphere, as shown by the solid line with a circle, the first time is about 0.3 kVA, the second time is about 0.4 kVA, the third time is about 0.37 kVA, and the fourth time is about 0.4 kVA. The fifth time is about 0.8 kVA. (2) When there is no sphere, the first time is about -0.5 kVA, the second time is about -0.6 kVA, and the third time, as shown by the broken line with x mark. Was about -0.6 kVA, the fourth was about -0.66 kVA, and the fifth was about -0.8 kVA.
[0056]
  As is clear from this result, not only the grounding effect by the prize ball tank earth plate 14 but also the static electricity flowing from the pachinko balls after the tank rail 6 to the tank rail earth plates 22 and the prize ball passage earth plates 23 and 24 is It was discharged with high efficiency to the wooden inner frame 16 close to the position in the charging train through the grounding relay plate 21 and the lower tray ground plate 25, and the static electricity neutralizing effect was high.
[0057]
  As described above in detail, in the pachinko machine 1 of the present embodiment, the prize ball tank ground plate 14 is provided in the prize ball tank 4, and the contact piece 14A formed on the prize ball tank ground plate 14 When the frame 16 is closed, it is configured to contact the discharge plate 15 attached to the wooden outer frame 2.
  Further, a tank rail ground plate 6 is attached to the passage entrance of the tank rail 6, and prize ball passage ground plates 23 and 24 are attached to each prize ball passage 8 of the prize ball guide portion 7. A grounding relay plate 21 is attached to the back side of 6 by screws. A lower tray ground plate 25 is attached between the lower tray box 19 and the wooden inner frame 16. Each ground plate 22, 23, 24 is connected to the lower tray ground plate 25 via the grounding relay plate 21 by ground wires 36, 37, 38, 39.
  As a result, the static electricity charged in the pachinko balls in the prize ball tank 4 is discharged with high efficiency by the prize ball tank ground plate 14 to the wooden outer frame 2 close to the position in the charging column via the discharge plate 15. The In addition, the static electricity charged in the pachinko ball and the tank rail 6 itself sent into the tank rail 6 and the static electricity charged in the pachinko ball sent into the prize ball guide section 7 are caused by the ground plates 22, 23. , 24 and the grounding relay plate 21 are discharged with high efficiency to the wooden inner frame 16 close to the position in the charging train via the lower tray ground plate 25 connected in a connected manner. Furthermore, the static electricity charged in the pachinko balls overflowing from the upper plate and falling into the lower plate bucket is also discharged with high efficiency to the wooden inner frame 16 close to the position in the charged row via the lower tray ground plate 25. .
[0058]
  Accordingly, the static electricity charged in the pachinko balls in the prize ball tank 4 and the tank rail 6 and the static electricity charged in the tank rail 6 itself are transferred to the charged train via the prize ball tank ground plate 14 and the tank rail ground plate 22. Since discharge is made to the wooden outer frame 2 and the inner frame 16 that are close to each other, it is possible to prevent adverse effects on the microcomputer, such as a control circuit constituting the main board 10 disposed below the passage entrance of the tank rail 6. . Further, even when there are almost no pachinko balls in the prize ball tank, the charged static electricity such as the pachinko balls in the tank rail 6 can be eliminated, so that the adverse effect of the static electricity on the main substrate 10 and the like can be prevented more reliably.
  In addition, since the static electricity charged by the pachinko ball in the aisle exit of the tank rail 6 and the pachinko ball in the award ball guide 7 is removed through the award ball grounding plates 23 and 24, It is possible to prevent adverse effects of static electricity on the relay substrate 20 and the like that are arranged. Furthermore, since the static electricity charged in the pachinko balls in the lower tray box 19 is also neutralized through the lower tray ground plate 25, the static electricity to the circuit board and the like in the control box 18 disposed above the lower tray box 19 is eliminated. Adverse effects can be prevented. Also, the prize ball tank ground plate 14 provided in the prize ball tank 4 and the discharge plate 15 attached to the outer frame 2 in contact with the contact piece 14A, and the ground plates 22, 23, 24, 25 and the ground relay. Since the plate 21 is connected and connected, it has a very simple configuration, so it is possible to eliminate static electricity with high efficiency at low cost because of the small number of parts and its assembly, and with a significant improvement in product reliability. The manufacturing cost can be reduced.
  In the present embodiment, the contact piece 14A of the ground plate 14 is brought into contact with the discharge plate 15, and the static electricity charged in the pachinko sphere is discharged to the ground side of the outer frame 2. Therefore, the static electricity is discharged to the ground side. This eliminates the need for a grounding wire, and eliminates the need to remove the grounding wire when opening and closing the inner frame 16 and the like, so that work can be carried out smoothly and work efficiency in assembly and adjustment work can be improved. Can do.
  Further, since the pachinko balls fall from the prize ball tank 4 onto the tank rail ground plate 22, wear due to the fall of the pachinko balls at the passage entrance of the tank rail 6 can be prevented. In addition, since the pachinko balls fall from the upper tray onto the lower tray ground plate 25 that covers the bottom surface in the lower tray box 19, wear due to the fall of the pachinko balls in the lower tray box 19 can be prevented.
  Further, the ground plate 14, 22, 23, 24, 25, the grounding relay plate 21, and the discharge plate 15 are made of aluminum, stainless steel, or the like, so that the charged train is formed when the outer frame 2 or the inner frame 16 is made of wood. The inside position is very close, the static elimination effect can be further increased, and a grounding means having excellent corrosion resistance can be configured.
[0059]
  In addition, this invention is not limited to the said embodiment, Of course, various improvement and deformation | transformation are possible within the range which does not deviate from the summary of this invention, and it may be as follows.
  (A) In the above embodiment, the discharge plate 15 is attached to the outer frame 2, but the contact piece 14 </ b> A of the prize ball tank ground plate 14 may be brought into direct contact with the outer frame 2.
  (B) In the above embodiment, the outer frame 2 and the inner frame 16 are made of wood. However, the effect is reduced, but the outer frame 2 and the inner frame 16 may be made of plastic.
  (C) The shape of the prize ball tank ground plate 14, the discharge plate 15, the ground plates 22, 23, 24, 25, and the grounding relay plate 21 may be of various forms in addition to those of the embodiment. .
  (D) The material of the prize ball tank ground plate 14, the discharge plate 15, each ground plate 22, 23, 24, 25, and the grounding relay plate 21 is also chromium, etc. in addition to zinc, copper, aluminum, stainless steel, etc. A plating material using may be used, and those having high conductivity and being resistant to corrosion are preferable.
  (E) Although the prize ball tank ground plate 14 is grounded to the wooden outer frame 2 via the discharge plate 15 in the above embodiment, it may be grounded to the wooden inner frame 16 by a ground wire or the like.
  (F) In the above embodiment, the contact piece 14A of the prize ball tank ground plate 14 is in contact with the discharge plate 15. However, the contact piece 14A of the prize ball tank earth plate 14 is removed to form a contact piece for connection. Then, it may be connected to the grounding relay plate 21 by a ground wire.
[0060]
【The invention's effect】
  As described above, in the pachinko gaming machine according to claim 1,Static electricity charged on the pachinko ball passing through the tank rail and static electricity charged by friction of the tank rail itself with the pachinko ball, etc., flow from the third metal plate to the sixth metal plate via the ground wire, and further to the ground. Since it flows to the fifth metal plate via the wire and is grounded to the inner frame, it is almost static neutralized and prevents the adverse effect of static electricity on the main board located near the tank rail passage entrance. Can be provided. Further, even when there are almost no pachinko balls in the prize ball tank, the static electricity charged in the pachinko balls in the tank rail and the tank rail itself can be eliminated through the third metal plate. Furthermore, since the pachinko balls fall from the prize ball tank onto the third metal plate, it is possible to provide a pachinko game machine that can prevent wear due to the fall of the pachinko balls at the tank rail entrance.
  In addition, since a plurality of fourth metal plates are attached in each of the award ball paths formed in the award ball guide portion, static electricity charged in the pachinko balls passing through the award ball guide portion is grounded from each of the fourth metal plates. Since it flows to the sixth metal plate via the wire, and further flows to the fifth metal plate via the ground wire and is grounded to the inner frame, it can be almost discharged and disposed near the upper side of the prize ball guide. It is possible to provide a pachinko game machine that can prevent adverse effects of static electricity on the relay circuit board and the like.
  In addition, since one end portion of the fifth metal plate covers the bottom surface of the lower plate receiving portion, the static electricity charged in the pachinko sphere at the lower plate entrance can be almost eliminated through the fifth metal plate. The adverse effect of static electricity on the control board or the like in the control box disposed at the position can be effectively prevented. In addition, since the pachinko ball falls from the upper plate onto the fifth metal plate in the lower plate receiving portion, it is possible to provide a pachinko game machine that can prevent wear due to the falling of the pachinko ball on the bottom surface of the lower plate receiving portion. it can.
  Further, the third metal plate and each fourth metal plate are once connected to the sixth metal plate by ground wires, and then the sixth metal plate is connected to the fifth metal plate by ground wires. Since it is grounded to the inner frame, it is possible to shorten the length of the grounding wires drawn from the third metal plate and each fourth metal plate, and the grounding wire from the sixth metal plate to the fifth metal plate. Therefore, a pachinko game machine capable of greatly reducing the number of grounding wirings and improving work efficiency can be provided.
[0061]
[0062]
[0063]
[0064]
[0065]
[0066]
[0067]
[0068]
[0069]
[0070]
[0071]
[0072]
[Brief description of the drawings]
FIG. 1 is a rear view showing an entire pachinko gaming machine according to the present embodiment.
FIG. 2 is a perspective view showing a prize ball tank of the pachinko gaming machine according to the present embodiment.
FIG. 3 is a partial cross-sectional view showing a side surface of the pachinko gaming machine according to the present embodiment.
FIG. 4 is a perspective view showing attachment of a tank rail ground plate to the tank rail of the pachinko gaming machine according to the present embodiment.
FIG. 5 is a perspective view showing mounting of each prize ball passage ground plate and each delivery rod to the mechanism set board of the pachinko game machine according to the present embodiment.
FIG. 6 is a perspective view showing the mounting of the lower tray ground plate and the lower tray box to the inner frame of the pachinko gaming machine according to the present embodiment.
FIG. 7 is a perspective view showing a connection connection state of a grounding relay plate, a tank rail grounding plate, each prize ball passage grounding plate, and a lower tray grounding plate of the pachinko gaming machine according to the present embodiment.
FIG. 8 is a diagram showing an experimental result of an electrostatic neutralization effect measurement experiment using a prize ball tank ground plate of the pachinko game machine according to the present embodiment.
FIG. 9 is a diagram for explaining a result of an electrostatic charge amount measurement experiment of a tank rail of the pachinko game machine according to the present embodiment, (a) is a diagram showing a charge amount measurement result at a passage entrance of the tank rail; b) is a diagram showing the result of measuring the charge amount at the passage exit of the tank rail.
FIG. 10 is a perspective view of the pachinko gaming machine according to the conventional example with the front frame opened.
FIG. 11 is a perspective view of a main part with a main board box removed from a mechanism plate of a pachinko gaming machine according to the conventional example.
[Explanation of symbols]
  1 Pachinko game machine
  2 outer frame
  3 Mechanism set board
  4 prize ball tank
  6 Tank rail
  7 Prize ball guide
  8 prize ball passage
  10 Main board
  14 prize ball tank earth board
  15 Discharge plate
  16 Inner frame
  17 Mechanism panel
  18 Control box
  19 Lower tray box
  20 Relay board
  21 Relay plate for grounding
  22 Tank rail ground plate
  23, 24 Award ball passage ground plate
  25 Lower tray ground plate
  101 pachinko game machine
  105 Game board mounting frame
  106 Mechanism plate
  113 Main board box
  115 Bottom plate
  116 Contact piece
  117 opening

Claims (1)

An outer frame, and a wooden inner frame attached to the outer frame so as to be openable and closable;
A prize ball payout system that is provided on a mechanism board disposed on the back side of the inner frame, receives and stores pachinko balls falling from a replenishing device, and sequentially pays out the pachinko balls as the prize balls are paid out; ,
A lower plate receiving portion fixed below the inner frame and receiving a prize ball overflowing from the upper plate and guiding it to the lower plate;
In a pachinko gaming machine comprising a main board on which a control circuit for controlling the gaming operation of the pachinko gaming machine is configured ,
The prize ball payout system
A prize ball tank for storing pachinko balls,
A prize ball guide unit for guiding a predetermined number of pachinko balls to a prize ball case;
A tank rail that forms a passage for sending a pachinko ball from below the prize ball tank to the prize ball guide,
Have
A third metal plate attached to the inside of the passage in the vicinity of the passage entrance so as to come into contact with the pachinko ball of the tank rail;
In the prize ball guide section, a plurality of prize ball paths for sending pachinko balls to the prize ball case are formed, and a plurality of fourth metal plates attached in each prize ball path,
A fifth metal plate sandwiched between the lower dish receiving part and the inner frame and grounded to the inner frame and having an extension part covering the bottom surface in the lower dish receiving part;
A sixth metal plate fixed to the back side of the mechanism board facing the center in the longitudinal direction of the tank rail;
Equipped with a,
The main board is disposed in the vicinity of the tank rail passage entrance side,
The third metal plate and each fourth metal plate are connected to the sixth metal plate by ground wires, and the sixth metal plate is drawn from the sixth metal plate to the prize ball guiding portion side. After being turned, it is connected to the fifth metal plate by a ground wire drawn downward,
The electrostatic charge that has flowed through the third metal plate and the fourth metal plate is collected on the sixth metal plate, and then flows into the fifth metal plate and is grounded to the inner frame. Pachinko game machine to play.

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