JP4159622B2 - Equipment for polishing gaming media - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to equipment for brushing game media to be used like a pachinko machine or a coin gaming machine or the slot machine.
[0002]
[Prior art]
To what is conventionally known as an apparatus for polishing such a Yu technique medium, for example, a game medium moving member for moving the game medium, the game integrally attached to the recreation medium moving member There have been devices for polishing gaming media , including media polishing devices .
[0003]
The game medium moving member is provided with a game medium exposing portion for exposing a part of the game medium in the game medium moving member, and the game medium polishing member of the game medium polishing apparatus is used as the game medium. The game medium is dirtied off by the game medium polishing member by adjusting it so as to be arranged along the exposed portion so as to contact the game medium. Then, at the stage where the polishing ability of the game medium polishing member is reduced, the game medium polishing member is removed from the game medium polishing apparatus, and a new game medium polishing member is arranged and used.
[0004]
[Problems to be solved by the invention]
On the other hand, conventionally, when replacing with a new game medium polishing member, the game medium polishing member is disposed along the game medium exposure portion of the game medium moving member and then attached to the game medium polishing device. Therefore, there has been a disadvantage that the exchange work becomes very troublesome.
[0005]
The present invention has been conceived in view of the circumstances of, its object is to provide a device for brushing YU technique medium that can of be performed easily replacing the game medium polishing member.
[0006]
[Means for Solving the Problems]
The present invention according to claim 1 includes a game medium polishing apparatus for polishing game media, and a game medium moving member for moving the game medium provided with a mounting portion to which the game medium polishing apparatus is mounted. A device for polishing a medium ,
The game medium moving member has a game medium exposure part for exposing a part of the game medium moving in the game medium moving member,
The game media polishing apparatus has a mounting substrate that can be detachably attached to a mounting portion of the game media moving member,
The said mounting Tsukemoto plate,
A belt-shaped game media polishing member;
A reel for unwinding the game media polishing member;
A take-up reel for taking up the game medium polishing member unwound from the unwind reel;
An abutting member that abuts the game medium against the game medium polishing member spanned between the unwinding reel and the take-up reel;
In a state where the intake Tsukemoto plate mounted to the mounting portion, with the game medium polishing member of said game medium polishing device is disposed along said game medium exposed portion, the game exposed before Ki遊 TECHNICAL media exposure unit The medium is brought into a state of being in contact with the game medium polishing member by the contact member.
[0007]
According to a second aspect of the present invention, in addition to the configuration of the first aspect of the present invention, the present invention further includes a photoswitch for detecting a winding amount of the game medium polishing member.
[0009]
[Action]
According to the first aspect of the present invention, the mounting portion provided on the game medium moving member includes the mounting substrate including the game medium polishing member, the unwinding reel, the take-up reel, and the contact member. The game medium polishing member of the game medium polishing apparatus is disposed along the game medium exposure part and the game medium exposed from the game medium exposure part formed on the game medium moving member is attached to the game medium polishing apparatus. The abutting member comes into contact with the game medium polishing member.
[0010]
According to the second aspect of the present invention, in addition to the action of the first aspect of the invention , the amount of winding of the game medium polishing member is detected by the photoswitch.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Next, embodiments of the present invention will be described in detail with reference to the drawings. In this embodiment, a pachinko gaming machine is shown as an example of a gaming machine, but the present invention is not limited to this, and can be applied to a coin gaming machine, a slot machine, and the like. Further, the present invention is not limited to a gaming machine, and can be applied to, for example, a circulation device for circulating gaming media discharged from a gaming machine to the gaming machine.
[0013]
FIG. 1 is a front view showing a pachinko gaming machine 1 and a common card unit 33 as an example of a gaming machine.
[0014]
When playing a game with the pachinko gaming machine 1, the common card is inserted into the common card insertion / discharge port 40 of the common card unit 33 connected to the pachinko gaming machine 1. By inserting this common card, the recorded information recorded on the inserted common card is read. When the player presses a withdrawal switch (not shown) provided on the operation unit 9, a predetermined amount (for example, 100 yen) is withdrawn from the card balance included in the record information of the common card. The point is updated by addition. In the upper part of the front frame of the pachinko gaming machine 1, a holding point analog display 7 for displaying the holding points in an analog manner according to the lighting amount is provided. Speakers 8 are provided on the left and right sides of the holding point analog display 7.
[0015]
If the player operates the hitting ball operating handle 5 in the state where there is a holding point, a pachinko ball, which is an example of a game medium, is fired one by one and driven into the game area 11. This firing ball is detected by the firing ball detector 27. A pachinko ball whose launch momentum is too weak to reach the game area 11 is detected by the foul ball detector 28 (see FIGS. 2 and 3) after flowing down and entering the foul ball return port 50. The The game area 11 is provided with normal winning ports 21 and 19 and a starting winning port 22. In addition, a variable display device 12 is provided in the middle of the game area 11 to change the display state by variably displaying a plurality of types of identification information. Below that, a variable winning ball apparatus that can change between a first state that is advantageous for the player by opening the opening and closing plate 15 and a second state that is disadvantageous for the player by closing the opening and closing plate 15. 13 is provided.
[0016]
If the pachinko ball wins the start winning opening 22 and the start winning ball is detected by the start winning ball detector 24, the variable display device 12 starts variably, and the display result when the variable display is stopped is predetermined. If it becomes a specific display mode (for example, 777), the specific game state occurs, the opening / closing plate 15 of the variable winning ball apparatus 13 is opened, and the pachinko ball is in the first state in which the variable winning ball apparatus 13 can win. . The variable winning ball apparatus 13 is in a second state in which the solenoid 23 is normally de-energized so that the opening / closing plate 15 is closed and the hitting ball cannot be won. When the state occurs, the big hit control is performed so that the solenoid 23 is excited and the variable winning ball apparatus 13 is in the first state. The first state of the variable winning ball apparatus 13 ends when a predetermined number of hit balls (for example, 10) wins or a predetermined period (for example, 30 seconds), whichever comes first, is satisfied. To enter the second state. Further, a specific winning area 16 is provided at a predetermined location in the variable winning ball apparatus 13, and a winning ball that has won the specific winning area 16 is detected by the specific winning ball detector 17. In addition, all winning balls that are won in the variable winning ball apparatus 13 are detected by the winning ball detector 18.
[0017]
If the hitting ball wins the specific winning area 16 and is detected by the specific winning ball detector 17 during the period in which the variable winning ball apparatus 13 is in the first state, the first of the variable winning ball apparatus 13 of that time is detected. Repeated continuation control is performed in which the variable winning ball apparatus 13 is again controlled to the first state after the state of 1 is completed. The upper limit number of this repeated continuation control is set to 16 times, for example.
[0018]
If a hit ball enters the ball entrance 20 provided above the variable display device 12, the ball is guided downward and guided up to the start winning port 22, and again from above the start winning port 22. Released to the game area 11. As a result, the released pachinko balls are likely to win the start winning opening 22. In the figure, reference numeral 25 denotes a lamp that lights up or flashes in accordance with the gaming state. In addition, at the lowermost end portion of the game area 11, an out port 45 is formed for collecting pachinko balls that have not won any winning port or winning ball apparatus as out balls. Further, the front plate 4 is provided with various displays, switches, and the like, and a speaker 10, from which a sound effect such as a big hit is emitted. In the figure, reference numeral 6 denotes a reset key switch. Whether or not a game attendant inserts a predetermined key into the reset key switch 6 and operates it to allow the game to be continued using the score at the end of the big hit. No is determined. The operation of the reset key switch 6 is detected by a reset operation detector 6a. Reference numeral 32 denotes a game continuation allowance indicator. When the reset key switch 6 is operated, the game continuation allowance state is lit.
[0019]
In the figure, reference numeral 36 denotes a unit availability indicator that displays that the common card unit 33 is in a usable state. Reference numeral 37 denotes a fraction display switch. When a fraction exists in the balance of the common card, when the fraction display switch 37 is pressed, the fraction is displayed on a predetermined display on the operation unit 9. It is configured. A connection direction indicator 38 lights up and displays the connection direction of the pachinko gaming machine to which the common card unit 33 is connected. Reference numeral 39 denotes a card insertion indicator which lights up and displays that a common card is inserted into the card insertion / discharge port 40. Reference numeral 35 denotes an information output unit for outputting information relating to the inserted common card or the like to a management hall computer installed in the game hall. Reference numeral 34 denotes an information input unit for inputting information relating to the common card from a hall computer for hall management. Reference numeral 3 denotes a glass door, which covers the front surface of the game area 11 so as to be opened and closed. The glass door 3 is opened by performing an unlocking operation with a predetermined key owned by an attendant of the game hall.
[0020]
When the pachinko ball is clogged in the game area 11, the glass door 3 is opened to eliminate the clogging. In addition, if a ball jam occurs, the game is temporarily interrupted, so an attendant or the like may win a pachinko ball as a service ball in one of the winning holes and give a predetermined score to the player. The service balls at this time are supplied from the ball-out holes 31 by operating the ball-out lever portions 30 provided in the back of the front plate 4. The beading lever portion 30 can be operated by opening the front plate 4 by operating the front plate opening / closing portion 29. The front plate opening / closing portion 29 is attached at a position where the operation cannot be performed unless the glass door 3 is opened, and therefore the player cannot perform the operation.
[0021]
2 and 3 are rear views of the pachinko gaming machine. The pachinko gaming machine 1 is provided with an enclosed ball circulation path in which a predetermined number of pachinko balls are enclosed, and the enclosed pachinko balls are circulated and used for games. Further, in the middle of the enclosing ball circulation path, the enclosing ball discharged to the ball tank 59 is transported to the firing ball guiding path 53, and the enclosing ball being transported by the ball reducing machine 55 is transferred. A polishing device 54 is provided for polishing and polishing the surface of the ball. The ball reducing machine 55 includes a sprocket 58, a lift motor 103, and a conveyance path 62, and can be removed independently of the pachinko gaming machine 1. Further, the ball reducer 55 is provided with a mounting portion for detachably mounting the polishing device 54. The upper part of the conveying path 62 of the ball reducing machine 55 is configured by a bellows member that can be expanded and contracted, as shown in the figure, and this bellows member can be removed from the connection port 91 with the firing ball guiding path 53. Therefore, it is possible to remove the balls in the ball reducer 55 as necessary.
[0022]
In particular, FIG. 2 is an embodiment in which encapsulated balls are always circulated through the ball reducer 55, and FIG. 3 is an embodiment in which encapsulated balls are circulated into the ball reducer 55 as required. is there. Hereinafter, FIG. 2 and FIG. 3 will be described in order as a first embodiment and a second embodiment regarding the configuration for reducing the encapsulated balls, respectively.
[0023]
First, FIG. 2 is a diagram showing the first embodiment. The gaming board holding frame 43 of the pachinko gaming machine 1 is provided with a turning lever 57 for attaching the gaming board. By turning the turning lever 57, the gaming board 42 can be attached and detached. On the other hand, all winning balls won from a winning opening provided in the game area 11 or a variable winning ball apparatus are guided to the winning ball detector 46 through the winning ball set cover member 44. Then, the winning ball detected by the winning ball detector 46 is guided to the confluence 47 together with the pachinko balls collected from the out port 45. The pachinko ball guided to the confluence rod 47 is then detected by the shot ball detector 48.
[0024]
On the other hand, the foul balls are discharged from the foul ball return port 50, detected by the foul ball detector 28, and merged with the pachinko balls detected by the driving ball detector 48. Note that the pachinko ball whose launch momentum is too weak to reach the foul ball return port 50 enters the foul ball return port 51 and then joins the pachinko ball to which the confluence 47 is guided. On the other hand, all the pachinko balls that flow down the confluence rod 47 are discharged to the ball tank 59.
[0025]
The pachinko balls discharged to the ball tank 59 are guided to the reduction machine 55. The ball reducer 55 is provided with a sprocket 58 that rotates while engaging the induced pachinko ball by the driving force of the lift motor 103. The sprocket 58 lifts the pachinko ball to the upper side and guides it to the conveyance path 62.
[0026]
Then, the pachinko balls guided to the conveyance path 62 are pushed forward by the subsequent pachinko balls and are transported through the conveyance path 62. A game medium exposure part 118 (see FIG. 6), a part of which is exposed to the outside of the transfer path 62, is provided in the middle of the transfer path 62, and the polishing device 54 polishes along the game medium exposure part. A member 63 (see FIG. 5) is arranged. The pachinko balls that are in the middle of being transported along the transport path 62 are abraded off by coming into contact with the polishing member 63 (see FIG. 5) at the game medium exposed portion 118. The polishing apparatus 54 can be easily attached to and detached from the conveyance path 62, and is replaced according to deterioration of the polishing member 63 or the like.
[0027]
The pachinko balls polished by the polishing device 54 are transported to the upper part of the transport path 62 and then discharged to the firing ball guiding path 53. The pachinko balls released to the firing ball guiding path 53 are detected by the replenishing ball detector 56 and then guided to the ball discharging path 52. The beading passage 52 is configured with a passage length capable of retaining a predetermined number (for example, four) of pachinko balls in the passage, and unless the balling lever portion 30 (see FIG. 1) is operated. The staying pachinko balls are not discharged from the ball discharge hole 31 (see FIG. 1). Therefore, after the ball discharge passage 52 is filled with a predetermined number of pachinko balls, the pachinko balls detected by the replenishment ball detector 56 flow down to the driving ball outlet 49 and can be bullet-fired again. . In addition, it can be grasped | ascertained whether the ball reducer 55 is operating normally by detecting the pachinko ball by the replenishment ball detector 56.
[0028]
In the first embodiment, the ball reducing machine 55 is configured separately from the pachinko gaming machine 1, so that the game board 42 can be replaced and the pachinko gaming machine itself can be replaced. It is.
[0029]
Further, the cost for manufacturing the pachinko gaming machine can be reduced by the amount that the ball reducing machine 55 is not built in the pachinko gaming machine itself.
[0030]
Further, since all the pachinko balls that have been bullet-laminated are circulated through the conveying path 62 including the foul balls, the pachinko balls are polished by the polishing device 54 each time. Therefore, even if the polishing capability of the polishing apparatus 54 is not so high, the pachinko balls in the enclosing ball circulation path can be kept clean. Therefore, it is possible to apply a relatively inexpensive material that is not so high in polishing ability as the polishing member 63 of the polishing apparatus 54, and to reduce the cost. In addition, since the game can be continued while the pachinko balls are polished, it is possible to avoid the inconvenience of having to stop the operation of the pachinko gaming machine in order to polish the pachinko balls.
[0031]
Next, FIG. 3 is a diagram showing the second embodiment. The second embodiment is different from the first embodiment in that the pachinko balls are guided to the ball tank 59 only when it is necessary to polish off the dirt of the pachinko balls. . The second embodiment will be described in detail below while omitting the description of the same components as those of the first embodiment.
[0032]
The winning ball detected by the winning ball detector 46 and the pachinko ball discharged from the out port 45 are merged by the confluence 47, detected by the driving ball detector 48, and guided toward the driving ball outlet 49. Is done. In the middle of the path from the merging rod 47 to the driving ball outlet 49, a polishing ball guiding path 94 communicating with the merging rod 47 is provided. For example, when the pachinko gaming machine 1 is in the gaming state, the gate valve 92 is provided. Due to this, this guiding path is closed. Therefore, the pachinko balls that flow down the confluence 47 enter the driving ball exit 49 during the game.
[0033]
The gate valve 92 causes the junction rod 47 and the polishing ball guide path 94 to communicate with each other when the solenoid 93 is excited. As a result, the pachinko balls flowing down the confluence rod 47 flow down to the polishing ball guiding path 94 without being guided to the driving ball outlet 49 and are detected by the detector 95. For example, the solenoid 93 is in a non-excited state on condition that the detector 95 detects that all pachinko balls have flowed down to the polishing ball guide path 94, and the gate valve 92 blocks communication of the guide path. On the other hand, the pachinko balls that have flowed down to the polishing ball guide path 94 are discharged to a ball tank 59 provided separately from the pachinko gaming machine 1. The pachinko balls discharged to the ball tank 59 are transported along the transport path 62 by the ball reducer 55 in the same manner as in the first embodiment, and the dirt is polished off by the polishing device 54 during the transport. Then, the pachinko balls that have been lifted up to the upper part of the conveyance path 62 are discharged to the confluence 47.
[0034]
In the case of the second embodiment, the solenoid 93 is excited when the following conditions are satisfied, and the polishing ball guide path 94 communicates with the junction rod 47, and the pachinko balls are polished.
[0035]
That is, the player has not inserted the common card into the common card unit 33, or the card balance of the inserted common card is less than the amount required to play the game, and the enclosed balls are to some extent The condition is that it is dirty or is expected to be dirty. As a specific determination method for determining whether or not the encapsulated ball is expected to be dirty, for example, it may be determined whether or not a predetermined number of driven balls are detected by the driven ball detector 48. It is done. Further, it may be possible to determine whether or not the detection time of the touch sensor that detects whether or not the hand is touching the hitting operation handle 5 has reached a predetermined time. In addition, in order to actually check the contamination of the encapsulated ball, for example, a predetermined sensor may be provided on the junction rod 47.
[0036]
In the second embodiment, the pachinko balls discharged from the foul ball return ports 50 and 51 are directly discharged to the ball tank 59 and circulated through the ball reducer 55.
[0037]
According to the second embodiment, the ball reducing machine 55 is configured separately from the pachinko gaming machine 1 as in the first embodiment, so that it is of course possible to replace only the gaming board 42. It is also possible to replace the pachinko gaming machine itself.
[0038]
Further, unlike the first embodiment, since it is a part-time system that operates the ball reducer 55 when necessary, the polishing member 63 is deteriorated at an early stage as the pachinko balls are polished more than necessary. Can be prevented.
[0039]
On the other hand, the solenoid 93 may be configured to be in a non-excited state after a predetermined time has passed since being in an excited state. By configuring in this way, for example, if the predetermined time is set to a time exceeding the time required for all the pachinko balls to flow down to the polishing ball guiding path 94, the same pachinko balls are repeatedly polished. It is also possible to do.
[0040]
It is also conceivable to preliminarily enclose a spare pachinko ball different from the pachinko ball circulated during the game in the ball reducing machine 55. For example, 20 pachinko balls are circulated and used during the game, and the other 20 pachinko balls are stored in the ball reducer 55. Then, the pachinko balls in circulation and the pachinko balls stored in the ball reducing machine 55 are exchanged in accordance with the degree of contamination of the pachinko balls in circulation.
[0041]
FIG. 4 is an exploded perspective view for explaining the configuration of the polishing apparatus 54. Referring to the drawing, reels 64 and 65 are rotatably inserted into opening 114 provided in mounting board 77a. The roller 66 is supported by a shaft 66a, and the shaft 66a is planted at a position shown in the drawing of the mounting substrate 77a. The polishing member 63 is a tape-like member, and is made of, for example, a cloth made of predetermined fibers that can come into contact with a pachinko ball and polish its dirt. As shown in the figure, the polishing member (polishing tape) 63 is wound in a roll shape, and is accommodated in the mounting substrate 77a in a state where the center portion of the roll is inserted into the reels 64 and 65. The roller 66 slidably holds the polishing member 63 so as to guide the polishing member 63 accommodated in the mounting substrate 77a from one unwinding reel 64 to the other winding reel 65.
[0042]
The elastic member 71 includes a mounting hole 71a and is pivotally supported by a positioning boss 111 planted on the mounting substrate 77a. The contact member 70 includes a locking piece 70 a and is locked by the locking member 78 and the elastic member 71. Further, the abutting member 70 includes a concave portion 89, and the polishing member 63 passed between the two rollers 66 is positioned on the concave portion 89 side. In other words, the polishing member unwound from one reel 64 is conveyed along the recess 89 via one roller 66 and is wound around the other reel 65 via the other roller 66. .
[0043]
The side surface of the mounting board 77a on which the contact member 70 is located is notched, and a part of the contact member 70 pressed by the elastic member 71 protrudes slightly outside the mounting board 77a.
[0044]
The cover 77b includes a mounting hole 110b and is screwed to a mounting boss 110a planted on the mounting substrate 77a. Further, the reels 64 and 65 are rotatably inserted into the positioning hole 113, and the positioning boss 111 that pivotally supports the elastic member 71 is inserted into the positioning hole 112.
[0045]
As with the mounting board 77a, one side surface of the cover 77b is notched, and a part of the contact member 70 is exposed to the outside when the cover 77b is joined to the mounting board 77a.
[0046]
FIG. 5 is a front view for explaining the internal structure of the polishing apparatus 54. 5 shows a state where the ball reducing machine 55 is mounted.
[0047]
Rotating shafts 76 and 75 are inserted into the reels 64 and 65, respectively. The rotating shafts 75 and 76 are provided on the ball reducing machine 55 side. The rotating shaft 75 rotates clockwise by the driving force of the winding motor 79. The reel 65 rotates integrally with the rotating shaft 75 and winds up the polishing member 63. The take-up motor 79 is provided in the ball reducing machine 55 in the same manner as the rotary shaft 75.
[0048]
A total of six protrusions 65 a are provided on the inner sides of the reels 64 and 65 provided in the polishing apparatus 54. On the other hand, a total of three protrusions 75 a are provided on the surface of the rotary shaft 75, and engage with the protrusions 65 a provided on the reel 65 to fix the reel 65 integrally to the rotary shaft 75. This prevents the rotating shaft 75 driven by the take-up motor 79 from spinning idle.
[0049]
The polishing member 63 unwound from the reel 64 is conveyed along the contact member 70 via a roller 66 on the unwinding side, and is wound on the reel 65 via the roller 66 on the winding side. The elastic member 71 presses the contact member 70 to lock the locking piece 70 a to the locking member 78. The polishing member 63 along the contact member 70 is pushed out together with the contact member 70 to the outside slightly from the mounting substrate 77a.
[0050]
As will be described later, the polishing device 54 is arranged so that the polishing member 63 along the contact member 70 is disposed along the game medium exposure portion 118 (see FIG. 6) provided in the conveyance path 62 of the ball returning machine 55. Is installed. Then, the pachinko balls exposed from the game medium exposure part 118 abut on the polishing member 63 along the abutment member 70. At this time, the pachinko balls appropriately come into contact with the polishing member 63 by the elastic force of the elastic member 71 that presses the contact member 70.
[0051]
Further, as shown by an arrow, the polishing apparatus 54 is mounted so that the polishing member 63 is wound up in the direction opposite to the direction in which the pachinko balls are lifted. Therefore, it has the following advantages compared with the case where the polishing member 63 is wound in the same direction as the pachinko ball feeding direction.
[0052]
That is, it is possible to prevent the polishing member 63 from being pulled out from the reel 64 on the unwinding side by the pachinko balls being lifted. In other words, in the state where the pachinko ball is in contact with the polishing member 63, the polishing member 63 can always be in a slack state by the lifting force of the pachinko ball, and the polishing member is matched to the pachinko ball being fed. It is possible to prevent the inconvenience that the 63 moves and the pachinko balls are not substantially polished, and that the polishing member 63 is entangled with the roller 66 and the like. For this reason, it is unnecessary to provide a predetermined stopper or the like on the reel 64 on the unwinding side, so that the structure can be simplified and the manufacturing cost can be reduced.
[0053]
In the present invention, the polishing member 63 is not always transported and wound in accordance with the lifting of the pachinko balls, but the same portion is used until a certain amount of dirt adheres to the polishing member 63 in contact with the pachinko balls. Then, pachinko balls are polished. The winding motor 79 is driven when a certain amount of dirt adheres to the polishing member 63, and when the polishing member 63 with dirt is wound up and a new part without dirt is unwound, the winding motor 79 is driven. Stops. Therefore, the polishing member 63 can be effectively used as compared with a method in which the polishing member is always conveyed in accordance with the lifting of the pachinko balls.
[0054]
The locking member 72 is a member for preventing the reel 65 from reversing by engaging with the gear 73. By preventing the reel 65 from reversing, it is possible to prevent the already wound polishing member 63 from being unwound from the reel 65 due to the lifting force of the pachinko balls. Thus, in this polishing apparatus 54, it is only necessary that the reel 65 on the take-up side has a member for preventing reverse rotation of the reel. There is no need to provide prevention means.
[0055]
The locking member 72 is pivotally supported by a rotating shaft 80 planted on the mounting board 77a, and has one end engaged with the gear 73 and the other end connected to an elastic member 74 fixed to the mounting board 77a. Yes. On the other hand, the gear 73 is fixed integrally with the reel 65 and rotates integrally with the reel 65. The locking member 72 is successively engaged with a plurality of tooth portions provided around the gear 73 in conjunction with the clockwise rotation of the gear 73. On the other hand, when a rotational force that rotates the gear 73 counterclockwise acts, a deterrent force acts between the gear 73 and the rotary shaft 80 to inhibit the rotation. Thereby, reverse rotation of the reel 65 is prevented.
[0056]
6 and 7 are rear views of the ball tank 59 and the ball reducer 55. FIG. FIG. 8 is a sectional view taken along the line AA in FIG.
[0057]
The ball reducer 55 is provided with a holder 61 for mounting the polishing device 54 and a reinforcing plate 60 that reinforces the holder 61 and fixes it to the ball reducer 55. The holder 61 and the reinforcing plate 60 constitute a mounting portion for detachably mounting the polishing apparatus 54.
[0058]
The holder 61 is engaged with a rotating shaft 75 for rotating the take-up reel 65 inside the polishing device 54, a rotary shaft 76 for rotatably supporting the take-up reel 64, and the polishing device 54. An engaging piece 82 for engaging with the polishing apparatus 54 and an engaging member 84 for detachably engaging the polishing apparatus 54 are provided. In addition, the transport path 62 is provided with a game medium exposure unit 118 that exposes pachinko balls being transported inside to the outside. The polishing device 54 is mounted so that the polishing member 63 faces the game medium exposed portion 118.
[0059]
Further, as shown in FIG. 8, the locking member 84 includes a locking portion 86 and is pivotally supported by a rotary shaft 85 in a state of being inserted into the opening 88. On the other hand, an elastic member 87 fixed to the reinforcing plate 60 is connected to the end of the locking member 84 located on the back side of the reinforcing plate 60, and the locking member 84 rotates by a predetermined angle by the elastic force. The locking portion 86 is locked at a position where it comes into contact with the reinforcing plate 60.
[0060]
The polishing apparatus 54 is attached and detached as follows. That is, in the case of removal, if the locking member 84 is rotated in the direction of the arrow shown in FIG. Thereby, the polishing apparatus 54 can be easily detached from the holder 61. On the other hand, at the time of mounting, if the locking member 84 is similarly rotated and the polishing device 54 is inserted along the locking piece 82 and the engaging portion 83, the rotation shafts 75 and 76 are naturally rotated by the reel 65 in the polishing device 54. , 64. Thereafter, when the locking member 84 is released, the locking member 84 is pulled back to a predetermined position by the elastic force of the elastic member 87 and the polishing device 54 is locked. Thereby, the polishing member 54 can be easily attached to the holder 61.
[0061]
Note that a winding motor 79 is connected to the rotating shaft 75 on the back side thereof via the reinforcing plate 60, and the winding motor 79 is driven in accordance with the control of the pachinko gaming machine 1. Further, the rotating shaft 75 is provided on an opening provided in the holder 61 via an elastic member (not shown). When the rotating shaft 75 is pressed, the rotating shaft 75 is placed in the holder 61 against the elastic force of the elastic member. It is configured to sink into. Therefore, when the polishing device 54 is mounted, if the protrusion 75a (see FIG. 5) provided on the rotating shaft 75 and the protrusion 65a (see FIG. 5) provided on the reel 65 do not mesh with each other, the rotating shaft 75 When the take-up motor 79 is driven in this state while being immersed in the holder 61, it is restored by the elastic force at the meshed position. For this reason, it is not necessary to be aware of the engagement between the protrusion 75a and the protrusion 65a when the polishing apparatus 54 is mounted.
[0062]
Next, the operation description when the polishing apparatus 54 is mounted will be described in detail.
The pachinko balls discharged from the pachinko gaming machine 1 to the ball tank 59 are guided to the ball reducing machine 55 and are transported along the conveyance path 62 by a sprocket 58 (see FIGS. 2 and 3) driven by the lift motor 103. The pachinko ball being lifted is abutted against the polishing member 63 along the abutting portion 70 (see FIG. 5) of the polishing apparatus 54 and polished.
[0063]
If the pachinko balls are polished repeatedly at the polishing member 63 along the contact portion 70, a certain portion of the polishing member along the contact portion 70 is deteriorated and the polishing ability is lowered. In this embodiment, for example, when the operating time of the pachinko gaming machine 1 reaches a predetermined time (a predetermined number of driving balls are detected by the driving ball detector 48), the polishing ability of the certain portion is reduced. It is comprised so that it may be judged.
[0064]
When the operating time of the pachinko gaming machine 1 reaches a predetermined time, a winding motor 79 (see FIG. 5) that drives the rotary shaft 75 is driven, and a new polishing member 63 is unwound to come into contact. The polishing member 63 along the member 70 is updated. At this time, only the length along the contact portion 70 is always taken up when the polishing member is updated in order to take up only the used part and not take up the unused part. Need to be controlled. For this purpose, the following control is performed.
[0065]
That is, the rotation angle of the winding motor 79 necessary for winding the polishing member 63 always along the contact member 70 by a predetermined length is determined in advance according to the number of renewal of winding renewal. Further, drive control of the winding motor 79 is performed. Here, the rotation angle is determined in accordance with the number of rewinding times, because the winding diameter of the winding reel 65 changes as the polishing member 63 is wound, so that the unit rotation angle of the winding motor 79 is changed. This is because the winding amount per unit changes. In other words, as the winding diameter increases, the winding length per rotation of the winding motor 79 becomes longer. The rotation angle is different. As described above, since the polishing member (polishing tape) renewal control for always winding the polishing member 63 having a certain length is performed every time the winding is updated, the polishing member 63 can be used without waste.
[0066]
When the polishing member (polishing tape) renewal control is performed a plurality of times and the number of unused polishing members 63 is reduced, the lamp 25 (see FIG. 1) blinks and a predetermined notification sound is emitted from the speaker 10. To that effect. Further, the information is notified to the hall computer installed in the game hall via the information input / output circuit 99 (see FIG. 10) provided in the pachinko gaming machine 1. Such winding completion notice control is performed based on, for example, the total driving time of the winding motor 79 that drives the rotating shaft 75. That is, after exchanging the polishing device 54, the driving time of the winding motor 79 is cumulatively counted, and when the predetermined driving time is reached, it is considered that the remaining amount of the polishing member 63 is small, and the above-described notification control is performed. Is done.
[0067]
In this way, since the winding end notice is given before the polishing member 63 is completely used, the game hall or the like can replace the polishing device 54 with a sufficient time.
[0068]
If the polishing device 54 is not replaced and the polishing member (polishing tape) renewal control is performed several times after the winding end notice is issued, all the polishing members 63 are wound from the reel 64 for unwinding. Is issued. When all the polishing members 63 are unwound, the holding point analog display 7 provided on the front surface of the pachinko gaming machine 1 blinks and a predetermined notification sound is emitted from the speaker 10 to notify that effect. . Further, a winding end detection signal is transmitted from the information input / output circuit 99 (see FIG. 10) to the hall computer. Further, the hitting ball handle 5 is disabled and the game is controlled to be impossible.
[0069]
By performing such winding end control, replacement of the polishing apparatus 54 is promoted, and the pachinko balls can be always kept clean. That is, if the polishing apparatus 54 is not replaced due to negligence on the side of the game hall after the notice of the end of winding is given, the pachinko gaming machine 1 is disabled as a sanction, and the game hall It will be disadvantageous for you.
[0070]
Such winding end control is performed as follows, for example.
Since the end portion of the polishing member 63 wound around the winding reel 64 is pressure-bonded to the reel 64, all of the polishing member 63 wound around the winding reel 64 is unwound. Thereafter, if the winding control is continuously performed, the winding motor 79 is overloaded. When this overload is detected, it is determined that all the polishing members 63 have been unwound from the reel 65 for unwinding.
[0071]
The polishing member (polishing tape) update control, winding completion notice notification control and winding completion control described above are performed by the holding point control microcomputer 96 (see FIG. 10) provided in the pachinko gaming machine 1.
[0072]
FIG. 9 is a partial cross-sectional view of the conveyance path 62 and the polishing apparatus 54. Referring to the drawing, a part of the conveyance path 62 is notched so that the pachinko ball 117 is brought into contact with the polishing member 63. Furthermore, holding pieces 90 a and 90 b are provided to prevent the pachinko balls from leaking out from the game medium exposed portion 118 when the polishing device 54 is removed. By providing the holding pieces 90a and 90b, it is possible to attach and detach the polishing apparatus 54 without so-called beading. Therefore, for example, it is also possible to replace the polishing apparatus 54 using a slight game machine suspension period during business hours.
[0073]
Although the illustrated holding pieces 90a and 90b hold the pachinko balls 117 even when the polishing apparatus 54 is mounted, instead of this, when the polishing apparatus 54 is mounted, You may comprise so that it may not be carried. For example, the holding pieces 90a and 90b are formed of predetermined elastic members, and the pachinko balls 117 are held by the elastic force when the polishing apparatus 54 is not attached. On the other hand, when the polishing apparatus 54 is mounted, a predetermined protrusion provided on the abutting member 70 is configured to interrupt between the holding piece and the pachinko ball 117, and the holding piece 70 It is conceivable that the pachinko balls 117 are released from being held and the polishing members 63 hold the pachinko balls 117 in the conveyance path 62.
[0074]
The polishing member 63 along the contact member 70 contacts the recess 89 of the contact member 70 by contacting the pachinko ball 117. Since the recess 89 is configured in a shape along the spherical surface of the pachinko ball 117, the polishing member 63 is deformed along the shape of the pachinko ball 117. Thereby, the area where the polishing member 63 comes into contact with the surface of the pachinko ball 117 exposed from the conveyance path 62 is increased. Therefore, compared with the case where the recessed part 89 is not provided, the wide range part of the pachinko ball 117 can be efficiently polished. Further, since the tape width of the polishing member 63 is configured to be a necessary and sufficient width to contact the surface of the pachinko ball 117 exposed from the conveyance path 62, the polishing member 63 can be used without waste.
[0075]
In addition, since the contact member 70 makes the polishing member 63 appropriately contact the pachinko ball 117 by the elastic member 71 (see FIG. 4), the pachinko ball 117 is pressed to the conveyance path 62 more than necessary. Along with this, too much load is applied to the lift motor 103 (see FIGS. 2 and 3) that drives the sprocket 58, or conversely, the pressing force is too weak and sufficient frictional force acts between the pachinko ball 117 and the polishing member 63. Therefore, the inconvenience that the pachinko balls 117 cannot be polished sufficiently can be prevented. Moreover, although the elastic member 71 in this embodiment is a leaf spring of a metal plate, any member having elasticity such as rubber or sponge may be used.
[0076]
FIG. 10 is a block diagram showing a part of a control circuit provided in the pachinko gaming machine 1.
The holding point control microcomputer 96 is connected to the game control microcomputer 100 and the card unit microcomputer 101, and each microcomputer stores a CPU (not shown) as a control center and a control program. ROM (not shown) and RAM (not shown) capable of reading and writing data at any time are provided. Further, the holding point control microcomputer 96 includes a detection circuit 97 connected to various detectors, an LED circuit 98 connected to various displays, an information input / output circuit 99, and a lift for controlling the lift motor 103. A control circuit 102, a polishing control circuit 104 for controlling the winding motor 79, an overload detection circuit 105 for detecting an overload state of the winding motor 79, and a firing control circuit for controlling the launcher unit 67 A backup power source 107 is provided for backing up the electric power when the potential of the power source circuit 108 is lowered.
[0077]
When the hitting operation handle 5 (see FIG. 1) is operated and a pachinko ball is fired, the fired ball is detected by the fired ball detector 27, and the detection output is detected via the detection circuit 97 for a microcomputer for controlling the holding point. Is input. If the pachinko ball that has been driven into the game area 11 wins, it is detected by the winning ball detector 46 and the detection signal is input to the holding point control microcomputer 96 via the detection circuit 97. When the detection signal of the winning ball detector 46 is input to the score control microcomputer 96, the score control microcomputer 96 inputs the winning signal to the game control microcomputer 100. In response to this, the game control microcomputer 100 inputs a signal relating to the number of points given to the player to the score control microcomputer 96. In response to the input of the winning signal, the holding point control microcomputer 96 outputs a signal for holding point analog display control to the LED circuit 98. In response to this, the LED circuit 98 performs display control of the point analog display 7.
[0078]
If the occurrence of a foul ball is detected by the foul ball detector 28, the detection output is input to the holding point control microcomputer 96 via the detection circuit 97. If the reset key switch 6 (FIG. 1) is operated, the operation is detected by a release operation (reset operation) detector 6 a and input to the holding point control microcomputer 96 via the detection circuit 97. The holding point control microcomputer 96 inputs a display control signal of the game continuation permission indicator 32 to the LED circuit 98 in response to the input of this detection. When a shot ball is detected by the shot ball detector 48, the detection output is input to the holding point control microcomputer 96 via the detection circuit 97. The holding point control microcomputer 96 counts the number of times of detection, for example. If the pachinko ball returned from the ball reducing machine 55 to the firing ball guiding path 53 is detected by the replenishment ball detector 56, the detection output is input to the holding point control microcomputer 96 via the detection circuit 97.
[0079]
If it is determined by the game control microcomputer 100 that a big hit will be established, a big hit signal is input to the holding point control microcomputer 96. The holding point control microcomputer 96 inputs a jackpot signal to the information input / output circuit 99. In addition, detection signals from the start winning ball detector 24, the specific winning ball detector 17 and the like are input to the game control microcomputer 100, and the game control microcomputer 100 responds to these inputs with the holding point control microcomputer 100. Each information is input to the computer 96. The holding point controlling microcomputer 96 inputs start winning information and specific winning information to the information input / output circuit 99.
[0080]
When the remaining notice of the polishing member 63 in the polishing apparatus 54 is low, it is necessary to notify the advance notice, or when the winding of the polishing member 63 is completed, the game is executed from the holding point control microcomputer 96. A winding completion notice signal or a winding completion detection signal is input to the control microcomputer 100. The game control microcomputer 100 generates notification sounds corresponding to the respective signals via the speaker 10. When the winding end notice signal is input, the lamp 25 (see FIG. 1) is blinked.
[0081]
The holding point control microcomputer 96 performs drive control of the lift motor 103 via the lift control circuit 102, rotates the sprocket 58 as necessary, and lifts the pachinko balls.
[0082]
The holding point control microcomputer 96 controls the winding motor 79 via the polishing control circuit 104 and drives the winding motor 79 when the winding of the polishing member 63 is updated. As described above, the rotation angle at which the winding motor 79 is rotated differs according to the number of times of winding renewal, and the correspondence table between the number of times of renewal and the rotation angle of the winding motor 79 corresponding to that number of points It is stored in the ROM in the control microcomputer 96.
[0083]
The overload detection circuit 105 detects the overload state of the take-up motor 79 and the detection output is input to the holding point control microcomputer 96. The holding point control microcomputer 96 performs the above-described winding end control based on this detection input. That is, a winding end detection signal is transmitted to the information input circuit 79 and the game control microcomputer 100 based on the detection input, and the holding point analog display 7 is blinked and displayed via the LED circuit 98. Further, the launcher unit 67 is disabled via the launch control circuit 106, and the pachinko gaming machine 1 is controlled to be in a state in which it cannot be played.
[0084]
FIG. 11 is a diagram showing a configuration different from FIG. 5 with respect to the remaining amount detection function of the polishing member 63. In the polishing apparatus 54 shown in this configuration, an opening 109 is provided in the mounting substrate 77a as shown in the figure. Since other configurations are the same as those of the polishing apparatus 54 shown in FIG.
[0085]
On the other hand, unlike the case shown in FIG. 6, two remaining amount detectors 81a and 81b are provided on the holder 61 (see FIG. 6) to which the illustrated polishing apparatus 54 is attached so as to overlap in two stages. The residual detectors 81a and 81b are configured to be positioned at the opening 109 when the polishing apparatus 54 is mounted on the holder 61, and the leading ends of the detection portions extending from the respective detectors are wound around the reel 64. It contacts the outer periphery of the polishing member 63.
[0086]
The residual detectors 81a and 81b are configured such that a detection signal is generated when the detection unit comes into contact with a contact switch provided in the detector body. Contact with the contact switch on the main body. The illustrated residual detector 81a illustrates a state in which the detection unit is in contact with the contact switch, while 81b illustrates a state in which the detection unit is not in contact.
[0087]
The residual detector 81a is a detector for detecting the end of winding. When the polishing member 63 of the reel 64 is completely unwound and the front end of the detector comes into contact with the reel 64, the residual detector 81a The mounting angle of the main body is adjusted so that the detection unit contacts the contact switch. On the other hand, the residual detector 81b is a detector for detecting that the remaining amount of the polishing member 63 is small, and when the polishing member 63 of the reel 64 is unwound to some extent and the winding diameter reaches a predetermined value, The mounting angle of the main body is adjusted so that the detection unit contacts the contact switch.
[0088]
The holding point control microcomputer 96 shown in FIG. 10 performs the above-described winding end control and winding end notice notification control based on the detection outputs of the two remaining amount detectors 81a and 81b, for example.
[0089]
According to the embodiment shown in FIG. 11, even if the tape length of the winding member 63 accommodated in the polishing device 54 varies depending on the polishing device, the above-described winding end notice control and winding control can be easily performed. It is possible to carry out the collection end control.
[0090]
FIG. 12 is a diagram showing another embodiment for winding the polishing member 63 by a certain amount with respect to the above-described polishing member (polishing tape) update control.
[0091]
In the above-described embodiment, the rotation angle of the winding motor 79 corresponding to the number of winding updates is stored in advance in the holding point control microcomputer 96, and the winding motor 79 is controlled based on the storage. .
[0092]
On the other hand, in FIG. 12A, a plurality of detection marks 116 are provided on the roller 66, and the marks 116 are detected by the photoswitch 115, whereby a certain amount of winding is performed. That is, the number of times that the mark 116 is detected by the photo switch 115 when the polishing member 63 having a certain length is unwound is stored in the holding point control microcomputer 96 in advance. When the polishing member (polishing tape) update control is executed, the winding motor 79 is driven while the mark 116 is detected the number of times based on the storage.
[0093]
In this embodiment, the winding motor 79 may be stopped based on the detection of the same number of marks 116 regardless of the winding diameter of the polishing member 63 wound by the winding reel 65. There is no need to adjust the rotation angle of the winding motor 79 according to the number of updates as in the embodiment. Therefore, according to this embodiment, the control content can be simplified as compared with the above-described embodiment. The photo switch 115 may be configured in the polishing apparatus 54 or may be configured in the holder 61. Further, any of the two rollers 66 may be used.
[0094]
FIG. 12B shows an embodiment in which the mark 116 is not provided on the roller 66 but the mark 116 is provided on the polishing member 66. Further, in this embodiment, marks 116 are provided at regular intervals according to the length of the tape to be updated at the time of winding update. Then, a photo switch for detecting the mark 116 is provided in the polishing device 54 or the holder 61 to detect the mark 116 that moves as the polishing member 63 is conveyed, and the winding motor 79 is controlled according to the number of detections. To do.
[0095]
As described above, the embodiment shown in FIGS. 12A and 12B can be used not only for the polishing member (polishing tape) update control but also for the winding end notice notification control and the winding end control. For example, in FIG. 12 (a), it may be configured to notify the winding end notice or the winding end notification when the number of detections of the mark 116 detected by the photo switch 115 reaches a predetermined number. . On the other hand, each notification control can be performed in the same manner in FIG. Further, in FIG. 12B, a winding end notification mark and a winding end notification mark, which are different from the mark 116, are provided in a predetermined position on the polishing member 63 in advance, so that the winding end notification and winding are notified. It may be configured such that, when it is in a state of informing the end of taking, those marks are detected by a photo switch or the like.
[0096]
Next, a control procedure of the holding point control microcomputer 96 (see FIG. 10) provided in the pachinko gaming machine 1 will be described. FIGS. 13 to 15 are flow charts showing control procedures of polishing tape (abrasive member) update control, winding end notice notification control, and winding end control, respectively. Each control is executed according to a control program based on the flowchart. A control program based on these flowcharts is stored in a ROM configured in the holding point control microcomputer 96.
[0097]
FIG. 13 is a flowchart showing a control procedure of polishing member (polishing tape) update control. FIG. 13A is a flowchart showing a control procedure of the polishing member (polishing tape) update control described in FIGS. First, in S1, it is determined whether or not the winding of the polishing member 63 is being updated. If the winding is not being updated, the process proceeds to S2, and it is determined whether or not the update time has come. Specifically, as described above, it is determined whether or not the accumulated operating time of the pachinko gaming machine 1 has reached a predetermined time. If it is not the update time, the process ends. On the other hand, if it is the update time, the process proceeds to S3, and it is confirmed how many times the winding update is performed. That is, the number of updates is confirmed. Next, in S4, the winding motor 79 is driven by the rotation angle corresponding to the number of updates, the winding update of the polishing member 63 along the contact member 70 is started, and the process ends.
[0098]
On the other hand, if it is determined in S1 that the winding is being updated, the process proceeds to S5. In S5, it is determined whether the winding motor 79 has reached a predetermined rotation amount. That is, it is determined whether or not the winding motor 79 has been operated by a predetermined rotation angle according to the number of updates. Then, if the predetermined rotation amount has not been reached, the processing ends as it is. On the other hand, when the predetermined rotation amount is reached, the process proceeds to S6 and the winding motor 79 is controlled to stop. Next, the process proceeds to S7, where 1 is added to the number of winding updates, and the post-processing ends.
[0099]
FIG. 13B is a flowchart showing a control procedure of the polishing member (polishing tape) update control described in FIG. First, it is determined in S11 whether or not the winding is being updated. If the winding is not being updated, the process proceeds to S12, and it is determined whether or not the update time has come. Specifically, it is determined whether or not the cumulative operating time of the pachinko gaming machine 1 has reached a predetermined value. If it is not the update time, the process ends. On the other hand, if it is the update time, the process proceeds to S13, where the drive of the winding motor 79 is started, and the process ends.
[0100]
On the other hand, if it is determined that the update is being performed in S11, the process proceeds to S14, and it is determined whether or not there is a detection output of the stop sensor. Specifically, it is determined whether or not the mark 116 provided on the polishing member 63 is detected by a photo switch or the like. If there is no detection output from the stop sensor, the processing ends. On the other hand, if there is a detection output from the stop sensor, the process proceeds to S15, and the winding motor 79 is controlled to stop, and then the process ends.
[0101]
FIG. 14 is a flowchart showing a control procedure of winding end advance notice control. Fig.14 (a) shows the flowchart regarding the control procedure of the winding completion notice notification control demonstrated in FIGS. First, in S21, it is determined whether or not a notice is being made. When the advance notice is not in progress, the process proceeds to S22, in which it is determined whether or not the winding motor 79 has been driven. If the take-up motor is not driven, the process ends. On the other hand, when the winding motor 79 is driven, the process proceeds to S23, and the driving time of the winding motor 79 is cumulatively added. Next, in S24, it is determined whether or not the end notice time has been reached. Specifically, it is determined whether or not the motor driving time accumulated in S23 has reached a predetermined value. If the end notice time has not been reached, the process ends. On the other hand, if the end notice time has been reached, the process proceeds to S25, and after the notification operation is started, the process ends. Here, the notification operation is, for example, blinking display of the lamp 25, output of a predetermined notification sound from the speaker 10, and output of a winding end notice signal to the hall computer.
[0102]
On the other hand, if it is determined in S21 that the notice is being notified, the process proceeds to S26, and it is determined whether or not all the winding has been completed. That is, it is determined whether all the polishing members 63 have been unwound from the unwinding reel 64. Specifically, it is determined whether or not the overload state of the winding motor 79 is detected from the overload detection circuit 105 described in FIG. If it is determined that the winding has not been completed, the processing is terminated as it is. On the other hand, when it is determined that the winding is finished, the process proceeds to S27, and the notification operation performed in S25 is finished. Next, the process proceeds to S28, and after the drive time of the winding motor 79 accumulated in S23 is initialized, the process ends.
[0103]
FIG. 14B is a flowchart showing a control procedure of the winding end advance notice control described in FIG. First, in S31, it is determined whether or not a notice is being issued. When it is determined that the advance notice is not being performed, the process proceeds to S32, and it is determined whether or not there is a detection output of the remaining amount check sensor (remaining amount detector) 81b. If it is determined that there is no detection output of the remaining amount check sensor (remaining amount detector) 81b, the processing is ended as it is. On the other hand, if there is a detection output, the process proceeds to S33, and after the operation of informing the notice of the end of winding is started, the process ends. In addition, since the alerting | reporting operation | movement of notice of winding completion notice is the same as that of S25 of Drawing 14 (a), for example, the explanation of the contents is omitted.
[0104]
On the other hand, if it is determined in S31 that the notice is being made, the process proceeds to S34, and it is determined whether or not the winding is finished. Specifically, it is determined whether or not the overload state of the winding motor 79 is detected by the overload detection circuit 105 shown in FIG. If the winding is not finished, the process is finished as it is. On the other hand, when the winding is finished, the process proceeds to S35, and after the notification operation is finished, the process is finished.
[0105]
FIG. 15 is a flowchart showing a control procedure of the winding end control explained in FIGS. First, in S41, it is determined whether or not a winding end notification is being made. If the winding end notification is not in progress, the process proceeds to S42 to determine whether or not a winding end detection signal has been detected. Specifically, it is determined whether or not the overload detection circuit 105 shown in FIG. If the winding end detection signal has not been detected, the process ends. On the other hand, when the winding end detection signal is detected, the process proceeds to S43. In S43, a winding end notification operation is performed, and the game of the pachinko gaming machine 1 is disabled. Specifically, as described above, the notification operation includes blinking of the holding point analog display 7, output of a predetermined notification sound from the speaker 10, output of a winding end detection signal to the hall computer, and the like. Further, the disabling of the game of the pachinko gaming machine 1 is realized by disabling the launcher unit 67 shown in FIG.
[0106]
On the other hand, if it is determined in S41 that the end notification is being made, the process proceeds to S44. In S44, it is determined whether or not the detection output of the winding end detection signal is lost. That is, it is determined whether or not the overload state of the winding motor 79 has been released based on the replacement of the polishing device 54. If there is a detection output of the winding end detection signal, the processing ends as it is. On the other hand, if there is no detection signal, the process proceeds to S45. In S45, the winding end notification performed in S43 is terminated, and the pachinko gaming machine 1 is released from the disabled state and controlled so that the game can be resumed. Then, the process ends.
[0107]
In the following, modifications, feature points, and the like related to the embodiments of the invention described above are listed.
[0108]
(1) With reference to FIG. 1, when the winding end notice is performed, the lamp 25 is blinked and a predetermined notification sound is emitted from the speaker 10. However, in addition to this, a predetermined notification image or the like may be displayed on the display screen of the variable display device 12. Furthermore, the information input / output circuit 99 shown in FIG. 10 is configured so that a winding completion notice signal is input to the hall computer. Based on the input of this signal, the notification content is displayed on the monitor screen of the hall computer. You may comprise. Alternatively, the information input / output circuit 99 is configured to input a winding end notice signal to a predetermined monitor device or the like installed on each gaming machine installation island so that the notification content is displayed on the monitor device. You may comprise. Moreover, it is good also considering the period to alert | report after predetermined time progress. Alternatively, the notification operation may not be performed immediately after the detection signal is output, but may be performed after the business end time, for example, after a predetermined time has elapsed since the detection signal was output. Note that the notification operation when the winding end control is performed may be configured similarly according to the above-described modification. Further, although some examples of the notification operation are shown, the notification operation may be performed by any combination of these, or the notification operation may be performed by one of them.
[0109]
2 and 3, the ball reducing machine 55 is configured to be removable independently of the pachinko gaming machine 1, but may be configured integrally with the pachinko gaming machine 1. Good. And the grinding | polishing apparatus 54 may be comprised so that attachment or detachment to the feed path 62 of the ball reduction machine 55 comprised integrally with the pachinko gaming machine 1 is possible.
[0110]
Alternatively, the polishing device 54 may be configured to be detachable from the firing ball guiding path 53. In this case, a game medium exposure part 118 that exposes an internal pachinko ball is provided at a predetermined portion of the firing ball guide path 53, and the polishing member 63 of the polishing device 54 faces the game medium exposure part 118. To be configured.
[0111]
(2) Referring to FIG. 4, the polishing member 63 is wound into a roll shape, and is unwound in a state where one end and the other end thereof are respectively crimped to a reel 64 for unwinding and a reel 65 for winding. The polishing member 63 is unwound from the reel 64 for winding, and is wound around the reel 65 for winding. However, instead of this, one end and the other end of the polishing member 63 may be connected so that the same portion of the polishing member 63 is repeatedly fed to the contact member 70.
[0112]
Alternatively, a predetermined polishing member storage portion may be provided, and the polishing member 63 folded in the polishing member storage portion may be unwound on the take-up reel 65 to perform winding update. In this case, the reel 64 for unwinding becomes unnecessary. Conversely, the polishing member 63 may be updated by providing only the reel 64 for unwinding without providing the reel 65 for winding.
[0113]
(3) Referring to FIG. 5, a locking member 72 and a gear 73 are provided to prevent the take-up reel 65 from rotating in the reverse direction. You may comprise so that the prevention means for prevention may be provided.
[0114]
Further, the take-up motor 79 may be provided in the polishing apparatus 54.
Further, the driving force of the winding motor 79 is directly transmitted to the reel 65, but the present invention is not limited to this. For example, a predetermined gear or the like may be provided between the winding motor 79 and the reel 65, and the rotational speed of the reel 65 may be adjusted by the gear ratio. Further, instead of the take-up motor 79, the reel 65 may be rotated by a predetermined solenoid.
[0115]
The winding motor 79 is configured to be driven only when the polishing member 63 is updated. However, instead of this, the pachinko ball may be configured to be driven whenever it is being transported through the conveyance path 62. Since the pachinko ball feeding direction and the conveying direction of the polishing member 63 are opposite to each other, the frictional force between the polishing member 63 and the pachinko ball becomes large, and the pachinko ball can be efficiently polished. At this time, by adjusting the winding speed of the winding motor 79, the length of the polishing member 63 that contacts the pachinko ball from the lower part to the upper part of the contact member 70 can be varied. It becomes. That is, by adjusting the rotation speed of the winding motor 79, the polishing capability of the polishing device 54 can be increased or decreased as necessary. At this time, it is conceivable that a predetermined gear is provided between the winding motor 79 and the reel 65 to adjust the rotational speed.
[0116]
(4) With reference to FIGS. 6 and 7, the polishing device 54 can be easily attached and detached by operating the locking member 84. When the polishing device 54 is mounted without being properly inserted into the polishing device 54 for some reason, the abnormal state is detected and the information input shown in FIG. You may comprise so that it may alert | report to a hall computer through the output circuit 99. FIG. Or you may comprise so that a predetermined | prescribed warning sound may be emitted from the speaker 10, or the lamp provided in the pachinko game machine 1 may blink, for example.
[0117]
The holder 61 and the reinforcing plate 60 are screwed to the ball reducing machine 55 and are integrally provided. However, the holder 61 and the reinforcing plate 60 may be configured to be easily detachable.
[0118]
(5) Referring to FIG. 9, the concave portion 89 is configured to have a shape along the spherical surface of the pachinko ball 117, but is not limited thereto. For example, it may be configured by an appropriate polygon, and the recess 89 may be configured in any shape as long as the contact portion between the pachinko ball 117 and the polishing member 63 is increased. .
[0119]
(6) Referring to FIG. 10, the overload detection circuit 105 may be configured by, for example, a breaker or a comparator (comparison circuit) that can detect a change in voltage or current.
[0120]
(7) Referring to FIG. 11, the remaining amount detectors 81a and 81b are configured to generate detection outputs when the detection unit contacts the contact switch of the detector main body. However, instead of this, a detector that generates a detection output when the detection unit moves away from the contact switch of the main body may be used.
[0121]
(8) With reference to Fig.13 (a), it was comprised so that the judgment whether it was the winding update time performed in S2 might be performed based on the accumulation operation time of the pachinko gaming machine 1. However, instead of this, the determination may be made based on the cumulative operating time of the lift motor 103 or the total number of revolutions. Alternatively, the update time may be determined based on the total number of pachinko balls detected by the replenishment ball detector 56 (see FIGS. 2 and 3). Further, it may be updated when the power is turned on or when the power is turned off so that the winding is updated once a day.
[0122]
In S5, it is configured to determine whether or not the winding motor 79 has reached a predetermined rotation amount. However, instead of this, the determination may be made based on the operating time of the winding motor 79.
[0123]
(9) Two embodiments of the control procedure of the polishing tape (abrasive member) update control are shown in FIG. Among these, FIG. 13A corresponds to the control procedure of the polishing tape (abrasive member) update control described in FIGS. 5 to 8, and FIG. 13B is described in FIG. This corresponds to the control content of the polishing tape (polishing member) update control. Although a further different embodiment has been described with reference to FIG. 12A, the corresponding flowchart is not shown. However, the control procedure of the embodiment shown in FIG. 12A can also be described using the flowchart shown in FIG.
[0124]
That is, when it is determined that there is a detection output of the stop sensor (photo switch 115) in S14 of FIG. 13B, the number of detections is added and updated. Next, a determination is made as to whether or not the number of detections that have been added and updated has reached a predetermined value. If the number has reached a predetermined value, the process proceeds to S15 and the winding motor 79 is controlled to stop. In addition, the number of detections that have been cumulatively added is initialized.
[0125]
(10) Regarding the polishing tape (abrasive member) update control, the following may be considered. For example, the polishing member is configured to be updated by an external input from a hall computer or the like or a button operation by an attendant at a game hall. Alternatively, a dirt sensor capable of checking the degree of dirt on the polishing member 63 is used as the stop sensor shown in S14 of FIG. Then, after the winding motor 79 is rotated, the rotation of the winding motor 79 is stopped when a new polishing member 63 without dirt is detected by the dirt sensor.
[0126]
(11) Referring to FIG. 14A, in S23, when the driving time of the winding motor 79 is cumulatively added and the total driving time reaches a predetermined value, the remaining amount of the tape is in a state that is low. Configured to be judged. However, instead of the drive time of the take-up motor 79, it is determined whether or not the remaining amount of the polishing member is in a low state based on the rotation speed of the take-up motor 79, the rotation speed of the roller 66, or the like. May be.
[0127]
(12) Referring to FIG. 15, in S43, the game is stopped by disabling the launcher unit 67 (see FIG. 10). However, instead of this, a switch such as the winning ball detector 23, the specific ball detector 22, or the starting winning ball detector 21 may be configured to be invalid, and the variable display operation of the variable display device 4 is stopped. Or the power supply itself may be turned off. Further, the game may be stopped not at the time when the detection signal is output, but at the time when the power is turned on again (for example, the next day).
[0128]
In addition, the overload detection circuit 105 (see FIG. 10) is used to determine whether or not the winding is finished. Instead, the total rotation speed and rotation time of the winding motor 79, the rotation speed of the roller 66, and the like are used. You may comprise so that it may detect by. Or you may comprise so that a photo sensor etc. may detect the predetermined | prescribed mark for winding completion | finish detection as demonstrated in FIG.12 (b). Alternatively, in the configuration described in FIG. 11 as another embodiment, the determination in S44 may be made based on the detection output of the winding-up remaining amount detector 81a.
[0129]
Further, when there is a detection output of the winding end detection signal in S42, the process proceeds to S43, and the notification operation and the game stop control are immediately performed. However, even when there is a detection output of the winding end detection signal, there may be a case where the unused polishing member 63 is unwound along the contact member 70. In this case, it is possible to polish the pachinko ball using the unrolled polishing member portion, and it is not necessary to immediately stop the game just because a winding end detection signal is output. . Therefore, when there is a detection output of the winding end detection signal, it can be considered that the process proceeds to S43 after a predetermined timer is operated and a predetermined time is counted. The notification operation is configured to be performed immediately upon detection of the winding end detection signal, and configured to notify the amusement hall that all of the polishing member 63 has been unwound. Also good.
[0130]
(13) In FIG. 9, the shape of the recess 89 is not changed before the polishing member 63 is brought into contact with the pachinko ball 117. However, instead of this, the concave portion 89 may be formed of a resilient member so that it is not recessed when the polishing member 63 is not in contact with the pachinko ball 117, and a recess is formed in the contacted state. Good.
[0131]
(14) The polishing member 63 may be composed of, for example, a wiping cloth, leather, sponge, synthetic resin, paper, or the like.
[0132]
[Specific examples of means for solving the problems]
The conveyance path 62 constitutes a game medium moving member for moving the game medium. In FIG. 6, the game medium exposure part 118 provided in the transport path 62 constitutes a game medium exposure part for exposing a part of the game medium in the game medium moving member. Further, the game media polishing member of the game media polishing device for polishing and removing the game media by the holder 61 and the reinforcing member 60 is disposed along the game media exposure portion so as to contact the game media. A mounting portion for detachably mounting the game medium polishing apparatus is configured. Further, the game media polishing device is configured by the polishing device 54, and the game media polishing member is configured by the polishing member 63.
[0133]
The polishing apparatus 54 constitutes a game medium polishing apparatus that removes dirt from the game medium that moves the game medium moving member.
[0134]
The take-up reel 65 shown in FIGS. 5 and 1 constitutes a payout member for paying out the game medium polishing member. Further, the mounting board 77a constitutes a mounting member for mounting the game medium polishing member and the feeding member.
[0135]
[Effects of specific examples of means for solving the problems]
With regard to claim 1, in a state where the mounting substrate provided with the game medium polishing member, the unwinding reel, the take-up reel, and the contact member is mounted on the mounting portion provided in the game medium moving member, The game medium polishing member of the game medium polishing apparatus is disposed along the game medium exposure part, and the game medium exposed from the game medium exposure part formed on the game medium moving member is played by the contact member. The game media polishing member can be exchanged by attaching and detaching the game media polishing device to / from the mounting portion provided on the game media moving member, so that the game media polishing member can be replaced. The work can be performed very easily.
[0136]
With respect to claim 2, in addition to the effect of claim 1 , the amount of winding of the game medium polishing member can be detected by a photo switch.
[Brief description of the drawings]
FIG. 1 is a front view of a gaming board surface of a pachinko gaming machine as an example of a gaming machine.
FIG. 2 is a rear view of the pachinko gaming machine 1;
FIG. 3 is a rear view of the pachinko gaming machine 1;
FIG. 4 is an exploded perspective view of the polishing apparatus.
FIG. 5 is an explanatory diagram for explaining an internal structure of a polishing apparatus.
FIG. 6 is a rear view of a polishing apparatus and a ball reducing machine to which the polishing apparatus is mounted.
FIG. 7 is a rear view of the ball reducing machine to which the polishing apparatus and the polishing apparatus are mounted.
8 is a cross-sectional view taken along the line AA in FIG.
FIG. 9 is a cross-sectional view showing a correspondence relationship between a pachinko ball inside a conveyance path and a polishing member.
FIG. 10 is a block diagram for explaining a control circuit provided in the pachinko gaming machine 1;
FIG. 11 is an explanatory diagram for explaining the internal structure of the polishing apparatus.
FIG. 12 is an explanatory diagram for explaining detection means for detecting a winding amount of an abrasive member.
FIG. 13 is a flowchart showing a control procedure of polishing member (polishing tape) update control.
FIG. 14 is a flowchart showing a control procedure of winding end advance notice control.
FIG. 15 is a flowchart showing a processing procedure for winding end control.
[Explanation of symbols]
1 is a pachinko game machine, 5 is a ball control handle, 10 is a speaker, 7 is a holding point analog display, 32 is a game continuation allowable display, 25 is a lamp, 99 is an information input / output circuit, and 96 is a holding point control micro Computer, 103 lift motor, 105 overload detection circuit, 79 winding motor, 67 launcher unit, 54 polishing device, 55 ball reducer, 58 sprocket, 60 reinforcing plate, 61 holder, 62 is a conveying path, 63 is an abrasive member, 64 is a reel for unwinding, 65 is a reel for winding, 66 is a roller, 70 is a contact member, 71 is an elastic member, 73 is a gear, 74 is an elastic member, 75 is a rotating shaft for winding, 76 is a rotating shaft for unwinding, 77a is a mounting substrate, 81a and 81b are remaining amount detectors, 88 is an opening, 89 is a recess, 90a and 90b are holding pieces, 109 is Opening, 115 is photos Pitch, 116 mark, 82 is the engaging piece 83 is engaged portion, 84 is a locking member.

Claims (2)

A device for polishing game media , comprising: a game media polishing device for polishing game media; and a game media moving member for moving the game media provided with a mounting portion to which the game media polishing device is mounted ,
The game medium moving member has a game medium exposure part for exposing a part of the game medium moving in the game medium moving member,
The game media polishing apparatus has a mounting substrate that can be detachably attached to a mounting portion of the game media moving member,
The said mounting Tsukemoto plate,
A belt-shaped game media polishing member;
A reel for unwinding the game media polishing member;
A take-up reel for taking up the game medium polishing member unwound from the unwind reel;
An abutting member that abuts the game medium against the game medium polishing member spanned between the unwinding reel and the take-up reel;
In a state where the intake Tsukemoto plate mounted to the mounting portion, with the game medium polishing member of said game medium polishing device is disposed along said game medium exposed portion, the game exposed before Ki遊 TECHNICAL media exposure unit An apparatus for polishing a game medium , wherein the medium comes into contact with the game medium polishing member by the contact member. The apparatus for polishing game media according to claim 1, further comprising a photo switch for detecting a winding amount of the game media polishing member.

Images