JP2004081634A - Polishing device and game device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a polishing device of game media to be miniaturized, capable of preventing damage to an abrasive toothed wheel by preventing idling feed of lock teeth and capable of reducing the cost of consuming an abrasive tape. <P>SOLUTION: Game media are polished by the abrasive tape T1 disposed along the outer periphery of the abrasive toothed wheel 60. A plurality of game media can be polished as aligned inside tooth grooves 66 of guide teeth 65 of the abrasive toothed wheel 60. The game media entering the upper end side of the tooth grooves 66 of the guide teeth 65 are moved to the lower end side of the tooth grooves 66 of the guide teeth 65 by their own weight, and are put into the upper end side of the tooth grooves 66 of the guide teeth 65 one after another, so that the game media are received by the lock teeth 75 without interruption. Further, an abrasive tape drive mechanism 110 for feeding the abrasive tape T1 out of a storage case is made to interlock with the abrasive toothed wheel 60. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a polishing apparatus and a gaming apparatus for polishing gaming media used and collected in gaming machines.
[0002]
[Prior art]
As a conventional gaming device, for example, there is one disclosed in JP-A-9-290058.
[0003]
This gaming device is configured independently by using balls in circulation. In this gaming machine, balls stored in the upper tank are used as balls that are discharged as special prize balls in gaming machines and balls that are paid out from ball lending machines, and balls that are taken into and discharged from gaming machines are Stored in the lower tank. The balls stored in the lower tank are transported from the lower tank to the upper tank by the ball transport mechanism, and thus the gaming machine can circulate and use the balls. The ball conveyance mechanism has a conveyance path extending from the lower tank side to the upper tank side, and the conveyance path is formed between the belt and the polishing cloth, and the ball is in contact with the polishing cloth along the conveyance path. The ball is polished by being lifted.
[0004]
Further, as a conventional polishing apparatus, there is one disclosed in JP-A-10-179913. In this polishing apparatus, the area between the feed belt and the band is a polishing region, and the roll-shaped band stored in the storage case is fed out and transported along the feed belt. It is wound up by the take part. The balls are polished by contacting the bands with the balls, which are the game materials conveyed by the feed belt. The storage case is detachably attached to the polishing apparatus main body. Further, the band is automatically wound, and the length of winding the band per fixed time is fixed or can be changed according to the number of balls supplied.
[0005]
Further, as a conventional game medium lifting apparatus, there is one disclosed in Japanese Patent Laid-Open No. 9-140908. In this lifting device, a game medium that has flowed into a wheel, which is a gear, is scraped up to a lifting path by a recess of the wheel.
[0006]
[Problems to be solved by the invention]
However, in the conventional gaming apparatus, it is necessary to open the conveyance path during maintenance inspection or replacement work of the polishing cloth in the conveyance path, so that the ball must be removed from the conveyance path, and workability is not good. Further, in order to lift the ball while polishing it, it is necessary to arrange a belt and a polishing cloth along the conveyance path of the conveyance mechanism, and there is a problem that the conveyance mechanism becomes large.
[0007]
In addition, in the conventional polishing apparatus, the band is stored in the storage case, so that the size is reduced and the storage case is detachably attached to the main body of the polishing apparatus. It is necessary to take care not to remove the balls in the polishing area or prevent the balls from flowing into the polishing area at the time of maintenance and replacement of the belt, and there is room for improvement in terms of workability. Further, even when there is no ball to be polished, the band is wound up for a predetermined length per fixed time, so that the band is wasted and the consumption cost of the band increases.
[0008]
Further, in the conventional lifting device, when the game medium is not fed into the recess of the wheel and the wheel is idled, the game medium in the lifting passage falls into the empty recess, and the wheel teeth are large. There was a problem of giving an impact. On the other hand, in what is disclosed in Japanese Patent Application Laid-Open No. 10-146447, the fall of the game medium in the passage for lifting is prevented, and a large impact is not given to the teeth of the wheel. There was a problem that it was necessary to provide a stopper in the passage.
[0009]
The present invention has been made paying attention to such a conventional problem, and it is not necessary to arrange the polishing member along the outer periphery of the polishing gear, and to arrange the polishing member along the passage for lifting, A polishing apparatus capable of reducing the size of the apparatus main body is provided.
[0010]
Further, the present invention moves the game medium that has entered one end side in the tooth width direction of the guide teeth of the polishing gear to the other end side in the tooth width direction, and removes the game medium that has entered the tooth gap of the guide teeth to the polishing member. It is an object of the present invention to provide a polishing apparatus capable of polishing a plurality of times and exhibiting sufficient polishing ability as compared with the size of a polishing member or a polishing gear.
[0011]
Furthermore, the present invention moves the game medium entering the upper end of the guide tooth tooth gap to its lower end side by its own weight, and uses the abrasive member to move the game medium contained in the guide tooth tooth groove. An object of the present invention is to provide a polishing apparatus that can polish a plurality of times and can exhibit a sufficient polishing ability as compared with the size of a polishing member or a polishing gear.
[0012]
Furthermore, the present invention moves the game medium that has entered the upper end of the tooth gap of the guide teeth to the lower end side of the tooth gap of the guide tooth by its own weight, thereby successively moving the game medium to the upper end side of the tooth groove of the guide tooth. It is an object of the present invention to provide a polishing apparatus capable of eliminating the idle feeding of the locking teeth and preventing the polishing gear from being damaged by allowing the locking teeth to be received without interrupting the game medium.
[0013]
Furthermore, the present invention moves the game media that have entered the upper end of the tooth gap of the guide tooth to the lower end side of the tooth gap of the guide tooth by its own weight, and successively put the game media on the upper end side of the tooth gap of the guide tooth. Provided are a gaming device and a gaming medium lifting device that can prevent the feeding teeth from being lost and prevent the grinding gear from being damaged by allowing the locking teeth to receive the game media without interruption. The purpose is that.
[0014]
Furthermore, according to the present invention, the game medium discharged from the game medium counter can be polished together with the game medium used in the gaming machine, so that it is not necessary to provide a separate polishing apparatus, and the entire apparatus can be reduced in size. An object of the present invention is to provide a polishing apparatus, a game apparatus, and a game medium lifting apparatus that can perform the above.
[0015]
Further, according to the present invention, the game media guided to the other end side in the tooth width direction of the guide teeth are brought into contact with each other, and the game media are brought into contact with each other and pushed up to the lifting passage by the locking teeth. A polishing apparatus, a gaming apparatus, and a game that enable the reaction force when pushing up the gaming medium to be distributed and applied to the gaming medium itself and the teeth of the locking teeth and prevent the grinding gear from being damaged. The object is to provide a medium lifting device.
[0016]
Further, according to the present invention, the game medium can be gradually guided to the bottom of the cylinder by the spiral convex portion, and the game medium can be smoothly guided to the bottom of the cylinder, and the game can be played at the bottom of the cylinder. It is an object of the present invention to provide a polishing apparatus, a game apparatus, and a game medium lifting apparatus capable of smoothly contacting media.
[0017]
Further, the present invention provides two or more polishing gears adjacent to each other so that a large amount of game media can be polished in a short time and the polishing ability can be improved. The object is to provide a device.
[0018]
Further, according to the present invention, two or more polishing members are arranged around the polishing gear, and the contact length between the game medium and the polishing member is increased when the game medium in the tooth space of the guide teeth is rotated one time, and the number is reduced. The game medium can be sufficiently polished even by the number of rotations, the tooth gap of the guide teeth for guiding the game medium can be narrowed in the tooth width direction, and the width of the polishing member and the polishing tape can also be reduced. It is an object of the present invention to provide a polishing apparatus, a game apparatus, and a game medium lifting apparatus that can be narrowed.
[0019]
Furthermore, the present invention enables the polishing tape to be unwound from the storage case and used, and an unused polishing tape is automatically unwound from the storage case, eliminating the need for replacement of the polishing tape, and a user-friendly polishing device, game It is an object of the present invention to provide a device and a game medium transport device.
[0020]
Furthermore, since the storage case in which the polishing tape is stored is configured to be detachable from the polishing apparatus main body, the present invention facilitates the replacement work of the polishing tape, and improves the workability. Polishing apparatus, gaming apparatus, and game medium It aims to provide a lifting device.
[0021]
Furthermore, the present invention makes the slot of the guide tooth tooth groove narrower than the maximum diameter of the game medium so that the game medium is not detached from the guide tooth tooth groove to the polishing member side, and the lifting device or the polishing machine It is an object of the present invention to provide a polishing apparatus, a game apparatus, and a game medium lifting apparatus that can eliminate the processing of game media and improve workability during maintenance and inspection of the apparatus or replacement work of polishing members.
[0022]
Further, in the present invention, the polishing gear and the polishing tape drive mechanism are interlocked, and if the polishing gear stops rotating, the polishing tape drive mechanism is also stopped, so that the useless polishing tape is not drawn out from the storage case, An object of the present invention is to provide a polishing apparatus, a game apparatus, and a game medium lifting apparatus that can reduce the consumption cost of the polishing tape.
[0023]
Further, the present invention is such that the polishing tape is moved at a speed corresponding to the moving speed of the game medium by the polishing gear so that the moving speed of the polishing tape becomes appropriate and the polishing tape can be used without waste. It is an object of the present invention to provide a device, a game device, and a game medium lifting device.
[0024]
Furthermore, the present invention can obtain a relative speed with respect to the game medium even if the polishing tape moves at a low speed by moving the polishing tape in the opposite direction to the moving direction of the game medium. It is an object of the present invention to provide a polishing device, a game device, and a game medium lifting device that can be used without waste.
[0025]
Further, the present invention reduces the power consumption by stopping the rotation of the polishing gear if there is no game medium to be polished, and eliminates the waste of the polishing tape by not moving the polishing tape. An object of the present invention is to provide a polishing apparatus, a game apparatus, and a game medium lifting apparatus that can reduce the consumption cost of the polishing tape.
[0026]
Furthermore, the present invention provides a polishing apparatus capable of detecting an abnormality of a mechanism for driving a polishing gear and a power source unless the game medium in the lifting passage is detected during polishing of the game medium. It is an object of the present invention to provide a game device and a game medium lifting device.
[0027]
Further, according to the present invention, when the lifting passage is removed from the communication passage, the shutter member of the backflow prevention mechanism automatically closes the lower end of the lifting passage so that the lifting passage is attached and detached. It is an object of the present invention to provide a game device and a game medium lifting device capable of improving workability at the time.
[0028]
Furthermore, the present invention moves the game media that have entered the upper end of the tooth gap of the guide tooth to the lower end side of the tooth gap of the guide tooth by its own weight, and successively put the game media on the upper end side of the tooth gap of the guide tooth. It is an object of the present invention to provide a game medium lifting device that can prevent the feeding teeth from being lost and prevent damage to the feed gear by allowing the latching teeth to receive the game media without interruption. .
[0029]
Furthermore, the present invention makes it possible to contact the game media guided to the other end side in the tooth width direction of the guide teeth, and allows the game media to be pushed up to the feeding passage by the locking teeth in the contacted state, It is an object of the present invention to provide a game medium lifting device capable of preventing the feed gear from being damaged by allowing reaction force when pushing up the game medium to be distributed and applied to the game medium itself and the teeth of the locking teeth. Yes.
[0030]
[Means for Solving the Problems]
The gist of the present invention for achieving the object lies in the inventions of the following items.
[1] In a polishing apparatus (50) for polishing game media used and recovered in a gaming machine (10),
A polishing gear (60) that holds the game medium in the tooth gap and is movable in the rotation direction, and a polishing that is arranged along the outer periphery of the polishing gear (60) and that can polish the game medium in contact with the game medium With a member (T1)
A polishing apparatus (50) characterized by the above.
[0031]
[2] In a polishing apparatus (50) for polishing game media used and collected in a gaming machine (10),
A polishing gear (60) that holds the game medium in the tooth gap and is movable in the rotation direction, and a polishing that is arranged along the outer periphery of the polishing gear (60) and that can polish the game medium in contact with the game medium A member (T1),
The grinding gear (60) is formed in a substantially cylindrical shape, and has guide teeth (65) extending along the generatrix of the column surface,
The tooth gap of the guide tooth (65) is formed so as to be able to guide the game medium entering one end side in the tooth width direction to the other end side in the tooth width direction,
The polishing member (T1) is arranged so as to be in contact with the game medium guided by the tooth groove of the guide tooth (65).
A polishing apparatus (50) characterized by the above.
[0032]
[3] In a polishing apparatus (50) for polishing game media used and recovered in a gaming machine (10),
A polishing gear (60) that holds the game medium in the tooth gap and is movable in the rotation direction, and a polishing that is arranged along the outer periphery of the polishing gear (60) and that can polish the game medium in contact with the game medium A member (T1),
The grinding gear (60) is formed in a substantially cylindrical shape, and has guide teeth (65) extending along the generatrix of the column surface,
Further, the grinding gear (60) is arranged such that the direction of the rotation shaft (57) is substantially vertical,
The tooth gap of the guide tooth (65) is formed so as to be able to guide the game medium entering the upper end side of the tooth gap to the lower end side of the tooth gap,
The polishing member (T1) is arranged so as to be in contact with the game medium guided by the tooth groove of the guide tooth (65).
A polishing apparatus (50) characterized by the above.
[0033]
[4] In a polishing apparatus (50) for polishing game media used and recovered in a gaming machine (10),
A polishing gear (60) that holds the game medium in the tooth gap and is movable in the rotation direction, and a polishing that is arranged along the outer periphery of the polishing gear (60) and that can polish the game medium in contact with the game medium A member (T1),
The grinding gear (60) is formed in a substantially cylindrical shape, and extends along the generatrix with guide teeth (65) extending along the generatrix of the column surface, and further extending along the generatrix with the guide teeth (65). Locking teeth (75),
Further, the grinding gear (60) is arranged such that the direction of the rotation shaft (57) is substantially vertical,
The tooth gap of the guide tooth (65) is formed so as to be able to guide the game medium entering the upper end side of the tooth gap to the lower end side of the tooth gap,
The tooth groove of the locking tooth (75) receives the game medium guided to the lower end side of the tooth groove of the guide tooth (65), and the polishing gear (60) of the grinding gear (60) is received by the locking tooth (75). It is formed so that it can be sent out to the outside.
The polishing member (T1) is arranged so as to be in contact with the game medium guided by the tooth groove of the guide tooth (65).
A polishing apparatus (50) characterized by the above.
[0034]
[5] A polishing device (50) for polishing game media used and collected in the gaming machine (10), and the polished gaming media from below the gaming machine (10) to above the gaming machine (10). In a gaming apparatus comprising a lifting passage (20) for lifting and circulating a game medium,
The polishing device (50) is arranged along the outer periphery of the polishing gear (60) that holds the game medium in the tooth gap and can move in the rotation direction, and is in contact with the game medium. And a polishing member (T1) capable of polishing the game medium,
The grinding gear (60) is formed in a substantially cylindrical shape, and extends along the generatrix with guide teeth (65) extending along the generatrix of the column surface, and further extending along the generatrix with the guide teeth (65). Locking teeth (75),
Further, the grinding gear (60) is arranged such that the direction of the rotation shaft (57) is substantially vertical,
The tooth gap of the guide tooth (65) is formed so as to be able to guide the game medium entering the upper end side of the tooth gap to the lower end side of the tooth gap,
The tooth groove of the locking tooth (75) receives the game medium guided to the lower end side of the tooth groove, and can be pushed up to the feeding passage (20) by the locking tooth (75). Formed into
The polishing member (T1) is arranged so as to be in contact with the game medium guided by the tooth groove of the guide tooth (65).
A gaming device characterized by that.
[0035]
[6] A polishing device (50) for polishing game media used and collected in the gaming machine (10), and the polished gaming media from below the gaming machine (10) to above the gaming machine (10). In the game media lifting device comprising a lifting passage (20) for lifting,
The polishing device (50) is arranged along the outer periphery of the polishing gear (60) that holds the game medium in the tooth gap and can move in the rotation direction, and is in contact with the game medium. And a polishing member (T1) capable of polishing the game medium,
The grinding gear (60) is formed in a substantially cylindrical shape, and extends along the generatrix with guide teeth (65) extending along the generatrix of the column surface, and further extending along the generatrix with the guide teeth (65). Locking teeth (75),
Further, the grinding gear (60) is arranged such that the direction of the rotation shaft (57) is substantially vertical,
The tooth gap of the guide tooth (65) is formed so as to be able to guide the game medium entering the upper end side of the tooth gap to the lower end side of the tooth gap,
The tooth groove of the locking tooth (75) receives the game medium guided to the lower end side of the tooth groove, and can be pushed up to the feeding passage (20) by the locking tooth (75). Formed into
The polishing member (T1) is arranged so as to be in contact with the game medium guided by the tooth groove of the guide tooth (65).
A game media lifting device characterized by the above.
[0036]
[7] A game media counter (15) for counting the game media awarded based on the game result in the game machine (10) is arranged adjacent to the game machine (10),
The game medium discharged from the game medium counter (15) is polished.
The polishing apparatus (50) according to [1], [2], [3], [4], [5] or [6].
[0037]
[8] A tapered narrow diameter portion (72) is formed at the lower end portion of the grinding gear (60),
The locking teeth (75) are connected to the column surface of the small diameter portion (72) at a predetermined pitch in the circumferential direction so that the game media guided by the tooth grooves of the guide teeth (65) are brought into contact with each other. Is installed
The polishing apparatus (50) according to [1], [2], [3], [4], [5] or [6].
[0038]
[9] A cylindrical body (80a) having a rotational axis (57) of the grinding gear (60) as a cylindrical axis,
An inner peripheral wall (94) of the cylindrical body (80a) is formed along the outer periphery of the locking tooth (75),
On the inner peripheral wall (94) of the cylindrical body (80a), a spiral convex portion (95) extending spirally along the inner peripheral wall (94) and protruding toward the locking tooth (75). Is convex,
The spiral convex portion (95) abuts the game medium received in the tooth groove of the locking tooth (75) from below, and gradually guides the game medium to the bottom (91) of the cylindrical body (80a). Formed possible,
In the cylinder wall (96) of the cylinder (80a), a communication path (97) for guiding the game medium guided to the bottom (91) of the cylinder (80a) to the transfer path (20). ) Is established
The polishing apparatus (50) according to [1], [2], [3], [4], [5], [6] or [8].
[0039]
[10] Two or more of the polishing gears (60) are arranged adjacent to each other.
The polishing apparatus (50) according to [1], [2], [3], [4], [5] or [6].
[0040]
[11] Two or more polishing members (T1) are arranged along the outer periphery of the polishing gear (60).
The polishing apparatus (50) according to [1], [2], [3], [4], [5] or [6].
[0041]
[12] In a polishing apparatus (50) for polishing game media used and recovered in a gaming machine (10),
A polishing gear (60) that holds the game medium in the tooth gap and is movable in the rotation direction, and a polishing that is arranged along the outer periphery of the polishing gear (60) and that can polish the game medium in contact with the game medium The tape (T1), the storage case (115) that can store the polishing tape (T1), and the polishing tape (T1) is fed out of the storage case (115) and moved along the outer periphery of the polishing gear (60). With a possible abrasive tape drive mechanism (110)
The polishing apparatus (50) according to [1], [2], [3], [4], [5] or [6].
[0042]
[13] The storage case (115) is configured to be detachable from the main body of the polishing apparatus (50).
The polishing apparatus (50) according to [12], which is characterized in that
[0043]
[14] The tooth gap of the guide tooth (65) is larger than the maximum diameter of the game medium so that the game medium cannot be detached from the tooth groove to the polishing member (T1) side or the polishing tape (T1) side. Has a narrow groove (67)
The polishing apparatus (50) according to [1], [2], [3], [4], [5], [6] or [12].
[0044]
[15] An interlocking mechanism (100) for interlocking the polishing tape drive mechanism (110) with the polishing gear (60) is provided.
The polishing apparatus (50) according to [12], which is characterized in that
[0045]
[16] The interlocking mechanism (100) is configured such that the polishing tape drive mechanism (110) moves the polishing tape (T1) at a speed corresponding to the moving speed of the game medium by the polishing gear (60). ing
The polishing apparatus (50) according to [15], which is characterized in that
[0046]
[17] The interlocking mechanism (100) is configured such that the polishing tape drive mechanism (110) moves the polishing tape (T1) in a direction opposite to the moving direction of the game medium by the polishing gear (60). Has been
The polishing apparatus (50) according to [15], which is characterized in that
[0047]
[18] A game medium detection unit (S1) for detecting the presence or absence of a game medium used and collected in the gaming machine (10) is provided.
The polishing apparatus (50) according to [1], [2], [3], [4], [5] or [6].
[0048]
[19] A game medium detection unit (S2) for detecting the presence or absence of a game medium in the lifting passage (20) is provided.
The polishing apparatus (50) according to [5] or [6].
[0049]
[20] The polishing apparatus (50) has a communication passage (97) communicating with the lifting passage (20),
A backflow prevention mechanism (120) is disposed between the lifting passage (20) and the communication passage (97),
The backflow prevention mechanism (120) includes a shutter member (123), and when the lifting passage (20) is connected to the communication passage (97), the lifting passage is resisted against an urging force. When the shutter member (123) is swung to the open position where the lower end (22) of (20) is opened, the urging force is applied when the lifting passage (20) is removed from the communication passage (97). Thus, the shutter member (123) is swung to a closed position for closing the lower end opening (22) of the lifting passage (20).
The polishing apparatus (50) according to [5] or [6].
[0050]
[21] In a game medium transporting apparatus for transporting game media used and collected in the gaming machine (10) from above the gaming machine (10) to above the gaming machine (10),
A feeding passage (20) extending from the lower side of the gaming machine (10) to the upper side of the gaming machine (10), and a feed gear that holds the gaming medium in the tooth gap and is movable in the rotation direction,
The feed gear is formed in a substantially cylindrical shape, and has a guide tooth (65) extending along the generatrix of the column surface, and a latch extending continuously to the guide tooth (65) and extending along the generatrix. Teeth (75),
Furthermore, the feed gear is arranged such that the direction of the rotation shaft (57) is substantially vertical,
The tooth gap of the guide tooth (65) is formed so as to be able to guide the game medium entering the upper end side of the tooth gap to the lower end side of the tooth gap,
The tooth groove of the locking tooth (75) receives the game medium guided to the lower end side of the tooth groove, and can be pushed up to the feeding passage (20) by the locking tooth (75). Formed in
A game media lifting device characterized by the above.
[0051]
[22] A tapered narrow diameter portion (72) is formed at the lower end portion of the feed gear,
The locking teeth (75) are connected to the column surface of the small diameter portion (72) at a predetermined pitch in the circumferential direction so that the game media guided by the tooth grooves of the guide teeth (65) are brought into contact with each other. Is installed
[18] The game medium lifting apparatus according to [21].
[0052]
In the above-described polishing apparatus (50), the game media used and collected in the gaming machine (10) are polished. Further, in the transporting device provided with the polishing device (50), the game media polished by the polishing device (50) passes through the transporting passage (20), and the gaming machine ( 10) is lifted above.
[0053]
Further, in the game device as a so-called single island provided with the polishing device (50), the game media used and recovered by the gaming machine (10) are polished by the polishing device (50), and the polished game media is lifted. It is pumped up above the gaming machine (10) through the sending passage (20) and can be used again in the gaming machine (10). That is, the game medium is used in a circulating manner.
[0054]
Next, game media polishing performed by the polishing apparatus (50) will be described.
The game medium used and collected by the gaming machine (10) enters the tooth groove of the grinding gear (60) and moves in the rotation direction of the grinding gear (60). The polishing member (T1) is disposed along the outer periphery of the polishing gear (60), and the game medium moves in the rotational direction while contacting the polishing member (T1), so that the game medium is polished.
[0055]
As described above, according to the present invention, the polishing member (T1) is arranged along the outer periphery of the polishing gear (60), and the polishing member (T1) is arranged along a passage for feeding a game medium. Therefore, the entire apparatus can be reduced in size.
[0056]
The grinding gear (60) is formed in a substantially cylindrical shape and has a guide tooth (65) extending along the generatrix of the column surface, and is used and recovered in the gaming machine (10). The game medium enters the tooth gap of the guide tooth (65) from one end side in the tooth width direction. The entered game medium is guided to the other end side in the tooth width direction of the tooth gap of the guide tooth (65).
[0057]
Since the polishing member (T1) is arranged so as to contact the game medium guided along the tooth groove of the guide tooth (65) of the polishing gear (60), the game medium is a tooth of the guide tooth (65). The polishing member (T1) can polish the game medium in a moving range from one end side in the tooth width direction of the groove to the other end side in the tooth width direction. If the game medium rotates a plurality of times until the game medium moves in the movement range, the polishing member (T1) polishes the game medium a plurality of times. That is, the polishing member (T1) can polish one game medium entered from one end side in the tooth width direction of the tooth gap of the guide tooth (65) a plurality of times, and the polishing gear (60) and the polishing member ( High polishing ability can be exhibited as compared with the size of T1).
[0058]
Further, in the case where the grinding gear (60) is arranged so that the axial direction of the rotating shaft (57) is substantially vertical, the game medium enters the upper end side of the guide teeth (65), and due to its own weight. It moves in the tooth gap (66) of the guide tooth (65).
[0059]
Further, the polishing gear (60) is formed in a substantially cylindrical shape, and extends along the generatrix with the guide teeth (65) extending along the generatrix of the column surface and continuing along the generatrix with the guide teeth (65). In this case, the game medium guided to the lower end side of the tooth groove of the guide tooth (65) is received in the tooth groove of the locking tooth (75) without interruption. . The locking tooth (75) does not enter an empty state that does not accept a game medium, and can eliminate an empty feed sent in an empty state.
[0060]
A lifting device comprising a polishing device (50) and a lifting passage (20) for lifting the polished game medium from below the gaming machine (10) to above the gaming machine (10); In the gaming apparatus in which the game medium can be circulated and used, the grinding gear (60) is arranged so that the direction of the rotation shaft (57) is substantially vertical. The used and recovered game medium enters the upper end side of the tooth gap of the guide tooth (65).
[0061]
The game medium that has entered the upper end of the tooth gap of the guide tooth (65) moves to the lower end side of the tooth groove of the guide tooth (65) by its own weight. As the game medium moves to the lower end side of the tooth groove of the guide tooth (65), the game medium sequentially enters the upper end side of the tooth groove of the guide tooth (65).
[0062]
The game medium guided to the lower end side of the tooth groove of the guide tooth (65) is received in the tooth groove of the locking tooth (75) without interruption. The locking tooth (75) does not enter an empty state that does not accept a game medium, and can eliminate an empty feed sent in an empty state. The locking tooth (75) pushes the game medium up to the lifting passage (20) without skipping. The game medium in the lifting passage (20) falls by its own weight and does not impact the locking teeth (75) and prevents the locking teeth (75) of the grinding gear (60) from being damaged. can do.
[0063]
Further, by making the groove opening (67) of the tooth groove of the guide tooth (65) narrower than the maximum diameter of the game medium, the game medium moving along the tooth groove of the guide tooth (65) is guided by the guide tooth (65). From the tooth gap to the polishing member (T1) side. As a result, even if the polishing member (T1) is separated from the game medium in the tooth space of the guide tooth (65) at the time of maintenance and inspection of the lifting device and the polishing device (50) or replacement work of the polishing member (T1), The medium does not spill outside, and processing such as keeping the game medium from spilling during work becomes unnecessary, and workability can be improved.
[0064]
The game media used and collected in the gaming machine (10) are polished by the polishing device (50), but the game media discharged from the game media counter (15) are also used and collected in the gaming machine (10). You may make it grind | polish with the other game media. It is not necessary to separately provide a polishing device (50) for polishing the game media collected from the game media counter (15), and the entire device can be reduced in size.
[0065]
A narrow diameter portion (72) is formed at the lower end of the polishing gear (60), and the game media guided to the other end side in the tooth width direction of the guide teeth (65) of the polishing gear (60) are connected to each other. In the case where the locking teeth (75) are continuously provided at a predetermined pitch in the circumferential direction on the column surface of the small diameter portion (72) so as to come into contact, the other end side in the tooth width direction of the guide teeth (65) The game media guided to each other come into contact with each other by the locking teeth (75), and the game media are pushed up to the feeding passage (20) by the locking teeth (75) while being in contact with each other. It is done. Since the game media are pushed up as they are in contact with each other, the reaction force when the game media is pushed up is distributed and applied to the game media itself and the teeth of the locking teeth (75). ) Damage can be prevented.
[0066]
A spiral convex portion (95) is provided on the inner peripheral wall (94) of the cylindrical body (80a), and the spiral convex portion (95) is inserted into the game medium received in the tooth groove of the locking tooth (75) from below. In the case where the game medium can be gradually guided to the bottom portion (91) of the cylinder (80a), the game medium received in the tooth groove of the locking tooth (75) is smoothly transferred to the cylinder (80a). The game medium guided to the bottom (91) of the cylinder (80a) can be pushed up to the feeding passage (20) by the locking teeth (75).
[0067]
When two or more polishing gears (60) are provided adjacent to each other, a large amount of game media can be polished in a short time by the two or more polishing gears (60). A cylindrical body (80a) that can accommodate two or more grinding gears (60) may be provided. Two or more receiving grooves having a circular cross section may be formed in the cylindrical body (80a), and the polishing gears (60) may be placed in the receiving grooves.
[0068]
Further, two or more polishing members (T1) may be disposed around the polishing gear (60). According to the number of polishing members (T1), the contact length between the game medium and the polishing member (T1) when the game medium in the tooth gap of the guide tooth (65) is rotated is increased, and the number of rotations of the game medium is increased. Even if there is little, game media can be fully polished. In addition, if the tooth gap of the guide tooth (65) for guiding the game medium is widened in the width direction, the number of rotations of the game medium in the tooth gap of the guide tooth (65) increases. If the number of rotations is small, the tooth gap of the guide tooth (65) of the polishing gear (60) can be narrowed in the tooth width direction, and the polishing member (T1) or the polishing tape (T1) The width can also be narrowed.
[0069]
Further, a polishing tape (T1) disposed along the outer periphery of the polishing gear (60) and capable of polishing the game medium in contact with the game medium; a storage case (115) capable of storing the polishing tape (T1); In the polishing apparatus (50) provided with the polishing tape drive mechanism (110) that can move the polishing tape (T1) out of the storage case (115) and move along the outer periphery of the polishing gear (60), the polishing tape drive mechanism ( 110), the polishing tape (T1) can be fed out from the storage case (115) and used, and the unused polishing tape (T1) is automatically fed out from the storage case (115). There is no need to replace the tape (T1).
[0070]
Further, in the case where the storage case (115) is configured to be detachable from the main body of the polishing apparatus (50), when all the polishing tapes (T1) in the storage case (115) are used, the storage case ( 115) is removed from the main body of the polishing apparatus (50), and a new storage case (115) is attached to the main body of the apparatus, so that the polishing tape (T1) can be easily replaced.
[0071]
Further, in the case where the polishing tape driving mechanism (110) is provided with the interlocking mechanism (100) for interlocking with the polishing gear (60), when the polishing gear (60) rotates, the polishing tape driving mechanism (110). And the polishing tape drive mechanism (110) also stops driving when the polishing gear (60) stops rotating. That is, the polishing tape (T1) is unwound from the storage case (115) only when the polishing gear (60) is rotated to polish the game medium, and the unnecessary polishing tape (T1) is not unwound. The consumption cost of the tape (T1) can be reduced.
[0072]
The polishing tape drive mechanism (110) feeds the polishing tape (T1) when the polishing gear (60) rotates. At this time, the polishing tape drive mechanism (110) moves the polishing tape (T1) at a speed corresponding to the moving speed of the game medium by the polishing gear (60). The moving speed of the polishing tape (T1) is appropriate for the moving speed of the game medium moving in the rotation direction by entering the tooth groove of the polishing gear (60), and the polishing tape (T1) is at an appropriate speed The game medium is polished in sliding contact with the game medium. For example, if the polishing tape (T1) is set to move at a necessary minimum speed, the polishing tape (T1) can be used without waste.
[0073]
Furthermore, by making the polishing tape (T1) in the opposite direction with respect to the moving direction of the game medium, even if the movement of the polishing tape (T1) is low speed, it moves relative to the game medium, The polishing tape (T1) comes into sliding contact with the game medium to polish the game medium. Also in this case, for example, if the polishing tape (T1) is set to move at a necessary minimum speed, the polishing tape (T1) can be used without waste.
[0074]
In addition, in the case of having a game medium detecting unit for detecting the presence or absence of a collected game medium used in the gaming machine (10), when the game medium detecting unit detects that there is no game medium to be polished. The rotation of the polishing gear (60) of the polishing apparatus (50) is stopped and the rotation of the polishing gear (60) is started after the game medium detecting unit detects that there is a game medium to be polished. Thus, power consumption can be reduced, and the interlocking mechanism (100) also stops the driving of the polishing tape drive mechanism (110) so that the polishing tape (T1) is not fed out of the storage case (115). Thus, waste of the polishing tape (T1) can be prevented.
[0075]
Furthermore, in the case of having a game medium detection unit (S1) for detecting the presence or absence of a game medium in the lifting passage (20), the game medium polished by the polishing member (T1) is attached to the locking teeth (75 ) To the lifting passage (20), the gaming medium detection unit detects the gaming medium continuously sent out to the lifting passage (20) during the polishing of the gaming medium.
[0076]
If the game medium detection unit (S2) does not detect the game medium in the lifting passage (20) even though the game medium is being polished, a mechanism or power source for driving the polishing gear (60) Is found to be in an abnormal state.
[0077]
In the case where the backflow prevention mechanism (120) is disposed between the lifting passage (20) and the communication passage (97), when the lifting passage (20) is removed from the communication passage (97), the backflow is prevented. The shutter member (123) of the prevention mechanism (120) automatically closes the lower end opening (22) of the lifting passage (20). It is not necessary to remove the game medium from the lifting passage (20), and workability can be improved.
[0078]
Next, in addition to the polishing function, the polishing apparatus (50) has a lifting function for lifting the game medium to the lifting passage (20). Therefore, it can be obtained as a lifting device that exhibits only the lifting function.
[0079]
The direction in which the game medium enters the tooth groove of the guide tooth (65) of the feed gear is the same as the direction of entering the tooth groove of the guide tooth (65) of the polishing device (50). That is, in this lifting device, the game medium that has entered the upper end of the tooth gap of the guide tooth (65) of the feed gear is moved to the lower end side of the tooth groove of the guide tooth (65) by its own weight. As the game medium moves to the lower end side of the tooth groove of the guide tooth (65), the game medium sequentially enters the upper end side of the tooth groove of the guide tooth (65).
[0080]
It is the same as the polishing apparatus (50) that the game medium is received from the tooth gap of the guide tooth (65) to the tooth groove of the locking tooth (75). The game medium guided to the lower end side of the tooth groove of the guide gear (65) of the feed gear is received in the tooth groove of the locking tooth (75) without interruption. The locking tooth (75) of the feed gear does not enter an empty state where the game medium is not received, and it is possible to eliminate the empty feed that is sent in the empty state.
[0081]
Thereby, also in the feed gear of this lifting device, the locking teeth (75) of the feeding gear push the game medium up to the feeding passage (20) without being idle fed. The game medium in the lifting passage (20) falls by its own weight and does not give an impact to the locking teeth (75) of the feed gear, thereby preventing the feed gear from being damaged.
[0082]
In addition, a tapered narrow diameter portion (72) is formed at the lower end portion of the feed gear so that the game media guided to the other end in the tooth width direction of the guide teeth (65) of the feed gear come into contact with each other. If the locking teeth (75) are continuously provided at a predetermined pitch in the circumferential direction on the column surface of the diameter portion (72), the guide teeth (65 of the polishing gear (60) of the polishing apparatus (50) are provided. ), The game media guided to the other end in the tooth width direction of the guide teeth (65) of the feed gear come into contact with each other by the locking teeth (75) of the feed gear. It is pushed up to the lifting passage (20) by the locking teeth (75) in the contacted state.
[0083]
Also in this lifting device, since the game media are pushed up as they are in contact with each other, the reaction force when the game media is pushed up is dispersed and applied to the game media itself and the locking teeth (75). , Damage to the feed gear can be prevented.
[0084]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings. Each figure shows an embodiment of the present invention.
The gaming device according to the embodiment of the present invention is a so-called single island, and a polishing device 50 for polishing game media used and collected by the gaming machine 10 and the polished gaming media from below the gaming machine. It is provided with a lifting passage 20 which is a ball lifting cylinder for lifting above the gaming machine, and is configured independently by circulating and using gaming media. In the present embodiment, the gaming machine is a pachinko machine, and the gaming medium is a pachinko ball.
[0085]
As shown in FIGS. 2 to 3, a ball lending machine 30 is disposed adjacent to the gaming machine 10, a hopper 40 is disposed obliquely below the gaming machine 10, and a polishing device 50 is disposed below the hopper 40. Has been.
[0086]
An upper plate 11 and a lower plate 12 are provided in the lower part of the gaming machine 10, and a game medium that is driven out on the game board and used for a game is accommodated in the upper plate 11. A hopper 40 is provided for collecting game media that are used in the game and flow down through the out ball counter 13 as out balls.
[0087]
Further, a prize ball counter 15 is provided which is a game medium counter for counting the game media that has been awarded based on the game result in the gaming machine and entered the ball receiving port 14 from the lower plate 12. The hopper 40 is also used for collecting game media that are counted by the prize ball counter 15 and flow down. A display unit 16 for displaying the results counted by the prize ball counter 15 is provided on the front surface of the gaming apparatus.
[0088]
The game medium that has flowed down to the hopper 40 and collected is polished by the polishing device 50, and is transported from the polishing device 50 to the supply rod 17 above the gaming machine 10 through the lifting passage 20. The lifting height of the lifting passage 20 is approximately 1.2 m. A supply ball counter 18 for counting game media in the supply basket 17 is provided, and an upper tank 19 for storing game media that has passed through the supply ball counter 18 is provided. The ball lending machine 30 is provided with a card insertion slot 31 for inserting a game card. The ball lending machine 30 is configured such that a predetermined number of game media can be discharged from the upper tank 19 to the upper plate 11 by inserting a game card and specifying an input amount. As described above, the gaming apparatus is configured so that the game medium in the upper plate 11 can be returned to the upper plate 11 and used after being polished for use in the game.
[0089]
The polishing apparatus 50 is provided with a game medium detection unit S1 for detecting a game medium to be polished, and a game medium detection for detecting a game medium passing therethrough is provided at the lower end of the lifting passage 20. Part S2 is provided. Proximity switches are used for these game medium detection units S1 and S2. Further, the supply bowl 17 is provided with a supply ball detecting unit S3 for detecting the amount of game media supplied. A photoelectric switch, a level switch, a limit switch, or the like is used for the replenishment ball detection unit S3.
[0090]
When the game medium detection unit S1 detects that there is no game medium to be polished, the polishing apparatus 50 stops driving under the control of the drive control unit 200. Further, when it is detected by the game medium detection unit S2 that there is no game medium passing through the lower end of the lifting passage 20, and the game medium detection unit S1 detects that there is a game medium to be polished, It turns out that the drive mechanism and drive source of the polishing apparatus 50 are abnormal. Further, when it is detected that the amount of game media replenished by the replenishment ball detection unit S3 is insufficient, the polishing apparatus 50 starts to be driven by the control of the drive control unit 200. When it is detected that the polishing apparatus 50 is driven, the driving control unit 200 stops driving the polishing apparatus 50.
[0091]
The gaming device includes a data collection device 210. The data collection device 210 includes a gaming state signal from the gaming machine 10, an out ball signal from the out ball counter 13, a premium ball signal from the prize ball counter 15, a replenishment ball signal from the replenishing bowl 17, and a ball lending machine from the upper tank 19. Each sales signal is sent. The data collection device 210 collects these signals, and the collected signals are configured to be transmitted to the game hall management device 220.
[0092]
As shown in FIG. 1, FIG. 4, and FIG. 6, the polishing apparatus 50 is arranged along the outer periphery of the polishing gear 60 that holds the game medium in the tooth gap and can move in the rotation direction. And an abrasive tape T1 which is an abrasive member capable of abrading the game medium in contact with the game medium.
[0093]
The grinding gear 60 is made of resin and has a substantially cylindrical shape, and a space is formed inside the grinding gear. In the internal space of the grinding gear 60, a fitting portion 61 is projected in the axial direction of the cylinder, and a plurality of ribs 63 are extended from the fitting portion 61 toward the column peripheral wall 62 of the column.
[0094]
The fitting portion 61 of the grinding gear 60 is externally fitted to the rotary shaft 57 that is the main shaft, and is screwed to the rotary shaft 57 via a washer W1 so as not to come off the rotary shaft 57. A cap 64 is firmly fitted in the upper opening of the internal space of the grinding gear 60.
[0095]
The cap 64 constitutes the upper surface portion of the grinding gear 60, and is formed in a substantially conical shape so that the game medium flows from the top portion 64a toward the outer peripheral edge 64b. A guide tooth 65 of the grinding gear 60 is disposed along the outer periphery of the cap 64.
[0096]
As shown in FIGS. 6 and 8 to 12, the guide teeth 65 are extended along the generatrix of the column surface of the substantially cylindrical grinding gear 60. Locking teeth 75 are further extended along the generatrices following the guide teeth 65. The grinding gear 60 is arranged so that the direction of the rotation shaft 57 is substantially vertical.
[0097]
The tooth groove 66 of the guide tooth 65 is formed so as to be able to guide the game medium entering the upper end side of the tooth groove 66 to the lower end side of the tooth groove 66. On the other hand, the tooth groove 76 of the locking tooth 75 is formed so as to receive the game medium guided to the lower end side of the tooth groove 76 and to be pushed up to the lifting passage 20 by the locking tooth 75. . The polishing tape T1 is routed so as to come into contact with the game medium guided from the upper end side of the tooth groove 66 of the guide tooth 65 to the lower end side of the tooth groove 66. The tooth groove 66 is formed in the groove so as to accommodate a plurality of game media. The number of game media that can be accommodated increases as the width of the tooth gap 66 of the guide tooth 65 in the tooth width direction increases.
[0098]
The tooth groove 66 of the guide tooth 65 is formed in an arcuate cross-sectional shape so as to embrace more than half of the game medium, and the groove port 67 of the tooth groove 66 cannot remove the game medium from the tooth groove 66 to the polishing tape T1 side. As such, it is narrower than the maximum diameter of the game medium.
[0099]
An upper portion of the grinding gear 60 is formed with a large diameter portion 71, and guide teeth 65 are continuously provided in the large diameter portion 71 with a wider pitch. A tapered small diameter portion 72 is formed at the lower portion of the grinding gear 60. The locking teeth 75 are connected to the column surface of the small diameter portion 72 at a narrow pitch in the circumferential direction so that the game media guided by the tooth grooves 66 of the guide teeth 65 are brought into contact with each other.
[0100]
The lower portion of the grinding gear 60 is formed with a reduced diameter portion 73 that gradually tapers. Locking teeth 75 a are also formed on the column surface of the reduced diameter portion 73. The pitch of the locking teeth 75a formed on the column surface of the reduced diameter portion 73 is gradually narrowed from the wider pitch of the guide teeth 65 to the narrower pitch of the locking teeth 75. The game media received from the tooth grooves 66 of the guide teeth 65 are gradually brought closer to each other and are brought into contact with each other.
[0101]
The guide teeth 65 are formed so as to prevent the game media from being held in the tooth grooves 66 and to be separated from the groove openings 67. The pitch of the guide teeth 65 is increased, and the tooth height of the guide teeth 65 is increased. Yes. On the other hand, the locking teeth 75 are formed so as to be able to receive the game medium in the tooth grooves 76 and be locked to the game medium, the pitch of the locking teeth 75 provided continuously is narrow, and the tooth height of the locking teeth 75 is short. . Further, the tooth length of the locking teeth 75 gradually decreases, and eventually becomes the tooth height of the locking teeth 75.
[0102]
As shown in FIGS. 1, 4, 6, 8 to 10, and 13 to 15, the polishing gear 60 is accommodated in a resin cylinder 80 a. The cylindrical shaft of the cylindrical body 80a has the rotation axis 57 of the grinding gear 60 as the same axis. The cylinder 80a is formed by integrally combining an upper cylinder 80 and a lower cylinder 90. The upper cylinder 80 is formed by the hopper 40 so that the game media in the unaligned state are guided to the polishing gear 60 so that the game media can be polished in the aligned state. The lower cylinder 90 is formed so as to receive polished game media from the upper cylinder 80 and to send the game media to the outside in an optimum state when the game media is received. .
[0103]
The upper cylinder 80 has a large-diameter receiving port 81 connected to the discharge port of the hopper 40 and a small-diameter outlet 82 that matches the outer diameter of the guide teeth 65 of the grinding gear 60. .
[0104]
A polishing window 84 and a detection window 85 are opened across the cylinder wall 83 of the upper cylinder 80 and the cylinder wall 96 of the lower cylinder 90. The polishing window 84 is configured to allow the polishing tape T1 to enter the cylinders 80 and 90 from the outside and to be routed along the outer periphery of the guide teeth 65 of the polishing gear 60. The detection window 85 is located on the substantially opposite side of the polishing window 84, and is a window for mounting the game medium detection unit S1 that is a proximity sensor.
[0105]
A bearing 92 for the rotary shaft 57 is attached to the center of the bottom 91 of the lower cylinder 90. The lower end portion of the lower cylindrical body 90 is a tapered small diameter portion 93 that matches the small diameter portion 72 of the grinding gear 60, and the inner peripheral wall 94 of the small diameter portion 93 of the lower cylindrical body 90 is thin. It is formed along the outer periphery of the locking tooth 75 provided continuously to the diameter portion 72.
[0106]
On the inner peripheral wall 94 of the lower cylindrical body 90, a spiral convex portion 95 protruding toward the locking tooth 75 is provided. The spiral convex portion 95 is formed so as to abut against the game medium received in the tooth groove 76 of the locking tooth 75 from below, so that the game medium can be gradually guided to the bottom 91 of the lower cylinder 90. The spiral convex portion 95 is formed corresponding to a trajectory drawn by the game medium when the game medium is spirally rotated about ¼ along the inner peripheral wall 94 of the cylindrical body 90. The starting end of the spiral convex portion 95 is formed at a position facing an inlet of a communication passage 97 described later from above. The starting end of the spiral convex portion 95 is formed at a position higher than the bottom surface 91a of the lower cylinder 90 by about one game medium.
[0107]
In the cylindrical wall 96 of the lower cylinder 90, a communication path 97 is provided for guiding the game medium guided to the bottom 91 of the lower cylinder 90 to the lifting path 20. The outlet 97a of the communication passage 97 is gradually opened toward the lifting passage 20 so that the lower end portion 21 of the lifting passage 20 can be easily connected. The lifting passage 20 and the communication passage 97 are established on a tangential direction line drawn with respect to the circular locus of the game medium moving along the cylindrical wall 96. A felt washer W <b> 2 is interposed between the bottom 91 of the lower cylinder 90 and the lower surface of the grinding gear 60.
[0108]
As shown in FIGS. 4 and 5, an electric motor 53, which is an induction motor, is supported via a motor base 52 on the surface of the upper plate end of the main body 51 of the polishing apparatus 50. A gear head 54 and a drive shaft 54 a are disposed at the end in the main body 51. The reduction ratio of the gear head 54 is 1:25. The drive shaft 54a is arranged with its axial direction in the vertical direction. A spur gear 55 is fixed to the drive shaft 54a.
[0109]
A bearing 56 is disposed in the center of the main body 51 of the polishing apparatus 50 and is fixed to the inner surface side of the upper plate. A rotating shaft 57 is rotatably supported by the bearing 56. The rotary shaft 57 has its axis in the vertical direction, and two spur gears 58 and 58a are fixedly provided. A timing belt 59 is wound around the spur gear 58a on the rotating shaft 57 side and the spur gear 55 on the drive shaft 54a side.
[0110]
As shown in FIGS. 4 and 5, an interlocking mechanism 100 is disposed at the end of the main body 51 of the polishing apparatus 50. The interlocking mechanism 100 is for interlocking the polishing tape drive mechanism 110 with the polishing gear 60. The interlocking mechanism 100 includes three shafts 101 to 103 and a support bracket 106 for rotatably supporting the three shafts 101 to 103.
[0111]
The rotation of the shaft 101 is transmitted to the shaft 102 via the worm gear 101a and the spur gear 102a, and further transmitted to the shaft 103 via the worm gear 102b and the spur gear 103a. A spur gear 101 b is fixed to the shaft 101.
[0112]
A timing belt 104 is wound around a spur gear 101b on the shaft 101 side and a spur gear 58 on the rotating shaft 57 side. At an intermediate position between the spur gear 101b and the spur gear 58, a tension pulley 105 that elastically contacts the timing belt 104 and prevents the timing belt 104 from slackening is disposed. A tape roller 111 for feeding the polishing tape T1 is fixed to the shaft 103. On the outer peripheral surface of the tape roller 111, knurled lines for preventing slipping and other notches are formed.
[0113]
As shown in FIGS. 1 and 4 to 6, the tape roller 111 constituting the polishing tape drive mechanism 110 is formed by the interlocking mechanism 100 so as to be interlocked with the rotation shaft 57 of the polishing gear 60. Further, the tape roller 111 is configured to feed the polishing tape T1 from the storage case 115 at a speed corresponding to the moving speed of the game medium by the guide teeth 65 of the polishing gear 60 and to move along the outer periphery of the polishing gear 60. Has been.
[0114]
As shown in FIG. 5, when the rotating shaft 57 of the grinding gear 60 rotates counterclockwise, the interlock mechanism 100 is configured to rotate the shaft 103 on which the tape roller 111 is fixed clockwise. The direction in which the tape roller 111 moves the polishing tape T1 is opposite to the moving direction of the game medium by the guide teeth 65 of the polishing gear 60.
[0115]
The rotation speed of the rotating shaft 57 is 60 to 70 r / min, and the rotation speed of the tape roller 111 is 1.8 to 2.2 r / H. The amount of game media transported by the polishing apparatus 50 is 908 to 1080, and the amount of polishing tape consumed is 150 mm / 100,000 (the amount transported for about one day). The consumption amount of the polishing tape T1 in 30 days is 4.5 m (one roll in the storage case 115).
[0116]
As shown in FIGS. 1, 4, 6, and 7, a cassette guide 112 is provided on the upper plate of the polishing apparatus 50. The cassette guide 112 includes a guide base 113 and a guide bracket 114 placed on the guide base 113, and the guide bracket 114 is formed with a substantially rectangular guide groove that opens downward. A storage case 115 is removably supported in the guide groove. Thereby, the storage case 115 is configured to be detachable from the main body 51 of the polishing apparatus 50.
[0117]
A cassette rocker 116 is supported on the upper surface of the guide bracket 114 so as to be swingable between a detachable position and a non-detachable position. The cassette locker 116 is retracted from the movement path of the pin 115d of the storage case 115 when the storage case 115 is fitted and removed at the detachable position, and the storage case 115 is detachable from the guide groove, and is stored at the non-detachable position. It contacts the pin 115d of the case 115 and prevents the storage case 115 from coming out of the guide groove.
[0118]
As shown in FIG. 7, the storage case 115 can store the polishing tape T1. The polishing tape T1 is a nonwoven fabric having a width of 34 mm, a thickness of 0.4 mm, and a roll of 4.5 m. The polishing tape T1 is accommodated while being wound around the winding shaft. Not only this but polishing tape T1 may be stored in storage case 115 in the state where it was folded up. The front surface portion of the storage case 115 is formed in an arcuate cross-sectional shape so as to follow the outer periphery of the grinding gear 60 when mounted.
[0119]
A cushion member 117 is attached to the front surface of the storage case 115. The cushion member 117 is formed of an elastic material such as felt. The polishing tape T1 passes through the guide groove 115a of the storage case 115 and is fed to one end side of the cushion member 117. Further, the guide teeth in a state where the game medium on the polishing gear 60 side can be pressed by the elastic force of the cushion member 117. 65 is extended from one end side of the cushion member 117 to the other end side along the outer periphery of 65, and is further routed from the other end side of the cushion member 117 through the guide groove 115 b of the storage case 115. Has been.
[0120]
At an intermediate position between the winding shaft of the storage case 115 and the guide groove 115a, the polishing tape T1 is slidably brought into contact with the polishing tape T1 when the polishing tape T1 is unwound, and is separated from the polishing tape T1 when the polishing tape T1 is replaced. A pressing member 115c is provided. A capstan roller 118 is provided at the tip of the guide groove 115b. A capstan roller 118 elastically contacts the tape roller 111. The used polishing tape T1 that has been retracted is routed so as to pass through the gap between the capstan roller 118 and the tape roller 111 and into the collection cylinder 119 that is erected on the storage case 115. . A guide member 119a for guiding the polishing tape T1 to the recovery cylinder 119 is provided on the front side of the recovery cylinder 119.
[0121]
The polishing tape T1 that has passed through the collection cylinder 119 is collected at a predetermined position. In the present embodiment, the used polishing tape T1 is not wound, but a bobbin for winding the polishing tape T1 may be provided.
[0122]
As shown in FIGS. 16 to 20, a backflow prevention mechanism 120 is disposed between the lifting passage 20 that is a lifting cylinder and the communication passage 97 of the lower cylinder 90. As shown in FIG. 16, the feeding passage 20 forms two passages through which game media can be passed by joining two grooves 20a having a cross-sectional shape and joining the flanges 20b. It consists of
[0123]
The backflow prevention mechanism 120 includes an arm 121, an urging means 122, and a shutter member 123. A base end portion 121 a of the arm 121 is pivotally attached to a lower end portion 21 of the lifting passage 20 by a pivot 124 so as to be swingable. A shutter member 123 is provided at an intermediate portion between the base end portion 121 a and the tip end portion 121 b of the arm 121. A winding spring which is an urging means 122 is wound around the pivot 124. The shutter member 123 is recessed with a wedge-shaped gate portion 123a.
[0124]
As shown in FIG. 17, the shutter member 123 moves the tip 121 b of the arm 121 to the lower cylinder body against the urging force of the urging means 122 when the lifting passage 20 is connected to the communication passage 97. As shown in FIG. 18, the gate portion 123 a of the shutter member 123 is lifted up by moving the arm 121 on the abutting portion 98 of 90 and swinging the arm 121 about the pivot 124, thereby lowering the lower end 22 of the passage 20 for feeding. As shown in FIG. 19, when the lifting passage 20 is removed from the communication passage 97, the tip 121b of the arm 121 is removed from the abutting portion 98 to urge the arm. By swinging the arm 121 around the pivot 124 in the opposite direction by the urging force of the means 122, the gate portion 123a of the shutter member 123 is lowered and the lower end port 22 of the feeding passage 20 is moved as shown in FIG. Jill is to swing the closed position.
[0125]
Next, the flow of game media in the game device will be described.
An upper plate 11 and a lower plate 12 are provided at the lower part of the gaming machine 10, and game media in the upper plate 11 are driven onto the game board and used for games. The used game medium flows out to the hopper 40 through the out ball counter 13 as an out ball. In addition, the game media awarded based on the game result in the game machine enters the ball receiving port 14 from the lower plate 12 and flows down to the hopper 40 through the prize ball counter 15 which is a game media counter. The result counted by the prize ball counter 15 is displayed on the display unit 16. In this way, the game media flow down from the two locations of the out ball counter 13 and the prize ball counter 15 to the hopper 40. The hopper 40 collects the game media.
[0126]
The game medium flowing down to the hopper 40 is polished by the polishing apparatus 50. The polishing of the game medium by the polishing apparatus 50 will be described later. The ground game medium is transported from the polishing device 50 through the transport passage 20 to the supply basket 17 above the gaming machine 10. The game media in the replenishment basket 17 is stored in the upper tank 19 through the replenishment ball counter 18. A predetermined number of game media are discharged from the upper tank 19 to the upper plate 11 by inserting a game card into the card insertion slot 31 of the ball lending machine 30 and specifying the input amount. As described above, the game medium in the upper plate 11 is used in the game and polished by the polishing device 50, and then the feeding passage 20, the replenishment bowl 17, the replenishment ball counter 18, the upper tank 19 and the ball lending machine. It returns to the top plate 11 through the passage in 30, and becomes usable again.
[0127]
Next, the polishing of the game medium by the polishing apparatus 50 will be described.
The game medium that has flowed down and collected into the hopper 40 passes through the discharge port of the hopper 40, flows into the receiving port 81 of the upper cylinder 80 of the polishing apparatus 50, and further toward the outlet 82 of the upper cylinder 80. Flow down. It flows into the cap 64 of the grinding gear 60 located at the center of the outlet 82. Since the cap 64 is formed in a substantially conical shape, the game medium is allowed to flow from the top 64a of the cap 64 toward the outer peripheral edge 64b.
[0128]
Since the guide teeth 65 of the grinding gear 60 are arranged along the outer periphery of the cap 64, the game medium flows down toward the upper end side of the tooth groove 66 of the guide teeth 65. If the upper end side of the tooth groove 66 of the guide tooth 65 is in a concave state where no game medium is inserted, the game medium can enter the upper end side of the tooth groove 66 of the guide tooth 65 in the concave state.
[0129]
When the grinding gear 60 is rotated, the upper end side of the tooth groove 66 of the guide tooth 65 is also rotated. Some of the upper ends of the tooth grooves 66 of the guide teeth 65 are concave, and if the upper ends of the tooth grooves 66 of the guide teeth 65 in the concave state meet the game medium, the game medium is The upper end side of the tooth groove 66 of the guide tooth 65 in the concave state is entered.
[0130]
The game medium that has entered the upper end side of the tooth groove 66 of the guide tooth 65 moves to the lower end side of the tooth groove 66 of the guide tooth 65 by its own weight. When the game medium moves to the lower end side of the tooth groove 66 of the guide tooth 65, the upper end side of the tooth groove 66 of the guide tooth 65 becomes concave. A new game medium can enter the upper end side of the tooth groove 66 of the guide tooth 65 in the concave state.
[0131]
In this way, if there is a game medium to be polished in the hopper 40, the game medium enters the tooth groove 66 of each guide tooth 65 without interruption.
[0132]
Since the polishing tape T1 is routed so as to come into contact with the game medium guided along the tooth groove 66 of the guide tooth 65 of the grinding gear 60, the game medium is viewed from the upper end side of the tooth groove 66 of the guide tooth 65. The polishing tape T1 can polish the game medium in the moving range until the tooth groove 66 moves to the other end side. If the game medium rotates a plurality of times while the game medium moves within the moving range, the polishing tape T1 polishes the game medium a plurality of times.
[0133]
As shown in FIG. 9, within the range of movement of the game medium and within the range where the polishing tape T1 can polish the game medium, the three game media are vertically moved in the tooth groove 66 of the guide tooth 65. Exists in an aligned state. The game medium is moved in the rotation direction by the grinding gear 60, and the game medium is polished by the polishing tape T1 at the uppermost position, and is polished by the polishing tape T1 at the middle position in the next rotation, and the next rotation. Then, it is in the lowest position and is polished by the polishing tape T1. That is, the polishing tape T1 can polish the game medium three times while the game medium moves in the moving range.
[0134]
Further, since the groove opening 67 of the tooth groove 66 of the guide tooth 65 is narrower than the maximum diameter of the game medium, the game medium moving along the tooth groove 66 of the guide tooth 65 is removed from the tooth groove 66 of the guide tooth 65. There is no separation to the polishing tape T1 side. As a result, even if the polishing tape T1 is separated from the game medium in the tooth groove 66 of the guide tooth 65 during maintenance and inspection of the lifting device or the polishing apparatus 50 or replacement work of the polishing tape T1, the game medium remains in the teeth of the guide tooth 65. There is no possibility of spilling from the groove port 67 of the groove 66 to the outside of the cylinder 80a, and processing such as keeping the game medium from spilling during work such as replacing the polishing tape T1 becomes unnecessary.
[0135]
The game medium in the tooth groove 66 of the guide tooth 65 is ground and then guided to the lower end side of the tooth groove 66. If there is a game medium to be polished in the hopper 40, the game medium is received from the lower end side of the tooth groove 66 of the guide tooth 65 into the tooth groove 76 of the locking tooth 75 without interruption.
[0136]
The tooth groove 76 of the locking tooth 75 of the grinding gear 60 does not become an empty state that does not accept a game medium, and the locking tooth 75 does not perform an empty feed that is empty. In this manner, the locking teeth 75 push up the game medium through the communication passage 97 to the lifting passage 20 without being fed forward. Since there is no idle feed of the locking tooth 75, it does not fall toward the tooth groove 76 of the empty locking tooth 75 due to its own weight of the game medium in the lifting passage 20, It is possible to prevent the locking teeth 75 of the grinding gear 60 from being damaged without giving an impact to the locking teeth 75.
[0137]
The game media in the tooth groove 66 of the guide tooth 65 of the grinding gear 60 are separated from each other with an interval corresponding to the tooth thickness of the guide tooth 65. The locking teeth 75 are connected to the column surface of the small diameter portion 72 of the grinding gear 60 at a predetermined pitch in the circumferential direction. As a result, the tooth groove 76 of the locking tooth 75 receives the game media guided to the lower end side of the guide tooth 65 of the grinding gear 60 in contact with each other.
[0138]
The locking teeth 75 are pushed up through the connecting passage 97 while the game media are in contact with each other, and are pushed up to the lifting passage 20. Since the game media are pushed up as they are in contact with each other, the reaction force when the game media is pushed up is dispersed and applied to the game media itself and the teeth of the locking teeth 75. Also from this point, it is possible to prevent the grinding gear 60 from being damaged.
[0139]
Further, the game medium received in the tooth groove 76 of the locking tooth 75 is lowered by one game medium from the bottom surface 91a of the lower cylinder 90, and above the entrance of the communication passage 97. When rotating, the lower cylindrical body 90 gradually contacts the starting end of the spiral convex portion 95 and draws a spiral along the spiral convex portion 95 while being supported by the spiral convex portion 95 from below. It moves toward the bottom part 91. Thereby, the game medium smoothly moves to the bottom 91 of the lower cylinder 90. The guidance of the spiral convex portion 95 causes the game medium to descend by one game medium while rotating about ¼ along the inner peripheral wall 94 of the lower cylinder 90. The game medium guided to the bottom 91 rotates about 3/4 along the inner peripheral wall 94 of the lower cylinder 90 on the bottom surface 91a of the cylinder 90, and then enters the entrance of the communication passage 97 for communication. From the outlet 97a of the passage 97, the lower end 22 of the feeding passage 20 is entered.
[0140]
Next, the operation of the drive mechanism of the polishing gear 60, the interlocking device 100, and the polishing tape drive mechanism 110 will be described.
[0141]
The rotation of the spur gear 55 by the electric motor 53 is transmitted to the spur gear 58a via the timing belt 59, whereby the rotating shaft 57 rotates and the polishing gear 60 rotates in the cylindrical body 80a.
[0142]
In FIG. 5, when the rotating shaft 57 rotates counterclockwise, the spur gear 101b rotates counterclockwise, and thereby the worm gear 101a of the shaft 101 rotates. When the worm gear 101a rotates, the spur gear 102a rotates and the worm gear 102b of the shaft 102 rotates. When the worm gear 102b rotates, the spur gear 103a of the shaft 103 rotates clockwise in FIG. 5, and the tape roller 111 fixed to the shaft 103 rotates clockwise. The tape roller 111 is interlocked with the rotation shaft 57. Further, the rotation of the tape roller 111 is opposite to the rotation direction of the rotation shaft 57.
[0143]
When the rotating shaft 57 is rotated by the electric motor 53 to polish the game medium, the tape roller 111 is also rotated, and the polishing tape T1 sandwiched between the tape roller 111 and the capstan roller 118 is fed out from the storage case 115. In this way, when polishing the game medium, the unused polishing tape T1 can be automatically drawn out from the storage case 115 and used, and the operator does not need to replace the unused polishing tape T1.
[0144]
The storage case 115 is fitted in the guide groove of the cassette guide 112 and attached to the main body 51 of the polishing apparatus 50. At this time, the cassette locker 116 is in a non-detachable position and can come into contact with the pin 115d of the storage case 115, so that the storage case 115 cannot be removed.
[0145]
In order to remove the storage case 115 from the main body 51 of the polishing apparatus 50, the storage case 115 may be removed from the guide groove of the cassette guide 112. For this purpose, the cassette locker 116 is swung from the non-detachable position to the attachable / detachable position so as not to contact the pins 115 d of the storage case 115. Thereby, the storage case 115 can be removed from the guide groove.
[0146]
Thus, since the storage case 115 is configured to be detachable from the main body 51 of the polishing apparatus 50, the storage case 115 is attached to the main body of the polishing apparatus 50 when all the polishing tapes T1 in the storage case 115 are used. The new storage case 115 may be attached to the main body of the apparatus by removing it from 51, and the replacement work of the polishing tape T1 becomes easy.
[0147]
In addition, since the tape roller 111 of the polishing tape drive mechanism 110 is interlocked with the rotation shaft 57 of the polishing gear 60, when the polishing gear 60 stops rotating, the tape roller 111 of the polishing tape drive mechanism 110 stops driving. Only when the grinding gear 60 is rotated to polish the game medium, the tape roller 111 is rotated to feed out the polishing tape T1 from the storage case 115 and not to use the unnecessary polishing tape T1.
[0148]
When the tape roller 111 rotates, the polishing tape T1 sandwiched between the tape roller 111 and the capstan roller 118 passes through the guide groove 115a of the storage case 115 to the one end side of the cushion member 117. The fed polishing tape T <b> 1 is extended to the other end side of the cushion member 117 through the gap between the cushion member 117 and the polishing gear 60. At this time, the polishing tape T1 is in a state where the game medium in the guide teeth 65 can be pressed by the elastic force of the cushion member 117. The polishing tape T1 is fed between the tape roller 111 and the capstan roller 118 from the other end side of the cushion member 117 through the guide groove 115b of the storage case 115. The used polishing tape T <b> 1 that has been used enters the collection cylinder 119 erected on the storage case 115. At this time, the polishing tape T1 is guided to the collection cylinder 119 by the guide member 119a.
[0149]
The pressing member 115c disposed at an intermediate position between the winding shaft of the storage case 115 and the guide groove 115a is brought into sliding contact with the polishing tape T1 when the polishing tape T1 is unwound and becomes frictional resistance. As a result, it is possible to prevent the polishing tape T1 from being unnecessarily drawn out and to prevent the polishing tape T1 from slackening.
[0150]
When the polishing tape drive mechanism 110 feeds the polishing tape T1, the polishing tape T1 is fed at a speed corresponding to the moving speed of the game medium by the grinding gear 60. Accordingly, the polishing tape T1 can be slidably contacted with the game medium in the tooth groove 66 of the guide tooth 65 at an appropriate speed to polish the game medium.
[0151]
As described above, since the rotation of the tape roller 111 is opposite to the rotation direction of the rotation shaft 57, the movement direction of the game medium in the tooth groove 76 of the guide tooth 75 of the grinding gear 60 is reversed. The polishing tape T1 moves in the reverse direction. Thereby, even if the movement of the polishing tape T1 is slow, the polishing tape T1 moves relative to the game medium in the tooth gap 76, and comes into sliding contact with the game medium to polish the game medium. .
[0152]
Next, the operation of the game medium detection units S1 and S2 provided at the main points of the game apparatus will be described.
The game medium detection unit S1 is provided in the polishing apparatus 50, and detects the presence or absence of the game medium used and collected by the gaming machine 10. The game medium detection unit S1, which is a proximity switch, detects the presence or absence of a game medium in the tooth groove 66 of the guide tooth 65 of the grinding gear 60 from the detection window 85 of the cylindrical body 80a. When the game medium detection unit S1 detects that there is no game medium in the tooth gap 66, the game gear detection unit S1 indicates that there is a game medium to be polished by stopping the rotation of the polishing gear 60 of the polishing apparatus 50. Is detected, rotation of the grinding gear 60 is started. Accordingly, the power consumption of the electric motor 53 can be reduced, and the driving of the polishing tape driving mechanism 110 is also stopped by the interlocking mechanism 100, so that the polishing tape T1 is not drawn out from the storage case 115, and the polishing tape T1 is removed. Can be wasted.
[0153]
The game medium detection unit S2 detects the presence / absence of a game medium in the lifting passage 20. During the polishing of the game medium, the game medium polished by the polishing tape T <b> 1 is pushed up from the polishing apparatus 50 to the feeding path 20 by the locking teeth 75. The game medium detection unit S2 detects the game medium pushed up by the lifting passage 20.
[0154]
If the game medium detection unit S2 does not detect the game medium in the lifting passage 20 even though the game medium is being polished, the motor 53 and the drive mechanism for driving the polishing gear 60 are in an abnormal state. It turns out.
[0155]
Next, the operation of the backflow prevention mechanism 120 will be described.
[0156]
When the lifting passage 20 is removed from the communication passage 97, the urging force of the urging means disengages the tip 121b of the arm 121 from the abutting portion 98, and the arm 121 swings, Since the gate part 123a descends and automatically closes the lower end port 22 of the lifting passage 20, when the lifting passage 20 is attached and detached, the game medium is purposely removed from the lifting passage 20. It does not have to be.
[0157]
On the other hand, when the lifting passage 20 is connected to the communication passage 97, the tip 121b of the arm 121 rides on the contact portion 98 against the biasing force of the biasing means, and the gate 123a of the shutter member 123 Ascending, the lower end opening 22 of the lifting passage 20 is automatically opened. Thus, the lifting passage 20 and the communication passage 97 communicate with each other, and the game medium can be pushed up from the polishing apparatus 50 to the lifting passage 20.
[0158]
In the above-described embodiment, the game medium entering the upper end side of the tooth groove 66 of the guide tooth 65 of the grinding gear 60 can be guided to the lower end side of the tooth groove 66, and the guided game medium is engaged. Although what was received in the tooth groove 76 of the stop tooth 75 was shown, by moving the game medium which entered the groove opening of the tooth groove of the grinding gear 60 in the rotation direction, the game medium can be polished. There may be.
[0159]
In the embodiment, the direction of the rotation axis of the grinding gear 60 is set to the vertical direction. However, the direction of the rotation axis may be a horizontal direction or an oblique direction with respect to the vertical direction. May be. Thus, when the direction of the rotation axis is the horizontal direction, the game medium is forcibly inserted into one end side in the tooth width direction of the tooth gap of the guide teeth, and the game medium is forcibly inserted into the teeth of the guide teeth. A means for moving the groove from one end side to the other end side in the tooth width direction may be provided.
[0160]
Furthermore, in the embodiment, by forming the locking teeth on the column surface of the small diameter portion, the pitch of the locking teeth is narrowed so that the game media received in the tooth spaces of the locking teeth come into contact with each other. However, the locking teeth may be continuously provided on the column surface having the same diameter as the diameter of the guide teeth. Even with the locking teeth arranged continuously at such a wide pitch, it is possible to prevent the game medium from being skipped.
[0161]
Further, the polishing apparatus 50 may be one in which two or more polishing gears 60 are disposed adjacent to each other. A large amount of game media can be polished in a short time by two or more polishing gears 60, and the polishing ability can be increased. Moreover, you may provide the cylinder 80a which can accommodate the 2 or more grinding gearwheel 60. FIG. Two or more receiving grooves having a circular cross-sectional shape may be formed in the cylindrical body 80a, and the polishing gears 60 may be placed in the receiving grooves.
[0162]
Two or more polishing tapes T1 may be disposed around the polishing gear 60. According to the number of polishing tapes T1, the contact length between the game medium and the polishing tape T1 when the game medium in the tooth groove 66 of the guide tooth 65 is rotated is increased, and even when the number of rotations of the game medium is small The medium can be sufficiently polished. Further, if the tooth gap 66 of the guide tooth 65 for guiding the game medium is widened in the tooth width direction, the number of rotations of the game medium in the tooth groove 66 of the guide tooth 65 increases, so that the rotation of the game medium is increased. If the number may be small, the groove 66 of the guide tooth 65 of the polishing gear 60 can be narrowed in the tooth width direction, and the width of the polishing tape T1 can also be narrowed.
[0163]
Further, in the embodiment, the polishing member using the polishing tape T1 is shown, but the present invention is not limited to this. That is, a sheet-like polishing member may be provided along the outer periphery of the polishing gear so that the game medium can be polished by contacting the game medium.
[0164]
Further, in the embodiment, the game apparatus provided with the polishing apparatus 50 is shown. However, since this polishing apparatus 50 has a lifting function for lifting game media in addition to the polishing function, the lifting apparatus 50 has a lifting function. You may make it prepare for a feeding apparatus.
[0165]
Further, the lifting device may be constituted by only parts constituting the lifting function of the polishing apparatus 50, and excluding the parts constituting the polishing function such as the interlocking mechanism 100 and the polishing tape drive mechanism 110.
[0166]
【The invention's effect】
According to the gaming apparatus for gaming media according to the present invention, since the gaming medium is polished by the polishing member disposed along the outer periphery of the polishing gear, the polishing member is disposed along the transport path of the gaming medium. The polishing apparatus can be downsized.
[0167]
In addition, the game medium that has entered one end side in the tooth width direction of the guide tooth of the polishing gear is moved to the other end side in the tooth width direction, and the game medium that has entered the tooth gap of the guide tooth is polished a plurality of times by the polishing member. Therefore, sufficient polishing ability can be exhibited as compared with the size of the polishing member and the polishing gear.
[0168]
Furthermore, since the game medium that has entered the upper end of the tooth gap of the guide tooth is moved to the lower end side of the tooth groove of the guide tooth by its own weight, the game medium that has entered the tooth gap of the guide tooth is removed by the abrasive member. It is possible to provide a polishing apparatus that can polish a plurality of times and can exhibit a sufficient polishing ability as compared with the size of a polishing member or a polishing gear.
[0169]
Furthermore, by moving the game medium that has entered the upper end side of the guide tooth tooth gap to the lower end side of the guide tooth tooth groove by its own weight, the game medium is successively placed on the upper end side of the guide tooth tooth groove, Since the medium is allowed to be received by the locking teeth without being interrupted, it is possible to eliminate idle feeding of the locking teeth and prevent damage to the grinding gear.
[0170]
Further, in a polishing apparatus used in a gaming apparatus or a lifting apparatus, the game medium that has entered the upper end side of the guide tooth tooth gap is moved to the lower end side of the guide tooth tooth gap by its own weight, and the game medium is moved to the guide tooth tooth gap. Since the game medium is received by the locking teeth one after another at the upper end side of the tooth gap, it is possible to eliminate idle feeding of the locking teeth and prevent the grinding gear from being damaged.
[0171]
Furthermore, since the game media discharged from the game media counter can be polished together with the game media used in the game machine, there is no need to provide a separate polishing device, and the overall size of the device can be reduced. Can do.
[0172]
Furthermore, since the locking teeth are formed so that the game media guided to the other end side in the tooth width direction of the guide teeth are in contact with each other, the passage for lifting by the locking teeth while the game media are in contact with each other The reaction force when the game medium is pushed up is distributed to the game medium itself and the teeth of the locking teeth, and damage to the polishing gear can be prevented.
[0173]
Furthermore, since the game medium is gradually guided to the bottom of the cylinder by the spiral convex portion, the game medium can be smoothly guided to the bottom of the cylinder, and the game media can be connected to each other at the bottom of the cylinder. Can be smoothly contacted.
[0174]
Furthermore, since two or more polishing gears are provided adjacent to each other, a large amount of game media can be polished in a short time, and the polishing ability can be improved.
[0175]
Further, since two or more polishing members are arranged around the polishing gear, the contact length between the game medium and the polishing member when the game medium in the tooth space of the guide tooth is rotated is increased, and even with a small number of rotations. Since the game medium can be sufficiently polished, the tooth gap of the guide teeth for guiding the game medium can be narrowed in the tooth width direction, and the width of the polishing member and the polishing tape can be narrowed. it can.
[0176]
Further, the polishing tape drive mechanism allows the polishing tape to be unwound from the storage case and can be used, and the unused polishing tape is automatically unwound from the storage case, so that the replacement work of the polishing tape becomes unnecessary and the usability is improved.
[0177]
Since the storage case is configured to be removable from the main body of the polishing device, when all the polishing tape in the storage case is used, the storage case is removed from the main body of the polishing device, and a new storage case is attached to the main body of the device. What is necessary is just to mount | wear, and the replacement | exchange operation | work of an abrasive tape becomes easy.
[0178]
In addition, the groove opening of the guide tooth groove is narrower than the maximum diameter of the game medium so that the game medium is not detached from the guide tooth tooth groove to the polishing member side. When the polishing member is replaced, it is not necessary to process the game medium and workability can be improved.
[0179]
Further, since the polishing gear and the polishing tape drive mechanism are interlocked, if the polishing gear stops rotating, the polishing tape drive mechanism also stops, so that the unnecessary polishing tape is not fed out of the storage case, and the polishing tape The consumption cost can be reduced.
[0180]
Furthermore, since the polishing tape is moved at a speed corresponding to the moving speed of the game medium by the polishing gear, the moving speed of the polishing tape becomes appropriate, and the polishing tape can be used without waste.
[0181]
Furthermore, since the polishing tape is moved in the opposite direction with respect to the moving direction of the game medium, even if the movement of the polishing tape is low, the relative speed with respect to the game medium can be obtained, and the polishing tape can be used without waste. be able to.
[0182]
In addition, since a game medium detection unit is provided for detecting the presence or absence of the collected game media used in the gaming machine, when the game medium detection unit detects that there is no game medium to be polished, polishing is performed. Stopping the rotation of the polishing gear of the device can reduce power consumption, and the interlocking mechanism also stops the driving of the polishing tape drive mechanism so that the polishing tape is not drawn out of the storage case. Waste can be prevented.
[0183]
Furthermore, since the game medium detecting unit for detecting the presence / absence of the game medium in the lifting passage is provided, if the gaming medium in the lifting path is not detected during the polishing of the gaming medium, the grinding gear It is possible to detect an abnormality in the mechanism for driving the motor and the power source.
[0184]
Further, when a backflow prevention mechanism is arranged between the lifting passage and the communication passage of the polishing apparatus, and the lifting passage is removed from the connecting passage, the shutter member of the backflow prevention mechanism is below the lifting passage. Since the end opening is automatically closed, it is not necessary to remove the game medium from the lifting passage when the lifting passage is attached and detached, and the workability can be improved.
[0185]
Furthermore, since the game medium that has entered the upper end of the tooth gap of the guide tooth is moved to the lower end side of the tooth groove of the guide tooth by its own weight, the game medium is successively inserted into the upper end side of the tooth groove of the guide tooth. Thus, the game medium can be received by the locking teeth without interruption, and the idle feeding of the locking teeth can be eliminated, and the feed gear can be prevented from being damaged.
[0186]
Furthermore, the game media guided to the other end side in the tooth width direction of the guide teeth are brought into contact with each other, and can be pushed up to the lifting passage by the locking teeth in the contacted state. The reaction force when pushing up is distributed and applied to the game medium itself and the teeth of the locking teeth, and damage to the feed gear can be prevented.
[Brief description of the drawings]
In the polishing apparatus according to one embodiment of the present invention, the upper surface of the storage case is partially broken to show the inside, and the polishing gear in the cylinder is broken in a direction perpendicular to the cylinder axis. It is the principal part sectional drawing shown.
FIG. 2 is a front view of the gaming device according to the embodiment of the present invention.
FIG. 3 is a block diagram showing a configuration of a gaming device according to one embodiment of the present invention.
FIG. 4 is a front view showing the main body of the polishing apparatus according to the embodiment of the present invention by imaginary lines.
FIG. 5 is a bottom view showing the inside of the main body of the polishing apparatus according to the embodiment of the present invention.
FIG. 6 is a partial plan view of the polishing apparatus according to the embodiment of the present invention with the storage case removed.
FIG. 7 is a plan view showing the inside of the storage case according to the embodiment of the present invention.
8 is a cross-sectional view taken along line VIII-VIII in FIG.
FIG. 9 is a cross-sectional view of a principal part in which a cylindrical body and a grinding gear of a polishing apparatus according to an embodiment of the present invention are broken along a cylindrical axis.
10 is a cross-sectional view taken along the line XX of FIG. 9 and shows a cylindrical body with an imaginary line.
FIG. 11 is a plan view of a grinding gear according to an embodiment of the present invention.
FIG. 12 is a front view of a grinding gear according to an embodiment of the present invention.
FIG. 13 is a plan view showing a lower cylindrical body according to an embodiment of the present invention.
FIG. 14 is a front view showing a lower cylinder according to the embodiment of the present invention.
FIG. 15 is a cross-sectional view of a lower cylinder body according to an embodiment of the present invention, taken along its cylinder axis.
FIG. 16 is a cross-sectional view of a lifting cylinder according to an embodiment of the present invention, broken away so that its cylinder axis is orthogonal.
FIG. 17 is a front view of the backflow prevention mechanism according to the embodiment of the present invention in a state where the lifting cylinder and the communication passage are connected.
18 is a cross-sectional view taken along line XVIII-XVIII in FIG.
FIG. 19 is a front view of the backflow prevention mechanism according to the embodiment of the present invention in a state in which the lifting cylinder is removed from the communication passage of the polishing apparatus.
20 is a cross-sectional view taken along line XX-XX in FIG.
[Explanation of symbols]
S1: Game medium detection unit
S2: Game medium detection unit
S3: Replenishment ball detector
T1 ... Abrasive tape
W1 ... Washer
W2 ... Felt washer
10 ... Game machines
11 ... Upper plate
12 ... lower plate
13 ... Out ball counter
14 ... Tamaguchi
15 ... Premium ball counter
16 ... Display section
17 ... Supplying bowl
18 ... Supply ball counter
19 ... Upper tank
20 ... lifting passage
20a ... Member having a groove-like cross-sectional shape
21 ... Lower end
22 ... Bottom edge
30 ... Ball lending machine
31 ... Card insertion slot
40 ... Hopper
50. Polishing apparatus
51 ... Main body of polishing apparatus
52 ... Motor base
53 ... Electric motor
54 ... Gearhead
54a ... Drive shaft
55 ... Spur gear
56 ... Bearing
57 ... Rotating shaft
58 ... Spur gear
58a ... spur gear
59 ... Timing belt
60. Polishing gear
61 ... Fitting part
62 ... Column wall
63 ... Rib
64 ... Cap
64a ... top
64b ... outer periphery
65 ... Guide teeth
66 ... tooth gap
67 ... Mizoguchi
71 ... Diameter part
72 ... Small diameter part
73 ... Reduced diameter portion
75 ... locking teeth
75a ... locking teeth
76 ... tooth gap
80 ... Upper cylinder
80a ... Cylinder
81 ... Reception
82 ... Outlet
83 ... Cylinder wall
84 ... Polishing window
85 ... Detection window
90 ... Lower cylinder
91 ... Bottom
91a ... Bottom
92 ... Bearing part
93 ... Small diameter part
94 ... Inner wall
95: Helical convex part
96 ... Cylinder wall
97 ... Communication passage
97a ... Exit
98 ... Abutting part
100 ... interlocking mechanism
101 ... Shaft
101a ... Worm Gear
101b ... spur gear
102 ... shaft
102a ... spur gear
102b ... Worm Gear
103 ... shaft
103a ... Spur gear
104 ... Timing belt
105 ... tension pulley
106 ... Support bracket
110 ... Abrasive tape drive mechanism
111 ... Tape roller
112 ... Cassette guide
113 ... Guide stand
114 ... guide bracket
115 ... Storage case
115a ... Guide groove
115b ... Guide groove
115c ... Holding member
115d ... pin
116 ... cassette locker
117 ... Cushion member
118 ... Capstan Roller
119 ... Recovery cylinder
119a ... guide member
120 ... Backflow prevention mechanism
121 ... arm
121a ... proximal end
121b ... tip
122 ... Biasing means
123 ... Shutter member
123a ... Gate part
124 ... Axis
200: Drive control unit
210 ... Data collection device
220 ... Amusement center management device

Claims (22)

In a polishing apparatus for polishing game media used and collected in a gaming machine,
A polishing gear that holds the game medium in the tooth gap and can move in the rotation direction, and a polishing member that is arranged along the outer periphery of the polishing gear and that can contact the game medium and polish the game medium. A polishing apparatus characterized by the above. In a polishing apparatus for polishing game media used and collected in a gaming machine,
A polishing gear that holds the game medium in the tooth gap and is movable in the rotation direction, and a polishing member that is disposed along the outer periphery of the polishing gear and that can contact the game medium and polish the game medium.
The grinding gear is formed in a substantially cylindrical shape, and has guide teeth extending along the generatrix of the column surface,
The tooth gap of the guide tooth is formed so as to be able to guide the game medium entering one end side in the tooth width direction to the other end side in the tooth width direction,
The polishing apparatus, wherein the polishing member is arranged so as to be in contact with a game medium guided by a tooth groove of the guide tooth. In a polishing apparatus for polishing game media used and collected in a gaming machine,
A polishing gear that holds the game medium in the tooth gap and is movable in the rotation direction, and a polishing member that is disposed along the outer periphery of the polishing gear and that can contact the game medium and polish the game medium.
The grinding gear is formed in a substantially cylindrical shape, and has guide teeth extending along the generatrix of the column surface,
Furthermore, the grinding gear is arranged so that the direction of the rotation axis is substantially vertical,
The tooth gap of the guide tooth is formed so that the game medium that has entered the upper end side of the tooth gap can be guided to the lower end side of the tooth gap,
The polishing apparatus, wherein the polishing member is arranged so as to be in contact with a game medium guided by a tooth groove of the guide tooth. In a polishing apparatus for polishing game media used and collected in a gaming machine,
A polishing gear that holds the game medium in the tooth gap and is movable in the rotation direction, and a polishing member that is disposed along the outer periphery of the polishing gear and that can contact the game medium and polish the game medium.
The polishing gear is formed in a substantially cylindrical shape, and has guide teeth extending along the generatrix of the column surface, and a locking tooth extending further along the generatrix following the guide teeth,
Furthermore, the grinding gear is arranged so that the direction of the rotation axis is substantially vertical,
The tooth gap of the guide tooth is formed so that the game medium that has entered the upper end side of the tooth gap can be guided to the lower end side of the tooth gap,
The tooth space of the locking tooth is formed so as to be able to receive the game medium guided to the lower end side of the tooth space of the guide tooth and to send it out of the grinding gear by the locking tooth,
The polishing apparatus, wherein the polishing member is arranged so as to be in contact with a game medium guided by a tooth groove of the guide tooth. A polishing device for polishing game media used and collected in a gaming machine, and a lifting passage for lifting the polished gaming media from below the gaming machine to above the gaming machine, In a gaming device that enables circulation of gaming media,
The polishing apparatus includes a polishing gear that holds a game medium in a tooth groove and is movable in a rotation direction, and a polishing member that is disposed along an outer periphery of the polishing gear and that can contact the game medium and polish the game medium. And
The polishing gear is formed in a substantially cylindrical shape, and has guide teeth extending along a generatrix of a column surface, and locking teeth that are continuous with the guide teeth and further extend along the generatrix. ,
Furthermore, the grinding gear is arranged so that the direction of the rotation axis is substantially vertical,
The tooth gap of the guide tooth is formed so that the game medium that has entered the upper end side of the tooth gap can be guided to the lower end side of the tooth gap,
The tooth groove of the locking tooth is formed so as to receive the game medium guided to the lower end side of the tooth groove and to be pushed up to the lifting passage by the locking tooth,
The game apparatus according to claim 1, wherein the polishing member is disposed so as to contact a game medium guided by a tooth groove of the guide tooth. A game comprising a polishing apparatus for polishing game media used and collected in a gaming machine, and a lifting passage for lifting the polished gaming media from below the gaming machine to above the gaming machine In the medium lifting device,
The polishing apparatus includes a polishing gear that holds a game medium in a tooth groove and is movable in a rotation direction, and a polishing member that is disposed along an outer periphery of the polishing gear and that can contact the game medium and polish the game medium. And
The polishing gear is formed in a substantially cylindrical shape, and has guide teeth extending along a generatrix of a column surface, and locking teeth that are continuous with the guide teeth and further extend along the generatrix. ,
Furthermore, the grinding gear is arranged so that the direction of the rotation axis is substantially vertical,
The tooth gap of the guide tooth is formed so that the game medium that has entered the upper end side of the tooth gap can be guided to the lower end side of the tooth gap,
The tooth groove of the locking tooth is formed so as to receive the game medium guided to the lower end side of the tooth groove and to be pushed up to the lifting passage by the locking tooth,
The above-mentioned polishing member is arranged so that it contacts the game medium guided by the tooth gap of the above-mentioned guide tooth, The game-medium feeding device characterized by things. A game media counter for counting the game media awarded based on the game result of the game machine is arranged adjacent to the game machine,
The polishing apparatus according to claim 1, wherein the game medium discharged from the game medium counter is polished. A tapered narrow diameter portion is formed at the lower end of the grinding gear,
The locking teeth are continuously provided at a predetermined pitch in the circumferential direction on the column surface of the small diameter portion so that the game media guided by the tooth grooves of the guide teeth are brought into contact with each other. The polishing apparatus according to claim 1, 2, 3, 4, 5 or 6. A cylindrical body having a cylindrical shaft as the rotation shaft of the grinding gear,
The inner peripheral wall of the cylindrical body is formed along the outer periphery of the locking teeth,
On the inner peripheral wall of the cylindrical body, a spiral convex portion that extends spirally along the inner peripheral wall and protrudes toward the locking teeth is provided in a protruding manner,
The spiral convex portion is formed so as to abut on the game medium received in the tooth groove of the locking tooth from below, and the game medium can be gradually guided to the bottom of the cylindrical body,
The communication wall for guiding the game medium guided to the bottom of the cylindrical body to the lifting path is provided in the cylindrical wall of the cylindrical body. The polishing apparatus according to 4, 5, 6, or 8. The polishing apparatus according to claim 1, wherein two or more of the polishing gears are arranged adjacent to each other. The polishing apparatus according to claim 1, wherein two or more polishing members are arranged along an outer periphery of the polishing gear. In a polishing apparatus for polishing game media used and collected in a gaming machine,
A polishing gear that holds a game medium in a tooth groove and is movable in a rotating direction, an abrasive tape that is disposed along an outer periphery of the polishing gear and that can contact the game medium and polish the game medium, and an abrasive tape. 5. A storage case that can be stored, and a polishing tape drive mechanism that is capable of feeding the polishing tape out of the storage case and moving along the outer periphery of the polishing gear. The polishing apparatus according to 5 or 6. The polishing apparatus according to claim 12, wherein the storage case is configured to be detachable from a main body of the polishing apparatus. The tooth groove of the guide tooth has a groove opening narrower than the maximum diameter of the game medium so that the game medium cannot be detached from the tooth groove to the polishing member side or the polishing tape side. The polishing apparatus according to claim 1, 2, 3, 4, 5, 6, or 12. The polishing apparatus according to claim 12, further comprising an interlocking mechanism for interlocking the polishing tape drive mechanism with the polishing gear. 16. The polishing apparatus according to claim 15, wherein the interlocking mechanism is configured such that the polishing tape drive mechanism moves the polishing tape at a speed corresponding to a moving speed of the game medium by the polishing gear. . 16. The polishing according to claim 15, wherein the interlocking mechanism is configured such that the polishing tape driving mechanism moves the polishing tape in a direction opposite to a moving direction of the game medium by the polishing gear. apparatus. The polishing apparatus according to claim 1, further comprising a game medium detection unit for detecting the presence or absence of a game medium used and collected by the game machine. The polishing apparatus according to claim 5, further comprising a game medium detecting unit for detecting presence / absence of a game medium in the lifting passage. The polishing apparatus has a communication passage communicating with the lifting passage,
A backflow prevention mechanism is arranged between the lifting passage and the communication passage,
The backflow prevention mechanism has a shutter member, and when the lifting passage is connected to the communication passage, the shutter member is placed in an open position that opens a lower end of the lifting passage against an urging force. On the other hand, when the lifting passage is removed from the communication passage, the shutter member is configured to swing to a closed position where the lower end of the lifting passage is closed by an urging force when the lifting passage is removed from the communication passage. The polishing apparatus according to claim 5 or 6, characterized in that: In a game medium lifting device for lifting game media used and collected in a gaming machine from above the gaming machine to above the gaming machine,
A feeding passage extending from the lower side of the gaming machine to the upper side of the gaming machine, and a feed gear capable of moving in the rotation direction while holding the gaming medium in the tooth gap,
The feed gear is formed in a substantially cylindrical shape, and has guide teeth extending along a generatrix of a column surface, and a locking tooth extending further along the generatrix following the guide teeth,
Furthermore, the feed gear is arranged so that the direction of the rotation axis is substantially vertical,
The tooth gap of the guide tooth is formed so that the game medium that has entered the upper end side of the tooth gap can be guided to the lower end side of the tooth gap,
The tooth gap of the locking tooth is formed so as to receive the game medium guided to the lower end side of the tooth groove and to be pushed up to the lifting passage by the locking tooth. Game media lifting device. A tapered small diameter portion is formed at the lower end of the feed gear,
The locking teeth are continuously provided at a predetermined pitch in the circumferential direction on the column surface of the small diameter portion so that the game media guided by the tooth grooves of the guide teeth are brought into contact with each other. The game medium lifting device according to claim 21.

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