JP2004113313A - Medal selector - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a medal selector quickly returning medals and scarcely producing malfunctions such as a sucking phenomenon. <P>SOLUTION: This medal selector 31 is provided with an intake port 36, a medal passage 41, a detecting means 51, a return port 70, a switching means 65, and the like. The medal passage 41 guides the medal M1 taken in from the intake port 36 in the direction of a storage part and has a rail curved part 73 as an advancing direction change part, on its midway to the storage part. The detecting means 51 is provided in a region beyond the rail curved part 73 in the medal passage 41 and detects the medal M1 passing the medal passage 41. The return port 70 is provided on the upstream side of the detecting means 51 in the medal passage 41 and adjacent to the rail curved part 73. The switching means 65 opens/closes the return port 70. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a medal selector of a gaming machine for taking in and selecting game medals inserted from a medal insertion slot and storing the medals in a storage unit of a payout device or returning the medals to a receiving tray.
[0002]
[Prior art]
In a spinning-type gaming machine represented by a slot machine or the like, a medal is used as a game medium. A medal inserted into this type of gaming machine is taken into an intake of a medal selector installed in the gaming machine. The medal selector has a medal passage extending diagonally downward. Usually, a curved portion is provided in the middle of such a medal passage, and the traveling direction of the medal is changed by the curved portion. In such a medal selector, a regular medal and a medal that is not so (an unauthorized medal) are selected along the medal path. The selected regular medals are stored in the payout device after passing through the medal passage, or in a predetermined case (specifically, when a medal is inserted when medal acceptance is not permitted; Is returned to the receiver via the return port. Note that medals are detected by the detecting means when passing through the medal passage.
[0003]
As a conventional medal selector, for example, when returning a captured regular medal, the traveling direction changing member is projected on the medal passage and collides with a rolling medal, thereby changing the course angle and returning the medal. There has been proposed a method of returning medals through a mouth (for example, see Patent Document 1).
[0004]
In addition, there has been proposed a method in which a return opening is substantially opened by turning the bottom surface of the medal passage so that the bottom surface does not exist, and the rolling regular medals are dropped therefrom and returned (for example, , Patent Document 2). Further, there is also a type in which the traveling direction changing member is protruded above the medal passage, and the side wall of the medal passage is rotated so that the side wall does not exist to substantially open the return opening, from which the regular medal is returned. It has been proposed (see also Patent Document 2).
[0005]
[Patent Document 1]
JP 2001-155223 A
[0006]
[Patent Document 2]
Japanese Utility Model Publication No. 7-1182
[0007]
[Problems to be solved by the invention]
However, in the prior arts of Patent Literatures 1 and 2, the return opening is formed at a position farther downstream than a bent portion (that is, a traveling direction changing portion) in the medal passage. Therefore, when performing the return process, the medals to be returned have already progressed in the direction of the detecting means. That is, there is a problem that the distance until the regular medal reaches the return port becomes longer, and it takes time to return. Therefore, this hinders rapid progress of the game, and the player may feel stress.
[0008]
Further, since the medals move in the direction of the detecting means with a momentum despite the returning operation, a malfunction that the medals to be returned pass without being recognized by the detecting means is likely to occur. As a result, the so-called "drinking phenomenon" that the medal completely passes through the medal passage and is stored in the payout device without being returned to the player is likely to occur.
[0009]
The present invention has been made in view of the above problems, and a main object of the present invention is to provide a medal selector that can return medals quickly and is less likely to malfunction such as a swallowing phenomenon. Another object of the present invention is to provide a medal selector that can easily perform maintenance.
[0010]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, the invention according to claim 1 takes in a game medal inserted from a medal insertion slot, sorts the medal, and stores the medal in a storage unit of a payout device, or In the medal selector of the gaming machine which returns the medal, a medal having a take-in port for taking in the medal and the medal taken from the take-in port in the direction of the storage section, and having a traveling direction changing section in the middle thereof A passage, a detection unit provided in the medal passage in an area subsequent to the traveling direction changing unit, and configured to detect the medal passing through the medal passage; and an upstream side of the detection unit in the medal passage and The gist of the present invention is a medal selector including a return opening formed at a position near the traveling direction changing unit, and opening and closing means for opening and closing the return opening.
[0011]
Therefore, according to the first aspect of the present invention, the return opening formed in the medal path on the upstream side of the detecting means and near the traveling direction changing portion is opened and closed by driving the opening and closing means. Therefore, at the time of return, the medals taken into the medal passage are dropped through the return port before changing the traveling direction and heading toward the detecting means. Therefore, the medal does not have to travel a long distance at the time of return, and the return process can be performed quickly. As a result, the player can play the game without feeling stress. In addition, since there is no malfunction such that the medal is detected by the detection means despite the returning operation, the swallowing phenomenon is unlikely to occur unlike the related art.
[0012]
Here, the traveling direction changing portion refers to a bent portion such as a bent portion or a curved portion, and particularly preferably a curved portion. The opening / closing means for opening / closing the return port is not particularly limited, and can be configured using various conventionally known actuators, but is particularly configured using an electric actuator such as an electromagnet. Is desirable. In this case, it is preferable that the opening / closing means is configured using urging means for urging the opening / closing rail member together with the electromagnet.
[0013]
The invention according to claim 2 is a medal selector of a gaming machine that takes in and selects game medals inserted from a medal insertion slot and stores the medals in a storage unit of a payout device or returns the medals to a tray. A medal passage for guiding the medal taken in from the intake to the storage unit, and a medal passage for guiding the medal taken in from the intake in the traveling direction of the medal taken in from the intake. A first passage that guides the medals with almost no change, and a second passage that guides the medals that have passed through the first passage by changing the traveling direction; and forms a bottom surface of the second passage. An opening / closing rail member including a rail curved portion and a rail straight portion, and a detection hand provided in an area of the second passage after the rail straight portion and detecting the medal passing therethrough. And an electromagnet that moves the open / close rail member to a closed position that forms the bottom surface of the second passage, and a biasing unit that moves the open / close rail member to an open position that does not form the bottom surface of the second passage. When the electromagnet is in an excited state, the opening / closing rail member is closed by the action of the magnetic force of the electromagnet, and the medal is formed by the opening / closing rail member forming a bottom surface of the second passage. When the electromagnet is in a non-excited state, the open / close rail member is opened by the action of the urging force of the urging means, and is guided by the first passage. The medal selector is characterized in that the medal selector is returned from a return opening opened by opening the rail curved portion while maintaining the traveling direction of the medal. That.
[0014]
Therefore, according to the second aspect of the present invention, when the electromagnet is in the non-excited state, the opening / closing rail member is opened by the action of the urging force of the urging means, so that the opening / closing rail member is located at the rail bending portion which is the traveling direction changing portion. A return port is formed. Therefore, at the time of return, the medals taken into the medal passage are dropped through the return port before changing the traveling direction and heading toward the detecting means. Therefore, the medal does not have to travel a long distance at the time of return, and the return process can be performed quickly. In addition, since the medal can be dropped through the return port with momentum in the traveling direction without substantially changing the traveling direction, the return process can also be performed quickly. As a result, the player can play the game without feeling stress. In addition, since there is no malfunction such that the medal is detected by the detection means despite the returning operation, the swallowing phenomenon is unlikely to occur unlike the related art.
[0015]
Further, in the present invention, since a structure is employed in which the opening and closing rail member forming the bottom surface of the second passage is used to open and close it, a return opening is opened in the bottom surface of the second passage when the opening and closing rail member is in the open state. The Rukoto. Therefore, compared with a structure in which the return opening is opened on the side surface of the second passage, for example, the medal can be quickly dropped and returned. Further, according to the present invention, since the rail curved portion is provided in the second passage, the traveling direction of the medal passing through the first passage can be gradually and smoothly changed along the curve of the rail curved portion. . Therefore, unlike the case where the course direction of the medal is suddenly changed, for example, a bent portion or the like is formed in the second passage, the speed of the medal passing through the second passage is less likely to be uneven. Therefore, even when medals are continuously inserted, clogging of medals and the like hardly occur.
[0016]
According to a third aspect of the present invention, there is provided the medal selector base according to the second aspect, wherein the medal passage is formed on the surface side of the base, and a medal escape slit is formed through a part of the first passage. And a distributing member for pressing the medals that are going to pass through the first passage from the front surface side of the base toward the back side of the base while projecting the medals into the first passage. The gist is that it is set to be smaller than the diameter.
[0017]
Therefore, according to the third aspect of the invention, when the medal attempts to pass through the first passage, the medal is pressed from the front surface side of the base to the back side of the base by the tip of the sorting member. At this time, if the medal is a regular medal, even if it receives the pressing force from the sorting member, the system breaks down and passes through the medal escape slit, as is clear from the magnitude relationship with the width of the medal escape slit. There is no. Therefore, the regular medal can pass through the first passage and proceed to the second passage where the detecting means is provided. On the other hand, if the illegal medal has a smaller diameter than the regular medal, it receives a pressing force from the sorting member and loses its posture, passes through the medal escape slit, and reaches the rear surface of the base. Therefore, the illegal medal cannot pass through the first passage to the second passage, and is sorted as a regular one. Further, in the present invention, since the medal escape slit is formed to penetrate at a portion of the first passage, the sorting can be performed at a stage before the second passage having the return port, so that the medal can be quickly and reliably disposed. Can be sorted out. Moreover, since the structure is such that the regular medals and the illegal medals are respectively distributed on the front and back of the base, the medal selector base functions as a partition wall, so that both can be reliably separated.
[0018]
The distribution member may include a distribution member biasing spring for pressing the medal from the front surface of the base to the rear surface of the base. According to this structure, the distributing member can be made to function without particularly providing a means for driving the distributing member, and the configuration of the entire apparatus can be prevented from becoming complicated.
[0019]
The tip of the sorting member may be provided with a slope that projects toward the rear surface of the base as going from the upstream to the downstream of the medal passage. With this configuration, when a medal collides with the tip of the sorting member, the system of fraudulent medals can be broken down along the slope, and fraudulent medals can be smoothly distributed.
[0020]
Further, it is preferable that the edge of the medal escape slit on the back side of the base is chamfered. According to this structure, the illegal medals distributed to the rear surface side of the base are less likely to be caught on the opening edge, and the illegal medals can be smoothly slid off.
[0021]
The invention according to claim 4 is the electromagnet according to claim 2 or 3, wherein a medal passage restricting member is disposed at a position upstream of the detection means in the second passage, and the opening / closing rail member is in an open state. In the non-excited state, the medal passage restricting member protrudes into the second passage and restricts the passage of the medal in a direction of the detection means, while the opening / closing rail member is closed. The gist is that when the electromagnet is in the excited state, the medal passage restricting member retracts out of the second passage and allows the medal to pass in a direction of the detection unit.
[0022]
Therefore, according to the invention described in claim 4, at the time of return, not only the opening / closing rail member is opened and the return opening is opened, but also the medal passage restricting member protrudes into the second passage. The passing of the medals in the direction of the detecting means is restricted. Therefore, the medal can be reliably dropped through the return port before the medal changes its traveling direction and reaches the detecting means. Therefore, there is no malfunction such that the medal is detected by the detecting means despite the returning operation. Further, when the opening / closing rail member is in the closed state, the medal passage restricting member retracts out of the second passage, so that the medal can be securely accommodated without hindering the medal which is going to go in the direction of the detecting means. Further, in the present invention, since the medal passage restricting member adopts a configuration that follows the movement of the opening / closing rail member, for example, there is a case where medals are continuously inserted during the opening / closing switching operation of the opening / closing rail member. However, problems such as medal clogging are unlikely to occur. Therefore, a highly reliable device can be obtained.
[0023]
Here, it is preferable that the medal passage restricting member has a medal passage restricting member urging spring that abuts on the open / close rail member and urges the open / close rail member in a direction to open. According to this structure, the medal passage restricting member can be made to follow the opening / closing rail member without particularly providing a means for driving the medal passage restricting member. Therefore, it is possible to prevent the configuration of the entire apparatus from becoming complicated.
[0024]
According to a fifth aspect of the present invention, in the third or fourth aspect, a cover member on which the opening / closing rail member, the opening / closing means, and the distribution member are mounted on a front surface side, and the cover member is a base surface of the medal selector base. An elastic locking member that is detachably locked with respect to the side, and that the medal passage is formed between the front surface side of the medal selector base and the back surface side of the cover member. And
[0025]
Therefore, according to the fifth aspect of the present invention, the inside of the first passage in the medal passage can be exposed by removing the cover member from the medal selector base. Therefore, it is possible to easily clean the first passage, which is a portion where dirt such as dust attached to the medal tends to accumulate. Further, a load is applied to the curved rail portion of the opening / closing rail member when a medal passes, so that abrasion or the like is likely to occur. In this case, the opening / closing rail member can be easily removed and replaced with a new one by removing the cover member. That is, according to the present invention, maintenance of the apparatus can be easily performed.
[0026]
Here, it is preferable that the cover member is formed using a transparent or translucent material. The reason is that the inside of the medal passage can be visually recognized without removing the cover member, so that it is possible to easily find a medal jam or dirt.
[0027]
According to a sixth aspect of the present invention, in the fifth aspect, the elastic locking member locks the cover member with the medal selector base so as to be able to open and close, and a direction in which the cover member is closed. The cover member has a pressed portion pressed by a medal return button provided on the front surface of the gaming machine on the back side thereof.
[0028]
Therefore, according to the invention described in claim 6, when the medal return button is pressed, the pressed portion on the back side of the cover member is pressed by the button, so that the cover member is opened with respect to the medal selector base, The distance between the medal selector base and the cover member is increased. As a result, the medal passage is opened, and the medal in the medal can be dropped. Therefore, even if a medal jam occurs in the medal passage, the player can quickly resolve it. When the pressing operation of the medal return button is stopped, the cover member is urged in the closing direction by the action of the torsion spring portion of the elastic locking member, and the distance between the medal selector base and the cover member is reduced again, resulting in a medal passage. Returns to its original state. In addition, since the elastic locking member is used which has not only the function of locking the cover member but also the function of urging the cover member, the number of parts can be reduced.
[0029]
The pressed portion pressed by the medal return button may be a specific region on the back side of the cover member, or may be a columnar portion protruding from the back side of the cover member. When the columnar portion is adopted, the tip of the columnar portion can be brought closer to the medal return button side, so that the total length of the medal return button can be shortened.
[0030]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, a slot machine 1 embodying an embodiment of the present invention will be described in detail with reference to FIGS. First, a basic configuration of the slot machine 1 of the present embodiment will be described.
[0031]
FIG. 1 is an overall front view of the slot gaming machine 1 according to the present embodiment when viewed from a player side. The slot machine 1 includes a rectangular box (not shown) and a front door 2 pivotally supported on the left edge of the box so as to be openable and closable. At a substantially central portion on the front side of the front door 2, a rectangular display device protection window 3 is provided at a position in front of a variable display device (not shown) (e.g., a drum unit having a rotating body member) attached to the box. Have been. Therefore, the display area of the variable display device is visible through the display device protection window 3. Note that a combination of a plurality of symbols is displayed in the display area of the variable display device.
[0032]
A start lever 11, three stop buttons 12, a BET button 13, a medal return button 14, a medal return button 14, a clearing button 15, and a medal slot 16 are provided on the front of the front frame 2 below the display device protection window 3. , A locking device 17 and the like. Further, a tray 18 is disposed at the lowermost central position on the front surface of the front frame 2. A medal discharge port 19 is formed in the center of the tray 18, and a pair of speakers 20 are disposed on both sides thereof.
[0033]
As shown in FIG. 1, a hopper 21 which is a storage portion of the dispensing device is installed at a position below the variable display device in the box. A payout device (not shown) is provided at the lower end of the hopper 21, and a predetermined number of medals M1 are discharged from the medal discharge port 19 by the payout device. A medal channel member 22 is provided at a predetermined location on the back side of the front door 2. The medal channel member 22 is directly connected to the medal outlet 19. As shown in FIGS. 1 and 2, a medal selector 31 is disposed on the rear side of the front door 2 above the medal flow path member 22 so as to extend diagonally downward. The medal selector 31 takes in the medal M1 inserted from the medal insertion slot 16 and selects the medal, and stores the medal M1 in the hopper 21 or in the tray 18 via the medal flow path member 22 and the medal discharge port 19. They are to be returned.
[0034]
In the slot gaming machine 1 having the above configuration, a symbol combination game is performed using the medal M1 as a game medium. After inserting the medal M1 from the medal insertion slot 16 or operating the BET button 13 as appropriate to set the number of bets, the player operates the start lever 11 to rotate the torso member. When a certain time elapses after the rotation of the torso member starts, or when the player operates the stop button 12, the rotation of each torso member stops. At this time, when the symbol appearing in the display area of the drum unit visible through the display device protection window 3 has a specific combination mode, a predetermined number of medals M1 are paid out as a prize.
[0035]
Next, the configuration and the like of the medal selector 31 will be described in detail. As shown in FIG. 3 and the like, the medal selector 31 of the present embodiment includes a medal selector base 32 and a cover member 33, and is disposed on the back surface of the front door 2. First, the configuration of the medal selector base 32 will be described. Note that the surface facing the front in FIG. 3 is the front surface of the medal selector 31, and the surface facing the front in FIG. 4 is the back surface of the medal selector 31.
[0036]
As shown in FIG. 2, FIG. 3, FIG. 4, FIG. 8, FIG. 9, etc., the medal selector base body 32 is a molded article made of a synthetic resin material, and has a bent part (ie, A medal passage 41 having a traveling direction changing unit) is configured. That is, the base surface 32 a of the medal selector base 32 is a side wall on one side of the medal passage 41. As shown in FIG. 2, an intake 36 is formed at the upper end of the medal selector base 32, which is an entrance for taking the medal M <b> 1 into the medal passage 41. The intake 36 is disposed immediately below the medal insertion slot 16 provided in the front frame 2. At the lower end of the medal selector base 32, an outlet 34 for discharging medals from the medal passage 41 is extended. The outlet 34 is located immediately above the upper end opening of the hopper 21.
[0037]
Here, the medal passage 41 plays a role of guiding the medal M <b> 1 taken in from the take-in port 36 toward the upper end opening of the hopper 21. Ribs are partially formed on both sides of the medal passage 41. As shown in FIG. 8, the medal passage 41 includes two parts, a first passage 42 and a second passage 43. The first passage 42 is connected to the inlet 36, and is configured to guide the medal M1 taken in from the inlet 36 obliquely downward without substantially changing the traveling direction. The second passage 43 is connected to a lower end of the first passage 42, and is configured to guide the medal M1 passing through the first passage 42 obliquely downward while changing the traveling direction. The inclination angle of the second passage 43 with respect to the horizontal line is smaller than the inclination angle of the first passage 42 with reference to the horizontal line.
[0038]
As shown in FIGS. 2, 4, 8, and 9, a medal escape slit 35 penetrates a portion of the medal selector base 32 where the first passage 42 is provided, in other words, a portion that becomes a side wall of the first passage 42. Is formed. The opening edge of the medal escape slit 35 on the side of the base rear surface 32b is chamfered. The width (maximum width) of the medal escape slit 35 is set in advance so as to be smaller than the diameter of the regular medal M1. It is desirable that the medal escape slit 35 is set to be slightly smaller than the diameter of the regular medal M1. Here, a medal having a diameter of 25.0 mm ± 0.03 mm and a thickness of 1.6 mm ± 0.05 mm is defined as “regular medal M1”. Note that the medal selector 31 according to the present embodiment has a medal size range of 24.0 mm to 25.5 mm in diameter and 1.5 mm to 1.9 mm in thickness. A medal other than the size of the regular medal M1 is referred to as “illegal medal M2”.
[0039]
As shown in FIGS. 2, 4, 8, and 9, in the base surface 32 a of the medal selector base 32, the bottom surface of the second passage 43 is provided at the bottom surface of the front half of the second passage 43. An opening / closing rail member groove 44 curved along is formed. A medal stopper hole 45 for allowing a medal stopper 46, which is a medal passage restricting member, to protrude and retract is formed at a downstream end of the opening / closing rail member groove 44 in a portion serving as a bottom surface of the front half of the second passage 43. ing. As shown in FIG. 4, the medal stopper 46 is a substantially L-shaped metal piece, and an intermediate portion thereof is rotatably supported by the base rear surface 32 b of the medal selector base 32. One end of the medal stopper 46 can be protruded and retracted into the second passage 43 via the medal stopper hole 45. A medal stopper biasing spring 47 is interposed between the other end of the medal stopper 46 and the base rear surface 32b of the medal selector base 32. The spring 47 for biasing the medal stopper is constantly biased in a direction to separate the other end of the medal stopper 46 from the rear surface 32b of the base. Therefore, one end of the medal stopper 46 is substantially constantly urged in a direction to protrude into the second passage 43.
[0040]
As shown in FIGS. 2, 4, 8, and 9, a part of the optical sensor 51, which is detection means for detecting medals, is provided in the medal passage 41 on the upper surface of the first half of the second passage 43. An optical sensor hole 52 for projecting is formed therethrough. The two optical sensors 51 having a substantially U-shaped cross section are mounted in parallel on a sensor substrate 53, and the sensor substrate 53 is fixed to the base rear surface 32b of the medal selector base 32 using a sensor substrate mounting bracket 54. I have. As a result, a part (transmission part) of the optical sensor 51 is arranged so as to face the second passage 43 via the optical sensor hole 52. Note that the optical sensor 51 does not output a signal when the transmissive portion is not shielded (that is, turns off), and outputs a signal when the transmissive portion is shielded (that is, turns on). It is configured.
[0041]
An elastic metal cover piece 56 is detachably attached to the second passage 43 further downstream than the optical sensor hole 52. The second half of the second passage 43 is formed between the metal cover piece 56 and the medal selector base 32. At the end of the second passage 43 of the medal selector base 32, a traveling direction changing protrusion 57 is formed integrally with the medal M1 so as to change its traveling direction by about 90 ° toward the exit 34 by contacting the medal M1.
[0042]
Next, the structure of the cover member 33 attached to the medal selector base 32 will be described.
[0043]
As shown in FIGS. 3 and 6, the cover member 33 of the present embodiment is a plate-shaped molded product made of a transparent synthetic resin material, and is detachable from the medal selector base 32 on the side of the base surface 32 a. It has a simple structure. Further, a part of the medal passage 41 is configured on the side of the back surface 33b of the cover member 33 shown in FIG. That is, the back surface 33 b of the cover member 33 is a side wall on the other side of the medal passage 41. The cover member 33 is disposed with its back surface 33b facing the base surface 32a of the medal selector base 32. The cover member 33 of the present embodiment is locked to the medal selector base 32 in an openable / closable and detachable state by using an elastic locking member 61. The elastic locking member 61 has a bent hook portion 61b and a torsion spring portion 61a. The substantially V-shaped portion of the hook portion 61b is configured to be hooked on the base rear surface 32b of the medal selector base 32. The torsion spring portion 61a plays a role of applying a spring force that constantly biases the cover member 33 in the closing direction.
[0044]
An elastic locking member mounting shaft 62 for mounting a metal elastic locking member 61 is supported at one end (right end in FIG. 6) on the side of the front surface 33a of the cover member 33. The torsion spring portion 61a of the elastic locking member 61 is wound around the elastic locking member mounting shaft 62.
[0045]
A positioning recess 63 is provided at the other end (the left end in FIG. 6) on the side of the surface 33 a of the cover member 33. On the other hand, as shown in FIG. 2, FIG. 3, FIG. 8, FIG. 9, etc., positioning protrusions 64 are protruded at corresponding locations on the base surface 32a of the medal selector base 32. Accordingly, the positioning projection 64 is engaged with the positioning recess, so that the cover member 33 can be positioned with respect to the medal selector base 32 when the cover member 33 is opened and closed.
[0046]
As shown in FIGS. 5, 6, 7, etc., an electromagnet (solenoid) 66 for driving opening / closing means 65 for opening / closing the return opening 70 is mounted at a substantially central portion on the surface 33 a side of the cover member 33. ing. The electromagnet 66 is arranged so that the axial direction of the core is orthogonal to the surface 33 a of the cover member 33. The cover member 33 includes a metal opening / closing rail member 71. The opening / closing rail member 71 has a suction part 72, a rail bending part 73, and a rail straight part 74. The suction part 72 is arranged so as to cover the end face of the electromagnet 66. The rail bending portion 73 and the rail straight portion 74 are provided at one end (the lower end in FIG. 6) of the suction portion 72. The rail curved portion 73 and the rail straight portion 74 can be protruded and retracted into the medal passage 41 through an opening / closing rail member slit 75 formed through the cover member 33. The other end (the upper end in FIG. 6) of the suction portion 72 is rotatably supported by an opening / closing rail member mounting shaft 76 provided on the surface 33a side of the cover member 33. A rail member biasing spring 77 is wound around the opening / closing rail member mounting shaft 76. The rail member urging spring 77 always urges the attracting portion 72 in a direction to separate the attracting portion 72 from the electromagnet 66 (that is, a direction to retract the rail curved portion 73 and the rail linear portion 74 from the second passage 43).
[0047]
When the electromagnet 66 is energized, the attracting portion 72 is attracted to the electromagnet 66 so that the rail curved portion 73 and the rail straight portion 74 form the bottom surface of the second passage 43 (ie, the closed position). ) (See FIG. 7A). In this case, the return opening 70 is closed by closing the rail curved portion 73. When the electromagnet 66 is not energized and no power is supplied to the electromagnet 66, the attracting portion 72 is not attracted to the electromagnet 66. For this reason, the rail bending portion 73 and the rail straight portion 74 are moved to a position that does not form the bottom surface of the second passage 43 (that is, an open position) by the biasing force of the rail member biasing spring 77 (the open position). FIG. 7 (b)). In this case, the return opening 70 is opened by opening the rail curved portion 73 and the rail straight portion 74. In addition, since the distal end of the rail straight portion 74 and the distal end of the medal stopper 46 are always in contact with each other, the medal stopper 46 follows the movement of the opening / closing rail member 71 as follows. It has become. In the excited state, the medal stopper 46 is pressed by the contact with the rail linear portion 74 and retreats from the second passage 43. In the non-excited state, the medal stopper 46 projects above the second passage 43 by the action of the urging force of the medal stopper urging spring 47.
[0048]
As shown in FIGS. 3 and 6 and the like, an optical sensor insertion hole 78 through which a part of the optical sensor 51 is inserted is formed on the right side of the place where the electromagnet 66 is mounted on the cover member 33. Have been.
[0049]
As shown in FIGS. 3, 6, 10, etc., a substantially L-shaped portion is provided on the surface 33 a side of the cover member 33 in order to sort the regular medal M1 and the illegal medal M2 having a smaller diameter than the regular medal M1. A distributing member 81 made of a synthetic resin is provided. The intermediate portion of the distribution member 81 is rotatably supported at a predetermined position (a position obliquely to the upper left of the electromagnet 66 in FIG. 6) on the surface 33a of the cover member 33. The distal end portion 84 of the distribution member 81 can be protruded and retracted into the first passage 42 via a distribution member hole 82 formed through the cover member 33. Between the base end of the distribution member 81 and the surface 33a of the cover member 33, a distribution member urging spring 83 is interposed. The distribution member urging spring 83 always urges the base end of the distribution member 81 in a direction to separate the base end from the surface 33 a of the cover member 33. Therefore, the distal end portion 84 of the sorting member 81 is constantly urged in a direction to protrude into the first passage 42, and pushes the medal M1 to pass through the first passage 42 from the base surface 32a side to the base back surface 32b side. It is designed to be pressed. As shown in FIG. 10, the distal end portion 84 of the distribution member 81 is provided with an inclined portion that protrudes in the direction of the base rear surface 32 b from the upper portion to the lower portion.
[0050]
As shown in FIGS. 4, 7, and 10, at a predetermined position on the back surface 33b side of the cover member 33, a medal jam release projection 91 as a pressed portion is integrally provided. As shown in FIGS. 8 and 9, a projection insertion hole 92 that is one size larger than the medal jam release protrusion 91 is formed through the medal selector base 32 at a location corresponding to the medal jam release protrusion 91. Then, as a result of the medal jam release projection 91 being inserted into the projection insertion hole 92, the tip of the medal jam release projection 91 reaches the base rear surface 32b side.
[0051]
As shown in FIG. 11, the head 14a (operation unit) of the medal return button 14 is exposed on the front surface of the gaming machine (the front surface 2a of the front door 2), and a shaft is provided on the inner side of the head 14a. A portion 14b, a first pressing plate 14c, a second pressing plate 14d, a return spring 14e, and the like are provided. When the head 14a is pressed, the second pressing plate 14d comes into contact with the tip of the medal jam releasing projection 91, and presses the cover member 33 rightward in FIG. As a result, the cover member 33 is opened rightward in FIG. 11 around the elastic locking member mounting shaft 62, and the gap between the cover member 33 and the medal selector base 32 is widened.
[0052]
Next, the operation of the medal selector 31 configured as described above will be described with reference to FIG.
[0053]
First, a case where a regular medal M1 is inserted by a player will be described. When the medal acceptance is permitted, the electromagnet 66 is energized and energized. Therefore, the opening / closing rail member 71 is in the closed position, and the return port 70 is closed.
[0054]
From the slot 16, medals M1 are inserted one by one. The regular medal M1 inserted therefrom enters the medal passage 41 through the intake 36. Then, the regular medal M1 moves obliquely downward while contacting the left and right opening edges of the medal escape slit 35 in the first passage 42 (see the broken circle in FIG. 9). Therefore, even if the front side of the regular medal M1 comes into contact with the distal end of the sorting member 81 protruding into the first passage 42, it passes through the first passage 42 without any influence. At this time, if the medal is the regular medal M1, two portions of the medal outer edge can slide on the edge of the medal escape slit 35 in the first passage 42. Therefore, the regular medal M1 does not lose its posture and does not pass through the medal escape slit 35 to the opposite side. When passing the regular medal M1, the regular medal M1 always comes into contact with the tip of the sorting member 81. For this reason, it is preferable to set the urging force of the distribution member urging spring 83 to be somewhat weaker so that resistance does not occur when the vehicle passes and the speed is excessively reduced.
Since the electromagnet 66 of the opening / closing means 65 is excited as described above, the attracting portion 72 of the opening / closing rail member 71 is attracted to the electromagnet 66. As a result, the rail curved portion 73 and the rail straight portion 74 project into the medal passage 41 (that is, on the medal trajectory) via the opening / closing rail member slit 75 and move to the closed position forming the bottom surface of the second passage 43. , The return port 70 is closed. Further, the medal stopper 46 is pressed by the contact of the protruding opening / closing rail member 71 with the rail linear portion 74 and retreats from above the second passage 43, so that the regular medal M 1 moves in the forward half of the second passage 43 in the forward direction. It is possible to pass there while changing. Thereafter, the regular medal M1 passes through a pair of optical sensors 51 provided in a line in the front-rear direction of the traveling direction, and is formed in the rear half of the second passage 43 formed by the medal selector base 32 and the metal cover piece 56. (See the broken-line circle in FIG. 9). Then, the regular medal M <b> 1 collides with the traveling direction changing protrusion 57 and smoothly changes its course, then exits the exit 34, falls and is stored in the hopper 21.
[0055]
When the regular medal M1 passes through the optical sensor 51, which is a detecting means, the transmission part of the optical sensor 51 is shielded by the regular medal M1 and the signal is turned on. After the medal has passed, the transmitting portion of the optical sensor 51 enters a transmitting state, and the signal is turned off. A signal when the regular medal M1 has passed through the two front and rear optical sensors 51 is sent to the main board that controls the entire game as a first detection unit signal and a second detection unit signal, respectively. The main board detects the time and the direction in which the regular medal M1 has passed through the optical sensor 51 by the two detection means signals. When it is determined that the direction is within the specified time and in the specified direction, the main board performs control to accept the regular medal M1 as the inserted medal. On the other hand, if it is determined that it is out of the specified time or out of the specified direction, an inserted medal error occurs, and the main board performs control to invalidate the inserted regular medal M1.
[0056]
Next, the case where the regular medal M1 is returned is as follows. The return of the regular medal M1 is performed when the regular medal M1 is inserted when the medal acceptance is not permitted, and also when the medal more than the number of receivables is inserted. In this case, the electromagnet 66 is not energized because it is not energized. Therefore, the open / close rail member 71 is in the open position, and the return port 70 is in the open state.
[0057]
After the regular medal M1 inserted from the insertion slot 16 is taken in from the entry slot 36, it passes through the first passage 42 and proceeds diagonally downward. As described above, since the electromagnet 66 of the opening / closing means 65 is demagnetized and the urging force of the medal stopper urging spring 47 is acting, the attraction portion 72 of the opening / closing rail member 71 is at a position separated from the electromagnet 66. As a result, the rail curved portion 73 and the rail straight portion 74 retreat from the medal passage 41 and move to an open position that does not form the bottom surface of the second passage 43, so that the return opening 70 is opened at the bottom surface of the second passage 43. Is done. Therefore, the regular medal M1 guided by the first passage 42 is discharged downward from the return opening 70 opened by the opening of the rail curved portion 73 and the rail straight portion 74 while maintaining the traveling direction, and the medal flow path member. 22 (see the two-dot chain line circle in FIG. 9).
[0058]
In the event that the return operation is started in a state where the player has continuously inserted a plurality of regular medals M1 without a pause, the regular medals M1 have already progressed in the middle of the second passage 43. It is possible. In this case, even if there is such a regular medal M1 in progress, passing of the regular medal M1 in a direction of the optical sensor 51 by the medal stopper 46 protruding in conjunction with the movement of the opening / closing rail member 71 to the open position. Is regulated. Therefore, the regular medal M1 cannot advance any more, and cannot reach a certain position of the optical sensor 51. That is, before the regular medal M1 changes its traveling direction and reaches the optical sensor 51, the regular medal M1 can be reliably dropped via the return port 70.
[0059]
Next, a case where a medal other than the regular medal M1 is used will be described.
[0060]
When a player attempts to insert a large-diameter medal outside the range of insertable dimensions, the large-diameter medal cannot be inserted due to the design size of the medal insertion slot 16 in the first place. Therefore, such a large-diameter medal does not pass through the medal selector 31.
[0061]
When the player tries to insert a large-diameter medal of a size that can be inserted into the medal insertion slot 16, the large-diameter medal can pass through the intake 36 for the time being, but the width of the first passage 42 is Since the width is smaller than the opening width of the opening 36, it is eventually restricted at a stage before entering the first passage 42. In this case, when the player presses the medal return button 14, the medal jam release protrusion 91 of the cover member 33 is pressed. As a result, the cover member 33 is opened with respect to the medal selector base 32, and the distance between the medal selector base 32 and the cover member 33 is increased. As a result, the medal passage 41 is opened, the large-diameter medals therein fall, and the large-diameter medals can be returned to the medal flow path member 22. Therefore, even if a medal is clogged in the medal passage 41, the player can quickly resolve it.
[0062]
When the player stops pressing the medal return button 14, the cover member 33 is urged in the closing direction by the action of the torsion spring portion 91b of the elastic locking member 61. Then, as a result of the distance between the medal selector base 32 and the cover member 33 becoming narrower again, the medal passage 41 returns to the original state.
[0063]
Next, a case in which an illegal medal M2 having a smaller diameter than the regular medal M1 is used will be described with reference to FIG.
[0064]
Unlike the large-diameter medal, the small-diameter illegal medal M2 passes through the medal slot 16 and the intake 36 and is taken into the first passage 42. The distal end portion 84 of the sorting member 81 is always located in the first passage 42. Therefore, when passing through the first passage 42, the small-diameter unauthorized medal M2 comes into contact with the distal end portion 84 of the sorting member 81. However, at this time, the small-diameter unauthorized medal M2 moves obliquely downward while contacting only the right opening edge of the medal escape slit 35 in the first passage 42. Accordingly, the small-diameter illegal medal M2 is easily pressed against the distal end portion 84 of the distribution member 81 protruding into the first passage 42 and receives a pressing force. As a result, the small-diameter illegal medal M2 easily passes through the medal escape slit 35 wider than its own diameter and reaches the medal selector base 32 on the side of the base rear surface 32b (see the dashed-dotted circle in FIG. 10). ). Therefore, the small-diameter unauthorized medal M2 cannot pass through the first passage 42 and proceed to the second passage 43, and as a result, is reliably sorted as a regular one. In the present embodiment, the small-diameter illegal medal M2 is finally returned to the tray 18 via the medal flow path member 22 and the medal discharge port 19.
[0065]
Next, maintenance of the medal selector 31 will be described. Since the cover member 33 is made of a transparent material, the inside of the medal passage 41 can be visually recognized without having to remove the cover member 33, so that jammed medals and dirt can be easily found. For example, when dirt or the like is confirmed via the cover member 33, the hook portion 61b of the elastic locking member 61 is pulled and elastically deformed, thereby releasing the hook portion 61b. Thus, the cover member 33 can be easily removed from the medal selector base 32. At that time, the inside of the first passage 42 in the medal passage 41 is exposed, so that the portion can be easily cleaned. In addition, a load is applied to the curved rail portion 73 of the opening / closing rail member 71 when a medal passes, so that abrasion or the like is likely to occur. In this case, it is necessary to remove the opening / closing rail member 71 together with the cover member 33 and easily replace it with a new one. Can be. As described above, maintenance can be easily performed. When the maintenance is completed, the hook portion 61b of the elastic locking member 61 is locked to the medal selector base 32, so that the cover member 33 is attached to the medal selector base 32 again and the first passage 42 is restored.
[0066]
Therefore, according to the present embodiment, the following effects can be obtained.
[0067]
(1) In the medal selector 31 of the present embodiment, when the electromagnet 66 is in the non-excited state, the opening / closing rail member 71 is in the open state, and the return opening 70 is opened at the location of the rail bending portion 73 that is the traveling direction changing portion. You. Therefore, at the time of return, the regular medal M1 taken into the medal passage 41 is dropped through the return port 70 at a stage before changing the traveling direction and heading toward the optical sensor 51. Therefore, the regular medal M1 does not have to travel a long distance at the time of return, and the return process can be performed quickly. In addition, since the regular medal M1 can drop through the return port 70 with the momentum in the traveling direction almost without changing the traveling direction, the return process can also be performed quickly. As a result, the player can play the game without feeling stress. In addition, since there is no malfunction such that the regular medal M1 is detected by the pair of optical sensors 51 in spite of the returning operation, the swallowing phenomenon is unlikely to occur unlike the related art.
[0068]
(2) Since the medal selector 31 employs a structure in which the open / close rail member 71 forming the bottom surface of the second passage 43 is used to open and close the second passage 43, the second passage 43 is opened when the open / close rail member 71 is in the open state. The return opening 70 is opened at the bottom of the 43. Therefore, compared with a structure in which the return opening 70 is opened on the side surface of the second passage 43, for example, the regular medal M1 can be quickly dropped and returned. Further, since the configuration is such that the rail curved portion 73 is provided in the second passage 43, the traveling direction of the regular medal M1 passing through the first passage 42 is gradually and smoothly changed along the curve of the rail curved portion 73. can do. Therefore, unlike the case where the course direction of the regular medal M1 is suddenly changed, for example, a bent portion or the like is formed in the second passage 43, the regular medal M1 passing through the second passage 43 is less likely to have uneven speed. Therefore, even when medals are continuously inserted, medal clogging and malfunctions are less likely to occur. That is, a highly reliable device can be obtained.
[0069]
(3) In the medal selector 31, a medal escape slit 35 having a predetermined width is formed through the medal selector base 32, and the distal end of the sorting member 81 provided on the cover member 33 is projected into the first passage 42. And placed. Therefore, as described above, the regular medal M1 and the small-diameter illegal medal M2 can be sorted by being distributed to the front and back of the medal selector base 32, respectively. Further, since the medal escape slit 35 is formed so as to penetrate at a position of the first passage 42, sorting can be performed at a stage before the second passage 43 where the return opening 70 is opened. Therefore, the regular medal M1 and the small-diameter illegal medal M2 can be quickly and reliably selected.
[0070]
(4) In the medal selector 31, a medal stopper 46 is disposed at a position on the upstream side of the optical sensor 51 in the second passage 43. Therefore, an erroneous operation in which the regular medal M1 is detected by the optical sensor 51 in spite of the returning operation does not occur. Further, since the medal stopper 46 follows the opening / closing rail member 71, even if the regular medal M1 is continuously inserted during the opening / closing switching operation of the opening / closing rail member 71, the medal is stopped. Problems such as clogging and malfunction are less likely to occur. Therefore, a highly reliable device can be obtained.
[0071]
(5) The medal selector 31 has a structure in which the cover member 33 and the medal selector base 32 are detachable. Therefore, not only can the first passage 42 be easily cleaned, but also the worn part can be easily removed and replaced with a new one together with the cover member 33. That is, with this configuration, maintenance of the device can be easily performed.
[0072]
(6) In the medal selector 31, the cover member 33 and the medal selector base 32 are detachably locked by using an elastic locking member 61 having a hook portion 61b and a torsion spring portion 61a. The elastic locking member 61 has not only a function of locking the cover member 33 but also a function of urging the cover member 33 in the closing direction. Therefore, by configuring the medal selector 31 using the elastic locking member 61, the number of components can be reduced, and the cost can be easily reduced.
Note that the embodiment of the present invention may be modified as follows.
[0073]
In the above-described embodiment, the return opening 70 is formed in the region extending between the rail curved portion 73 and the rail straight portion 74. However, for example, the return opening 70 is formed only in the rail curved portion 73, or formed only in the rail straight portion 74. It is permissible to do so. Alternatively, it is also permitted to form the return opening 70 at a position slightly upstream of the rail curved portion 73. That is, if the medal passage 41 is on the upstream side of the optical sensor 51, the return opening 70 can be formed at the rail curved portion 73 itself, which is a traveling direction changing portion, or at a position near the front and rear thereof.
[0074]
In the above embodiment, the structure in which the return opening 70 is opened at the bottom of the second passage 43 is employed. However, the present invention is not limited to this. For example, the return opening 70 is provided on the side surface of the second passage 43. An open structure may be used.
[0075]
In the above embodiment, when the electromagnet 66 is in the excited state, the opening / closing rail member 71 is closed and the return opening 70 is closed, and when the electromagnet 66 is in the non-excited state, the opening / closing rail member 71 is opened and the return opening 70 is closed. Was adopted. However, conversely, when the electromagnet 66 is in the non-excited state, the opening / closing rail member 71 is closed and the return port 70 is closed, and in the excited state, the opening / closing rail member 71 is opened and returned. It is also possible to adopt a configuration in which the mouth 70 is opened. According to the former configuration (the above-described embodiment), there is an advantage that there is no possibility that the regular medal M1 is erroneously stored when a problem occurs in the electromagnet 66. According to the latter configuration, since the total energization time is shortened, there is an advantage that power consumption is reduced and the cost is reduced.
[0076]
The detection means provided in the rail straight portion 73 of the second passage 43 is not limited to only the optical sensor 51 as in the above embodiment, but may be a sensor other than the optical sensor 51. However, it is preferable to use a non-contact type sensor such as the optical sensor 51 that does not reduce the speed of the medal M1 when passing, rather than using a contact type sensor that easily reduces the speed of the medal M1 when passing.
[0077]
-The medal selector 31 of the present invention can be applied not only to the slot gaming machine 1 as shown in the above embodiment, but also to other gaming machines using medals as gaming media. .
[0078]
Next, in addition to the technical ideas described in the claims, technical ideas grasped by the above-described embodiments will be enumerated below.
[0079]
(1) In any one of claims 3 to 6, the tip of the sorting member is provided with an inclination such that the tip projects from the upstream side to the downstream side of the medal passage toward the rear surface of the base. Features a medal selector.
[0080]
(2) The medal selector according to any one of claims 3 to 6, wherein a chamfer is applied to an opening edge of the medal escape slit on the back side of the base.
[0081]
(3) The medal selector according to claim 5 or 6, wherein the cover member is formed using a transparent or translucent material.
[0082]
(4) The medal selector according to claim 6, wherein the pressed portion pressed by the medal return button is a columnar portion protruding from a back side of the cover member.
[0083]
【The invention's effect】
As described in detail above, according to the first to sixth aspects of the present invention, it is possible to provide a medal selector that can quickly return medals and is less likely to malfunction such as a swallowing phenomenon. Further, according to the fifth and sixth aspects of the present invention, it is possible to provide a medal selector that can easily perform maintenance in addition to the above effects.
[Brief description of the drawings]
FIG. 1 is an overall front view of a slot machine according to an embodiment of the present invention, as viewed from the front.
FIG. 2 is a partially enlarged view showing a state on the back side of the front frame where the medal selector according to the embodiment is installed (a state in which a cover member is removed).
FIG. 3 is a front perspective view showing the entire medal selector.
FIG. 4 is a rear perspective view showing the entire medal selector.
FIG. 5 is a side view of the medal selector of FIG. 3 viewed from the right side for explaining attachment and detachment of a cover member.
FIG. 6 is a front perspective view of a cover member.
7A is a schematic cross-sectional view of the medal selector when the opening / closing rail member is in a closed state and the return opening is closed, and FIG. 7B is a sectional view of the medal selector when the opening / closing rail member is in an open state and the return opening is open. FIG. 4 is a schematic cross-sectional view of the medal selector when performing.
FIG. 8 is a front perspective view of a medal selector base for explaining a positional relationship between a first passage and a second passage.
FIG. 9 is a front perspective view of a medal selector base for explaining the flow of medals when stored or returned.
FIG. 10 is a partially enlarged rear perspective view showing a portion where a medal escape slit is formed in the medal selector base.
FIG. 11 is a schematic sectional view of a medal selector.
[Explanation of symbols]
14 ... Medal return button
16 ... Medal slot
18 ... saucer
21: Hopper as a storage unit of the dispensing device
31 ... Medal selector
32 ... Medal selector base
32a ... substrate surface
32b ... back surface of the base
35… Medal escape slit
36 ... intake
41… Medal passage
42 ... first passage
43 ... Second passage
46: Medal stopper as a medal passage restricting member
51 ... Optical sensor as detecting means
61 Elastic locking member
61a ... hook part
61b: Torsion spring part
65 Opening / closing means
66 ... electromagnet
70 ... Return port
71 ... open / close rail member
73 ... Rail bending part as traveling direction changing part
74 ... rail straight section
77: Cover member urging spring as urging means
81 ... sorting member
91: Medal jam release protrusion as pressed portion
M1 ... (regular) medal

Claims (6)

In the medal selector of the gaming machine for taking in and selecting the gaming medals inserted from the medal insertion slot and storing the medals in the storage unit of the payout device or returning the medals to the receiving tray,
An inlet for capturing the medal,
A medal passage that guides the medal taken from the intake port toward the storage unit and has a traveling direction changing unit in the middle thereof,
Detecting means provided in the medal path in an area subsequent to the traveling direction changing unit and detecting the medals passing through the medal path;
A return opening formed in the medal path on the upstream side of the detection unit and at a position near the traveling direction changing unit;
A medal selector comprising: opening and closing means for opening and closing the return opening. In the medal selector of the gaming machine for taking in and selecting the gaming medals inserted from the medal insertion slot and storing the medals in the storage unit of the payout device or returning the medals to the receiving tray,
An inlet for capturing the medal,
A medal passage for guiding the medals taken in from the intake in the direction of the storage section, and a medal passage for guiding the medals taken in from the intake with almost no change in the traveling direction; A second passage that guides the medal that has passed through the first passage while changing the traveling direction thereof;
An opening / closing rail member that forms a bottom surface of the second passage and includes a rail curved portion and a rail straight portion;
Detection means provided in an area after the rail straight portion of the second passage and detecting the medal passing therethrough;
An electromagnet that moves the open / close rail member to a closed position that forms the bottom surface of the second passage, and an urging unit that moves the open / close rail member to an open position that does not form the bottom surface of the second passage are configured. With opening and closing means,
When the electromagnet is in the excited state, the open / close rail member is closed by the action of the magnetic force of the electromagnet, and the open / close rail member forms the bottom surface of the second passage so that the medal moves in the direction of the detection unit. Let me pass while changing the course,
When the electromagnet is in the non-excited state, the opening / closing rail member is opened by the action of the urging force of the urging means, and the medal guided by the first passage keeps its traveling direction while maintaining the rail bending. A medal selector, which is returned from a return opening opened by opening a part. A medal selector base having the medal passage formed on the base surface side and having a medal escape slit formed through a part of the first passage;
A distributing member for projecting a tip portion into the first passage and pressing the medal that is going to pass through the first passage from the front surface side of the base to the back side of the base;
The medal selector according to claim 2, wherein a width of the medal escape slit is set to be smaller than a diameter of a regular medal. A medal passage restricting member is disposed at a position on the upstream side of the detection means in the second passage,
When the electromagnet is in a non-excited state in which the open / close rail member is in an open state, the medal passage restricting member projects into the second passage and restricts passage of the medal in a direction of the detection unit. ,
When the electromagnet is in an excited state in which the opening / closing rail member is in a closed state, the medal passage restricting member retracts out of the second passage to allow the medal to pass in a direction of the detection unit. 4. The medal selector according to 2 or 3, wherein A cover member on which the opening / closing rail member, the opening / closing means and the distribution member are mounted on a front surface side, and an elastic locking member for detachably locking the cover member to the base surface side of the medal selector base. The medal selector according to 3 or 4, wherein the medal path is formed between a front surface side of the medal selector base and a back surface side of the cover member. The elastic locking member includes a hook portion that locks the cover member in an openable and closable state with respect to the medal selector base, and a torsion spring portion that biases the cover member in a closing direction. 6. The medal selector according to claim 5, wherein the member has a pressed part on a back side pressed by a medal return button provided on a front face of the gaming machine.

Images