JP4126689B2 - Coin dispenser - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a coin dispensing device.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, a coin dispensing device used for a gaming machine such as a slot machine or a money changer is known.
Such a coin dispensing device is formed in a box shape that opens upward, and stores a coin container, a base surface disposed on the lower side of the coin container, and rotatable on the base surface. A provided rotating disk or the like is provided.
This rotating disk has a coin taking-in hole penetrating the front and back of the rotating disk, and the coin in the coin container can be taken into the base surface through the coin taking-in hole.
Further, on the back side of the rotating disk, the coin taken in between the rotating disk and the base surface is carried back to the vicinity of the passage opening on the base surface by pushing back along with the rotation of the rotating disk. Thereafter, a coin push-out portion (also referred to as “fin”) is provided through which the rotating disk is thrown out in the centrifugal direction.
Further, the coin dispensing device is provided with a detection lever for detecting the number of coins to be thrown based on the number of times the coin is thrown against the bias whenever the coin is thrown through the passage opening. .
Here, the passage opening is normally maintained in a state narrower than the coin, but when the coin passes, it is pushed out by the coin and expanded to an inner diameter through which the coin can pass.
In order to achieve this, a part of the inner wall of the passage port is constituted by a guide roller (passage port inner diameter variable member) provided on the detection lever, and the guide roller is attached by being pushed by a coin to be thrown out. By moving against the force, the passage opening narrower than the coin is always wide enough to allow the coin to pass.
Further, since the detection lever swings as the passage opening inner diameter variable member is pushed by the coin, the number of coins thrown out can be detected based on detecting the swing by the detection sensor.
[0003]
Specifically, for example, as shown in FIG. 15, the detection lever 104 swings on the back side of the base surface constituting member 106 constituting the base surface 102 so as not to hinder the movement of coins on the base surface 102. It is pivotally supported.
More specifically, as shown in FIG. 18, a swing member 105 (FIGS. 16 and 17) that can swing relative to the base surface constituent member 106 is pivotally supported on the back surface of the base surface constituent member 106. The detection lever 104 is pivotally supported on the back surface of the swing member 105.
The guide roller 101 is pivotally supported by the detection lever 104, protrudes above the base surface 102 through an opening hole 102 a formed in the base surface 102, and passes through the passage 103 on the base surface 102. Part of it.
When the coin passes through the passage opening 103, the guide roller 101 (passage opening inner diameter variable member) is pushed and moved by the coin, and the passage opening 103 changes to an inner diameter through which the coin can pass.
At this time, the detection lever 104 also swings, and the number of coins thrown out can be detected based on the detection of the swing by the detection sensor 107 (FIG. 17).
[0004]
Here, as shown in FIG. 17 and the like, a stopper portion 108 for stopping the detection lever 104 against the urging of the detection lever 104 is provided on the back surface of the swing member 105. On the other hand, the detection lever 104 is formed with a bent stopper piece 104a for stopping the detection lever 104 by coming into contact with the stopper portion.
Then, by bringing the stopper piece 104a of the detection lever 104 into contact with the stopper portion 108 and stopping the detection lever 104, as shown in FIG. 18, a guide is provided so that the passage opening 103 can be kept narrower than the coin at all times. The roller 101 can be positioned at a certain location on the base surface 102.
For example, a buffer stop member 108a (for example, made of elastic resin) with which the stopper piece 104a abuts is provided around the stopper portion 108 so that the detection lever 104 can be stopped in a bufferable manner.
[0005]
[Problems to be solved by the invention]
However, in the above configuration, the detection lever 104 includes a shaft support 101a (FIG. 16) for supporting the guide roller 101, and a stopper piece 104a (FIG. 17) which is a special part only for stopping the detection lever 104. It is necessary to have. Further, the swing member 105 needs to include a support portion 108b (FIG. 17) that supports the buffer stop member 108a. That is, the configuration of both the swing member 105 and the detection lever 104 is complicated.
Moreover, since the stopper piece 104a is located near the swing fulcrum of the detection lever 104, the stop position of the detection lever 104 is likely to vary. Therefore, it may be difficult to position the guide roller (passage port inner diameter variable member) 101 at a certain location on the base surface 102 with good reproducibility.
[0006]
The present invention has been made to solve the above-described problems, and can simplify the configuration of the detection lever and the like, and can position the passage port inner diameter variable member at a predetermined position on the base surface with good reproducibility. An object of the present invention is to provide a coin throwing apparatus capable of performing the above-mentioned.
[0007]
[Means for Solving the Problems]
To solve the above problem,
The invention according to claim 1 is the coin dispensing apparatus 1,
A rotating disk 3 rotatably provided on a base surface 51 disposed below the coin container 2 for storing coins;
The base surface is provided on the back surface side of the rotating disk, and pushes coins taken from the coin container into the space between the rotating disk and the base surface as the rotating disk rotates. A coin push-out portion 33 that can be thrown out through the upper passage opening 514;
A detection lever 60 that is rocked against urging each time a coin is thrown through the passage opening and detects the coin to be thrown out based on the swing;
It is provided on the rocking tip side of the detection lever and constitutes a part of the passing port, and is moved with the detection lever by being pushed by the coin at the time of throwing, so that the coin is always A passage opening inner diameter variable member (for example, a guide roller 61) that changes a narrower passage opening to a size that allows coins to pass through and swings the detection lever;
By stopping the detection lever so as to be able to buffer against the urging force against the detection lever, the passage opening inner diameter variable member is placed on the base surface so that the passage opening can be kept narrower than a coin at all times. A buffer stop member 63 for positioning at a fixed location in
With
The buffer stop member and the passage port inner diameter variable member are both supported by a support portion (for example, a support shaft 64) that the detection lever has on the rocking tip side.
[0008]
According to the first aspect of the present invention, since the buffer stop member is supported by the support portion provided in the detection lever together with the passage port inner diameter variable member, the support portion that supports the buffer stop member and the passage port inner diameter variable member are supported. There is no need to provide a separate support portion. That is, the configuration can be simplified compared to the conventional case.
In addition, since the buffer stop member is provided on the rocking tip side of the detection lever, the passage port inner diameter variable member is more securely stopped on the base surface than when it is provided on the rocking fulcrum side. It is possible to position the head at a certain position with good reproducibility, and it is possible to prevent the stop position from being varied.
[0009]
In addition, it is preferable that the passage port inner diameter variable member is a guide roller that is rotatably supported by a support shaft constituting the support portion and can guide the coin passing through the passage port by rotation. In this case, when the coin is thrown out through the passage port, the coin can be guided by the guide roller, so that the coin can be thrown out smoothly.
[0010]
The invention described in claim 2
The coin dispensing apparatus 1 according to claim 1,
The detection lever is arranged on the back side of the base surface constituting member 52 having the base surface on the front side,
Inner circumference of a variable member projecting opening hole (for example, guide roller projecting opening 9) for projecting a passage port inner diameter variable member provided on the rocking tip side of the detection lever to the front side of the base surface constituting member. In addition, when the buffer stop member abuts,
The detection lever is configured to stop the detection lever.
[0011]
Here, when the swing member is provided as in the third aspect, the buffer stop member abuts on the swing member side portion of the variable member projecting opening, and thus the detection lever is moved. Although it is preferable to configure so as to be stopped, when the swing member is not provided, the buffering stop member comes into contact with the inner periphery of the opening for projecting the variable member formed on the base surface constituting member, so that the detection lever May be configured to stop.
[0012]
According to the second aspect of the present invention, the variable member protrusion for causing the passage port inner diameter variable member provided on the rocking front end side of the detection lever provided on the back surface side of the base surface constituting member to protrude on the base surface. By bringing the buffer stop member into contact with the inner periphery of the opening for use, the detection lever can be stopped against urging the detection lever. That is, since the opening for projecting the variable member can also be used for buffering and stopping the buffer stop member, it is not necessary to provide a special portion or member only for buffering and stopping the buffer stop member.
[0013]
The invention according to claim 3
The coin dispensing device according to claim 2,
A detection unit (for example, a detection sensor 62) for detecting the number of coins to be thrown out based on detecting the swing of the detection lever when the coin is thrown out is provided integrally with the detection lever. It is pivotally supported on the back side so as to be able to swing against the urging against the detection lever, and is urged against the base surface constituting member together with the detection lever, the passage port inner diameter variable member and the detection portion. Further comprising a swinging member 8 provided so as to be swingable against
The swing member is
When the coin is thrown out, when the detection lever swings with respect to the swinging member, the base surface component member together with the detection unit is configured so that the swinging can be detected by the detection unit. While being kept stationary,
When a coin is carried to the position near the passage opening by the coin push-out portion with the rotation of the rotating disk, the coin is not thrown out when the coin is not thrown out through the passage opening. In order to prevent the coins that are not thrown out from swinging the detection lever and prevent erroneous detection of the coins. When a coin that is not thrown out is pushed back by the coin push-out portion and pushes the passage port inner diameter variable member, the passage port inner diameter variable member, the detection lever, and the detection portion are integrally attached to the swing member. By swinging with respect to the base surface constituting member against the force, the passage opening inner diameter variable member is separated from the passage opening inner diameter variable member and the coin pushing portion. Wants with relatively moving with respect to the base surface component in the direction, is configured to maintain the said detection lever the detector in the absence of relative displacement to each other,
The opening hole for projecting the variable member is provided so as to penetrate both the rocking member and the base surface constituting member on the front and back sides,
Among the opening holes for projecting the variable member, the detection lever is configured to stop when the buffer stop member comes into contact with the portion on the swing member side.
[0014]
According to the third aspect of the present invention, since the swing member is provided, the coin push-out portion passes through the passage opening even though the coin is carried to the position near the passage opening by the rotation of the rotating disk. When the coin not to be thrown out is pushed by the coin push-out portion and pushes the passage port inner diameter variable member, the swinging member integrally connects the passage port inner diameter variable member, the detection lever, and the detection unit. Along with this, by swinging relative to the base surface component member against the biasing force against the swing member, the passage opening inner diameter variable member is moved to the base in the direction in which the interval between the passage opening inner diameter variable member and the coin push-out portion increases. It can be moved relative to the surface component. Therefore, it is possible to prevent a coin that is not thrown out through the passage opening from being pinched by the interval between the coin push-out portion and the passage opening inner diameter variable member and clogging.
Further, when a coin not to be thrown is pushed back by the coin pushing portion and pushes the passage port inner diameter variable member, the swing member integrally includes the passage port inner diameter variable member, the detection lever and the detection portion. By swinging with respect to the base surface component member against the urging force against the urging force, the detection lever and the detection portion can be maintained in a state without relative displacement from each other. It is possible to prevent erroneous detection of coins due to swinging against the urging of the detection lever.
In addition, when the coin is thrown out, the swinging member is stationary relative to the constituent members of the base surface together with the detection unit when the detection lever swings against the urging against the detection lever. Since the state is maintained, the coin can be detected without any trouble when the coin is thrown out.
Further, the opening for projecting the variable member is provided so as to penetrate both the rocking member and the base surface constituting member on the front and back sides, and the portion on the rocking member side of the variable member projecting opening is formed. Since the detection lever is configured to stop by contacting the buffer stop member, the detection lever can be prevented from swinging with respect to the swinging member when the swinging member swings. Therefore, erroneous detection of coins can be prevented.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0016]
First, a schematic configuration of the coin dispensing device will be described.
As shown in FIG. 1, the coin dispensing apparatus 1 of the present embodiment is for a slot machine, for example, and includes a coin container 2 that stores coins, and a base surface 51 (see FIG. 2) and the like, and the coin in the coin container 2 is caused to flow down between the base surface 51 through the coin take-in hole 32 provided on the base surface 51 so as to be rotatable and penetrating the front and back surfaces. A rotating disk 3 (FIG. 2, FIG. 3, etc.) for throwing out the taken-in coins to the outside of the coin-throwing device 1 as it rotates, and a drive for driving the rotating disk 3 to rotate. A driving motor 4 (FIG. 10) as a device, a counting device (not shown) for counting coins thrown out as the rotating disk 3 rotates, and the counting device, the driving motor 4, the rotating disk 3 and the like are held. is doing Both are schematic configuration includes a body portion 5 or the like with the base surface 51.
[0017]
Among these, the main body 5 has a box shape, for example, as shown in FIGS. 1 to 3, and is formed, for example, in a substantially flat surface on the top surface of the roof mold, for example, as shown in FIGS. In addition, a base surface 51 inclined with respect to the horizontal plane is provided.
The base surface 51 includes a coin sliding surface 511, a coin throwing path 512, and an upper step portion 513.
Among these, as shown in FIG. 3, the coin sliding surface 511 is set to have a circular shape whose outer periphery is substantially equal to that of the rotating disk 3. Then, the coin taken into the rotating disk 3 slides along the circumferential direction of the rotating disk 3 with one surface in contact with the coin sliding surface 511 as the rotating disk 3 rotates. Further, the coin throwing path 512 forms a continuous surface with the coin sliding surface 511. The coin throwing path 512 allows coins to pass when coins are thrown out of the coin throwing device 1 from the coin sliding surface 511 in the centrifugal direction as the rotary disk 3 rotates. Note that the boundary between the coin sliding surface 511 and the coin dispensing passage 512 is normally a passage opening 514 (described later) having an inner diameter W that is narrower than the diameter of the coin.
Further, the upper stage portion 513 is formed at an upper stage than the coin throwing path 512 and the coin sliding face 511, so that the outer peripheral wall parts (coin guide walls of the coin sliding face 511 and the coin throwing path 512). Function as a part).
In addition, the base surface 51 is comprised by the flat base surface structural member 52, for example. The base surface constituting member 52 includes, for example, a flat plate-like lower constituting member 52a constituting the coin sliding surface 511 and the coin dispensing passage 512 by an upper surface, and an upper constituting member 52b constituting the upper step portion 513. Become. That is, the upper component member 52b has the same outer shape as the lower component member 52a, for example, but the center portion is cut out into a shape that combines the coin sliding surface 511 and the coin dispensing passage 512, and the lower component member 52a. Is provided on the lower component member 52a so that the outer periphery coincides with the outer periphery. Further, for example, the portion constituting the inner wall of the passage opening 514 in the upper component member 52b is a separate member, and the inner diameter of the passage opening 514 can be removed by removing the member or replacing it with a different size. W can be changed according to the diameter of the coin.
[0018]
Further, the drive motor 4 (FIG. 10) is provided inside the main body 5, that is, on the back surface side with respect to the base surface 51, and the drive shaft 41 of the drive motor 4 is provided on the base surface 51 as shown in FIG. The coin slide surface 511 protrudes perpendicularly to the coin slide surface 511 from the center. The rotating disk 3 is supported by the drive shaft 41. For this reason, the rotating disk 3 is arranged in an inclined state with respect to a horizontal plane, for example. Further, in this state, the back surface of the sliding portion 37 (FIG. 4 or the like) formed at the center of the back surface of the rotating disk 3 abuts on the coin sliding surface 511, and as shown in FIG. A coin sliding surface 511 is covered by the entire disk 3. In this state, the rotary disk 3 is rotationally driven by the drive motor in the direction of the disk surface of the rotary disk 3 (direction of arrow A (FIG. 2)).
[0019]
As shown in FIG. 1, the coin container 2 has a box shape that opens upward, and an opening having a dimension that allows the rotating disk 3 to face the coin container 2 at the bottom. (Not shown) is formed.
And the coin container 2 is being fixed to the upper side of the main-body part 5 so that the rotation disk 3 may face the coin container 2 through the said opening part.
[0020]
For example, as shown in FIG. 2 and the like, the rotating disk 3 includes a main body 31 configured in a substantially disk shape.
The main body 31 is formed with a coin taking-in hole 32 that penetrates the front and back of the main body 31. More specifically, the coin take-in hole 32 is, for example, a circular hole having a diameter set larger than that of the coin.
Accordingly, it is possible to allow coins in the coin container 2 to flow down through the coin take-in hole 32.
For example, a plurality (specifically, for example, three) of such coin take-in holes 32 are arranged in the circumferential direction of the main body 31. Each coin take-in hole 32 is arranged to be offset with respect to the rotation center of the rotary disk 3.
Further, on the back surface of the rotating disk 3, for example, as shown in FIG. 4 (a), a screw-like coin pushing portion 33 is provided in each coin taking-in hole in the rotating direction of the rotating disk 3 (arrow A direction). 32 at a rear side position.
Here, the interval between the back surface of the coin pushing portion 33 and the coin sliding surface 511 of the base surface 51 and the interval between the back surface of the sliding portion 37 and the coin sliding surface 511 are set smaller than the thickness of the coin. ing. On the other hand, the distance between the back surface of the other part of the rotating disk 3 and the coin sliding surface 511 is set to be larger than the thickness of the coin.
Therefore, the coins that have flowed down through the coin take-in hole 32 are placed between the rotary disk 32 and the coin sliding surface 511, that is, more specifically, the coin push-out part 33 and the sliding part in the rotary disk 3. It can be taken in between the portion excluding 37 and the coin sliding surface 511.
[0021]
Then, when the rotating disk 3 rotates in a state where the coin is taken in between the rotating disk 32 and the coin sliding surface 511 (base surface 51) through the coin taking-in hole 32, the coin is pushed out of the coin. It is boosted by the portion 33 and carried toward the passage port 514.
At this time, the coin slides in an arc shape with respect to the coin sliding surface 511 in a state where one surface is in contact with the coin sliding surface 511 and the outer peripheral end surface is in contact with the upper step portion 513.
Here, a gap is provided between the back surface of the rotating disk 3 and the base surface 51 so that coins can be led out toward the coin dispensing path 512 located in the centrifugal direction of the rotating disk 3 with respect to the coin sliding surface 511. Is formed. Specifically, this gap is constituted by, for example, an interval portion between the coin extruding portions 33.
When the coin pushed back by the coin push-out portion 33 reaches a position facing the coin dispensing path 512, the coin is led out in the centrifugal direction of the rotating disk 3 through the gap due to centrifugal force, and FIG. The state of the coin C in FIG.
Further, the coin is continuously pushed in the direction of arrow B in FIG. 2 by the coin pushing portion 33 and led out to the coin dispensing path 512 through the gap and the passage opening 514 (FIG. 5 → FIG. 6 → FIG. 7). Further, the coin is thrown out of the coin dispensing device 1 through the coin dispensing passage 512 and the coin dispensing slot 7 (FIG. 1). Note that the coin outlet 7 is a slit-shaped opening formed in the gap between the main body 5 and the coin container 2.
In this way, the coin dispensing device 1 is configured to accept coins taken from the upper surface side of the rotating disk 3 through the coin take-in hole 32 one by one as the rotating disk 3 rotates. Can be thrown out to the outside.
[0022]
Here, the counting device of the coin dispensing device 1 is oscillated against a bias whenever a coin is dispensed through the passage port 514, and detects the coin to be dispensed based on the oscillation. Detection lever 60 (FIG. 11 and the like), and a detection sensor (detection unit) 62 (FIG. 8) and the like for detecting the number of coins thrown based on detecting the swing of the detection lever 60. .
[0023]
Among these, the detection lever 60 is provided on the back surface side of the base surface constituting member 52 so as to be able to swing against the urging force by the urging means such as the spring 66 (FIG. 10 and the like).
The detection lever 60 can swing in the direction of arrow E and the direction of arrow F opposite thereto with a swinging fulcrum 60c (FIG. 13 and the like) as a fulcrum.
As shown in FIG. 9 and the like, the detection lever 60 includes a detected portion 68 that is detected by a detection sensor 62 on the swinging tip side of the detection lever 60.
That is, a bent portion 60b is formed by bending the swinging tip portion of the body portion 60a made of, for example, a plate-like member of the detection lever 60 perpendicularly to the body portion 60a, and the tip portion of the bent portion 60b is The detected portion 68 is configured by being bent so as to be parallel to the main body portion 60a and to be located farther from the swing fulcrum of the detection lever 60 than the main body portion 60a.
[0024]
Further, as shown in FIG. 9 and the like, the detection lever 60 is provided with a support shaft (support portion) 64 on the swinging tip side of the detection lever 60, and the guide shaft 61 is rotatably supported by the support shaft 64. ing.
And this guide roller (passage port inner diameter variable member) 61, as shown in FIG. 11 and FIG. 12, etc., through the guide roller protruding opening hole (variable member protruding opening) 9, the base surface constituting member 52 It protrudes on the front side, that is, on the base surface 51.
In this state, the guide roller 61 constitutes a part of the inner wall of the passage port 514 by the peripheral surface of the guide roller 61.
Here, the urging direction of the detection lever 60 by the spring 66 is set to a direction in which the guide roller 61 narrows the inner diameter W of the passage port 514 (direction of arrow E in FIGS. 12 and 13). Further, the guide roller 61 is movable against the bias in the opposite direction, that is, the direction in which the inner diameter of the passage port 514 is enlarged (the direction of arrow F in FIGS. 12 and 13).
The guide roller 61 urges the detection lever 60 by being pushed by the coin when the coin pushed back in the direction of arrow B in FIG. It moves against the normal, and the passage 514 narrower than the coin is changed to a size that allows the coin to pass through (FIG. 14, FIG. 6, etc.).
Moreover, the movement of the guide roller 61 is accompanied by the swing of the detection lever 60. In other words, the detection lever 60 swings as the guide roller 61 is pushed and moved by the coin, so that the swing can be detected by the detection sensor 62. Therefore, by counting the number of swings of the detection lever 60 detected by the detection sensor 62, the number of coins thrown out can be counted.
Note that after the coin passes through the passage opening 514, the guide roller 61 and the detection lever 60 return to their original positions, and the passage opening 514 becomes narrower than the coin again.
[0025]
In the present embodiment, the guide roller 61 pivotally supported by the support shaft 64 is applied as the passage port inner diameter variable member, and therefore, when a coin is thrown out through the passage port 514. Since the coin can be guided by the rotating guide roller 61, the coin can be thrown out smoothly. The guide roller 61 is made of a bearing, for example.
[0026]
In addition, the coin throwing device 1 stops the detection lever 60 so as to be able to buffer against the urging of the detection lever 60 so that the passage opening 514 can be kept narrower than the coin at all times. A buffer stop member 63 made of, for example, an elastic resin is provided for positioning 61 at a fixed location on the base surface 51.
[0027]
The buffer stop member 63 is supported by the support shaft 64 of the detection lever 60 together with the guide roller 61.
Then, as shown in FIG. 12 and the like, the buffer stop member 63 abuts against the inner periphery of the guide roller protruding opening 9 so that the detection lever 60 can be buffered against the bias to the detection lever 60. Can be stopped.
The buffer stop member 63 is set to have a larger diameter than the guide roller 61 so that the guide roller 61 does not contact the inner periphery of the guide roller protruding opening 9 when the detection lever 60 is stopped.
Therefore, when the detection lever 60 is stopped, the guide roller 61 does not come into contact with the guide roller protruding opening 9, so that the contact sound is not generated. Moreover, it is possible to prevent the guide roller 61 from being damaged by the contact.
[0028]
Here, the coin taken in between the rotating disk 3 and the base surface 51 (coin sliding surface 511) is pushed back by the coin push-out portion 33 along with the rotation of the rotating disk 3, and is brought to a position near the passage opening 514. It is carried and normally thrown out through the passage opening 514, but in some cases, coins may not be thrown out through the passage opening 514.
In this case, the coin not to be thrown out is pushed back by the coin push-out portion 33 and moves according to the arrow D in FIG. 5A and the like, and circulates again on the coin sliding surface 511.
At this time, if the guide roller 61 does not move with respect to the base surface constituting member 52, the coin may be caught in the gap between the guide roller 61 and the coin push-out portion 33 and become jammed.
[0029]
For such a situation, the coin dispensing device 1 of the present embodiment is pivotally supported on the back surface side of the base surface constituent member 52 by a swing fulcrum 8a (FIG. 13 and the like). On the other hand, for example, a rocking member 8 that can rock against the bias of the spring 81 or the like is provided.
That is, the swing member 8 is a plate-like member as shown in FIG. 8, for example, and can swing in the direction of arrow G and the opposite arrow H (FIG. 10) with the swing support point 8a as a fulcrum. It has become.
Further, as shown in FIG. 8 and the like, the swinging member 8 is integrally provided with a detection sensor 62 on the back surface side, for example. The detection sensor 62 includes a light emitting unit 62a and a light receiving unit 62b.
Further, the swinging member 8 is pivotally supported by a swinging fulcrum 60c on the back side of the swinging member 8 so that the detection lever 60 can swing against the urging against the detection lever 60. is doing. Moreover, when the detection lever 60 swings in the direction of arrow F, the position of the detection sensor 62 is such that the detected portion 68 of the detection lever 60 enters between the light emitting portion 62a and the light receiving portion 62b of the detection sensor 62. Is set.
Then, the detection lever 60 swings in the direction of arrow F with respect to the swing member 8, and the light emission from the light emitting portion 62a is blocked by the detected portion 68 of the detection lever 60, so that the light emission is received by the light receiving portion 62b. When it becomes impossible, the swinging state of the detection lever 60 can be detected.
Such a swinging member 8 is integrated with a detection lever 60, a guide roller 61 pivotally supported by the detection lever 60, a detection sensor 62, etc., with respect to the base surface constituting member 52. The member 8 can swing against the urging force against the member 8.
Here, the urging direction of the swing member 8 by the spring 81 is set to a direction in which the guide roller 61 is brought closer to the rotation center of the rotary disk 3, and the swing member 8 rotates the guide roller 61 in the opposite direction. The disc 3 can be swung in the direction away from the center of rotation of the disc 3 against the urging force against the swinging member 8.
[0030]
That is, when the coin is carried to the position near the passage opening 514 by the coin push-out portion 33 as the rotating disk 3 rotates, the coin that is not thrown out (see FIG. 5 (a) When the coin moving in the direction of arrow D) is pushed back by the coin pushing portion 33 and pushes the guide roller 61, the swinging member 8 is accompanied by the guide roller 61 and the detection lever 60 integrally. The base member 52 swings in the direction of arrow G against the urging force against the swing member 8.
As a result, the guide roller 61 can be moved relative to the base surface constituting member 52 in the direction in which the distance between the guide roller 61 and the coin push-out portion 33 is increased (arrow G direction). It is possible to prevent the coins that are not inserted from being jammed between the coin push-out portion 33 and the guide roller 61.
[0031]
Further, when the swinging member 8 swings, the detection sensor 62 also moves together with the swinging member 8, so that the detection lever 60 and the detection sensor 62 are maintained in a state where there is no relative displacement. be able to.
Therefore, it is possible to prevent the detection lever 60 from being detected even though no coin is thrown out. That is, it is possible to prevent erroneous detection of coins.
Note that after the coin passes through the interval between the coin push-out portion 33 and the guide roller 61 in the direction of arrow D in FIG. 5A and the like, the swing member 8 returns to the original position again.
[0032]
Here, the urging direction (arrow E direction) of the detection lever 60 by the spring 66 and the urging direction (arrow H direction) of the swing member 8 by the spring 81 are mutually intersecting directions and from each other at 90 degrees. Is also set to a large angle.
Therefore, when the coin thrown out through the passage opening 514 swings the detection lever 60 through the guide roller 61, the swinging member 8 swings against the bias against the swinging member 8. do not do. For this reason, at the time of throwing out, the swinging of the detection lever 60 is kept stationary with respect to the base surface constituting member 52 together with the detection sensor 62 so that the detection sensor 62 can detect the swing. Therefore, the coin can be detected without any trouble when the coin is thrown out.
On the other hand, when a coin that is not thrown swings the swinging member 8 through the guide roller 61, the detection lever 60 does not swing against the bias against the detection lever 60. For this reason, when the swinging member 8 swings (that is, when a coin is not thrown out), there is no false detection that the detection sensor 62 detects the swinging of the detection lever 60.
[0033]
Further, the guide roller protruding opening 9 is provided so as to penetrate the swinging member 8 and the base surface constituting member 52 both front and back.
That is, the guide roller protruding opening 9 includes a swing member side portion 9a and a base surface constituting member side portion 9b.
In addition, when the guide roller protruding opening 9 is formed, the buffer stop member 63 comes into contact with the swinging member side portion (the swinging member side portion) 9a, so that the detection lever 60 is attached to the detection lever 60. Stops against the forces.
Therefore, it is possible to prevent the detection lever 60 from swinging with respect to the swing member 8 when the swing member 8 swings. This also prevents erroneous detection of coins.
That is, when the coin dispensing device 1 includes the swing member 8, the buffer stop member 63 and the guide roller 61 are supported together by the support shaft 64, and the buffer stop is stopped on the inner periphery of the guide roller protruding opening 9. A configuration in which the detection lever 60 is stopped when the member 63 abuts can be suitably realized.
[0034]
Even when the buffer stop member 63 is in contact with the inner periphery of the guide roller protruding opening 9 and the detection lever 60 is stopped, the guide roller 61 is placed at any position of the guide roller protruding opening 9. And the guide roller 61 rotates to guide the coin even when the coin not to be thrown moves according to the arrow D in FIG. 5A. Can do. Therefore, when a coin that is not thrown moves according to the arrow D in FIG. 5A, it is possible to more suitably prevent the coin from being jammed in the interval between the coin push-out portion 33 and the guide roller 61.
[0035]
According to the embodiment as described above, since the buffer stop member 63 is supported by the support shaft (support portion) 64 together with the guide roller (passage port inner diameter variable member) 61, the buffer stop member 63 is supported. There is no need to separately provide a support portion and a support portion that supports the guide roller 61. Therefore, the configuration can be simplified.
In addition, since the buffer stop member 63 is provided on the swinging tip side of the detection lever 60, the guide roller 61 can be stopped on the base surface 51 more securely than in the case where it is provided on the swinging fulcrum side. It is possible to locate the position (a constant place) with good reproducibility, and it is possible to prevent the stop position from being varied.
[0036]
Further, by bringing the buffer stop member 63 into contact with the inner periphery of the guide roller protrusion opening (variable member protrusion opening) 9 for causing the guide roller 61 to protrude on the base surface 51, the detection lever 60 is moved to the position shown in FIG. The detection lever 60 can be stopped against urging. That is, since the guide roller protruding opening 9 can also be used for buffering and stopping the buffer stop member 63, it is not necessary to provide a special part or member only for buffering and stopping the buffer stop member 63.
[0037]
In particular, in the case of the present embodiment, the guide roller protruding opening 9 is provided so as to penetrate both the swinging member 8 and the base surface constituting member 52 on the front and back sides. In the configuration, the detection lever 60 is configured to stop when the buffer stop member 63 comes into contact with the swing member side portion 9a. Therefore, when the swing member 8 swings, the swing member 8 On the other hand, since the detection lever 60 can be prevented from swinging, erroneous detection can be prevented.
Therefore, when the swing member 8 is provided, the guide roller protruding opening 9 can be suitably used for the buffer stop of the buffer stop member 63.
[0038]
In the above-described embodiment, the coin dispensing device for the slot machine has been described. However, the present invention is not limited to this, and may be applied to a coin dispensing device for other purposes, such as for a money changer. .
In the above embodiment, the case where the swing member 8 is provided has been described. However, the present invention is not limited to this, and the coin dispensing device 1 may not include the swing member 8. In this case, the buffer stop member 63 comes into contact with the guide roller protruding opening (variable member protruding opening) 9 formed in the base surface constituting member 52, that is, the inner periphery of the base surface constituting member side portion 9b. The detection lever 60 may be configured to stop.
[0039]
【The invention's effect】
According to the first aspect of the present invention, since the buffer stop member is supported by the support portion provided in the detection lever together with the passage port inner diameter variable member, the support portion that supports the buffer stop member and the passage port inner diameter variable member are provided. There is no need to separately provide a supporting part to be supported. In addition, since the buffer stop member is provided on the rocking tip side of the detection lever, the passage port inner diameter variable member can be positioned at a stop position (a fixed location) on the base surface with good reproducibility. It is possible to prevent the variation from occurring.
[0040]
According to the second aspect of the present invention, since the opening for projecting the variable member can also be used for buffering and stopping the buffer stop member, a special portion or member only for buffering and stopping the buffer stop member is provided. There is no need.
[0041]
According to the third aspect of the present invention, when the coin is carried to the position near the passage opening by the coin push-out portion with the rotation of the rotary disk, the throwing is not performed through the passage opening. It prevents the coins that are not taken out from being clogged by being caught in the gap between the coin push-out portion and the passage opening inner diameter variable member, and also prevents the coins from being erroneously detected by swinging the detection lever. The present invention can be suitably applied when a rocking member for preventing this is provided.
[Brief description of the drawings]
FIG. 1 is an overall perspective view showing a coin dispensing device.
FIG. 2 is a perspective view showing the coin dispensing device with the coin container removed.
FIG. 3 is an exploded perspective view of a main body portion and a rotating disk of a coin dispensing device.
FIG. 4 is a diagram illustrating a state in which a coin moves in an arc shape on a coin sliding surface among the diagrams explaining the movement of the coin accompanying the rotation of the rotating disk, among which (a) shows the coin pushing portion and (B) shows the positional relationship between the upper surface of the rotating disk and the coin.
FIG. 5 is a diagram illustrating a state in which a coin has reached a passage opening among the diagrams for explaining the movement of the coin accompanying the rotation of the rotating disk, in which (a) shows the positional relationship between the coin pushing portion and the coin; (B) shows the positional relationship between the upper surface of the rotating disk and the coin.
FIG. 6 is a diagram illustrating a state in which a guide roller at the tip of a detection lever is moved by a coin being pushed back by a coin push-out portion at a passage opening in a diagram for explaining movement of a coin accompanying rotation of a rotary disk. Of these, (a) shows the positional relationship between the coin pushing portion and the coin, and (b) shows the positional relationship between the upper surface of the rotating disk and the coin.
FIG. 7 is a diagram illustrating a state in which a coin has moved over the passage opening to the coin throwing path side among the diagrams explaining the movement of the coin accompanying the rotation of the rotating disk, and (a) of which shows the coin (B) shows the positional relationship between the upper surface of the rotating disk and the coin.
8A and 8B are diagrams showing a swing member, in which (a) shows the front side and (b) shows the back side.
FIG. 9 is a diagram showing a detection lever, in which (a) shows the front side and (b) shows the back side.
FIG. 10 is a back view showing a state in which a swing member is provided on the back surface of the base surface constituting member.
FIG. 11 is an enlarged perspective view of a main part for explaining a state in which a guide roller at the tip of a detection lever protrudes from a base surface through an opening hole for projecting a variable member.
FIG. 12 is an enlarged cross-sectional view of a main part showing a stopped state of the detection lever.
FIG. 13 is a diagram showing a state of the detection lever at the stage where coins have reached the passage opening.
FIG. 14 is a diagram illustrating a state in which a detection lever swings when a coin is pushed back by a pushing portion at a passage opening.
FIG. 15 is a view showing a base surface of a conventional coin dispensing device.
FIG. 16 is a perspective view showing the front side of a conventional rocking member.
FIG. 17 is a perspective view showing the back side of a conventional rocking member.
FIG. 18 is an enlarged view showing the vicinity of a passage opening of a conventional coin dispensing device.
[Explanation of symbols]
1 Coin dispensing device
2 coin containers
3 Rotating disc
33 Coin extrusion part
51 Base surface
514 Passage
52 Base surface components
60 Detection lever
61 Guide roller (passage port inner diameter variable member)
62 Detection sensor (detection unit)
63 Buffer stop member
64 Support shaft (support part)
8 Swing member
9 Opening hole for guide roller protrusion (opening hole for variable member protrusion)
9a Oscillating member side portion (the portion on the oscillating member side of the variable member protruding opening)

Claims (3)

A rotating disk rotatably provided on a base surface arranged on the lower side of a coin container for storing coins;
The base surface is provided on the back surface side of the rotating disk, and pushes coins taken from the coin container into the space between the rotating disk and the base surface as the rotating disk rotates. A coin push-out part capable of being thrown out through the upper passage opening;
A detection lever for detecting the coin to be thrown out based on the swinging, which is swung against the bias every time the coin is thrown through the passage opening;
It is provided on the rocking tip side of the detection lever and constitutes a part of the passing port, and is moved with the detection lever by being pushed by the coin at the time of throwing, so that the coin is always A passing port inner diameter variable member that changes a narrower passing port to a size that allows coins to pass through and swings the detection lever;
By stopping the detection lever so as to be able to buffer against the urging force against the detection lever, the passage opening inner diameter variable member is placed on the base surface so that the passage opening can be kept narrower than a coin at all times. A buffer stop member for positioning at a certain location in
With
The coin-throwing device is characterized in that the buffer stop member and the passage port inner diameter variable member are both supported by a support portion that the detection lever has on the rocking tip side. The detection lever is arranged on the back side of the base surface constituent member having the base surface on the front side,
When the buffer stop member comes into contact with the inner periphery of the opening hole for projecting the variable member for projecting the inner diameter variable member of the passage opening provided on the rocking tip side of the detection lever to the front side of the base surface constituting member. ,
The coin dispensing device according to claim 1, wherein the detection lever is configured to stop the detection lever. A detection unit for detecting the number of coins thrown out based on detecting the swing of the detection lever when the coin is thrown out is integrally provided, and the detection lever is resisted against urging the detection lever. Then, it is pivotally supported on the back surface side so as to be able to swing, and the detection lever, the passage port inner diameter variable member, and the detection portion can be integrally swung against the base surface component member against urging. Further comprising a swing member provided in
The swing member is
When the coin is thrown out, when the detection lever swings with respect to the swinging member, the base surface component member together with the detection unit is configured so that the swinging can be detected by the detection unit. While being kept stationary,
When a coin is carried to the position near the passage opening by the coin push-out portion with the rotation of the rotating disk, the coin is not thrown out when the coin is not thrown out through the passage opening. In order to prevent the coins that are not thrown out from swinging the detection lever and prevent erroneous detection of the coins. When a coin that is not thrown out is pushed back by the coin push-out portion and pushes the passage port inner diameter variable member, the passage port inner diameter variable member, the detection lever, and the detection portion are integrally attached to the swing member. By swinging with respect to the base surface constituting member against the force, the passage opening inner diameter variable member is separated from the passage opening inner diameter variable member and the coin pushing portion. Wants with relatively moving with respect to the base surface component in the direction, is configured to maintain the said detection lever the detector in the absence of relative displacement to each other,
The opening hole for projecting the variable member is provided so as to penetrate both the rocking member and the base surface constituting member on the front and back sides,
The detection lever is configured to stop when the buffer stop member comes into contact with a portion on the swing member side of the variable member protrusion opening hole. Item 3. A coin dispensing device according to Item 2.

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