CN101315713B - Coin hopper - Google Patents

Abstract

The invention provides a coin hopper, for outputting the coins in different diameters without a hitch. The coin hopper includes a rotating disk provided obliquely upward at a predetermined angle; an outer covering unit covering at least a lower outer circumference of the rotating disk; a holding bowl connected with the outer covering unit and holding coins; a circular supporting rack provided in a central region of an upper surface of the rotating disk; and coin stoppers being provided on the upper surface of the rotating disk and extending radically from the supporting rack in a circumferential direction to a periphery of the rotating disk at an equal interval. Coins are accepted one by one while a surface thereof is contacted with a holding surface of the upper surface of the rotating disk between the coin stoppers, are moved in one direction while a periphery thereof is held by the supporting rack, and are received from the coin stoppers during transportation by a coin receiver; a falling part which applies force on the coin to the coin supporting rack and avoids the movement with the coin stopper at the upstream of the coin receiving part and the upper of the center of the rotating center.

Description

Coin hopper

Technical field

The present invention relates to a kind of Coin hopper (coin hopper) that will separately pay with state storage in bulk more than pieces of ground of coin in storage bucket.

In detail, relate to a kind of can be with in storage bucket and Coin hopper that more than pieces of ground of coin that diameter is different are separately paid in bulk.

Say in further detail, relate to a kind of Coin hopper of sending reliably of more than pieces of ground of coin that can diameter is different.

In addition, coin contains metal coin (medal), token (token) of coin, the game machine of monetization etc.

Background technology

As the 1st conventional art, known have a kind of Coin hopper, as can be in storage bucket and the Coin hopper separately paid of the different more than pieces of ground of coin of diameter with in bulk, on the upper surface of the rotating disk that tilts, disposing to this outstanding circular bearing support of rotating disk central authorities, from this bearing support one side with radial configuration coin fastening body and this coin fastening body can freely be advanced and retreat with respect to turntable surface, in addition, receive cutter at assigned position configuration coin, this receive cutter along the circumferential reception of rotating disk by above-mentioned branching bolster supporting and the coin that promotes by coin fastening body, receive after this coin, be pressed into coin fastening body in the rotating disk and make this coin fastening body avoid mobile (with reference to patent documentation 1) with respect to this reception cutter by receiving cutter.

As the 2nd conventional art, known have a kind of Coin hopper, make the coin periphery and be positioned at predetermined angular towards the disk upper surface central authorities that tilt, and with the outstanding circular bearing support contact of 1 piece of amount below the coin thickness, and upper surface at above-mentioned rotating disk, utilization circumferentially makes the maintenance face of the above-mentioned disk upper surface between coin and the above-mentioned coin fastening body carry out that face contacts and many pieces of ground advance coin with the coin fastening body that uniformly-spaced is radial extension from above-mentioned bearing support one side direction, give as security into midway at this, utilization receives coin from above-mentioned coin fastening body near the coin receiving-member that circumferentially extends to above-mentioned rotating disk the above-mentioned bearing support, for the coin that makes overlapping shift-in falls, utilize with 1 piece more than the coin thickness and 2 pieces of arranged spaced below the coin thickness scrape this coin (with reference to patent documentation 2) in the tabular scraper plate of disk upper surface.

As the 3rd conventional art, known have a kind of Coin hopper, make the coin periphery and contact to the outstanding boundary peripheral portion of inclined plate central portion with the amount below the coin thickness, and utilize the projection that protrudes in above-mentioned inclined plate upper surface to promote this coin, this coin is moved to prescribed direction, move midway at this, utilize the thickness limits bar to dial this coin, thereby send 1 piece of coin to next stroke, wherein, above-mentioned thickness limits bar is by fulcrum axle supporting swingably and with 1 piece more than the coin thickness and 2 pieces of arranged spaced below the coin thickness (with reference to patent documentation 3) on inclined plate.

Patent documentation 1: european patent application discloses No. 0957456 instructions (the 2nd page～the 4th page of Fig. 1～Fig. 7)

Patent documentation 2: Japanese Patent Publication 59-32836 number (Fig. 3 and Fig. 9, the 6th page)

Patent documentation 3: TOHKEMY 2003-187288 (Fig. 1, the 6th page)

In the 1st above-mentioned conventional art, coin fastening body, for example 8 tabular bodys are radial and equally spaced extend to the peripherally configuration of rotating disk, for making the outstanding elastic force that is applied in its surface from rotating disk, have after reception cutter with the roughly the same uniform thickness of coin thickness receives coin, this coin fastening body by above-mentioned reception cutter be pressed into avoid in the rotating disk mobile.

The advantage of this coin memory machine is: owing to can pay by the branching bolster supporting side face and remain on coin between the coin fastening body, therefore, can pay the coin of diameter within specialized range.

Another advantage is: owing to coin fastening body extends to the periphery of rotating disk, so can cross the rake that receives cutter, eject in approximate horizontal portion, and therefore can the less of coin is horizontal to being set at.

Another advantage is: owing to receive cutter the uniform thickness roughly the same with coin thickness arranged, therefore, the stable posture when coin is directed prevents that the coin accident from falling.

When 2 pieces of coins are overlapping, be equivalent near about 1 position of clock, coin skids off on rotating disk under action of gravity, the following lateral circle surface of downside coin is supported the frame supporting, and the following lateral circle surface of upside coin is not subjected to branching bolster supporting, therefore, the upside coin falls under action of gravity naturally, thereby one piece of coin is separated and sends.

In this Coin hopper, when increasing the velocity of rotation of rotating disk, may send 2 pieces of coins in order to increase the coin expenditure quantity in the stipulated time.

Its reason is: increase owing to the velocity of rotation that increases rotating disk makes the centrifugal force that acts on coin, coin causes becoming near the position that is positioned at 12 that are equivalent to clock by the supporting that bearing support carries out owing to deadweight falls, coin is directly received by the reception cutter with 1 piece of above thickness of coin under overlapping state, thereby 2 pieces of coins are received under overlapping state.

In order to prevent to send 2 pieces of coins, consider the scraper plate of combination the 2nd conventional art in the 1st conventional art or the thickness limits bar of the 3rd conventional art.

With the situation of the 2nd conventional art combination under, make scraper plate relative with the upper surface of rotating disk, and with this scraper plate be disposed at away from this rotating disk more than the thickness of thick coin, the position of the distance below 2 times of thin coin thickness.

Under this kind situation,, therefore, not only can not avoid the interference with scraper plate, and can not make coin fastening body extend to the periphery of rotating disk because scraper plate is positioned on the path circumscribed of coin fastening body.

Its reason is, comes off in order to prevent the thickest coin, and the coin fastening bodily form becomes minimum also higher slightly than the thickness of the thickest coin.

On the contrary, the coin fastening bodily form become low can be by the situation below the scraper plate under, when the coin mounting to scraper plate and scraper plate when bending etc., coin fastening body and scraper plate may be interfered mutually.

When coin fastening body does not extend to the rotating disk periphery, eject at the rake that receives cutter, the less that therefore makes coin is to becoming oblique upper, and the problem that is restricted when therefore having on attaching it to game machine can not be used at once.

With the situation of the 3rd conventional art combination under because the diameter restrictions bar is configured on the mobile alignment of coin fastening body, therefore, need avoid coin fastening body and diameter restrictions bar to interfere mutually.

Specifically, coin fastening body is limited bar and pushes and be retracted into respect to rotating disk when connecting with limit rod, after breaking away from limit rod, protrudes in disk upper surface.

Like this, when coin fastening body constitutes when removable, though rare, client can be with bar-shaped grade together with the coin input port that together inserts coin sometimes.

Sometimes in the advance and retreat hole that this bar-shaped is sandwiched in coin fastening body, coin fastening body is in the state that remains on retreating position and can not moves.

When coin fastening body is continued to remain in retreating position, coin can not fastening to this coin fastening body, therefore, there are the following problems: the expenditure of coin can not be carried out with official hour interval (non-systematicness) but be carried out brokenly, under extreme case, all coin fastening bodies all are maintained at retreating position and become and can not pay coin.

In addition, in the 3rd conventional art, utilize the diameter restrictions bar, limit 1 piece of coin diametrically to boundary edge portion pushing coin.

In other words, overlapping upside coin is not subjected to boundary edge portion to support and fall when being pushed by the diameter restrictions bar, therefore, coin can be separated into 1 piece.

But when making the rotating disk counter-rotating in order to remove that coin blocks etc., because the fulcrum formation acute angle of the butt position of coin and diameter restrictions bar, therefore, coin bites between diameter restrictions bar and the coin fastening body, and rotating disk may not reverse, and can not use at once.

In addition, use voltage, nip and when causing rotating disk to rotate, may produce motor overheating and catch fire at coin though apply to drive to the motor that drives rotating disk.

Therefore, when motor applies driving voltage, need to check the rotation of rotating disk.

Summary of the invention

Even the 1st purpose of the present invention is to provide a kind of Coin hopper that coin also can be paid to non-fault the different coin of diameter of paying at a high speed.

Even the 2nd purpose of the present invention is to provide a kind of Coin hopper that makes the rotating disk counter-rotating also can not produce the coin of nipping in order to pay coin.

The 3rd purpose of the present invention is to provide a kind of can pay coin at a high speed, and can make the Coin hopper of rotating disk counter-rotating in order to pay coin.

The 4th purpose of the present invention be to provide a kind of can be by rotating disk 1 piece of piece of ground separating coin and Coin hopper that coin is sent reliably.

The 5th purpose of the present invention is to provide a kind of Coin hopper that can use simple mechanism to detect dial rotation.

In order to reach above-mentioned purpose, the present invention forms following formation.

A kind of Coin hopper, utilization is with the acclivitous rotating disk of predetermined angular, center on the externally mounted part of the lower outer periphery at least of above-mentioned rotating disk, be connected with above-mentioned externally mounted part and with the storage bucket of state storage coin in bulk, the circular bearing support that is positioned at above-mentioned disk upper surface central authorities and gives prominence to about 1 piece of coin thickness, and coin fastening body makes the maintenance face of the above-mentioned disk upper surface between coin and the above-mentioned coin fastening body carry out that face contacts and many pieces of ground receive coins, and it is moved to a direction with above-mentioned branching bolster supporting coin periphery, move midway at this, utilization receives coin from above-mentioned coin fastening body near the coin receiving-member that circumferentially extends to above-mentioned rotating disk the above-mentioned bearing support, wherein, this coin fastening body is at the upper surface of above-mentioned rotating disk, from above-mentioned bearing support one side direction circumferentially uniformly-spaced to be radial extension and to extend to the periphery of above-mentioned rotating disk; It is characterized in that, above the upstream of above-mentioned coin receiving-member, above-mentioned center of turntable, be provided with to coin towards the above-mentioned bearing support application of force and the avoidance of avoiding colliding with above-mentioned coin fastening body move fall parts.

The invention of technical scheme 2 is in technical scheme 1 described Coin hopper, it is characterized in that, the above-mentioned parts that fall comprise the 1st side face pushing part and the 2nd side face pushing part, the 1st side face pushing part can and above-mentioned disk upper surface between separate than bigger the moving of the thickest coin thickness with being parallel to above-mentioned upper surface with gap, the avoidance that the 1st side face pushing part is avoided colliding with above-mentioned coin fastening body is moved, the 2nd side face pushing part can and above-mentioned upper surface between separate following compartment of terrain and move with being parallel to above-mentioned upper surface, this is spaced apart than the big interval of the amount of thick coin thickness, the gap between above-mentioned the 1st side face pushing part and the above-mentioned upper surface, and, even because above-mentioned avoidance is moved when not relative with above-mentioned upper surface, the position relative with above-mentioned upper surface also continued to be positioned in the 2nd side face pushing part in above-mentioned the 1st side face pushing part.

The invention of technical scheme 3 is characterized in that in technical scheme 2 described Coin hoppers above-mentioned the 1st side face pushing part and the 2nd side face pushing part are integrally formed.

The invention of technical scheme 4 is characterized in that in technical scheme 1 described Coin hopper, above-mentionedly falls the parts utilization and is formed at cam on the above-mentioned rotating disk and avoids and moving to avoid this to fall parts and above-mentioned coin fastening body connects.

The invention of technical scheme 5 is characterized in that in technical scheme 2 described Coin hoppers above-mentioned cam is all face cams that are configured in above-mentioned rotating disk rear side.

The invention of technical scheme 6 is in technical scheme 3 described Coin hoppers, it is characterized in that, the position relative with above-mentioned coin fastening body of above-mentioned cam is positioned at away from the top of center of rotation, and both sides, above-mentioned top are formed by the inclined plane part with roughly the same angle tilt.

The invention of technical scheme 7 is in technical scheme 1～4 described Coin hopper, it is characterized in that, above-mentionedly fall parts and be that the bar that is supported rotationally of fulcrum is integrally formed with the pivot that is configured in rotating disk periphery foreign side, and have the tabular body that the upper surface with respect to above-mentioned rotating disk vertically extends.

The invention of technical scheme 8 is characterized in that in technical scheme 2 or 3 described Coin hoppers above-mentioned the 2nd side face pushing part has the arcuation edge that connects with the periphery that is supported on the metal coin on the rotating disk.

The invention of technical scheme 9 is characterized in that in technical scheme 4～8 described Coin hoppers, is provided with the detection part that moves that is used to detect above-mentioned the 1st side face pushing part.

Coin in the storage bucket in bulk connects with the contact pressure of regulation and the upper surface of this rotating disk by the rotating disk side shifting that tilts with predetermined angular court that is tilted to of storage bucket diapire.

The coin that utilization is stirred state in bulk to the outstanding coin fastening body of disk upper surface to coin fastening body, and makes its fastening this coin and maintenance face between the coin fastening body carry out face to contact.

At horizontal lower position, carry out coin that face contacts by externally mounted part guiding around the lower outer periphery at least of rotating disk with disk upper surface.

On the other hand, when coin fastening body is positioned at horizontal top position,, produce the power that coin is rolled to the bearing support of central authorities owing to gravity on coin fastening body by the inclination of coin fastening body.

But,, utilize the centrifugal force that acts on the coin to eliminate the downward power that falls that produces by gravity, if coin does not then move to bearing support near can not being positioned at 12 positions that are equivalent to clock when the velocity of rotation of rotating disk is setting when above.

In the present invention, be extruded with the parts that fall that the avoidance that can avoid colliding moves midway at the mobile alignment of coin.

Thus, the outside circumference of the coin that is promoted by coin fastening body forcibly relatively moves to bearing support owing to fall the effect of parts, carries out coin that face contacts and bearing support with maintenance face and connects and be supported on bearing support.

Because the coin of mounting on the coin that carries out face contact is not supported the frame supporting, therefore, fall to the central part of rotating disk.

Therefore, many pieces of ground receive coin between coin fastening body.

Be supported on the bearing support and and received and pay by the coin receiving-member by the coin of coin fastening body promotion.

In the present invention, coin fastening body is fixed on the rotating disk.

In other words, because coin fastening body do not move with respect to rotating disk, therefore, can not produce the problem that is maintained at retreating position owing to barred body etc.

Therefore, can pay the different coin of diameter reliably.

In the invention of technical scheme 2, the outside circumference of the coin that is promoted by coin fastening body since fall parts the 1st side face pushing part effect and forcibly relatively move to bearing support, carry out the side face of the coin that face contacts and bearing support with maintenance face and connect and be supported on bearing support.

Because mounting is not supported frame and supports in carrying out coin on the coin that face contact with the maintenance face of rotating disk, therefore, under center of turntable clan.

Thus, many pieces of ground receive coin between coin fastening body.

In addition, the upper surface side at the coin that carries out the face contact is relatively pushed to bearing support by the 2nd side face pushing part with the coin that the coin that carries out the face contact moves owing to inertial force, can not arrive the coin receiving-member.

The coin that is supported on bearing support and is promoted by coin fastening body is received and pays by the coin receiving-member.

Therefore, can many pieces separate and pay the different coin of diameter reliably.

In the invention of technical scheme 3, the 1st side face pushing part and the 2nd side face pushing part that fall parts form as one.

Thus, do not need to constitute respectively the 1st side face pushing part and the 2nd side face pushing part support and drive division etc. separately, therefore, have simple in structure, equipment miniaturization and advantage of low manufacturing cost.

In the invention of technical scheme 4, fall the parts utilization and be formed on cam on the rotating disk and avoid moving and contact with coin fastening body to avoid this to fall parts.

Thus, coin fastening body not with utilize cam to avoid the mobile parts that fall to connect, therefore, have the advantage that can not promote the wearing and tearing of coin fastening body.

In the invention of technical scheme 5, fall that parts do not contact with coin fastening body and the cam that moves is all face cam integrally formed with the back side of rotating disk in order to make.

All face cams and rotating disk are integrally formed, therefore, have the advantage that does not take up room and can make equipment miniaturization.

In the invention of technical scheme 6, fall that parts do not contact with coin fastening body and all face cams of forcibly moving are avoided mobile in order to make, because its both sides, top are roughly the same angle, therefore, even rotating disk counter-rotating is also identical when just changeing, falls parts and can not connect with coin fastening body.

Thus, has following advantage: owing to can make the rotating disk counter-rotating, therefore, coin blocks, number of coins tails off removing, last piece coin is under the situation of fastening to the coin fastening body, can remove by just changeing after rotating disk is temporarily reversed that coin blocks or pay to the last one piece on coin automatically again.

In the invention of technical scheme 7, it is tabular falling parts, extends with the eaves shape with respect to disk upper surface, and therefore, no matter overlapping several pieces of coins all drop in the storage bucket it by falling the parts guiding, therefore, have the advantage that can not send 2 pieces of coins simultaneously.

In the invention of technical scheme 8, the 2nd side face pushing part is tabular, extend with the eaves shape with respect to disk upper surface, even and the 1st side face pushing part is not relative with disk upper surface, the 2nd side face pushing part is also relative with disk upper surface, therefore, even several pieces of coins overlapping during arrival, all it is dropped in the storage bucket, therefore, have and can not send 2 pieces of coins simultaneously and the advantage of the coin of can not nipping by the guiding of the 2nd side face pushing part.

In the invention of technical scheme 9, when dial rotation, utilization and rotating disk make the 1st side face pushing part periodically avoid mobile for all face cams of unitary rotation.

Because utilize detection part to detect moving of the 1st side face pushing part, therefore, detection part periodically detects detection signal.

Therefore, when detection part not periodically during output detection signal, the output rotating disk not have the abnormal signal that rotates, can stop to power to motor, can prevent this motor overheating.

Description of drawings

Fig. 1 is the overall perspective view of the Coin hopper of the embodiment of the invention 1.

Fig. 2 is the vertical view of the Coin hopper of the embodiment of the invention 1.

Fig. 3 for the Coin hopper of the embodiment of the invention 1 along the A-A line, to be parallel to the face side cross sectional view of rotating disk.

Fig. 4 is the cut-open view identical with Fig. 3 of having removed confinement plate of the Coin hopper of the embodiment of the invention 1.

Fig. 5 is the B-B line side cross sectional view along Fig. 2.

Fig. 6 is the C-C line side cross sectional view along Fig. 2.

Fig. 7 is the D-D line side cross sectional view along Fig. 2.

Fig. 8 is the amplification stereogram of the E portion among Fig. 4.

Fig. 9 is the amplification view of F-F line in Fig. 4.

Figure 10 is the stereographic map of the rotating disk of the state of having removed the storage bucket of the embodiment of the invention etc.

Figure 11 (A) is the rotation hard disk of the embodiment of the invention 1 and the front view that falls parts, and Figure 11 (B) is the G-G line side cross sectional view along Figure 11 (A).

Figure 12 is the back view of the rotating disk of the embodiment of the invention 1.

Figure 13 is the job description figure that falls parts of the embodiment of the invention 1.

Figure 14 is the job description figure that falls parts of the embodiment of the invention 1.

Figure 15 is the job description figure that falls parts of the embodiment of the invention 1.

Figure 16 is the Action Specification figure that falls parts of the embodiment of the invention 1.

Figure 17 is the Action Specification figure that falls parts of the embodiment of the invention 1.

Figure 18 is the Action Specification figure of the receiving-member of the embodiment of the invention 1.

Figure 19 is the cut-open view identical with Fig. 3 of confinement plate of having removed the Coin hopper of the embodiment of the invention 2.

Figure 20 is the amplification stereogram of H portion among Figure 19.

Figure 21 is the stereographic map of rotating disk etc. of state of having removed the storage bucket of the embodiment of the invention 2.

Figure 22 (A) is the rotating disk of the embodiment of the invention 2 and the amplification front view that falls parts, and Figure 22 (B) is the cut-open view along the I-I cutting line of Figure 22 (A).

Figure 23 is the ejection parts of the embodiment of the invention 2 and the rear view of rotational testing component.

Figure 24 is for seeing the stereographic map of the drop bar of the embodiment of the invention 2 from downside.

Figure 25 is the job description figure that falls parts of the embodiment of the invention 2.

Figure 26 is the job description figure that falls parts of the embodiment of the invention 2.

Figure 27 is the job description figure that falls parts of the embodiment of the invention 2.

Figure 28 is the Action Specification figure that falls parts of the embodiment of the invention 2, and Figure 28 (B) is the K-K line side cross sectional view along Figure 28 (A).

Figure 29 is the Action Specification figure of the receiving-member of the embodiment of the invention 2, (ii) is the L-L line side cross sectional view along (i).

Embodiment

A kind of Coin hopper, the rotating disk that utilization tilts with predetermined angular court, center on the externally mounted part of the lower outer periphery at least of above-mentioned rotating disk, be connected with above-mentioned externally mounted part and with the storage bucket of state storage coin in bulk, the circular bearing support that is positioned at above-mentioned disk upper surface central authorities and gives prominence to about 1 piece of coin thickness, and coin fastening body makes the maintenance face of the above-mentioned disk upper surface between coin and the above-mentioned coin fastening body carry out that face contacts and many pieces of ground receive coins, and it is moved to a direction with above-mentioned branching bolster supporting coin periphery, move midway at this, utilization receives coin from above-mentioned coin fastening body near the coin receiving-member that circumferentially extends to above-mentioned rotating disk the above-mentioned bearing support, wherein, this coin fastening body is at the upper surface of above-mentioned rotating disk, from above-mentioned bearing support one side direction circumferentially uniformly-spaced to be radial extension and to extend to the periphery of above-mentioned rotating disk; It is characterized in that one disposes all face cams at the back side of above-mentioned rotating disk, above-mentioned all face cams have and the relative top of coin fastening body, and, the angle of inclination of both sides, above-mentioned top be with equal angular tilt petal; Above the upstream of above-mentioned coin receiving-member, above-mentioned center of turntable, be provided with to fall coin towards the above-mentioned bearing support application of force and the avoidance of avoiding colliding with above-mentioned coin fastening body move fall parts; Above-mentionedly fall parts and be that the bar that is supported rotationally of fulcrum is integrally formed with the pivot that is configured in rotating disk periphery foreign side, and have the tabular body that the upper surface with respect to above-mentioned rotating disk vertically extends; The cam follower elasticity that is installed on the above-mentioned bar is pushed on above-mentioned all face cams.

Embodiment 1

Fig. 1 is the overall perspective view of the Coin hopper of the embodiment of the invention.

Fig. 2 is the vertical view of the Coin hopper of the embodiment of the invention.

Fig. 3 for the Coin hopper of the embodiment of the invention along the A-A line, to be parallel to the face side cross sectional view of rotating disk.

Fig. 4 is the cut-open view identical with Fig. 3 of having removed confinement plate of the Coin hopper of the embodiment of the invention.

Fig. 5 is the B-B line side cross sectional view along Fig. 2.

Fig. 6 is the C-C line side cross sectional view along Fig. 2.

Fig. 7 is the D-D line side cross sectional view along Fig. 2.

Fig. 8 is the amplification stereogram of E portion among Fig. 4.

The amplification view that Fig. 9 dissects for the F-F line along Fig. 4.

Figure 10 is the stereographic map of the rotating disk of the state of having removed the storage bucket of embodiment of the present invention etc.

Figure 11 (A) is the rotating disk of the embodiment of the invention and the front view that falls parts, and Figure 11 (B) is the G-G line side cross sectional view along Figure 11 (A).

Figure 12 is the back view of the rotating disk of the embodiment of the invention.

Figure 13～15 are the job description figure that falls parts of the embodiment of the invention.

Figure 16～17 are the Action Specification figure that falls parts of the embodiment of the invention.

Figure 18 is the Action Specification figure of the receiving-member of the embodiment of the invention.

Shown in Fig. 1,4,5 and 10, Coin hopper 100 comprises: with the storage bucket 102 of many pieces of coins of state storage in bulk, the struggle against detection part 116, the limiting part 120 that falls parts 118 and coin C of coin C involved in the present invention of ejection parts 114, coin C of receiving-member 112, coin C of driver part 108, coin of 102 mounting seat 104 (with reference to Figure 10), the rotating disk 106 that more than pieces of ground of coin C are separated, rotating disk 106 of this storage fixed in supporting obliquely up.

At first, mainly storage bucket 102 is described with reference to Fig. 1 and Fig. 5.

Storage bucket 102 has with many pieces of coin C of state storage in bulk, and many pieces of coin C is sent to the function of rotating disk 106.

Storage bucket 102 comprises head 102A, is used for coin slot 102B that drops into for coin C and the externally mounted part 102C that connects airtight and center on the lower outer periphery at least of rotating disk 106 with mounting seat 104; Wherein, this head 102A is outstanding to the place ahead of mounting seat 104 (left of Fig. 5), and along with the degree of depth increases near rotating disk 106, in other words, the diapire 122 of this head 102A is downward-sloping towards rotating disk 106.

The angle of inclination of above-mentioned diapire 122 for coin C can owing to deadweight to rotating disk 106 the angle of falling of breakking away.

Head 102A is the open manger shapes of rotating disk 106 sides, disposes mounting seat 104 with tight stationary state in its open end.

Form the pod 124 of narrow width in the place ahead, bottom of the rotating disk 106 of externally mounted part 102C, the coin C that falls is leaned to easily on rotating disk 106.

Pod 124 is formed by longitudinal wall 125, rotating disk 106 and externally mounted part 102C, and wherein, slightly to tilting with rotating disk 106 opposition sides, this rotating disk 106 is connected with externally mounted part 102C and forms this longitudinal wall 125 with respect to the line that is roughly parallel to rotating disk 106; Its width, in other words the interval between the longitudinal wall 125 of the upper surface 126U of rotating disk 106 and storage bucket 102 is set at the diameter less than minimum coin C, and be 5 times～10 times of thickness of maximum ga(u)ge coin C, this is wide more to the rotation direction downstream of rotating disk 106 more at interval.

This is for coin C is erected, and is oblique to rotating disk 106 inclinations again, makes until last piece coin C fastening to following coin fastening body 128, can be paid this coin C.

Externally mounted part 102C is the cylinder annular, with the join near-earth configuration of the periphery of rotating disk 106.

Therefore, the different coin C of diameter with state storage in bulk in storage bucket 102, because deadweight and, moving towards rotating disk 106 along diapire 122 landings of tilting.

In addition, being driven the coin C that rotates by rotating disk 106 is guided and rests on the rotating disk 106 by externally mounted part 102C.

Utilize inclined wall 126 to connect diapire 122 and longitudinal wall 125.

This is in order to make coin C stand on the pod 124 easily and to fall.

Then, mainly mounting seat 104 is described with reference to Figure 10.

Mounting seat 104 has the function of free rotation ground supporting rotating disk 106 grades.

Mounting seat 104 is installed on the securement head 127B of box frame main body 127.

Chassis body 127 comprises: have the 127A of installation foot of horizontal bottom, with respect to the tilt securement head 127B of about 60 degree of the 127A of foot are installed.

In other words, mounting seat 104 with respect to horizontal line tilt about 60 the degree.

The 127A of foot is installed for example is arranged in the game machine, Coin hopper 100 slidably is supported on inside and outside the game machine movably.

Dispose rotating disk 106 in the upper surface 104U of mounting seat 104 side, side is equipped with driver part 108 overleaf.

The angle of inclination of securement head 127B is preferably the scope of 50 degree～70 degree.

This be because: when spending less than 50 at this pitch angle, the memory space of coin C tails off, and when spending greater than 70 at this pitch angle, coin C falls from following coin fastening body 128 easily.

Then, mainly with reference to Fig. 4,5,8,10 explanation rotating disks 106.

Rotating disk 106 has the function that more than pieces of ground of coin C that diameter in bulk is different separate and be transported to receiving-member 112.

Rotating disk 106 is a plectane, is formed with circular central protrusion 132 in central authorities, is formed with the maintenance face 134 of annular around this central protrusion 132, on this maintenance face 134 with the radial coin fastening body 128 that is formed with.

In addition, preferably form the maintenance groove 135 (with reference to Figure 12) of annular at rotating disk 106 back sides, keep configuration taper roller 137 on the groove 135 at this, the load that is applied to the coin C on the rotating disk 106 is born by the upper surface 104U of taper roller 137 by mounting seat 104.

This is in order to save the energy by the rotary resistance that reduces rotating disk 106 and to improve permanance.

Rotating disk 106 is configured in the upper surface 104U side of mounting seat 104 and in parallelly towards tilting, rotates along the counter clockwise direction among Fig. 4.

Preferably, stir the coin C in the storage bucket 102 thus in the upper face center configuration mushroom-shaped protrusion 140 of central protrusion 132.

The periphery of central protrusion 132 is a bearing support 136, and this bearing support 136 and maintenance face 134 approximate vertical are set at the thickness of the thinnest coin that is lower than that hypothesis uses from this maintenance face 134 outstanding amounts.

Bearing support 136 has the function on the maintenance face 134 that only one piece of coin C is remained between the coin fastening body 128.

This is in order to make bearing support 136 can not support 2 pieces of coin C.

Utilize tapered portion 139 to connect bearing support 136 and central protrusion 132.

On tapered portion 139, be formed with hull bottom shape recess 140, make it stir the coin C that store in the bucket 102.

The lower surface that maintenance face 134 and side face are supported the coin C of frame 136 supportings carries out face and contact, has the function of maintenance coin C.

Maintenance face 134 is the annular flat face of the periphery that is formed at central protrusion 132, with respect to horizontal line about 60 degree that tilt.

Coin fastening body 128 connects with the side face of coin C, has the function that promotes coin C.

Coin fastening body 128 for respect to the pivot center of rotating disk 106 uniformly-spaced to be the fixing rib shape raised line of radial formation.

In the present embodiment, coin fastening body 128 is seen as outer end thin trapezoidal (with reference to Fig. 4) from the front and the cross section is trapezoidal (with reference to Fig. 9), utilizes the promotion edge 138 of rotation direction front end to promote coin C.

Promote edge 138 to extending, get final product for promoting coin C apart from the height of this maintenance face 134 with maintenance face 134 rectangular tops.

But under the lower situation of the height that promotes edge 138, the contact pressure of the per unit length when promoting coin C is higher, and therefore, the height that promotes edge 138 is preferably high as much as possible.

But, under this highly high situation more than ormal weight, the length of the rising ramp 142 of following receiving-member 112 usefulness is elongated, and the coin SC of diameter minimum is pulled on this rising ramp 142 when being pushed away by promotion edge 138, and the coin SC of diameter minimum receives body 145 from coin easily and falls.

Therefore, when the coin SC of diameter minimum is pushed by promotion edge 138, preferably promote edge 138 and form in the scope that can not be pulled on the rising ramp 142 high as much as possible.

According to experiment, when being object with the coin of diameter more than 20 millimeters, the height that promotes edge 138 is preferably about 2 millimeters.

As shown in Figure 8, the rotation direction downstream lateral margin 144 of preferred coin fastening body 128 forms with respect to promoting edge 138, and connects with maintenance face 134 simultaneously so that constitute reception edge 146 total lengths of the coin reception body 145 of receiving-member 112.

This is that coin C can not be clamped in maintenance face 134 and coin and receive between the body 145 for when receiving body 145 near maintenance face 134.

The top 147 and the downstream lateral margin 144 of coin fastening body 128 are formed on the ladder inclined-plane 149.

The one side of coin C is carried out face with maintenance face 134 between the adjacent coin fastening body 128 and is contacted and remain on this maintenance face 134.

Therefore, promote between edge 138 and the downstream lateral margin 144 be spaced apart narrower in bearing support 136 sides, along with the shape that enlarges gradually near rotating disk 106 peripheries, it is trapezoidal that maintenance face 134 is handstand with respect to central protrusion 132.

When the coin SC of a diameter minimum of supposing to use was supported frame 136 supportings, the coin C that is set at other diameter minimums was not supported frame 136 supportings (with reference to Figure 11).

In other words, being set at the coin SC that does not have 2 diameter minimums in the position of approaching bearing support 136 carries out face with maintenance face 134 and contacts.

This is in order to prevent owing to 2 pieces of coins of continuing expenditure produce miscount.

Rising ramp 142 has makes coin receive the functions of the reception edge 146 of body 145 in 134 risings along this rising ramp 142 from maintenance face of the end 147 of bearing support 136 sides.

As shown in Figure 8, rising ramp 142 is formed on bearing support 136 and promotes the bight that edge 138 constitutes, be the inclined-plane that tilts to coin fastening body 128 tops from maintenance face 134, when the coin SC of diameter minimum and bearing support 136, when promoting the mutual butt of edge 138, preferred rising ramp 142 is formed in the triangle spaces of above-mentioned three part formations.

Its reason is, when rising ramp 142 is excessive, coin C guiding received under the state of edge 146, and a part of mounting of coin C is to rising ramp 142, and coin C falls from receiving edge 146 easily.

The driver part 108 of rotating disk 106 then, is described with reference to Fig. 5.

Driver part 108 has the function with fixing speed rotating drive rotating disk 106.

In the present embodiment, driver part 108 comprises motor 152 and reductor 154.

Reductor 154 is fixed on the back side of mounting seat 104, and the output gear (not shown) that is fixed on the motor 152 on this reductor 154 is meshed with its input gear.

The output shaft 158 of reductor 154 runs through mounting seat 104, closely inserts and is fixed in the embedded hole 162 of rotating disk 106 central parts.

The receiving-member 112 of coin then, is described with reference to Fig. 8.

Coin receiving-member 112 has makes the coin C that separately transported by the rotating disk 106 many pieces of ground function that circumferentially moves and leave the motion of coin fastening body 128 to rotating disk 106.

In the present embodiment, coin receiving-member 112 is seen as the plate body of pentagon (with reference to Fig. 4) from the front, for following coin receives body 145: be formed on linearity towards the ora terminalis that promotes edge 138 and receive on the edge 146, but the other end floating ground is supported on the floating support parts 174, and utilizes 176 pairs of pars intermedias of force application part to the rotating disk 106 side application of forces.

Receive edge 146 from one extending point-blank to circumferentially being of rotating disk 106 near the bearing support 136, when receiving edge 146 and promotion edge 138 and be positioned at relativeness (coin C between this reception edge 146 and this promotion edge 138 time), the extended line of above-mentioned edge forms acute angle (with reference to Fig. 4).

In other words, as shown in Figure 4, receive edge 146 and be offset upward, face mutually with about total length of the circumferential width of maintenance face 134 with respect to the center of rotating disk 106.

Floating support parts 174 have supporting coin receiving-member 112 makes it can be in specialized range can change the function of posture to either direction up and down.

In detail, coin receives edge 146 and is positioned at position near maintenance face 134, can contact with rising ramp 142 and can cross moving of coin fastening body 128.

In the present embodiment, floating support parts 174 are globe bearing parts 176 (with reference to Fig. 9).

Globe bearing parts 176 are made of spherical axis 182 and globe bearing 184.

Spherical axis 182 forms with storage bucket 102, and is fixed in cover plate 186 upper surfaces that are disposed at rotating disk 106 tops with rotating disk 106 abreast.

Globe bearing 184 receives hemisphere faces body 145 and ends reception edge 146 opposition sides for being formed at coin.

Globe bearing 184 is combined as to hold spherical axis 182 and carry out face with this spherical axis 182 from open end 188 and contacts.

Thus, when receiving edge 146 and push by coin C, to spherical axis 182 applied thrusts, but owing to spherical axis 182 bears this power by face, therefore, the load of per unit area diminishes from globe bearing 184, and permanance is good.

In addition, when being installed on globe bearing 184 on the spherical axis 182,, therefore, having and to make this globe bearing 184 carry out advantage chimeric, that can easily load and unload from open end 188 because globe bearing 184 is semisphere.

Force application part 178 has the function of reception edge 146 to the maintenance face 134 side application of forces, and comprises bolster 192 and spring 194.

Bolster 192 is outstanding upward from cover plate 186, runs through the through hole 195 that coin receives body 145.

Receive configuration spring 194 between body 145 upper surfaces at baffle plate 196 and coin, utilize spring 194 to receive body 145 to cover plate 186 pushing coins, wherein, this baffle plate 196 is installed to bolster 192 upper ends.

Usually, coin receives body 145 and stops rotation by cover plate 186 upper surfaces, the front end that receives edge 146 is kept closer to the position of readiness of maintenance face 134, when on the end that receives edge 146 on rising ramp 142 and coin fastening body 128 time, it is that fulcrum tilts with globe bearing parts 176 that coin receives body 145, when the roughly total length mounting that receives edge 146 is to the top of coin fastening body 128, it is that fulcrum is towards tilting with globe bearing parts 176 that coin receives body 145, when reception edge 146 is crossed coin fastening body 128, stoped rotation and be positioned at above-mentioned position of readiness by cover plate 186.

In addition, cover plate 186 forms with storage bucket 102, and forms abreast with rotating disk 106.

The ejection parts 114 of coin C then, are described with reference to Fig. 4.

The ejection parts 114 of coin C have and will be directed to will receive body 145 and break away from the function that the coin C in rotating disk 106 fields ejects along prescribed direction.

Ejecting parts 114 comprises: ejection roller 202, swing arm 204 and spring 208, and these swing arm 204 supporting ejection rollers 202, this spring 208 is as ejection roller 202 elastic force-applyings are made its force application part 206 near receiving-member 112.

Ejection roller 202 is installed on from mounting seat 104 rear side to axle 212 top that the table side runs through.

Axle 212 is fixed on the swing arm 204, and this swing arm 204 is installed on the stationary shaft of giving prominence to mounting seat 104 back sides 214 freely to rotate.

Utilize an end fastening 208 pairs of swing arms 204 of spring to the teat 207 application of force counterclockwise in Fig. 4, make swing arm 204 fastenings to the stop part 215 (with reference to Fig. 5) that forms by elastic body and remain on position of readiness.

It is outstanding to coin channel 216 inlet sides that ejection roller 202 passes the slotted hole 217 that is formed on the mounting seat 104, this coin channel 216 delimited between mounting seat 104 upper surfaces and cover plate 186, usually, ejection roller 202 remains on coin and receives distance between the peripheral side end 218 of body 145 and rotating disk 106 less than the position of readiness (position of Fig. 4) of the diameter of diameter minimum coin SC.

Thus, when being guided the coin C that receives edge 146 and connecting, upwards push away ejection roller 202, just by after between the above-mentioned parts, utilize the power ejection coin C that is applied to the spring 208 on the ejection roller 202 in diameter portion with peripheral side end 218.

The detection part 116 of coin C then, is described with reference to Fig. 4.

Detection part 116 has the function that detects the coin C that utilizes 114 ejections of ejection parts.

In the present embodiment, configuration detection parts 116 in the coin channel 216 that ejects parts 114 downstreams.

Detection part 116 can use photo-electric, magnetic-type etc., in the present embodiment, uses to have to clip coin channel 216 and the light projector of relative configuration and the penetrating type photoelectric sensor of light-receiving device.

The front end of coin channel 216 is an outlet 222 of coin.

Then, with reference to Fig. 4,10～12, illustrate that coin C's of the present invention falls parts 118.

Fall parts 118 and have following function: arrive receiving-member 112 for fear of overlapping coin C, the coin C on the maintained coin C falls in contacting with 134 in maintenance face to make mounting.

Fall parts 118 and be positioned at the pivot center top of rotating disk 106, and relatively dispose with the periphery of rotating disk 106.

As shown in figure 11, fall parts 118 and be positioned at the general position that is equivalent to clock at 2, constitute maintenance face 134, and can in parallel plane, advance and retreat near rotating disk 106 with respect to rotating disk 106.

Specifically, the drop bar 224 of cross section handstand flute profile is supported on the pivot 255 that is fixed on the mounting seat 104 swingably, promptly on the 2nd stationary shaft 226, can move back and forth in the position of the maintenance face 134 that approaches rotating disk 106, utilization be configured in itself and between the outstanding spring base 104R of mounting seat 104, be subjected to anticlockwise torque as the spring 236 of force application part 234, with 238 fastenings of integrally formed teat to the stop part 240 that is fixed on the mounting seat 104, thereby drop bar 224 is remained on position of readiness SP.

Preferably at stop part 240 peripheries configurations elastic body, produce bounce-back and strike note when preventing to connect with teat 238.

As shown in figure 11, at position of readiness SP, drop bar 224 is configured to its top 224T near bearing support 136, and the diameter of the largest coins LC that this position ratio hypothesis is used is more near bearing support 136.

In other words, contact with drop bar 224 though be supported the periphery of the largest coins LC of frame 136 supportings, the periphery that is supported the minimum coin SC of frame 136 supportings does not contact with drop bar 224.

When the contact edge 228 of bearing support 136 sides was positioned at the circumscribed position of rotating disk 106, forming with rotating disk 106 axle center was the arcuation at center in drop bar 224, and its thickness has at least and surpasses the thickness that carries out the maximum ga(u)ge coin C that face contacts with maintenance face 134.

But, more for a long time, arrive drop bar 224 in the quantity of the coin C of storage agglomeratingly, therefore, as shown in the Examples, preferably with the pivot center of rotating disk 106 abreast, make with ormal weight, for example coin thickness about 20 times with being extended for the eaves shape and to fall plate 230.

When the overlapping arrival of coin C drop bar 224, carry out coin C that face contacts with maintenance face 134 and side face and the drop bar 224 of the coin C of mounting on this coin C connects.

Thus, the coin C of mounting in the top utilizes drop bar 224 to relatively move and fall to oblique below.

But, carry out with maintenance face 134 that face contacts and be supported frame 136 supportings and do not fall by the coin C of bearing support 136 supporting side faces.

Therefore, on the maintenance face 134 between the coin fastening body 128, only keep one piece of coin C with surface contact state.

When the coin SC of diameter minimum arrives drop bar 224 owing to centrifugal force does not contact bearing support 136, utilize drop bar 224 and relatively move to bearing support 136.

At this moment, carry out the coin C that face contacts with maintenance face 134 and be bearing on the bearing support 136, and overlapping coin C is not supported frame 136 supportings, therefore, drop in the storage bucket 102 after being directed to central protrusion 132.

The groove 224G of drop bar 224 is buckled on the periphery of rotating disk 106.

Then, with reference to Figure 11 and Figure 12 the avoidance moving-member 250 that is used to fall parts 118 is described.

Avoid moving-member 250 and have the function of avoiding falling parts 118 and 128 collisions of coin fastening body.

Avoiding moving-member 250 comprises: be formed on the cam 252 at rotating disk 106 back sides and the cam follower 254 integrally formed with drop bar 224.

Cam follower 254 is the lower end of the bar that is positioned at rotating disk 106 rear side of flute profile drop bar 224, and contacts edge 228 and forms identical shaped.

Be formed with reverse inverse cam follower 256 continuously with cam follower 254.

Oppositely cam follower 256 forms the arcuation identical with contacting edge 228, and relative with cam 252.

Then, cam 252 is described.

As Figure 11 and shown in Figure 12, cam 252 is all face cams, and it comprises: rake 260A and 260B as inclined plane part 259 that the position relative with coin fastening body 128 be equivalent to the discharge portion 257 of rotating disk 106 diameters, couple together between in the standby portion 258 between the discharge portion 257, with discharge portion 257 and standby portion 258.

When drop bar 224 was positioned at position of readiness SP, cam follower 254 was relative with standby portion 258, does not contact standby portion 258.

Cam 252 is unitary rotation owing to the rotation of rotating disk 106, by cam follower 254 drop bar 224 and the position of coin fastening body 128 is swung explicitly.

Specifically, when coin fastening body 128 near the time, rake 260A and cam follower 254 connect, therefore, cam follower 254 is to the circumferential rotation of rotating disk 106.

In addition, cam follower 254 connects with discharge portion 257, and drop bar 224 and cam follower 254 unitary rotation are to circumferentially moving of rotating disk 106.

Thus, can prevent that drop bar 224 and coin fastening body 128 from colliding, and improves the permanance of coin fastening body 128.

When discharge portion 257 was passed through, inverse cam follower 256 contacted with rake 260B, therefore, utilized spring 236 that drop bar 224 is rotated towards rotating disk 106 centers, and fastening on the way remains on position of readiness SP to stop part 240.

When rotating disk 106 counter-rotatings, with above-mentioned opposite, inverse cam follower 256 connects with discharge portion 257 after utilizing inclined-plane 260B to rise, and therefore, drop bar 224 does not connect with coin fastening body 128.

The limiting part 120 of coin C then, is described with reference to Fig. 3, Fig. 5～Fig. 7.

Limiting part 120 has the function of restriction from the amount of the coin C of storage bucket 102 under rotating disk 106 effluents.

Limiting part 120 is the confinement plate 244 that is positioned at the dead ahead of rotating disk 106, is can be mounted by be inserted in the installation shaft (not shown) of side, upper end formation in the circular port of the sidewall upper portion that is formed at storage bucket 102 with freely swinging

Usually, the side edge part lower surface fastening of confinement plate 224 is on the stop part 245 outstanding from storage bucket 102 inner faces, and is static at following position of readiness.

About 2/3 upper section 244A and rotating disk 106 of confinement plate 244 tops dispose abreast, and the bottom is divided into towards the upstream portion 244U of the rotation direction upstream of rotating disk 106 and downstream part 244D.

The lower end of upstream portion 244U constitutes the inclined guide surface 262 towards rotating disk 106 inclinations.

Interval between 244D lower end, downstream part and the maintenance face 134 is set at about 1 times of coin diameter of diameter minimum.

Thus, limited coin C significantly with respect to the quantity that rotating disk 106 flows down, utilized coin fastening body 128 to carry out the fastening of coin C reliably, this rotating disk 106 is relative with limiting part 120.

The lower end of downstream part 244D is with respect to upper portion 244A bending, form with the angle tilt of about 70 degree of horizontal line.

Thus, more coin C partly flows down with respect to the downstream position of the rotation direction of rotating disk 106, and the easy fastening of coin C is to coin fastening body 128.

Therefore, the coin C that quantity is restricted can be between confinement plate 244 and rotating disk 106, and the easy fastening of coin C is restricted to the quantity on the coin fastening body 128.

Then, with reference to Figure 13～Figure 17, the effect of the Coin hopper 100 of present embodiment is described.

The coin C of diameter more than 20 millimeters and below 30 millimeters mixes to be present in the storage bucket 102 and with state in bulk and is stored.

Rotating disk 106 rotates to the counter clockwise direction of Fig. 4, stirs the coin C in rotating disk 106 the place aheads, makes its fastening to coin fastening body 128.

The lower surface of the coin C of fastening to the coin fastening body 128 carries out face with maintenance face 134 and contacts, when being positioned at the lower position at rotating disk 106 centers, the tendency that moves to rotating disk 106 periphery directions owing to conduct oneself with dignity is arranged, therefore, be directed to the side face of externally mounted part 102C and move to the clockwise direction of Fig. 4.

When coin C is positioned at the pivot center of rotating disk 106 when upper, coin C since deadweight to bearing support 136 side rolls and by bearing support 136 supportings lateral circle surface down, and utilize and promote edge 138 pushings and make it to counterclockwise moving.

When coin C overlapping the time, by bearing support 136 supportings lower than the thinnest coin thickness, therefore, this upside coin C does not fall to storage bucket 102 the coin C of upside, between coin fastening body 128, on maintenance face 134, only keep one piece of coin C (with reference to Figure 13) with surface contact state.

When rotating disk 106 further rotated, coin C arrived and falls parts 118.

The contact edge 228 of drop bar 224 contacts with the outer peripheral edges of the coin LC of diameter maximum, and coin C is pressed to bearing support 136 sides, the coin LC of this diameter maximum and bearing support 136 and promote edge 138 connect (with reference to Figure 14).

Thus, carry out coin C that face contacts by bearing support 136 supportings with maintenance face 134, but mounting in the coin C of this coin C upper surface without any supporting, therefore, in storage bucket 102, fall (with reference to Figure 17 (B)).

In addition, when the coin SC that diameter is little arrives drop bar 224 owing to centrifugal force is not supported frame 136 supportings (with reference to Figure 14), carry out coin C that face contacts with maintenance face 134 and in mounting in the coin C of this coin C upper surface by contact edge 228 pushings of drop bar 224, to support 136 side shiftings.

The coin C of downside is supported frame 136 supportings, but the coin C of upside falls in storage bucket 102 owing to be not supported same as described abovely.

Therefore, only supply with one piece of coin C to coin receiving-member 112.

In addition, cam 252 rotates (with reference to Figure 13 (B)) integratedly with the rotation of rotating disk 106.

Thus, when coin fastening body 128 approached drop bar 224, coin C was pushed to by the inclined-plane 260A of cam follower 254, to the circumferential rotation (with reference to Figure 14 (B)) of rotating disk 106.

Then, cam follower 254 contacts with the discharge portion 257 of cam 252, and the periphery that coin C is pushed to rotating disk 106 is the outside (with reference to Figure 15 (B)) slightly.

Then, because the inclined-plane 260B of cam 252 is relative with cam follower 254, therefore, the elastic force that utilizes spring 236 is to inclined-plane 260B pushing drop bar 224, and therefore, drop bar 224 also one moves and rotates to equidirectional.

Rotate midway at it, projection 238 fastenings remain on position of readiness SP (with reference to Figure 13 (A)) to stop part 240.

When the front end of the coin C that is promoted by coin fastening body 128 contacts with the reception edge 146 of coin reception body 145, even when keeping the coin SC of diameter minimum, promoting edge 138 also is acute angle (with reference to Figure 18 Aa) with the extended line angulation that receives edge 146.

Therefore, the coin SC of diameter minimum is pushed edge 138 pushings and moves, moves to the circumferential of rotating disk 106 along receiving edge 146.

When the coin SC of diameter minimum approached end 218, the coin SC of diameter minimum upper end contacted with ejection roller 202 and it is pushed to (with reference to Figure 18 Ba).

When the coin SC of diameter minimum contacted with the top of end 218, because ejection roller 202 is positioned at the relative dead ahead of diameter portion with the coin SC of diameter minimum, therefore, the coin C of diameter minimum was not also ejected.

At this moment, the end in bearing support 136 sides of coin receiving-member 112 is gone up on the rising ramp 142 some a little, receives edge 146 and begins tilt (with reference to Figure 18 Bb) slightly with respect to maintenance face 134.

But, because peripheral side end 218 is away from the end, therefore, the actual same position that keeps.

When rotating disk 106 further rotated, the diameter portion of minimum coin SC was by between end 218 and the ejection roller 202, and therefore, ejection roller 202 utilizes the elastic force of spring 208 to eject this coin SC (with reference to Figure 18 Ca) to coin channel 216.

Paid to assigned position from an outlet 222 by the coin SC that ejected.

On receiving edge 146 to rising ramp 142 time (with reference to Figure 18 Cb), it is relative with the top of coin fastening body 128 to receive edge 146, and connect with it (with reference to Figure 18 Ca) with acute angle, therefore, the top 147 that utilizes the further rotation of rotating disk 106 to cross coin fastening body 128.

Receive edge 146 and cross after the top 147 of coin fastening body 128, connect with falling ramp 149.

Near maintenance face 134, at downstream lateral margin 144 places, the total length that receives edge 146 is simultaneously near maintenance face 134 along falling ramp 149 for reception edge 146.

Thus, even when coin C leans on falling ramp 149, owing to receive the downside that edge 146 is positioned at coin C, therefore, also coin C can be pushed to it is fallen in storage bucket 102.

Therefore, coin C can not be sandwiched between coin receiving-member 112 and the rotating disk 106.

The coin C that utilizes detection part 116 to detect by coin channel 218, detection part 116 output detection signals.

Detection signal is used in the counting etc. of the coin C of expenditure.

Even be the big coin of diameter, above-mentioned effect is also identical.

If when detecting rotating disk 106 and not rotating in required time, utilize motor 152 to drive rotating disks 106, so rotating disk 106 reverse.

When rotating disk 106 counter-rotating, with before coin fastening body 128 contacts, after inverse cam follower 256 contacts with inclined-plane 260B and is pushed up, contact with discharge portion 257 in drop bar 224.

Thus, drop bar 224 moves similarly, therefore, can not contact with coin fastening body 128, can make rotating disk 106 counter-rotatings.

Embodiment 2

Figure 19 is the cut-open view identical with Fig. 4 of having removed confinement plate of the Coin hopper of the embodiment of the invention 2.

Figure 20 is the amplification stereogram of I portion among Figure 19.

Figure 21 is the stereographic map of the rotating disk of the state of having removed the storage bucket of the embodiment of the invention 2 etc.

Figure 22 (A) is the rotating disk of the embodiment of the invention 2 and the enlarged front view that falls parts, (B) is J-J line side cross sectional view in (A).

Figure 23 is the ejection parts of the embodiment of the invention 2 and the rear view of rotational testing component.

Figure 24 is for seeing the stereographic map of the drop bar of the embodiment of the invention 2 from downside.

Figure 25～27 are the job description figure that falls parts of the embodiment of the invention 2.

Figure 28 is the Action Specification figure that falls parts of the embodiment of the invention 2, (B) is along (A) middle K-K line side cross sectional view.

Figure 29 is the Action Specification figure of the receiving-member of the embodiment of the invention 2, (ii) is along (i) middle L-L line side cross sectional view.

The part identical with embodiment 1 adopts same-sign, and different structures is described.

The promotion edge 138 of coin fastening body 128 is preferably the thickness that is lower than the thinnest coin C apart from the height of maintenance face 134.

Even this is for when using the thinnest coin C, also has only and carry out the coin C that face contact with maintenance face 134 and be pushed edge 138 (coin fastening body 128) promotion.

In other words, this be for can not two pieces the thinnest coin C overlapping one be pushed edge 138 and promote.

But the height that promotes edge 138 also can be higher than the thickness of thin coin.

Its reason is, because bearing support 136 is lower than the thickness of thin coin, therefore, mounting is not supported frame 138 supportings and falls in maintenance groove 102 in carrying out coin C on the coin C that face contact with maintenance face 134.

In addition, contact with metallic coin C, therefore need have permanance owing to promote edge 138.

Therefore, by ester moulding rotating disk 106 time, preferably the starfish appearance sheet metal is embedded rotating disk 106 and moulding, metal part is exposed promoted edge 138.

Then, with reference to Figure 19,21,23 and 24, illustrate the embodiment of the invention 2 coin C fall parts 118.

Fall parts 118 and have for fear of arriving receiving-member 112 carrying out coin C overlapping on the coin C that face contacts with maintenance face 134, and the function that overlapping coin C is fallen in storage bucket 102.

Fall parts 118 and be positioned at the upstream of receiving-member 112, and be positioned at the pivot center top of rotating disk 106, and relatively dispose with the periphery of rotating disk 106.

As shown in figure 22, fall parts 118 and be positioned at respect to rotating disk 106 and be equivalent to the about position of clock at 2, the maintenance face 134 that constitutes rotating disk 106 near and can in parallel plane, advance and retreat.

Specifically, shown in Figure 22 (B), the drop bar 224 of cross section handstand flute profile is supported on the pivot 223 that is fixed on the mounting seat 104 swingably, promptly on the 2nd stationary shaft 226, can move back and forth in position near the maintenance face 134 of rotating disk 106, utilization be configured in itself and between the outstanding spring base 104R of mounting seat 104, bear anticlockwise torque as the spring 236 of force application part 234, with 238 fastenings of integrally formed teat to the stop part 240 that is fixed on the mounting seat 104, thereby, drop bar 224 is remained on position of readiness SP.

Preferably, prevent from when connecting, to produce bounce-back and strike note with teat 238 at stop part 240 peripheries configuration elastic body.

Drop bar 224 is formed with the 1st side face pushing part 224A and the 2nd side face pushing part 224B.

Shown in Figure 22 (B), in drop bar 224 and the cross section length direction quadrature, by back face wall 225R, surface wall 225F and connect back face wall 225R and the 225T that faces the wall and meditates in week of the rotating disk side face side of surface wall 225F is formed with tunnel slot 225G, wherein, this back face wall 225R is positioned at the rear side of rotating disk 106, and this surface wall 225F is positioned at the position that separates the interval thinner than the thinnest coin thickness with maintenance face 134 sides.

The periphery that the maintenance face of rotating disk 106 is 134 ones can advance to tunnel slot 225G.

When the periphery of rotating disk 106 was arranged in tunnel slot 225G, the 1st side face pushing part 224A and the 2nd side face pushing part 224B were relative with maintenance face 134.

In other words, the 1st side face pushing part 224A and the 2nd side face pushing part 224B are positioned at the top of maintenance face 134.

Surface wall 225F is at the ora terminalis of bearing support 136 sides, when promptly the 1st side face pushing part 224A is positioned at roughly with the circumscribed position of rotating disk 106, and the axle center that forms with rotating disk 106 is the arcuation at center.

The 1st side face pushing part 224A be parallel to rotating disk 106 pivot center ground, be equivalent to about 2 pieces the length of the amount of thickness of thin coin extend to maintenance face 134 tops.

In the top ends of drop bar 224, the 2nd side face pushing part 224B than the 1st side face pushing part 224A more away from maintenance face 134, and be parallel to rotating disk 106 pivot center ground, extend with the about 5 times length of the 1st side face pushing part 224A.

In the present embodiment, utilize connecting wall 225C that the 2nd side face pushing part 224B and the 1st side face pushing part 224A are linked up.

Since the 2nd side face pushing part 224B than the 1st side face pushing part 224A more near bearing support 136, therefore, even when the 1st side face pushing part 224A was pushed near the periphery of rotating disk 106 by coin, the 2nd side face pushing part 224B was also relative with maintenance face 134 above maintenance face 134.

For coin is successfully dropped in the storage bucket 102, the 2nd side face pushing part 224B utilizes circular arc edge 225P to be connected with the 1st side face pushing part 224A.

The ratio circular arc edge 225P of drop bar 224 forms the expansion face 225E of the 1st side face pushing part 224A by the part of the 2nd stationary shaft 226 sides.

In other words, the 2nd side face pushing part 224B is outstanding downwards from expansion face 225E is the triangle taper.

As shown in figure 11, at position of readiness SP, drop bar 224 is configured to its 1st side face pushing part 224A near bearing support 136, and this position is that the largest coins LC diameter that uses than hypothesis is more near the position of bearing support 136.

In other words, though contacted with the 1st side face pushing part 224A by the periphery of the largest coins LC of bearing support 136 supporting, the periphery of the minimum coin SC that is supported by bearing support 136 does not contact with the 1st side face pushing part 224A.

In addition, one side and maintenance face 134 carry out the below that coin C that face contact can pass through the 2nd side face pushing part 224B, are transferred with rotating disk 106.

When maximum gauge coin LC was supported frame 136 supportings, the 1st side face pushing part 224A flexibly contacted with the side face of coin C and pushes this coin LC to bearing support 136.

When coin C is bulk ground and arrives drop bar 224 overlappingly, the coin C of the coin C top, below of carrying out that face contacts with maintenance face 134 falls it by the 2nd side face pushing part 224B, in detail by the central side pushing of circular arc edge 225P to rotating disk 106 in storage bucket 102.

But, carry out with maintenance face 134 that face contacts and side face by the below coin C of bearing support 136 supportings by bearing support 136 supportings and do not fall.

Therefore, on the maintenance face 134 between the coin fastening body 128, only keep one piece of coin C with surface contact state.

When the coin SC of diameter minimum arrives drop bar 224 owing to centrifugal force does not contact bearing support 136, utilize the 1st side face pushing part 224A to relatively move to bearing support 136.

At this moment, carry out coin C that face contacts by bearing support 136 supportings with maintenance face 134, therefore not supported 136 supporting of overlapping coin C, be directed to central protrusion 132 and fall in the storage bucket 102.

Then, with reference to Figure 22 (B) and Figure 12, the avoidance moving-member 250 that is used to fall parts 118 is described.

Avoiding moving-member 250 has and avoids falling parts 118, the 1st side face pushing part 224A and coin fastening body 128 function of colliding mutually specifically.

Avoid moving-member 250 and comprise the cam that is formed at rotating disk 106 back sides, specifically all face cams 252 and cam follower 254, this cam follower 254 is abreast to the side-prominent ormal weight in the back side and integrally formed from the pivot center of the back face wall 225R of drop bar 224 and rotating disk 106.

Then, all face cams 252 are described.

As shown in figure 12, cam 252 is all face cams, and it comprises: the position relative with coin fastening body 128 be equivalent to the discharge portion 257 of the diameter of rotating disk 128, in the standby portion 258 between the discharge portion 257 and rake 260A and the 260B as the inclined plane part 259 that couple together between with discharge portion 257 and standby portion 258.

When drop bar 224 was positioned at position of readiness SP, cam follower 254 was relative with standby portion 258, did not contact with standby portion 258.

Cam 252 utilizes the rotation of rotating disk 106 and unitary rotation, makes drop bar 224 relevant with the position of coin fastening body 128 and swing by cam follower 254.

Specifically, if coin fastening body 128 is approaching, then rake 260A and cam follower 256 connect, and therefore, cam follower 254 rotates in the mode that circumferentially moves to rotating disk 106.

In addition, cam follower 254 connects with discharge portion 257, and drop bar 224 is rotated integratedly with it, to circumferentially moving of rotating disk 106.

Thus, can prevent that the 1st side face pushing part 224A from colliding mutually with coin fastening body 128, can seek to improve the permanance of coin fastening body 128.

When discharge portion 257 was passed through, inverse cam follower 256 contacted with rake 260B, therefore, utilized spring 236 that drop bar 224 is rotated to the center of rotating disk 106, and fastening holds it in position of readiness SP to stop part 240 halfway.

When rotating disk 106 counter-rotatings, with above-mentioned opposite, inverse cam follower 256 connects with discharge portion 257 after being pushed to by inclined-plane 260B, and therefore, the 1st side face pushing part 224A does not connect with coin fastening body 128.

Then, with reference to Figure 23, the rotational testing component 119 of rotating disk 106 is described.

Rotational testing component 119 has the function that detects rotating disk 106 rotations.

Rotational testing component 119 comprises effect sheet 272, sensor 274 and decision circuitry 276.

Effect sheet 272 extends to the rear side of mounting seat 104 from the slotted hole 278 that the back face wall 225R of drop bar 224 begins to run through mounting seat 104.

Sensor 274 has detection and has or not the function that acts on sheet 272, and is fixed in the back side of mounting seat 104 by carriage 282.

Sensor 274 is for example penetrating type photoelectric sensor, and when effect sheet 272 cut off projection light from light-projecting portion, sensor 274 output detection signals were exported non-detection signal when light accepting part receives projection light.

Decision circuitry 276 is by motor 152 power supply and can not be with predetermined rule output detection signal and non-detection signal the time, the output abnormality signal.

For example, more than 6 seconds from detection signal to non-detection signal or from non-detection signal when the signal of detection signal does not change, decision circuitry 276 output abnormality signals.

When the output abnormality signal, the control assembly (not shown) that has received from the abnormal signal of decision circuitry 276 stops to prevent that to motor 152 power supplies motor 152 is overheated.

The effect of the Coin hopper 100 of present embodiment then, is described with reference to Figure 25～Figure 29.

Diameter more than 20 millimeters and the coin below 30 millimeters be mixed in the storage bucket 102, a kind of coin C in the perhaps above-mentioned scope is stored with state in bulk.

Rotate to the counter clockwise direction of Fig. 4 by rotating disk 106, stir the coin C in rotating disk 106 the place aheads, make this coin C fastening to coin fastening body 128.

The lower surface of the coin C of fastening to the coin fastening body 128 carries out face with maintenance face 134 and contacts, when coin C is positioned at the lower position at rotating disk 106 centers, the tendency that moves to rotating disk 106 periphery directions owing to conduct oneself with dignity is arranged, therefore, on one side coin C is directed to the clockwise direction of side face one edge Fig. 4 of externally mounted part 102C moves.

When coin C is positioned at pivot center upper of rotating disk 106,, and make it to counterclockwise moving by promoting edge 138 pushings because deadweight is to bearing support 136 side rolls and by bearing support 136 supportings lateral circle surface down.

When coin C is overlapping, upside coin C is not subjected to thickness less than bearing support 136 supportings of thin coin thickness, therefore, drops in the storage bucket 102, between coin fastening body 128, on maintenance face 134, only keep one piece of coin C (with reference to Figure 25 (A)) with surface contact state.

Thus, carry out coin C that face contacts by bearing support 136 supportings with maintenance face 134, but mounting thereon the coin C on surface owing to, therefore, drop in the storage bucket 102 (with reference to Figure 25 (A)) without any supporting.

When the measure-alike two pieces of overlapping arrival of coin C drop bar 224, above-mentioned coin C can two pieces overlapping the below by the 2nd side face pushing part 224B, but same as described above, upside coin C is owing to be subjected to bearing support 136 supportings, therefore, drop in the storage bucket 102 (Figure 29).

When rotating disk 106 further rotated, coin C arrived and falls parts 118.

The 1st side face pushing part 224A of drop bar 224 contacts with the coin LC outer peripheral edges of the diameter maximum that is connected to bearing support 136 and promotion edge 138, drop bar 224 is rotated for axial clockwise direction with the 2nd stationary shaft 226, and coin C is pushed to bearing support 136 sides (with reference to Figure 26 (A)) as a result.

In addition, when minor diameter coin SC arrives drop bar 224 owing to centrifugal force is not supported frame 136 supportings (with reference to Figure 26), with maintenance face 134 carry out minor diameter coin SC that face contacts and mounting thereon the minor diameter coin SC of side by the 1st side face pushing part 224A pushing of drop bar 224, to bearing support 136 side shiftings.

Downside coin C is by bearing support 136 supportings, but upside coin C drops to owing to be not supported in the storage bucket 102 same as described abovely.

In addition, be bulk when mobile simultaneously when carrying out coin C that face contacts and overlapping above it a plurality of coin C with maintenance face 134, utilize the 2nd side face pushing part 224B to stop overlapping coin C to move, this overlapping coin C is dropped in the storage bucket 102 of central protrusion 132 sides.

Especially in the present embodiment, because the 2nd side face pushing part 224B is the circular arc edge 225P of broad warp, therefore, overlapping coin C successfully changes moving direction and drops in the storage bucket 102 to central protrusion 132 sides.

Therefore, only supply with one piece of coin C to coin receiving-member 112.

On the other hand, cam 252 rotates integratedly with rotating disk 106, and when coin fastening body 128 during near drop bar 224, cam follower 254 is pushed to by inclined-plane 260B, makes the circumferential rotation (with reference to Figure 26 (B)) of drop bar 224 to rotating disk 106.

Then, cam follower 254 contacts with the discharge portion 257 of cam 252, and the 1st side face pushing part 224A is pushed to the outside (with reference to Figure 27 (B)) slightly of rotating disk 106 peripheries.

When rotating disk 106 further rotated, the inclined-plane 260A of cam 252 was relative with cam follower 254, therefore, utilized the elastic force of spring 236 to push drop bar 224 to inclined-plane 260A, therefore, make drop bar 224 also one move, rotate to equidirectional.

Rotate midway at this, projection 238 fastenings remain on position of readiness SP (with reference to Figure 26 (A)) to stop part 240.

When the front end by the coin C that falls parts 118 and promoted by coin fastening body 128 contacts with the reception edge 146 of coin reception body 145, even when keeping the coin SC of diameter minimum, promote edge 138 and also be acute angle (with reference to Figure 29 Ai) with the angle that extended line constituted that receives edge 146.

Therefore, the coin SC of diameter minimum moves along receiving edge 146 by promoting edge 138 pushings, to circumferentially moving of rotating disk 106.

As the coin SC of diameter minimum during near end 218, the coin SC upper end of diameter minimum contacts with ejection roller 202 and it is pushed to (with reference to Figure 29 Bi).

When the coin SC of diameter minimum contacted with 218 tops, end, ejection roller 202 was positioned at the relative dead ahead of diameter portion with the coin SC of diameter minimum, and therefore, the coin C of diameter minimum is not also ejected.

At this moment, coin receiving-member 112 is gone up on the rising ramp 142 slightly in the end of bearing support 136 sides, receives edge 146 and begins tilt (with reference to Figure 29 B mouth) slightly with respect to maintenance face 134.

But, because peripheral side end 218 is away from the end, therefore, the actual same position that keeps.

When rotating disk 106 further rotated, the diameter portion of minimum coin SC was by between end 218 and the ejection roller 202, and therefore, ejection roller 202 utilizes the elastic force of spring 208 to eject this coin SC (with reference to Figure 29 Ci) to coin channel 216.

The coin SC that ejects pays to assigned position from an outlet 222.

On receiving edge 146 to rising ramp 142 time (with reference to Figure 29 Cii), it is relative with the top of coin fastening body 128 and be connected (with reference to Figure 29 Ci) with it with acute angle to receive edge 146, therefore, by the further rotation of rotating disk 106, cross the top 147 of coin fastening body 128.

Receive edge 146 and cross after the top 147 of coin fastening body 128, connect with falling ramp 149.

Near maintenance face 134, at downstream lateral margin 144 places, the total length that receives edge 146 is simultaneously near maintenance face 134 along falling ramp 149 for reception edge 146.

Thus, even when coin C leans on falling ramp 149, owing to receive the downside that edge 146 is positioned at coin C, therefore, also coin C can be pushed to it is dropped in the storage bucket 102.

Therefore, coin C can not be sandwiched between coin receiving-member 112 and the rotating disk 106.

The coin C that utilizes detection part 116 to detect by coin channel 218, detection part 116 output detection signals.

The counting of the coin C that detection signal is used to pay etc.

Even be the big coin of diameter, above-mentioned effect is also identical.

If when detecting rotating disk 106 and not rotating in required time, motor 152 drives rotating disk 106 by not shown control loop, therefore makes rotating disk 106 counter-rotatings.

When rotating disk 106 counter-rotating, with before coin fastening body 128 contacts, inverse cam follower 256 contacts and is pushed up with inclined-plane 260B and contacts with discharge portion 257 afterwards in drop bar 224.

Thus, drop bar 224 moves similarly, and therefore, drop bar 224 can not connect with coin fastening body 128, can make rotating disk 106 counter-rotatings.

The effect of rotational testing component 119 then, is described.

When rotating disk 106 was just changeing, as mentioned above, drop bar 224 was swung with specified period by the discharge portion 257 of cam 252.

Specifically, when standby portion 258 and cam follower 254 are relative, because effect sheet 272 cuts off the projection light of sensors 274, therefore, output detection signal.

When cam follower 254 and discharge portion 257 were relative, the counter clockwise direction of drop bar 224 in Figure 24 rotated, and therefore, effect sheet 272 does not cut off the projection light of sensor, the non-detection signal of sensor 274 outputs.

Therefore, when rotating disk 106 was just changeing, sensor was with specified period output detection signal and non-detection signal.

In addition, when rotating disk 106 counter-rotatings, sensor is equally with specified period output detection signal and non-detection signal.

When rotating disk 106 did not rotate, when perhaps rotating with extremely low speed, sensor can be with specified period output detection signal and non-detection signal.

For example, when more than 6 seconds not from " detection signal " to " non-detection signal " or from " non-detection signal " when " detection signal " changes, the rotation of judging rotating disk 106 is unusually, the output abnormality signal.

By this abnormal signal, stop motor 152 is powered.

Claims (15)

1. Coin hopper, the rotating disk (106) that utilization tilts with predetermined angular court, center on the externally mounted part (102C) of the lower outer periphery at least of above-mentioned rotating disk, be connected with above-mentioned externally mounted part and with the storage bucket (102) of state storage coin in bulk, the circular bearing support (136) that is positioned at above-mentioned disk upper surface central authorities and gives prominence to about 1 piece of coin thickness, and coin fastening body (128) makes the maintenance face (134) of the above-mentioned disk upper surface between coin and the above-mentioned coin fastening body carry out that face contacts and many pieces of ground receive coins, and it is moved to a direction with above-mentioned branching bolster supporting coin periphery, move midway at this, utilization receives coin from above-mentioned coin fastening body near the coin receiving-member (112) that circumferentially extends to above-mentioned rotating disk the above-mentioned bearing support, wherein, this coin fastening body (128) is at the upper surface of above-mentioned rotating disk, from above-mentioned bearing support one side direction circumferentially uniformly-spaced to be radial extension and to extend to the periphery of above-mentioned rotating disk; It is characterized in that,

Above the upstream of above-mentioned coin receiving-member, above-mentioned center of turntable, be provided with to coin towards the above-mentioned bearing support application of force and the avoidance of avoiding colliding with above-mentioned coin fastening body move fall parts (118).

2. Coin hopper according to claim 1, it is characterized in that, the above-mentioned parts that fall comprise the 1st side face pushing part (224A) and the 2nd side face pushing part (224B), the 1st side face pushing part can and above-mentioned disk upper surface between separate than bigger the moving of the thickest coin thickness with being parallel to above-mentioned upper surface with gap, the avoidance that the 1st side face pushing part is avoided colliding with above-mentioned coin fastening body is moved, the 2nd side face pushing part can and above-mentioned upper surface between separate than the gap between above-mentioned the 1st side face pushing part and the above-mentioned upper surface and move the compartment of terrain of the amount of thick coin thickness greatly with being parallel to above-mentioned upper surface, and, even because above-mentioned avoidance is moved when not relative with above-mentioned upper surface, the position relative with above-mentioned upper surface also continued to be positioned in the 2nd side face pushing part in above-mentioned the 1st side face pushing part.

3. Coin hopper according to claim 2 is characterized in that, above-mentioned the 1st side face pushing part and the 2nd side face pushing part are integrally formed.

4. Coin hopper according to claim 1 is characterized in that, above-mentionedly falls the parts utilization and is formed at cam (252) on the above-mentioned rotating disk and avoids and moving to avoid this to fall parts and above-mentioned coin fastening body connects.

5. Coin hopper according to claim 2 is characterized in that, above-mentionedly falls the parts utilization and is formed at cam (252) on the above-mentioned rotating disk and avoids and moving to avoid this to fall parts and above-mentioned coin fastening body connects.

6. Coin hopper according to claim 4 is characterized in that, above-mentioned cam is all face cams that are configured in above-mentioned rotating disk rear side.

7. Coin hopper according to claim 5 is characterized in that, above-mentioned cam is all face cams that are configured in above-mentioned rotating disk rear side.

8. Coin hopper according to claim 6, it is characterized in that, the position relative with above-mentioned coin fastening body of above-mentioned cam is positioned at away from the top (257) of center of rotation, and both sides, above-mentioned top are formed by the inclined plane part (259) with roughly the same angle tilt.

9. Coin hopper according to claim 7, it is characterized in that, the position relative with above-mentioned coin fastening body of above-mentioned cam is positioned at away from the top (257) of center of rotation, and both sides, above-mentioned top are formed by the inclined plane part (259) with roughly the same angle tilt.

10. according to each described Coin hopper in the claim 1,4,6,8, it is characterized in that, above-mentionedly fall parts and be that the bar (224) that is supported rotationally of fulcrum is integrally formed with the pivot (226) that is configured in rotating disk periphery foreign side, and have the tabular body (230) that the upper surface with respect to above-mentioned rotating disk vertically extends.

11. according to each described Coin hopper in the claim 2,3,5,7,9, it is characterized in that, above-mentionedly fall parts and be that the bar (224) that is supported rotationally of fulcrum is integrally formed with the pivot (226) that is configured in rotating disk periphery foreign side, and have the tabular body (230) that the upper surface with respect to above-mentioned rotating disk vertically extends.

12., it is characterized in that above-mentioned the 2nd side face pushing part has the arcuation edge (225P) that connects with the periphery that is supported on the metal coin on the rotating disk according to claim 2 or 3 described Coin hoppers.

13. according to each described Coin hopper in the claim 5,7,9, it is characterized in that, be provided with the detection part (119) that moves that is used to detect above-mentioned the 1st side face pushing part.

14. Coin hopper according to claim 11 is characterized in that, is provided with the detection part (119) that moves that is used to detect above-mentioned the 1st side face pushing part.

15. Coin hopper according to claim 12 is characterized in that, is provided with the detection part (119) that moves that is used to detect above-mentioned the 1st side face pushing part.

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