EP1739633A1 - Münzvereinzelungsgerät - Google Patents
Münzvereinzelungsgerät Download PDFInfo
- Publication number
- EP1739633A1 EP1739633A1 EP06116468A EP06116468A EP1739633A1 EP 1739633 A1 EP1739633 A1 EP 1739633A1 EP 06116468 A EP06116468 A EP 06116468A EP 06116468 A EP06116468 A EP 06116468A EP 1739633 A1 EP1739633 A1 EP 1739633A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- stirring member
- rotary disc
- coin
- storage bowl
- axial line
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
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Classifications
-
- G—PHYSICS
- G07—CHECKING-DEVICES
- G07D—HANDLING OF COINS OR VALUABLE PAPERS, e.g. TESTING, SORTING BY DENOMINATIONS, COUNTING, DISPENSING, CHANGING OR DEPOSITING
- G07D9/00—Counting coins; Handling of coins not provided for in the other groups of this subclass
- G07D9/008—Feeding coins from bulk
Definitions
- the present invention relates to a coin hopper that separates and dispenses coins one by one by means of a rotary disc.
- the present invention relates to a coin hopper that prevents occurrence of coin bridge (the phenomenon that coins clump to form a space above the rotary disc) by means of simple equipment.
- coin bridge the phenomenon that coins clump to form a space above the rotary disc
- coin is a collective term for circular discs such as currency and tokens.
- the first conventional art faces the problem that a coin bridge cannot be prevented when a coin bridge is formed using a wall surface of storage bowl other than the rotary circular plate as a scaffold.
- the second conventional art faces the problem that the position of the wall surface which is elastically supported balances with the weight of coin or the like so that it becomes substantially a stationary wall and fails to eliminate coin bridges.
- the third conventional art is advantageous in that the coin being in contact with a lower wall surface of holder is actively moved because the lower wall surface moves along a predetermined length, so that a scaffold for coin bridge is not formed and hence coin bridge does not occur.
- the belt is disposed right above the rotary disc, and receives weights of plenty of coins, a problem of large consumed energy for driving the belt arises.
- the belt is driven by a common driving mechanism for the rotary disc, the belt is attached to an upper part of the rotary disc integrally with the rotary disc.
- a coin hopper which dispenses coins one by one via a rotary disc disposed below a coin storage bowl, wherein an outer circumferential face of a stirring member adapted to rotate around an axial line which is substantially parallel with a rotation axial line of the rotary disc forms a part of an inner wall of the storage bowl.
- the present invention prevents coin bridges in a storage bowl without significantly increasing the energy consumption.
- the present invention also provides a coin hopper having a coin bridge preventing function that enables easy response to troubles of rotary disc.
- a part of the outer circumferential face of the stirring member forms a part of an inner wall of the storage bowl.
- the stirring member is rotated about an axial line which is substantially parallel with the rotation axial line of the rotary disc.
- the coin in the storage bowl that is in contact with the circumferential face of the actively moving stirring member is actively moved by the friction force with the stirring member.
- the stirring member extends linearly from bottom to top of the storage bowl.
- the stirring member will not be subject to most of the weight of the coins in the storage bowl because it is in linear contact with the coins.
- the stirring member rotates about an axial line which is substantially parallel with the rotation axial line of the rotary disc.
- This provides an advantage of applicability in a small coin hopper because only a space that is enough for the stirring member to rotate about the axial line is required.
- the stirring member is preferably in the form of a drum in which diameter at the center is larger than those at both ends in the coin hopper.
- the stirring member is in the form of a drum in which diameter at the center is larger than those at both ends, the coin is moved two-dimensionally because it receives a moving force toward the rotation axial line of the rotary disc, as well as a moving force of a lateral direction which is parallel with the rotary disc, due to rotation of the stirring member.
- the moving direction of the coin is diversified so that occurrence of coin bridge is effectively prevented.
- the circumferential face of the stirring member is preferably formed with a spiral groove in the coin hopper.
- a coin is pushed down or up by a wall defining the spiral groove by rotation of the stirring member, while receiving a moving force in the lateral direction which is parallel with the rotary disc.
- the coin is moved three-dimensionally because it is moved in the vertical direction while moved two-dimensionally as described above, so that the moving direction of coin is diversified and an advantage of efficiently preventing a coin bridge is provided.
- the rotary disc may be disposed at a slant to the horizontal, and the stirring member extends from the lowermost end of the rotary disc.
- the storage bowl may have a cylindrical part extending along the axial line of the rotary disc, and an increased amount storage part having a slant bottom face which is substantially parallel with the rotary disc, and the circumferential face of the stirring member is arranged in the inner wall surface of the cylindrical portion above an extended line of the slant bottom face in the coin hopper.
- a part of a wall surface of the cylindrical part is formed by the circumferential face of the stirring member.
- the stirring member is preferably rotatably attached to the storage bowl, and connected to a driving unit of the rotary disc via a clutch in the coin hopper.
- the storage bowl When a coin is nipped by the rotary disc, the storage bowl is removed from the rotary disc side prior to conducting an operation.
- the stirring member is rotatably attached to the storage bowl, and connected to the driving unit of the rotary disc via a clutch, it can be removed integrally with the storage bowl from the rotary disc side.
- the storage bowl when the storage bowl is attached to the rotary disc, the storage bowl can be attached to the rotary disc side by connecting the clutch, so that easy attachment/detachment is enabled.
- the clutch may be a meshing clutch which is axially connectable and disconnectable in the coin hopper.
- the meshing clutch When the storage bowl is detached from the rotary disc side, the meshing clutch can be disconnected by axially leaving and the meshing clutch can be connected by axially approaching.
- coin hopper which dispenses coins one by one via a rotary disc disposed below a coin storage bowl, comprising:
- a part of the outer circumferential face of the stirring member forms a part of the inner wall of the storage bowl.
- the stirring member is rotated about an axial line which is substantially parallel with the rotation axial line of the rotary disc.
- the coin in the storage bowl that is in contact with the circumferential face of the actively moving stirring member is actively moved by the friction force with the stirring member.
- the stirring member extends linearly from bottom to top of the storage bowl.
- the stirring member will not be subject to most of the weight of the coins in the storage bowl because it is in linear contact with the coin.
- the stirring member rotates about an axial line which is substantially parallel with the rotation axial line of the rotary disc.
- This provides an advantage of applicability in a small coin hopper because only a space that is enough for the stirring member to rotate about the axial line is required.
- stirring member is rotatably attached to the storage bowl, and connected to the driving unit of the rotary disc via a clutch, it can be removed integrally with the storage bowl from the rotary disc side.
- the storage bowl when the storage bowl is attached to the rotary disc, the storage bowl can be attached to the rotary disc side by connecting the clutch, so that easy attachment/detachment is enabled.
- the hopper further comprises a lateral stirring member that forms a wall surface of the storage bowl and rotates about an axial line which is substantially orthogonal to the wall surface.
- a lateral stirring member is provided in addition to the stirring member.
- a coin bridge is prevented by movement in the circumferential direction of the rotary disc or movement in the vertical direction of the wall surface of the storage bowl through rotation of the stirring member about axial line which is parallel with the axial line of the rotary disc.
- the lateral stirring member rotates about an axial line which is substantially orthogonal to the wall surface of the storage bowl, the coin that contacts therewith receives a lateral rolling force above the rotary disc.
- the coin is laterally rolled by the lateral rolling force, so that the stirring effect of coins are further improved and a coin bridge can be prevented.
- the lateral stirring member may be driven by said stirring member in the coin hopper.
- This configuration eliminates the necessity of providing a separate driving unit for the lateral stirring member, so that reduction in size and cost of the apparatus is realized.
- a coin hopper 100 includes a boxy base 102, a cylindrical storage bowl 104 disposed above the base 102, a rotary disc 106 and a driving unit 108.
- the base 102 incorporates therein the driving unit 108 and a deceleration mechanism 124 as will be describe later, and has a top face 110 having a function of guiding a coin conveyed by the rotary disc 106.
- the top face 110 of the base 102 of the present embodiment is inclined downward from the front side to the back side. As shown in Fig. 2, the top face 110 of the base 102 is formed with a circular recess 112 having a depth which is slightly larger than the thickness of the rotary disc 106.
- a rotary shaft 116 is rotatably disposed about a rotation axial line L1 which is substantially orthogonal to the bottom face 118.
- the rotary disc 106 having a plurality of through holes 122 is fixed.
- the rotary shaft 116 is rotated by an electric motor 126 which is the driving unit 108 via the deceleration mechanism 124 disposed in the base 102.
- the deceleration mechanism 124 is disposed on the back side of the base 102, and configured as follows.
- a driving gear 130 fixed to an output shaft 128 of the motor 126 meshes with a first intermediate gear 134 which is rotatably attached to a first stationary shaft 132.
- a second intermediate gear 136 which is formed integrally and coaxially with the first intermediate gear 134 meshes with (is attached to) a third intermediate gear 140 that is rotatably attached to the second stationary shaft 138.
- a fourth intermediate gear 142 which is formed integrally and coaxially with the third intermediate gear 140 meshes with a first driven gear 144 fixed to a lower end of the rotary shaft 116.
- the rotary disc 106 is usually rotated counterclockwise as indicated by the arrow in Fig. 1 by the motor 126 at a certain deceleration ratio determined by the gears 130, 134, 136, 140, 142 and 144.
- the storage bowl 104 has a circular bottom opening 150 and a rectangular top opening 152.
- the storage bowl 104 includes a cylindrical part 154 which is substantially concentric with the rotation axial line L1 of the rotary disc 106, and a increased amount storage part 156 which continuously extends upward and frontward.
- the cylindrical part 154 extends orthogonally to the base 102.
- the cylindrical part 154 is inclined, relative to the horizontal line.
- the increased amount storage part 156 extends parallel with the top face 110 of the base 102 from the middle part of the cylindrical part 154, or in other words, it extends orthogonally to the cylindrical part 154 and has a slant bottom face 138 which is inclined.
- the bottom end of the cylindrical part 154 is the bottom opening 150
- the upper end of the increased amount storage part 156 is the upper opening 152.
- the inclination of the slant bottom face 158 is so designed that the coin placed thereon will naturally slide down by its own weight.
- the attachment device 160 is preferably implemented by a one-touch attachment device which allows attachment/detachment of the base 102 to/from the storage bowl 104 by at least two operations.
- first attachment hole 162 and second attachment hole 164 are formed in a front part of the base 102.
- a first latch 166 and a second latch 168 in the form of transverse beam are respectively formed.
- a first hook 170 and a second hook 172 are formed so as to face with the latches 166, 168.
- a pair of left and right third attachment hole 174 and fourth attachment hole 176 are formed, and a third latch 178 is formed on a lateral wall of the base 102, and a fourth latch part 180 is formed on the other lateral wall.
- an elastic first stay 182 and a second stay 184 are formed downwardly, and the stays are formed at their lower ends with an outwardly extending third hook 186 and a fourth hook 187.
- the hooks 170, 172 are inserted to respective corresponding attachment holes 162, 164 and the hooks 170, 172 are respectively hooked on the latches 166, 168.
- the hooks 186, 187 are caused to retreat into the attachment holes 174, 176 to release the hooks with respect to the latches 178, 180.
- the rear end of the storage bowl 104 is drawn up, and after the hooks 186, 187 have moved outside the attachment holes 174, 176, it is slide rearward (left in Fig. 3) to remove the hooks 170, 172 from the attachment holes 162, 164, whereby the storage bowl 104 is detected from the base 102.
- the rotary disc 106 has a function of separating and dispensing coins reserved in the storage bowl 104 one by one.
- the rotary disc 106 is provided with a plurality of through holes 122 which are larger in size than objective coins, arranged at a predetermined interval on the circle centered at the rotary shaft 116.
- the rotary disc 106 is located in the circular recess 112, and outer peripheries of the through holes 122 are located right under the lower opening 150.
- a pushing projection 194 extending peripherally from the center is formed.
- a stirring projection 196 of a triangular pyramid shape is formed on the top face of the periphery of the rotary disc 106.
- coins are reserved or stored in the storage bowl 104 in bulk stacked state.
- the coins are guided circumferentially of the rotary disc 106 by a first pin 198 and a second pin 200 projecting from the bottom face 118, and then dispensed one by one through a dispensing port 202.
- the dispensed coin is flipped out by a dispensing device disposed at the dispensing port 202 (not shown) consisting, for example, of a pair of a stationary guide roller and a movable guide roller.
- the flipped out coin is then detected by a metal sensor 204, and the detection signal is used for counting the number of dispensed coins.
- the coin having passed the metal sensor 204 is guided to a predetermined position by a dispensing chute 206.
- the present invention may be applied to the coin hopper 100 in which the rotary disc 106 is disposed horizontally.
- the stirring member 210 forms a part of a wall surface of the storage bowl 104, and has a circumferential face that moves laterally (right and left direction in Fig. 1) at at least predetermined speed.
- the stirring member 210 is a circumferential face 214 of a rotor 212 which rotates about a rotation axial line L2 which is substantially parallel with the rotation axial line L1 of the rotary disc 106.
- a part of the circumferential face 214 of the rotor 212 is located within the opening 216 formed in the cylindrical part 154.
- the circumferential face 214 forms a part of the inner face of the storage bowl 104.
- the distance between the circumferential face 214 and the edge of the opening 216 is set to be smaller than thickness of a coin so as to prevent the coin from entering therebetween.
- the circumferential face 214 is disposed above an extended line L3 of the slant bottom face 158.
- the rotor 212 has a cylindrical shape, and preferably has a drum shape in which the middle part is diametrically larger than the upper and lower ends.
- the rotor 212 is formed with a spiral groove 218 on the circumferential face, and the rotor 212 is rotated so that the spiral groove 218 moves upward from below.
- the spiral groove 218 has a width (in the direction of elongation of axial line L2) which is twice to three times the thickness of a coin, and a depth (in the direction orthogonal to the axial line L2) which is one fifth or sixth the diameter of a coin.
- the rotor 212 is a longitudinally disposed member fixed to the outer circumferential face of the cylindrical part 154 of the storage bowl 104, and has an upper end rotatably supported to a semi-cylindrical cover 219 and a lower end rotatably supported to the storage bowl base 165 via a bearing 220.
- stirring members 210 is provided in duplicate.
- a second stirring member 222 has the same structure as the stirring member 210, explanation of structure is omitted, and the same part in the stirring member 210 is denoted by the same reference numeral.
- the second stirring member 222 is disposed at a rearward position of rotation than the lowermost end of the inclined rotary disc 106 in the rotation direction of the rotary disc 106, or specifically, at an angle of about 45 degrees with respect to the lowermost end of the rotary disc 106.
- a coin receives a force for moving the coin rearward in the rotation direction than the lowermost end of the rotary disc 106, or receives an upward moving force.
- the coin receives a force by which it is moved in the lower position or in the downward direction by the gravity.
- the position where the upward moving force and the downward moving force balance is a position of about 45 degrees with respect to the lowermost end of the rotary disc 106, which is also a position where the coin is most likely to accumulate and cause formation of a coin bridge.
- Three or more stirring members 210, 222 may be provided, and they may be disposed on the wall surface of the increased amount storage part 156.
- the axial line that is substantially parallel with the rotation axial line L1 of the rotary disc 106 also includes the axial line L2 which is inclined in significant degree with respect to the rotation axial line L1.
- stirring member 222 When either one of the stirring members 210, 222 is provided, it is most preferable to provide the stirring member 222 at a rearward position of rotation than the lowermost end of the rotary disc 106 as described above.
- the stirring member driving unit 230 is driven by the motor 126 which is the same for the rotary disc 106.
- Sharing the motor 126 with the rotary disc 106 is effective in reduction of size and cost of the coin hopper 100.
- an intermediate gear 234 which is rotatably attached to a third stationary shaft 232 meshes with the fourth intermediate gear 142.
- the intermediate gear 234 meshes with a second driven gear 238 which is rotatably attached to a fourth stationary shaft (not shown) fixed to the base 102.
- the third driven gear 246 and the stirring member 210 are connected via a clutch 248.
- the clutch 248 allows easy connection and disconnection between the driving unit 230 and the stirring member 210.
- the clutch 248 consists of a clutch piece 250 rotated from a shaft part 249 extending upward of the third driven gear 246 and a clutch piece 252 on the lower end of the rotor 212, and is connected or disconnected as appropriate.
- the clutch 248 is preferably a meshing clutch 254 consisting of the clutch pieces 250 and 252.
- the meshing clutch 254 consists of a meshing hole 256 which is symmetrically formed about the rotary axial center on the upper end face of the clutch piece 250, and a projection 258 to be inserted into the meshing hole 256, formed on the lower end face of the clutch piece 252.
- the torque limiter 260 slides and prevents the stirring member 210 from being forcedly rotated, so that energy consumption of the motor 260 is reduced.
- the meshing clutch 254 can be disconnected.
- the storage bowl 104 reserves a plurality of coins in stacked bulk state.
- the coin in contact with the circumferential face 214 of the stirring members 210, 222 receives a force for lateral movement in the left direction via the coin by rotation of the rotary disc 106 and receives a force for lateral movement in the right direction from the circumferential face 214.
- the coins are retained due to the large pushing force against the inner face of the storage bowl 104, so that a scaffold for coin bridge is likely to occur.
- the stirring member 210, 222 has a drum-like shape, a coin will be moved by the outer circumferential face 214 as the contact part thereof moves from the upper end to the middle part of the stirring member 210, 222.
- a peripheral part of the coin is located in the spiral groove 218.
- the wall defining of the spiral groove 218 moves upward from below by rotation of the stirring members 210, 222.
- hooks 186, 187 are removed from the third latch 178 and the fourth latch 180 by pushing them into the base 102, and then the storage bowl base 165 is pivoted upward about the first latch 166 and the second latch 168.
- the hooks 170, 172 are hooked on the latches 166, 168 in a reverse way, and then the storage bowl base 165 is pivoted to cause the hooks 182, 184 to be inserted into the attachment holes 174, 176 and pushed therein.
- the phases are aligned by rotation of the stirring members 210, 222 by moving the circumferential face 214 laterally with a finger tip.
- hooks 186, 188 are hooked on the latches 178, 180, and the storage bowl 104 is fixed to the base 102.
- the rotary disc 106 may be arranged in the lower end part of the cylindrical part 154.
- the rotary disc 106 disposed below the storage bowl 104 includes both the state where it is disposed in the lower end part of the cylindrical part 154 and the state where it is disposed right below the cylindrical part 154.
- the rotor 212 may be rotated so that the spiral groove 218 moves downward from above.
- a reciprocable member that pushes and moves a coin reserved in the cylindrical part 154 toward the rotation axial line L1 of the rotary disc 106 may be provided.
- the clutch 248 between the driving unit 230 and the stirring member 210, 222 may be implemented by a friction clutch.
- the friction clutch it is not necessary to attach the torque limiter 260 because slip occurs when a load of greater than a predetermined value is applied on the stirring member 210, 222.
- the stirring member of the first embodiment is conveniently referred to as a vertical stirring member.
- a lateral stirring member 300 is arranged.
- the lateral stirring member 300 includes a first lateral stirring member 302 and a second lateral stirring member 304.
- first lateral stirring member 302 Since the first lateral stirring member 302 and the second lateral stirring member 304 have the same structure, the first lateral stirring member 302 will be representatively explained.
- a lateral shaft 306 is arranged right above the first vertical stirring member 210, and rotatably supported by a casing 308.
- a lateral axial line 312 of the lateral shaft 306 is arranged so as to be substantially orthogonal to the wall surface 314 of the cylindrical part 154 of the storage bowl 104.
- the first stirring member 302 in the form of a circular disc is fixed.
- the first stirring member 302 is conical, and a rib-like stirring projection 319 is formed in a conic surface 316.
- the surface of the first stirring member 302 substantially connects the wall surface 314 of the cylindrical part 154, it forms an inner wall surface of the storage bowl 104.
- a helical gear 322 is fixed to the lateral shaft 306 which meshes with a helical gear 324 fixed to the upper end of the first stirring member 210.
- the coin in contact with the first lateral stirring member 302 receives a lateral rolling force, it fails to become a scaffold for a coin bridge.
- the second embodiment prevents occurrence of a coin bridge more effectively than the first embodiment.
- the lateral stirring member 300 may be either the first lateral stirring member 302 or the second lateral stirring member 304.
- lateral stirring member 300 When only one lateral stirring member 300 is provided, it is preferably arranged in the position slightly deviated in the rotation direction of the rotary disc 106 from the position facing the lowermost part of the rotary disc 106, namely, in the position of the second lateral stirring member 304 facing with the second vertical stirring member 222.
- the lateral stirring member 300 may be a circular disc.
Landscapes
- Physics & Mathematics (AREA)
- General Physics & Mathematics (AREA)
- Control Of Vending Devices And Auxiliary Devices For Vending Devices (AREA)
- Pinball Game Machines (AREA)
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2005193686 | 2005-07-01 | ||
JP2006160836A JP4997410B2 (ja) | 2005-07-01 | 2006-06-09 | コインホッパ |
Publications (2)
Publication Number | Publication Date |
---|---|
EP1739633A1 true EP1739633A1 (de) | 2007-01-03 |
EP1739633B1 EP1739633B1 (de) | 2008-05-21 |
Family
ID=37057123
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP20060116468 Ceased EP1739633B1 (de) | 2005-07-01 | 2006-06-30 | Münzvereinzelungsgerät |
Country Status (2)
Country | Link |
---|---|
EP (1) | EP1739633B1 (de) |
JP (1) | JP4997410B2 (de) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108537946A (zh) * | 2017-03-06 | 2018-09-14 | 旭精工株式会社 | 硬币处理设备和硬币放置/分配机器 |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP7097034B2 (ja) * | 2019-08-26 | 2022-07-07 | 旭精工株式会社 | コインホッパ |
Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
FR2199602A1 (de) * | 1972-09-20 | 1974-04-12 | Senyk Pierre | |
US3942542A (en) * | 1974-05-13 | 1976-03-09 | Umc Industries, Inc. | Coin-handling device |
EP0501607A1 (de) * | 1991-02-14 | 1992-09-02 | Bally Gaming International, Inc. | Hochleistungszuführtrichter für Münzen für einen Spielautomaten |
EP1031948A2 (de) * | 1999-02-24 | 2000-08-30 | Asahi Seiko Co. Ltd. | Münzausgabevorrichtung |
GB2355104A (en) * | 1999-08-06 | 2001-04-11 | Asahi Seiko Co Ltd | Coin hopper apparatus |
EP1544805A1 (de) * | 2003-12-12 | 2005-06-22 | Asahi Seiko Kabushiki Kaisha | Münzenvereinzelungsgerät |
Family Cites Families (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP4332823B2 (ja) * | 1999-02-24 | 2009-09-16 | 旭精工株式会社 | 大容量コインホッパ |
-
2006
- 2006-06-09 JP JP2006160836A patent/JP4997410B2/ja not_active Expired - Fee Related
- 2006-06-30 EP EP20060116468 patent/EP1739633B1/de not_active Ceased
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
FR2199602A1 (de) * | 1972-09-20 | 1974-04-12 | Senyk Pierre | |
US3942542A (en) * | 1974-05-13 | 1976-03-09 | Umc Industries, Inc. | Coin-handling device |
EP0501607A1 (de) * | 1991-02-14 | 1992-09-02 | Bally Gaming International, Inc. | Hochleistungszuführtrichter für Münzen für einen Spielautomaten |
EP1031948A2 (de) * | 1999-02-24 | 2000-08-30 | Asahi Seiko Co. Ltd. | Münzausgabevorrichtung |
GB2355104A (en) * | 1999-08-06 | 2001-04-11 | Asahi Seiko Co Ltd | Coin hopper apparatus |
EP1544805A1 (de) * | 2003-12-12 | 2005-06-22 | Asahi Seiko Kabushiki Kaisha | Münzenvereinzelungsgerät |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108537946A (zh) * | 2017-03-06 | 2018-09-14 | 旭精工株式会社 | 硬币处理设备和硬币放置/分配机器 |
CN108537946B (zh) * | 2017-03-06 | 2021-03-05 | 旭精工株式会社 | 硬币处理设备和硬币放置/分配机器 |
Also Published As
Publication number | Publication date |
---|---|
JP2007042071A (ja) | 2007-02-15 |
EP1739633B1 (de) | 2008-05-21 |
JP4997410B2 (ja) | 2012-08-08 |
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