| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 201 | Coin slide assembly for receiving a coin standing on edge | US3712440D | 1970-08-31 | US3712440A | 1973-01-23 | GREENWALD H |
| This disclosure is directed to a coin slide assembly for use in a coin operated machine having a coin slide provided with one or more coin slots, each arranged for accommodating a coin in a vertical or a standing on edge position in side by side relationship. Locking dogs are operatively associated with the slide to prohibit the advancement of the coin slide toward an inserted operative position unless a properly sized coin is disposed on edge in the appropriate coin slots. Cam actuators are associated with a coin track carried by the locking dog to render the coin assembly operative only when a coin of proper diameter and/or thickness is carried in the respective coin slot between the cam actuator and coin track. The assembly also includes provisions for effecting adjustment of a coin slot and/or actuating cam to accept coins of various sizes, or the blanking of a particular coin slot in order to inactivate it. The assembly further provides for blocking the coin opening through which the coin slot is inserted into the associated machine, to prohibit access to the coins after the slide has advanced past the coin opening toward an inserted operative position.
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| 202 | Unacceptable coin removing apparatus for coin handling machine | EP94119336.9 | 1994-12-07 | EP0660274A1 | 1995-06-28 | Simizu, Tokuharu; Haruna, Hirohumi |
An unacceptable coin removing apparatus for a coin handling machine includes a rotatable disk (1) for receiving coins (c) deposited into the coin handling machine and feeding coins one by one into a coin passage (2) provided with a reference guide rail (3) and a guide rail (4) facing the reference guide rail (3), transporting belts (8,9) for transporting coins (c) in the coin passage (2), sensors (5,11) for detecting coins (c), a first projecting member (17) which can be projected from the reference guide rail (3) into the coin passage (2), a second projecting member (20) which can be projected from the guide rail (4) into the coin passage (2), a coin collecting opening (10) and a controller (40) for controlling the operation of the first projecting member (17), the second projecting member (20), the transporting belts (8,9) and the rotatable disk (1). When the sensors (5,11) detect an acceptable coin (c), the controller (40) does not actuate the first (17) and second (20) projecting members. When the sensors (5,11) detect an unacceptable coin (c) or a foreign article, the controller (40) projects the first or second projecting member (17,20), thereby leading the coin (c) to the coin collecting opening (10) and removing it. When it is unclear whether or not a coin (c) is acceptable, the controller (40) projects the first and second projecting members (17,20), reversely drives the transporting belts (8,9) and the rotatable disk (1) so as to return the coin (c) onto the rotatable disk (1) and then repeats the above described operation until it becomes clear whether or not the coin (c) is acceptable. According to the unacceptable coin (c) removing apparatus, unacceptable coins (c) or foreign articles can be efficiently and reliably removed. |
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| 203 | Münzprüfer | EP79102321.1 | 1979-07-09 | EP0008632A1 | 1980-03-19 | Furer, Heinz |
In den Münzkanal (1) ragt ein elastischer Fühler (19), der auf ein piezoelektrisches Element (27) wirkt. Der Fühler (19) tastet den Rand der Münzen (24) ab, die den Durchmesser der Münzen annehmbarer Sorte haben. Beim Auf- und Abbewegen des Fühlers (19) auf einem gerändelten Münzrand erzeugt das piezoelektrische Element (27) ein Wechselstromsignal. Die Münzenannahme erfolgt in Abhängigkeit davon, ob das Wechselstromsignal auftritt. |
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| 204 | Controlled Coin Portal | US14458261 | 2014-08-13 | US20150047946A1 | 2015-02-19 | Philemon Louis Bruner; Kurt Douglas Regenbrecht |
| A controlled coin inlet or portal is described that allows for improved alignment of a coin with the coin entry slot of a coin acceptor mechanism. A coin entry slot having at least an upper or lower edge is dimensioned to allow entry of a coin of a desired maximum width in a substantially on-edge orientation. The coin portal may include at least one outwardly extending coin guide slot of substantially corresponding maximum width as the coin entry slot and positioned adjacent to the upper or lower edge of the coin entry slot. | ||||||
| 205 | INTERNET OF THINGS (IOT) APPARATUS AND METHOD FOR COIN OPERATED DEVICES | PCT/US2016/066438 | 2016-12-14 | WO2017106222A1 | 2017-06-22 | BRITT, Joe |
An Internet of Things (loT) device comprising a local wireless communication interface to establish a local wireless communication link with one or more loT hubs or client devices and a microcontroller unit (MCU) to execute program code; a secure communication module to establish a secure communication channel between the loT device and an loT service over the Internet using the local wireless communication link; a machine/coin acceptor interface comprising a first interface to communicatively couple the loT device to a coin acceptor device and a second interface to communicatively couple the loT device to a machine control unit to control operations of a coin operated machine, the device receive signals from the coin acceptor device over the first interface or accept a command transmitted from the loT service to the loT device through the secure communication channel. |
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| 206 | Controlled coin portal | US14458261 | 2014-08-13 | US09424706B2 | 2016-08-23 | Philemon Louis Bruner; Kurt Douglas Regenbrecht |
| A controlled coin inlet or portal is described that allows for improved alignment of a coin with the coin entry slot of a coin acceptor mechanism. A coin entry slot having at least an upper or lower edge is dimensioned to allow entry of a coin of a desired maximum width in a substantially on-edge orientation. The coin portal may include at least one outwardly extending coin guide slot of substantially corresponding maximum width as the coin entry slot and positioned adjacent to the upper or lower edge of the coin entry slot. | ||||||
| 207 | Coin processor | JP2010181470 | 2010-08-13 | JP2012043044A | 2012-03-01 | AOKI MASATO |
| PROBLEM TO BE SOLVED: To downsize a coin processor.SOLUTION: A coin processor comprises: a disk-like coin conveyance unit 3 that includes an identification part 4 for counting coins individually fed from a coin input unit 1 and where a rejection hole 5 for letting uncounted coins pass through and an acceptance hole 6 for letting counted coins pass through are formed; a temporary retention unit 11 that retains the counted coins and includes a bottom for opening and closing a releasing gate for return and a releasing gate for receiving in a selectable manner as a destination of the coins released; a rejection shoot 7 for guiding coins that drop from the rejection hole 5 to a rejected coin storage unit 8; an acceptance shoot 10 for guiding coins that drop from the acceptance hole 6 to the temporary retention unit 11; a return shoot 12 for guiding coins that drop from the temporary retention unit 11 and pass through the releasing gate for return to a coin return box; and a receiving shoot 14 for guiding coins that drop from the temporary retention unit 11 and pass through the releasing gate for receiving to a coin collection cassette 15. | ||||||
| 208 | Value medium processor and ic coin used for the same | JP2008065825 | 2008-03-14 | JP2009217784A | 2009-09-24 | ABE HIROSHI; TANAKA YOSHINOBU |
| <P>PROBLEM TO BE SOLVED: To provide an inexpensive compact value medium processor which processes IC coins and coins, and has compatibility with the existing value medium processor. <P>SOLUTION: The value medium processor which discriminate authenticity of coins put in a common slot 114 for coins C and for IC coins 100 to sort them into acceptable coins and return coins through communication with the IC coins includes: a magnetic rail 118 inclined toward the front from an upper limb of the slot; a frontward-inclined IC coin rolling rail 122 arranged at a position distant by a distance at least larger than the diameter of a maximum-diameter coin at a lower part of the magnetic rail; and a coin passage 126 on which the coins fall with gravity within a range from the slot to the IC coin rolling rail. <P>COPYRIGHT: (C)2009,JPO&INPIT | ||||||
| 209 | Coin validation apparatus and method | US930723 | 1997-12-15 | US6119844A | 2000-09-19 | Riaz Ali |
| A coin validator with an improved coin processing rate, performs primary validation testing on coins at a primary validation station as successive coins roll down a coin rundown path. Unacceptable coins pass to a coin reject path but coins found acceptable by the primary validation testing are deflected by a solenoid operated gate to a coin accept path. The acceptable coins pass a further sensor coil. Auxiliary coin testing is carried out by a microprocessor by analyzing the time taken for the coin to reach and move away form the further sensor. The microprocessor performs undertimer and overtimer routines FIGS. 3A, B and if the coin arrives within the under and overtimer ranges t.sub.1, t.sub.2, the coin is accepted. When the coin throughput rate is increased, the undertimer is switched off in order to permit the coin throughput rate for valid coins to be increased, without loss of security. | ||||||
| 210 | Coin processor | JP2008259154 | 2008-10-06 | JP2010092132A | 2010-04-22 | YAMAMIYA TAKEHITO |
| <P>PROBLEM TO BE SOLVED: To provide an inexpensive and highly reliable coin processor that prevents a coin jam in storing and returning coins even when a plurality of coins whose diameters are different are stored, and which can be replaced with an existing coin processor in which a storage port and a return port of the held coins are arranged on the lower face of the device. <P>SOLUTION: A coin processor is configured to decide authenticity of coins deposited into a slot to sort the coins into accepted coins and return coins, and to accept and hold the accepted coins from an acceptance port to a holding device configured of a placing body arranged at the lower part and a pair of support bodies 132 and 134 arranged at the upper part and side part of the placing body, and to feed the held coins to the storage port or the return port by selectively moving the pair of support bodies to holding positions SP1 and SP2 and non-holding positions. The placing body is mounted on a rocking body 225 which freely rotates around the upper support point, and configured to, when the support body is moved to the non-holding position, move to the same direction along with the support body. <P>COPYRIGHT: (C)2010,JPO&INPIT | ||||||
| 211 | Coin processor | JP2000005399 | 2000-01-14 | JP2001195648A | 2001-07-19 | TAKAHASHI NORIHISA; KAMODA TOSHIKATSU; SONOBE MAMORU; KOBAYASHI YUJI |
| PROBLEM TO BE SOLVED: To make damage smaller even if a forged coin which is hardly discriminated is used. SOLUTION: A coin sorting device 10 discriminates thrown-in coins and only coins discriminated as normal coins are accepted and taken in change pipes 11 to 14. When a return lever 9 is operated, a payout device 16 pays coins out of the change pipes 11 to 14 by the thrown-in amount. When the return lever 9 is operated after more than a set number of specific coins are thrown in successively, the coin sorting device 10 inhibits specific coins from being accepted thereafter and starts a reception inhibition timer. When more than a set number of specific coins are successively thrown in and the return lever is operated repeatedly, the set time of the reception inhibition timer is made longer corresponding to the frequency of the repetition. Further, when the return lever 9 is operated after a 2nd set number of specific coins more than the mentioned set number are thrown in, the set time of the reception inhibition timer is set to a maximum value at a stretch. COPYRIGHT: (C)2001,JPO | ||||||
| 212 | Device for discriminating coin | JP11827799 | 1999-04-26 | JP2000306135A | 2000-11-02 | HIBARI HIDEYUKI |
| PROBLEM TO BE SOLVED: To surely discriminate whether or not a coin in which the pattern of one face is common and the pattern on the other face is different is acceptable by comparing image pattern data of one face and the other of respective coins stored in 1st and 2nd pattern data storing means with reference data in each denomination of a coin stored in a reference data storing means. SOLUTION: A 1st discriminating means 43 discriminates the denomination of a coin on the basis of the magnetic quality of the coin detected by magnetic sensors 6, and the 1st denomination discriminating part of a 2nd discriminating means 44 discriminates the denomination of the coin on the basis of the diameter of the coin. A denomination deciding part discriminates the coin denomination by comparing the pattern data of the coin only with the coin reference data discriminated by the 1st denomination discriminating part on the basis of both discriminated results. Further, whether or not the coin is acceptable and the coin denomination are discriminated based on the discriminated results of the means 43 and 44 and a 3rd discriminating means 45. COPYRIGHT: (C)2000,JPO | ||||||
| 213 | Game machine controller | JP2000295677 | 2000-09-28 | JP2001134814A | 2001-05-18 | HAMANO MASAHIRO |
| PROBLEM TO BE SOLVED: To reduce the operating burden on a player for extracting and inserting a prepaid card. SOLUTION: A coin slot 14 and a card display part 17 or the like are provided on the front of a game machine controller 1. The coin slot 14 accepts the insertion of coins. Inside the coin slot 14, a paper money discriminator is provided for discriminating the denomination of coin. When the paper money discriminator discriminates a prescribed denomination, the card display part 17 presents a prepaid card corresponding to the denomination and automatically displays the state of taking the prepaid card into a machine later. In response to the display operation, it is reported to the adjacent game machine that the coin of the said denomination is accepted. COPYRIGHT: (C)2001,JPO | ||||||
| 214 | In-coin passage coin sensing system | EP14173693.4 | 2014-06-24 | EP2960873A1 | 2015-12-30 | Chien, Tien-Yuan; Yang, Dong-Ying; Huang, Ruei-Jia |
A coin acceptor includes a main body having a coin dispenser mounted therein, coin tube disposed at the bottom side of the coin dispenser, and a sensing device including a circuit module having a resonant circuit, sensing coils electrically connected to the resonant circuit and an insulation film sealing the sensing coils and bonded to the periphery of the coin tubes to hold each sensing coil in the periphery of one respective coin tube in such a manner that when one or multiple metal coins are dispensed by the coin dispenser into one coin tube, an alternating magnetic field generated by one respective sensing coil induces eddy currents in the metal coins in the respective coin tube, enabling the circuit module to calculate the quantity of the metal coins in the respective coin tube by measuring the energy loss and change in resonance frequency in the resonant circuit.
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| 215 | Unacceptable coin removing apparatus for coin handling machine | US424119 | 1989-10-19 | US4993990A | 1991-02-19 | Masamichi Ozeki; Katsuyuki Miyamoto; Shoichi Uda |
| An unacceptable coin removing apparatus for a coin handling machine having a rotatable disk for receiving deposited coins, an annular guide provided on the periphery of the rotatable disk and formed with an opening, a coin sorting passage connected to the opening downstream thereof, a pair of guide plates provided for the coin sorting passage, the space between the pair of guide plates being adjustable and the pair of guide plates being capable of supporting a predetermined denomination of coins in accordance with the space therebetween, a coin collecting opening provided below the pair of guide plates, a coin transporting belt provided in the coin sorting passage for transporting coins by contacting the upper faces of coins in the coin sorting passage, a drive motor for driving the rotatable disk and the coin transporting belt and a sensor provided downstream of the coin collecting opening in the coin sorting passage for detecting the characteristics of the coins, the unacceptable coin removing apparatus further including a first stopper provided downstream of the sensor in the coin sorting passage and capable of preventing coins from being further transported, a second stopper provided downstream of the first stopper in the coin sorting passage and capable of preventing coins from being further transported, and a controller for judging based upon signals input from the sensor whether each coin is acceptable or not. This unacceptable coin removing apparatus can remove unacceptable coins using a simple structure and enables the coin handling machine to be made compact. | ||||||
| 216 | Method and apparatus for calibrating a coin checking device | US130356 | 1993-10-01 | US5495931A | 1996-03-05 | Klaus Meyer-Steffens; Manfred Gro/ hlich |
| A method for calibrating a coin checking device includes inserting a calibrating module into a coin passage. The coin passage contains at least one coin sensor for determining a coin's physical features. The calibrating module generates measuring signals which simulate an acceptable coin's presence. The measuring signals are received by the at least one coin sensor which in turn outputs sensor signals. The measuring signals and the sensor signals are used to calculate a calibration factor for the coin checking device. | ||||||
| 217 | Method and apparatus for use in an inductive sensor coin selector | US40592673 | 1973-10-12 | US3918564A | 1975-11-11 | HEIMAN FRED P; HERZOG GERHARD |
| A method and apparatus for use in an inductive sensor coin selector in which the acceptability of a coin is dependent upon a function of an examination of the output of an inductor in the absence of coins and an examination of the output of the inductor in the presence of the coin.
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| 218 | 硬幣門 | TW081215145 | 1992-11-10 | TW205374U | 1993-05-01 | 田中淑內 |
| 一種硬幣門,係在維修門扉之內面側固設上下互相離開之投幣滑槽及硬幣接受滑槽,兩滑槽之後端部係以選幣器後端側保持構件互相連結,在此保持構件設供選幣器之後端側安裝銷從側方滑動插入之後端側銷掛合用U形溝,在維修門扉之內面固設具有前端側銷掛合用U形溝之選幣器前端側保持構件,並設將插入前端側銷掛合用U形溝內之選幣器前端側安裝銷扣止之夾片,再以受彈簧偏壓之鎖定桿將此夾片經常保持於鎖定位置者。 此硬幣門適用於安裝在遊樂機等,採用上述之構造,可提高落下型選幣器對硬幣門之維修門扉之裝卸的容易性及安裝的牢固性。 | ||||||
| 219 | Coin processor | JP31456490 | 1990-11-20 | JPH04184590A | 1992-07-01 | ISHIDA TAKESHI; KASAMA KEIJI |
| PURPOSE: To make the coin classifying accuracy of a coin processor easily changeable after installation by constituting the coin discriminating section of the processor so that the coin discriminating accuracy of the section can be changed by operating inventory switches. CONSTITUTION: The coin accepting accuracy switching mode of this coin processor can be set only when power supply is made after both an internal and external auxiliary machine inventory switches DE and ZWD are turned on. When the accuracy switching control mode is set, the coin discriminating accuracy of a coin discriminating means can be switched by operating plural inventory switches. Therefore, the coin discriminating accuracy of the coin discriminating section of this coin processor can be easily changed on the manager side even after the coin processor is installed. COPYRIGHT: (C)1992,JPO&Japio | ||||||
| 220 | Coin detector apparatus | US502290 | 1983-06-08 | US4437558A | 1984-03-20 | Raymond Nicholson; Donald O. Parker |
| An electronically controlled coin tester which distinguishes between valid and invalid coins by subjecting both the token to be tested (test coin) and a fixed reference coin (sample coin) to similar magnetic fields and evaluating the quality of any null signals created by their combined output. A selectively shiftable coin holder is provided which serves to allow replacement of the sample coin as well as to provide a guiding ramp for the test coin which can be selectively set at various inclines dependant upon the size of the coins desired to be tested. The present device may optionally include a pendulum damper which will slow the movement of the test coin as its travels along the guiding ramp, and/or an antistringing device which prevents the removal of a coin from the coin box after acceptance. | ||||||
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