硬币接受器相关的专利数据

序号	专利名	申请号	申请日	公开（公告）号	公开（公告）日	发明人
161	Coin processor	JP2006246341	2006-09-12	JP2008070927A	2008-03-27	SHIBATA FUMIO
PROBLEM TO BE SOLVED: To provide a coin processor which prevents an operator from being distrusted even when an amount estimated by a customer is inconsistent with the amount calculated by the coin precessor without requiring the customer to gaze a display. SOLUTION: A paper money processor 1 comprises: a keyboard 4 and a card reader for accepting the input of account information; a money receiving port 29 for accepting the coin received from a customer; a PC 7 for executing transactions by the received coin and the account information; a camera 6 for photographing the money receiving port 29; a hard disk for recording images photographed with the camera 6; a mouse 5 for accepting the input of the reproduction instruction by pressing a reproduction instruction input button 73; and a monitor 8 for customer for controlling the recording for each transaction and reproducing and displaying the recorded images of the transaction corresponding to the reproduction instruction when the input of the reproduction instruction is accepted with the keyboard 4 or the mouse 5. COPYRIGHT: (C)2008,JPO&INPIT
162	자동판매기	KR1020017003093	2000-07-12	KR100431891B1	2004-05-17	이시다타케시; 아소쯔네히로
A vending machine capable of effectively preventing fraudulent use of fake coins of a plurality of kinds. The number of slotted coins acceptable in one vending operation is preset in a setting unit (112). The coins slotted into a coin slotting unit (101) are counted based on the sensing output from a counting sensor (104). When a coin-return operation is performed while the count is equal to or larger than the preset acceptable number of coins, the coin return in response to the coin-return instruction is inhibited as a fraudulent use. <IMAGE>
163	Method and apparatus for exchanging information with subscriber cards used in article vending machines	US543305	1995-10-16	US5637859A	1997-06-10	Edouard Menoud
A coin checker and card reader for use with a vending machine includes a housing having a coin slot and a separate card slot which merge into a chute that communicates with a first coin channel and a card channel. A coin inserted into the coin slot rolls through the chute into the first coin channel and passes sensors which determine whether the coin is accepted or rejected. A door is actuated to direct an accepted coin into a coin container through a second coin channel. A rejected coin is directed to a return tray through a third coin channel. A subscriber card with a memory inserted into the card slot is guided into the card channel to actuate a switch to activate a microprocessor for exchanging information with the subscriber card memory and processing a transaction. The microprocessor checks the data being exchanged to prevent loss of data should the card be removed before the transaction is completed and to vend an article only after valid data has been exchanged.
164	Coin discriminating apparatus	EP00127526.2	2000-12-15	EP1111551A3	2003-11-26	Yoshida, Toshio; Moritani, Takao; Imai, Shigetoshi
A coin discriminating apparatus includes a magnetic sensor for detecting magnetic properties of a coin being transported and producing magnetic data of the coin, an optical sensor for producing optical data of the coin, a reference optical data memory for storing reference optical data of an obverse surface and a reverse surface of coins of each denomination, a reference magnetic data memory for storing reference magnetic data of an obverse surface and a reverse surface of coins of each denomination to be discriminated, a first coin discriminator for comparing optical data of the coin produced by the optical sensor with reference optical data of an obverse surface and a reverse surface of coins of each denomination and determining whether or not the coin is acceptable and the denomination of the coin, and a second coin discriminator for reading from the reference magnetic data memory magnetic reference data selected depending upon whether reference optical data of the obverse surface of a coin of a certain denomination or those of the reverse surface of the coin of the denomination were used when the first coin discriminator determined the coin to be acceptable and the denomination of the coin based thereon and comparing them with the magnetic data produced by the magnetic sensor, thereby finally discriminating whether or not the coin is acceptable and the denomination of the coin. According to the thus constituted coin discriminating apparatus, it is possible to accurately discriminate a counterfeit coin even when optical data acquired from the counterfeit coin such as diameter data and surface pattern data thereof coincide with those of genuine coins of a certain denomination and when the magnetic data acquired from the counterfeit coin are similar to those of coins of the denomination.
165	Packaging coin depositor and packaging coin depositing system	JP2007275044	2007-10-23	JP2009104375A	2009-05-14	NAKAHARA MASAKI; SHIGEMOTO YOSHITERU
<P>PROBLEM TO BE SOLVED: To provide a packaging coin depositor for easily and efficiently performing the collecting operation of a storage shed in which packaging coins are stored. <P>SOLUTION: The packaging coin depositor is configured to accept packaging coins, and to discriminate the denominations of the accepted packaging coins by a discrimination means 31, and to store normal packaging coins in a storage shed. The mass per one of the packaging coins is stored for every denomination in a packaging coin mass storage means 59. A control part 51 calculates the total mass of the storage of the packaging coins stored in the storage shed from the discrimination results of the discrimination means 31 and the mass per one of the packaging coins stored in the packaging coin mass storage means 59 each time the packaging coins are stored in the storage shed. A notification means 16 notifies an operator of the calculated total mass of storage. Thus, it is possible for an operator to confirm the total mass of storage of the packaging coins, and to, when the total mass of storage makes it possible for even one operator to easily perform a collecting operation, perform the collecting operation of the storage shed. <P>COPYRIGHT: (C)2009,JPO&INPIT
166	Mechanical coin checking device having a confirmation photoelectric barrier which is secure against manipulation	US13440604	2012-04-05	US08534442B2	2013-09-17	Christian Trenner; Roland Griese
A mechanical coin checking device comprises a coin channel having a running rail, a coin acceptance shaft connected to the coin channel, a blocking element which is pivoted into the coin acceptance shaft if no coin is present and which, due to the weight thereof, pivots, after entry of a coin into the acceptance shaft, releases the acceptance shaft and blocks the coin channel at the same time, a confirmation photoelectric barrier which is disposed in the acceptance channel and detects the passage of a coin, an optical sensor for detecting the position of the blocking element and a control unit connected to the confirmation photoelectric barrier and to the optical sensor, the control unit, as a function of the signals of the confirmation photoelectric barrier and of the optical sensor, producing a credit signal for acceptance of the coin falling through the acceptance shaft.
167	Apparatus for checking coins and reading cards in an article vending machine	US296228	1994-08-25	US5489014A	1996-02-06	Edouard Menoud
A coin checker and card reader for use with a vending machine includes a housing having a coin slot and a separate card slot which merge into a chute that communicates with a first coin channel and a card channel. A coin inserted into the coin slot rolls through the chute into the first coin channel and passes sensors which determine whether the coin is accepted or rejected. A door is actuated to direct an accepted coin into a coin retainer through a second coin channel. A rejected coin is directed to a return tray through a third coin channel. A subscriber card with a memory inserted into the card slot is guided into the card channel to actuate a switch to activate a microprocessor for exchanging information with the subscriber card memory and processing a transaction. The microprocessor checks the data being exchanged to prevent loss of data should card be removed before the transaction is completed and to vend an article only after valid data has been exchanged.
168	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.
169	Coin processing apparatus	JP2008217547	2008-08-27	JP2010055232A	2010-03-11	TANAKA YOSHINOBU
<P>PROBLEM TO BE SOLVED: To provide an inexpensive and highly reliable coin processing apparatus for holding accepted current coins, and for arranging a storage port and a return port on the lower surface of the device, and for preventing coins from being jammed when storing and returning the coins even by holding a plurality of coins whose diameters are different. <P>SOLUTION: The coin processing apparatus for discriminating the authenticity of cast coins to select the coins to be accepted from the coins to be returned, and for holding the accepted coins in a holding part 124, and for selectively feeding the held coins to a storage port or a return port 108 is configured by forming the storage port and the return port 108 on the lower surface of a device, and arranging the holding part 124 at the upper part of the storage port and the return port 108, and configuring a holding chamber 126 by a bottom board 212, a movable surface holder 214 and a movable periphery holder, and tilting the bottom board 212 to the storage port side and the return port side, and forming the movable surface holder 214 so that it is selectively movable to a surface holding position making a prescribed angle with the bottom board 212 and a non-surface holding position separated from the bottom board 212, and arranging the movable periphery holder at the storage port side with respect to the bottom board 212 so that the coins in the holder chamber 126 can selectively move to the periphery holding position and a non-periphery holding position to allow the movement of the coins to the storage port. <P>COPYRIGHT: (C)2010,JPO&INPIT
170	Electronic security key for enabling electronic coin acceptors and the like	US09439995	1999-11-15	US06564997B1	2003-05-20	Scott Juds
An electronic security key is particularly adapted to exchange electronic data with an electronic coin acceptor circuit of a coin acceptor to enable the coin acceptor for coin programming. The electronic security key includes an electronic security key circuit defined by subcircuits including (1) circuitry for exchanging electronic data with an electronic coin acceptor, (2) encryption generating circuitry for generating encrypted password data at a sufficient value to generate authentication data from at least a portion of the electronic data transmitted to the electronic security key circuit, and (3) circuitry for transmitting the generated authentication data to an electronic coin acceptor circuit to thereby enable the electronic coin acceptor circuit for coin programming thereof.
171	Coin receiving and dispensing machine	US10445507	2003-05-27	US06899214B2	2005-05-31	Jun Morikawa
A coin receiving and dispensing machine includes a coin receiving and dispensing opening, a sensor unit provided in a coin passage and adapted for discriminating and counting coins of each denomination, a single coin storing box for storing acceptable coins, a coin storing cylinder for storing coins to be dispensed and a controller for controlling overall operation of the coin receiving and dispensing machine, and the controller is constituted so as to, prior to dispensation of coins, take out coins stored in the coin storing box, cause the sensor unit to discriminate and counts coins for each denomination taken out from the coin storing box, and store a predetermined number of coins in the coin storing cylinder for each denomination, the controller being further constituted so as to, when coins are to be dispensed, take out coins stored in the coin storing cylinder, cause the sensor unit to discriminate and count coins taken out from the coin storing cylinder for each denomination, and feed the coins to the coin receiving and dispensing opening based on the discrimination and counting done by the sensor unit, the controller furthermore being constituted so as to cause the sensor unit to discriminate whether or not coins deposited through the coin receiving and dispensing opening are acceptable and denominations of coins and count the number of the coins of each denomination, and store the coins deposited through the coin receiving and dispensing opening in the coin storing box.
172	Coin receiving and dispensing machine	US10445507	2003-05-27	US20030221933A1	2003-12-04	Jun Morikawa
A coin receiving and dispensing machine includes a coin receiving and dispensing opening, a sensor unit provided in a coin passage and adapted for discriminating and counting coins of each denomination, a single coin storing box for storing acceptable coins, a coin storing cylinder for storing coins to be dispensed and a controller for controlling overall operation of the coin receiving and dispensing machine, and the controller is constituted so as to, prior to dispensation of coins, take out coins stored in the coin storing box, cause the sensor unit to discriminate and counts coins for each denomination taken out from the coin storing box, and store a predetermined number of coins in the coin storing cylinder for each denomination, the controller being further constituted so as to, when coins are to be dispensed, take out coins stored in the coin storing cylinder, cause the sensor unit to discriminate and count coins taken out from the coin storing cylinder for each denomination, and feed the coins to the coin receiving and dispensing opening based on the discrimination and counting done by the sensor unit, the controller furthermore being constituted-so as to cause the sensor unit to discriminate whether or not coins deposited through the coin receiving and dispensing opening are acceptable and denominations of coins and count the number of the coins of each denomination, and store the coins deposited through the coin receiving and dispensing opening in the coin storing box.
173	Microprocessor-controlled apparatus adaptable to environmental changes	EP90306471.5	1990-06-14	EP0404432A2	1990-12-27	Harris, Dawn Elaine; Orr, William Harold
A microprocessor-controlled electronic coin chute (10,20) is designed for use in a coin telephone station (1) and adapted to operate over an extended temperature range while making coin acceptance/rejection decisions that are both rapid and accurate. Within the coin chute are a pair of coin quality sensors (12,13) designed to measure a different property of a coin such as composition and size. Each coin quality sensor (12,13) comprises a series-connected pair of coils placed on opposite sides of the coin path (120). These coils are part of an oscillator circuit having a maximum frequency when the coin is positioned between them, and an idle frequency otherwise. Idle frequency measurements are made each time an associated telephone switchhook is operated. The measured idle frequency serves as a temperature indication which, together with a stored program, is used by the microprocessor (250) to establish acceptability limits for each coin in an allowed set. The stored program includes a predetermined functional relationship between acceptability limits and idle frequency for each allowable coin. New acceptability limits are calculated immediately after the idle frequencies are measured.
174	Coin selection device	JP2011001160	2011-01-06	JP2012141924A	2012-07-26	ASO TSUNEHIRO
PROBLEM TO BE SOLVED: To provide a coin selection device for catching and holding a coin between a distributor tip and a side wall, and for preventing the coin from staying.SOLUTION: In a process of rolling a coin on a rolling passage configured of a first side wall and a second side wall vertically erected with a predetermined interval and a guide rail arranged between those side walls to comprise a bottom plate, the physical character of the coin is detected, whether or not the coin is authentic or forged is determined on the basis of the result of detection, and when the coin is authentic, the coin is distributed by a distributor for each denomination based on the determined denomination. The distributor is selectively positioned at a deviating position where the tip is press-fit to the second side wall and an accepting position where the tip is separated from the second side wall, and positioned on an extension of the first side wall. Just after the distributor is moved from the accepting position to the deviating position, fine vibration is added to the distributor. This fine vibration makes it possible for the coin caught and held between the tip of the distributor and the second side wall to roll with its own weight. Thus, it is possible to cancel the staying state of the coin.
175	Coin testing apparatus	US918805	1978-06-26	US4184366A	1980-01-22	Frederick R. Butler
A coin testing apparatus is designed to accept and test a plurality of different coins, for example some or all of the coins of a particular currency. The apparatus stops an inserted coin in a predetermined position and tests its diameter, composition and thickness. It may also test its weight. Only if an inserted coin, (or object purporting to be a coin,) passes all of these tests will it be accepted. To test the diameter, the inserted coin serves as one electrode of a capacitor. The coin rests by gravity against an inclined board of dielectric material, on the other side of which a plurality of arcuate electrodes are arranged such that, for a coin of predetermined diameter, one electrode will be opposite a position outside the periphery of the coin and another will be opposite a position inside the periphery. The presence of a coin of predetermined diameter will cause a substantial change in the capacity between the coin and said other electrode and is indicated by the capacities between the two electrodes and the coin differing by more than a predetermined value. The composition check involves disposing a coin in an air gap of a single magnetic core having a coil wound thereon. The coil forms part of a tuned circuit of an oscillator whereby each of the plurality of acceptable coins, when present in the air gap, causes the oscillator to operate at a respective different frequency. The thickness check is carried out by monitoring the capacitance between the coin, resting against the inclined board, and a further electrode.
176	投入式硬幣判別裝置	TW088101271	1999-01-26	TW416043B	2000-12-21	古川哲雄
本發明之目的在於開發一種投入式硬幣判別裝置,其除了可將所投入之複數種類之硬幣排成一列,並判別每個硬幣之真偽或種類外,其目的並在於可退出疑似偽幣而接受真幣,等硬幣種類之篩分之後處理。本發明之投入式硬幣判別裝置,至少具備:漏斗11,能投入硬幣;第一帶子12,裝於該漏斗11之底部,用以使所投入之硬幣排成一列而送出;滾筒15,用以將由該第一帶子12所送出之一列硬幣之重疊,加以打散;第二帶子16,速度快,用以將由該第一帶子12所送來之無重疊之一列硬幣,加以分離;感應器18,配設在該第二帶子16附近,用以判別一個硬幣;選擇滾筒21,能自由移動,用以選擇由該第二帶子16所送出之一個硬幣;電磁圈24,用以操作該選擇滾筒21;其特徵為:於判別為真幣時，藉由該感應器18，使該選擇滾筒21動作，以接受該真幣。
177	COIN DISCRIMINATION APPARATUS	PCT/GB1992000791	1992-04-30	WO1993006569A1	1993-04-01	COIN CONTROLS LIMITED
Coin discrimination apparatus includes a coin rundown path (4) along which coins roll so as to impact a snubber (8) provided with a piezo electric device (13). The coin impact produces an oscillatory voltage output from the device, which is sampled over a predetermined period for its peak maximum and minimum values. The values are combined in a predetermined relationship to produce a coin parameter signal indicative of coin mass and the material from which it it made. Coin acceptability is determined on the basis of the value of the coin parameter signal.
178	Method and apparatus for processing unclaimed cash redemption receipts in a self-service cash redemption machine	US12632192	2009-12-07	US08261902B2	2012-09-11	Robert A. Allexon; William M. Paist
A coin exchange machine (10) and method in which a coin counting mechanism (25, 23) receives a plurality of coins from a customer and counts the coins to determine a total, a dispensing mechanism (20) dispenses a receipt (17a) in exchange for the coins, and wherein before accepting coins for totaling and before dispensing the receipt, the machine (10) causes a display of a notice (21, 22) with a request for the customer to indicate acceptance through a user interface; wherein the machine (10) receives the customer's acceptance of the notice (21, 22) through the user interface; and wherein only after the customer's acceptance, the machine (10) then proceeds to receive and count coins deposited by the customer and to dispense the receipt (17a) to the customer for redemption. The machine (10) keeps a record of the transactions for performing a reconciliation routine to identify unredeemed receipts.
179	Method and Apparatus for Processing Unclaimed Cash Redemption Receipts in a Self-service Cash Redemption Machine	US12632192	2009-12-07	US20100144259A1	2010-06-10	Robert A. Allexon; William M. Paist
A coin exchange machine (10) and method in which a coin counting mechanism (25, 23) receives a plurality of coins from a customer and counts the coins to determine a total, a dispensing mechanism (20) dispenses a receipt (17a) in exchange for the coins, and wherein before accepting coins for totaling and before dispensing the receipt, the machine (10) causes a display of a notice (21, 22) with a request for the customer to indicate acceptance through a user interface; wherein the machine (10) receives the customer's acceptance of the notice (21, 22) through the user interface; and wherein only after the customer's acceptance, the machine (10) then proceeds to receive and count coins deposited by the customer and to dispense the receipt (17a) to the customer for redemption. The machine (10) keeps a record of the transactions for performing a reconciliation routine to identify unredeemed receipts.
180	Coin discriminator and acceptor arrangement	US227498	1994-04-14	US5379875A	1995-01-10	Howard Shames; William Carswell; Ronald Roberts; Larry Shulman; Gerald W. Smith
Discrimination between genuine coins and unacceptable coins (i.e., slugs) deposited in a coin-actuated vending machine, is achieved by guiding a deposited coin for movement along a guide path, and positioning a disk-shaped coil which forms part of an oscillator circuit at a certain position relative to the first guide path such that coins of certain diameters will interact with flux produced by the coil when the latter is excited by the oscillator circuit and the coins are guided in proximity with the coil. Amplitude and frequency values each corresponding to operation of the oscillator circuit (1) in the absence of a proximate coin, and (2) when a deposited coin is at positions along the first guide path which are in proximity with the coil, are measured. Degrees of shift in the amplitude and the frequency values between measurements made at (1) and (2) are then determined. The determined degrees of shift are compared against known shift limits for acceptable (i.e., genuine) coins of interest, and an accept condition for a deposited coin is judged according to the comparison result.

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