US3373856A - Method and apparatus for coin selection - Google Patents

Method and apparatus for coin selection Download PDF

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Publication number
US3373856A
US3373856A US55199266A US3373856A US 3373856 A US3373856 A US 3373856A US 55199266 A US55199266 A US 55199266A US 3373856 A US3373856 A US 3373856A
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coin
magnetic
field
signal
coins
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Norbert L Kusters
Malcolm P Macmartin
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Canadian Patents and Development Ltd
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Canadian Patents and Development Ltd
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    • GPHYSICS
    • G07CHECKING-DEVICES
    • G07DHANDLING OF COINS OR OF PAPER CURRENCY OR SIMILAR VALUABLE PAPERS, e.g. TESTING, SORTING BY DENOMINATIONS, COUNTING, DISPENSING, CHANGING OR DEPOSITING
    • G07D5/00Testing specially adapted to determine the identity or genuineness of coins, e.g. for segregating coins which are unacceptable or alien to a currency
    • G07D5/08Testing the magnetic or electric properties

Description

March 19, 1968 NL. KUSTERS ET AL 3,373,856

METHOD AND APPARATUS FOR COIN SELECTION Filed May 23, 1966 s Sheets-Shet 1 INPUT" CHUTE REJECTED ACCEPTED COINS OR COINS SLUGS F! G. l

OSCILLATOR 26 //v\/- ram 24 SELECTION NOEBE/QT 1. K01 rem CIRCUITS MALCOLM March 19, 1968 N. 1.. KUSTERS ET AL 3,373,856

METHOD AND APPARATUS FOR COIN SELECTION Filed May 23, 1966 5 Sheets-Sheet 2 ':S\\,\26 EL C \fZ PC ZgA J 22 OSCILLATOR SELECTION ClRCUlTS SET POINTi 32 r 23 28 PEAK LOGIC DETECTOR cmcun' RELAY- 4 B DRIVER RELAY OSCILLATOR RECT'F'ER ism POINT AND NOT PEAK. DETECTOR A FIG. 6

//v vE/v rores March 19, 1968 1 us s ET AL 3,373,856

METHOD AND APPARATUS FOR com SELECTION Filed May 25, 1966 a Sheets-Sheet :5

Ala/98547 L. Mare-ks MAL AcrrAer/A/ United States Patent 12 Claims. in. 194-100 FOR This invention relates to coin selector mechanisms and more particularly to a method and apparatus capable of detecting and rejecting spurious or counterfeit coins or slugs and accepting as valid, coins that may be made of either a non-magnetic metal or alloy having known electrical characteristics or a magnetic metal or alloy having known electro-magnetic characteristics.

At the present time the coins of the larger denominations of most countries are made of a metal alloy the major constituent of which is silver. For example, the US. 25-cent piece is 90 silver and the Canadian 25-cent piece is 80% silver. These coins are used not only for ordinary money transactions but also quite widely in coinoperated vending machines. The coin-operated mechanisms of the more sophisticated type. usually incorporate coin testing devices so that spurious coins, tokens, slugs, or other objects not conforming to a given specification will be rejected. The coin testing devices presently used normally test not only weight and size of the coins inserted but also an electrical characteristic such as resistance, capacitance, or the eddy-current braking action on the coin as it rolls past a permanent magnet. This latter method is used quite widely and is quite effective and satisfactory for testing coins made of non-magnetic material such as silver. If coins with ferromagnetic properties are inserted, they are strongly attracted to the permanent magnet and are rejected by the selector mechanism.

At the present time there is a worldwide shortage of silver and many countries are studying the desirability and possibility of issuing coins which contain either no or only a minor proportion of silver with the other proportion being of nickel, copper, iron, steel, or other metals. The United States Government has announced that they will begin issuing ZS-cent pieces and lO-cent pieces using a sandwich style coin with the faces composed of a copper-nickel alloy plus a core of pure copper. It is claimed that these coins are completely compatible with the old silver coins in that they have the correct electrical properties to operate the large numbers of coin-operated vending machines.

Several countries including Canada would like to issue coins with a larger base metal content. Up until now there has been no known way of making these coins of solid metal or alloy with the correct electrical properties to make them compatible with the old silver coins in coin selector mechanisms. The sandwich type coin provides difficulties in manufacture and an undesirable appearance from a metal or alloy having ferromagnetic properties.

It is another object of the invention to provide a coin testing method and apparatus that will be readily adaptable to present coin operated vending machines and that Patented Mar. 19, 1968 will be compatible in that it will accept coins presently in use and any new types of coins that might be decided upon by a country or state. 1

These and other objects of the invention are achieved by passing an alternating magnetic field through the coin and measuring the attenuation of the magnetic field caused by the coin.

Applicants have found that if a magnetic field is passed through a coin, the attenuation of the magnetic field caused by the coin can be measured and used as the criterion for the acceptance of the validity of the coin. It follows from this that a coin selector mechanism can be designed and built for accepting as valid a coin of known properties and discriminating against all others provided the parameters of the selector mechanism such as operating frequency and geometry of the magnetic circuitry are properly selected. In addition, applicants have found that the attenuation in a non-magnetic material varies with the frequency of the alternating magnetic field but in the case of a magnetic material it is nearly independent of frequency. It follows from this that if the operating frequency is properly chosen, the same attenuation can be obtained with the present silver coins and coins made of a material having some ferromagnetic properties.

According to the invention a coin testing mechanism is provided wherein the coin under test is inserted in the field generated by a magnetic device positioned on one side of the coin and the voltage induced in a suitable pickup device positioned on the opposite side of the coin is measured. The frequency of input voltage to the magnetic circuit, and the positions of the driving device, pickup device, and coin are chosen such that the variation of signal due to eddy currents in a coin made of non-magnetic material, e.g. silver would be or could be adjusted to be substantially equal to the variation of signal due to the presence of a coin made of magnetic material, e.g. nickel, stainless steel. p

According to another more versatile aspect of the invention a coin testing apparatus is provided wherein the coin under test is inserted in the field induced by a magnetic driver device placed on one side of the coin so that it attenuates the voltage generated in a suitable pick-up device placed on the opposite side of the coin. In this case a pick-up coil surrounds the coin under test and has a voltage induced in it by the magnetic flux passing mainly through the coin and not across the coin to the pick-up device. The frequency of the input voltage, the positions of the driver device, the pick-up device, and the coil around the coin are chosen such that the signal obtained by adding the signal from the pick-up device and the coil around the coin would be substantially the same if the coin is made from a non-magnetic material or a magnetic material. v

In drawings which illustrate an embodiment of themvention, l

FIGURE 1 is a schematic view ofa coin selector mechanism according to the invention, I i

FIGURE 2 is a cross-section of a portion of the device of FIGURE 1,

FIGURE 3 is a plan view in cross-section of sensing device,

FIGURE 4 is similar to FIGURE 2 but shows an additional winding that encircles the coin as-it passes through the sensing station,

FIGURE 5 is a plan view in cross-section of the .coin sensing device showing the additional winding,

FIGURE 6 is a block diagram of the electronic circuitry of the device,

FIGURE 7 is a schematic view of the magnetic field producing and detecting circuitry, and

the coin 3 FIGURE 8 is a graph of experimental results showing the relationship of frequency to response of some typical coin materials.

Referring to FIGURE 1 a coin selector mechanism is shown in somewhat schematic form. A plate structure 10 .carries an input chute 11 which leads to a coin sizing and weighing mechanism 12. This type of device is well known and in use at present and therefore forms no direct part of the present invention. After the coin is accepted by device 12 is would pass or roll down an inclined chute 13 past a coin sensing station 14 which will be described in more detail below. The coin then passes a selector gate 15 hinged at 16. Gate 15 is operated by a solenoid or relay (not shown) which in turn is connected to the operating circuitry. If the coin is to be accepted gate 15 pivots to allow the coin to pass straight down chute 17. If to be rejected, the gate pivots to allow the coin to go down chute 18.

FIGURE 2 shows a coin 19 passing down inclined chute 20 past a sensing station made up of a magnetic core 21 energized by means of a winding 22 connected to an oscillator 23. FIGURE 3 shows the sensing station in more detail. The coin 19 (seen here from the top) passes between the pole faces of a magnetic field producing core 21. The frequency of oscillator 23 is pro-determined and pre-set such that an alternating magnetic field of known frequency is set up. An alternating voltage is induced in detection winding on magnetic core 24 and is applied to the selection circuits 26. The amplitude of the voltage produced is dependent on the attenuation in the magnetic field between the pole faces of cores 21 and 24. If a coin is positioned between these pole faces the attenuation varies with the size, shape, and electrical properties of the coin.

FIGURE 4 and FIGURE 5 are similar to FIGURES 2 and 3 but show an additional winding 27 which is positioned to encircle the coin as it passes through the sensing station. This winding is connected in series with detection winding 25 and therefore adds a voltage related to the magnetic flux passing through the coin and not reaching core 24. This winding is not necessary in all cases but adds flexibility to the invention in that the device may be designed to accept certain types of coins that it might otherwise be difiicult to accommodate due to their electrical and magnetic characteristics.

FIGURE 6 shows the selection circuitry in block form. The coin 19 is positioned between energizing circuitry 22 and detection winding 25. By-pass winding 27 may be connected in at points X and Y if desired. The alternating voltage induced in detection winding 25 is rectified in rectifier 28 and the DC voltage obtained is applied to a peak detector (A) 30 which gives an output signal if the voltage exceeds a predetermined and pre-set level and also to a peak detector (B) 31 which gives an output signal if the voltage exceeds another pre-determined and pre-set level. The output signals from the detectors 30 and 31 are applied to a logic gate 32 which gives an output only if there is a signal from detector 31 and not from detector 30. It will be realized that an output is obtained only if the voltage level induced in detection winding-lies between the two pre-set levels and therefore a pass band of pre-determined size can be established in the system. The output from logic gate 32 is applied to a relay driver 33 which operates a relay 34 when energized. The relay is connected to operate selection gate 15 (see FIG- URE 1) in such a way as to send a coin down chute 17 if and only if the correct operating signal is obtained.

FIGURE 7 shows the magnetic circuitry and some of the parameters that might be considered in the design of the device or that could be arranged to be varied as required. A coin 19 of diameter C is between the pole faces of magnetic cores 38 and 39 of pole spacing S and in which the gap spacing is G. In a working device this gap spacing could be made adjustable to meet varying conditions by means of a suitable screw adjustment.

FIGURE 8 is a graph of results obtained from an experimental set-up wherein different types and sizes of coins were tested. Voltage response (actually attenuation caused by the coins) is plotted against frequency. It will be seen that in coins that are made of non-magnetic material (copper, silver, aluminum, brass) the response is frequency dependent. For magnetic materials (steel) the response is generally independent of frequency. Nickel would be similar to steel but the Canadian S-cent piece tested is made of nickel that has conductive and magnetic properties and therefore has a curve that lies between the curves for the other materials. The important point to be gained from this graph is that for any two types of coin materials there is a frequency at which the curves cross or in other words at which the signal response is the same. From this it follows that for a coin made of magnetic material and another coin made of a non-magnetic material, a frequency can be determined that will give the same voltage response and a selecting device can be designed and built according to the invention that will find both types of coins acceptable.

In addition to the operating frequency the relative response between magnetic and non-magnetic materials is affected by the geometry of the magnetic devices, e.g. pole spacing and air gap. A third method of varying the response for magnetic coin materials is to place a coil around the coin when it is in the detecting position. This coil would measure the by-pass flux, that is, the flux that passes down the coin and does not reach the core on the opposite side of the coin (see coil 36 of FIGURE 7). The voltage induced in this coil may be added to the voltage obtained from the detection winding. In this way the response curve of a coin of a magnetic material may be altered and in some cases this may be necessary or desirable. A magnetic shunt 40 (FIGURE 7) may be used if necessary to by-pass a portion of the flux through bypass coil 36. This may be desirable when operating with certain coins. It will be realized that there are various parameters that can be designed into the apparatus or adjusted after the apparatus is built which give flexibility and wide capability to a selector mechanism built accordin g to this invention.

In the above description and in the claims that follow the method and apparatus has been described in terms of a coin selector mechanism. It should be pointed out that applicants consider the word coin in this context applies not only to the official coinage of a country or state but also to tokens, slugs, and other objects of this nature and also to key-like devices that might be used in automated merchandise processing systems.

What is claimed is:

1. A method of testing coins comprising passing an alternating magnetic field through the coin to be tested, measuring the variation in the field strength due to the coin, and applying the measurement so obtained to discrimination means such that coins causing a variation in field strength that lie within a pre-determined range are found to be acceptable and all others rejected.

2. A method of testing coins comprising passing an alternating magnetic field through the coin to be tested and measuring the variation in the field strength due to the coin, the frequency of the alternating magnetic field being chosen such that the said variation in field strength will be substantially the same for a coin made of a magnetic material having predetermined characteristics and a coin made of non-magnetic material having pre-determined characteristics.

3. A method of testing coins comprising generating an alternatingmagnetic field on one side of the coin to be tested, obtaining an electrical signal related to the field strength at a position on the opposite side of the coin, and applying the signal to a gating device adapted to operate to send the coin to an accept location when the signal lies within a pre-determined range.

4. A method of testing coins comprising generating an alternating magnetic field on one side of the coin to be tested, obtaining an electrical signal related to the field strength at a position on the opposite side of the coin, and applying the signal to a gating device adapted to operate to send the coin to an accept location when the signal lies within a predetermined range, the frequency of the alternating magnetic field being chosen such that the signal obtained will be substantially the same for a coin made of a magnetic material having pre-determined characteristics and a coin made of non-magnetic material having pre-determined characteristics.

5. A coin selector mechanism comprising:

(a) means for producing an alternating magnetic field positioned on one side of the coin to be tested,

(b) magnetic pick-up means positioned on the opposite side of the said coin to obtain an output signal, the amplitude of which is related to the attenuation caused 'by the coin to the magnetic field as it passes from the means for producing an alternating magnetic field to the pick-up means,

(c) discriminator means connected to said pick-up means adapted to discriminate between a relatively narrow pre-determined signal band and all other signal levels, and

(d) a coin selector actuating mechanism operatively connected to said discriminator means adapted to direct the test coin to an accept location when the signal level received in the discriminator lies within the pre-set band and to a reject location when the signal level lies outside the pre-set band.

6. A coin selector mechanism comprising:

(a) means for producing an alternating magnetic field positioned on one side of the coin to be tested,

(b) magnetic pick-up means positioned on the opposite side of the said coin to obtain an output signal, the amplitude of which is related to the attenuation caused by the coin to the magnetic field as it passes from the means for producing an alternating magnetic field to the pick-up means,

() discriminator means connected to said pick-up means adapted to discriminate between a relatively narrow pre-determined signal band and all other signal levels, and

(d) a coin selector actuating mechanism operatively connected to said discriminator means adapted to direct the test coin to an accept location when the signal level received in the discriminator lies within the pre-set band and to a reject location when the signal level lies outside the pre-set band,

(e) the frequency of operation of the said means for producing an alternating magnetic field being chosen such that the attenuation of the electrical signal between the said means for producing the alternating magnetic field and the said magnetic pick-up means is substantially the same for a coin made of non-magnetic material and a coin made of a metal or alloy having at least some ferromagnetic properties.

7. A coin selector mechanism as in claim 5 wherein the core positioned adjacent the opposite side of the coin from that of the means for producing an alternating magnetic field.

9. A coin selector mechanism as in claim 5 wherein coil means surrounds the coin to be tested and is adapted to produce a signal related to the magnetic flux passing through the coin and not reaching said magnetic pick-up means, said signal being added to the signal obtained by the said magnetic pick-up means.

10. A coin selector mechanism as in claim 5 wherein the said means for producing an alternating magnetic field is a coil wound on a U-shaped core positioned on one side, of the coin to be tested, said core having a magnetic shunt positioned in relation to it such that a portion of the flux passing through the said core is by-passed and does not pass through the said coin.

11. A coin selector mechanism comprising:

(a) an oscillator,

(b) coil means for producing an alternating magnetic field connected to said oscillator and positioned adjacent one face of the coin to be tested,

(c) magnetic coil pick-up means positioned adjacent the opposite face of the coin to be tested and adapted to provide an output voltage signal, the amplitude of which is related to the attenuation caused by the coin to the magnetic field strength between said coil means and said magnetic pick-up means, i

(d) rectifier means connected to said pick-up means to change said output voltage to a DC. voltage level,

(e) a first detector connected to the output of said rectifier and adapted to give an output signal when the said DC. voltage level exceeds a first pre-set voltage level,

(f) a second detector connected to the output of said rectifier and adapted to give an output signal when the said DC. voltage level exceeds a second pre-set voltage level, said first and second pre-set voltage levels defining a voltage level band,

(g) a logic gate connected to the outputs of said first and second detectors, said gate giving an output signal when the said D.C. level falls within the said voltage level band,

(h) a relay driver circuit connected to the output of said logic gate and adapted to operate a relay, and

(i) mechanical gating means connected to said relay and adapted to direct the coin after test either to an accept location or a reject location depending on whether the said output DC. voltage level lies within or without the defined voltage level band.

12. A coin selector mechanism as in claim 11 wherein the frequency of operation of the said oscillator is chosen such that the attenuation to the magnetic field strength will be substantially the same for a coin made of nonmagnetic material and a coin made of a metal or alloy having magnetic properties.

References Cited UNITED STATES PATENTS 2,329,810 9/1943 Zuschlag 2098l.1 2,642,974 6/1953 Ogle 194-l00 3,020,472 2/ 1962 Cauley 209-1118 3,059,749 10/1962 Zinke 194l00 SAMUEL F. COLEMAN, Primary Examiner.

Claims (1)

1. A METHOD OF TESTING COINS COMPRISING PASSING AN ALTERNATING MAGNETIC FIELD THROUGH THE COIN TO BE TESTED, MEASURING THE VARIATION IN THE FIELD STRENGTH DUE TO THE COIN, AND APPLYING THE MEASUREMENT SO OBTAINED TO DISCRIMINATION MEANS SUCH THAT COINS CAUSING A VARIATION IN FIELD STRENGTH THAT LIE WITHIN A PRE-DETERMINED RANGE ARE FOUND TO BE ACCEPTABLE AND ALL OTHERS REJECTED.
US3373856A 1966-01-18 1966-05-23 Method and apparatus for coin selection Expired - Lifetime US3373856A (en)

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Cited By (40)

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Publication number Priority date Publication date Assignee Title
US3596744A (en) * 1968-04-27 1971-08-03 Vladimir Yakovlevich Chesnokov Coin-testing apparatus
US3599771A (en) * 1968-08-28 1971-08-17 Adolf Hinterstocker Coin testing device for comparing coin to be tested with a standard coin
US3682286A (en) * 1969-07-19 1972-08-08 Georg Prumm Method for electronically checking coins
US3738469A (en) * 1969-08-22 1973-06-12 G Prumm Tester for different types of coins
US3741363A (en) * 1970-06-16 1973-06-26 A Hinterstocker Electronic coin testing apparatus
US3869663A (en) * 1971-06-11 1975-03-04 Berliner Maschinenbau Ag Method and apparatus for checking metallic objects by monitoring its effect on one cycle of an alternating field
JPS5030597A (en) * 1973-07-14 1975-03-26
US3933232A (en) * 1974-06-17 1976-01-20 Tiltman Langley Ltd. Coin validator
US4353452A (en) * 1980-04-04 1982-10-12 U.M.C. Industries, Inc. Coin-handling device
US4356903A (en) * 1979-10-12 1982-11-02 Lemelson Jerome H Parking meter
US4371073A (en) * 1979-08-08 1983-02-01 Autelca Ag Coin checker for coins of varying diameter
EP0072655A2 (en) * 1981-08-10 1983-02-23 Asahi Seiko Kabushiki Kaisha Coin rejector device
US4823928A (en) * 1987-04-16 1989-04-25 Pom Incorporated Electronic parking meter system
US4827206A (en) * 1987-04-16 1989-05-02 Pom, Incorporated Solar power system for electronic parking meter
US4870360A (en) * 1981-10-02 1989-09-26 University College Cardiff Consulatants Limited Apparatus for identifying an electrically conducting material
US4880097A (en) * 1987-04-16 1989-11-14 Pom Incorporated Park card system for electronic parking meter
US4895238A (en) * 1987-04-16 1990-01-23 Pom, Incorporated Coin discriminator for electronic parking meter
US4936435A (en) * 1988-10-11 1990-06-26 Unidynamics Corporation Coin validating apparatus and method
US4967895A (en) * 1987-04-16 1990-11-06 Pom, Incorporated Parameter control system for electronic parking meter
US5060777A (en) * 1990-03-27 1991-10-29 Duncan Industries Parking Control Corp. Low-power device for sorting tokens
US5067604A (en) * 1988-11-14 1991-11-26 Bally Manufacturing Corporation Self teaching coin discriminator
US5103957A (en) * 1989-06-15 1992-04-14 Am/Pm Parking Systems, Inc. Programmable electronic parking meter with communications interface
US5119916A (en) * 1990-03-27 1992-06-09 Duncan Industries Parking Control Corp. Sensor for measuring the magnetically responsive characteristics of tokens
US5139128A (en) * 1990-03-27 1992-08-18 Ducan Industries Parking Control Corp. Chute for controlling the motion of a token moving by gravity through a token-receiving device
US5222076A (en) * 1981-04-15 1993-06-22 Ng William K Y Data communication apparatus and method with low power standby mode
US5244070A (en) * 1992-03-04 1993-09-14 Duncan Industries Parking Control Systems Corp. Dual coil coin sensing apparatus
US5273151A (en) * 1992-03-23 1993-12-28 Duncan Industries Parking Control Systems Corp. Resonant coil coin detection apparatus
US5360095A (en) * 1992-04-07 1994-11-01 Pom Incorporated Power conserving electronic parking meter
US5379875A (en) * 1992-07-17 1995-01-10 Eb Metal Industries, Inc. Coin discriminator and acceptor arrangement
US5573099A (en) * 1994-01-14 1996-11-12 J. J. Mackay Canada Limited Apparatus and method for identifying metallic tokens and coins
US5579887A (en) * 1995-06-15 1996-12-03 Coin Acceptors, Inc. Coin detection apparatus
US6227343B1 (en) 1999-03-30 2001-05-08 Millenium Enterprises Ltd. Dual coil coin identifier
US6325197B1 (en) * 1999-02-25 2001-12-04 Kabushiki Kaisha Nippon Conlux Method and device for checking coin for forgery
US6382386B1 (en) * 2000-05-22 2002-05-07 Cashcode Company Inc. Eddy-current sensor for coin evaluation
US6556090B1 (en) 1998-08-14 2003-04-29 Mars Incorporated Oscillator circuit for a validator
US8727207B1 (en) 1995-04-06 2014-05-20 J.J. Mackay Canada Limited Electronic parking meter
USD705090S1 (en) 2012-04-02 2014-05-20 J.J. Mackay Canada Limited Single space parking meter
US8770371B2 (en) 2011-03-03 2014-07-08 J.J. Mackay Canada Limited Single space parking meter and removable single space parking meter mechanism
US9494922B2 (en) 2008-12-23 2016-11-15 J.J. Mackay Canada Limited Single space wireless parking with improved antenna placements
US9652921B2 (en) 2015-06-16 2017-05-16 J.J. Mackay Canada Limited Coin chute with anti-fishing assembly

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US4488116A (en) * 1981-09-22 1984-12-11 Mars, Incorporated Inductive coin sensor for measuring more than one parameter of a moving coin
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Cited By (48)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3596744A (en) * 1968-04-27 1971-08-03 Vladimir Yakovlevich Chesnokov Coin-testing apparatus
US3599771A (en) * 1968-08-28 1971-08-17 Adolf Hinterstocker Coin testing device for comparing coin to be tested with a standard coin
US3682286A (en) * 1969-07-19 1972-08-08 Georg Prumm Method for electronically checking coins
US3738469A (en) * 1969-08-22 1973-06-12 G Prumm Tester for different types of coins
US3741363A (en) * 1970-06-16 1973-06-26 A Hinterstocker Electronic coin testing apparatus
US3869663A (en) * 1971-06-11 1975-03-04 Berliner Maschinenbau Ag Method and apparatus for checking metallic objects by monitoring its effect on one cycle of an alternating field
JPS5030597A (en) * 1973-07-14 1975-03-26
US3933232A (en) * 1974-06-17 1976-01-20 Tiltman Langley Ltd. Coin validator
US4371073A (en) * 1979-08-08 1983-02-01 Autelca Ag Coin checker for coins of varying diameter
US4356903A (en) * 1979-10-12 1982-11-02 Lemelson Jerome H Parking meter
US4353452A (en) * 1980-04-04 1982-10-12 U.M.C. Industries, Inc. Coin-handling device
US5222076A (en) * 1981-04-15 1993-06-22 Ng William K Y Data communication apparatus and method with low power standby mode
EP0072655A2 (en) * 1981-08-10 1983-02-23 Asahi Seiko Kabushiki Kaisha Coin rejector device
EP0072655A3 (en) * 1981-08-10 1983-12-07 Asahi Seiko Kabushiki Kaisha Coin rejector device
US4870360A (en) * 1981-10-02 1989-09-26 University College Cardiff Consulatants Limited Apparatus for identifying an electrically conducting material
US4827206A (en) * 1987-04-16 1989-05-02 Pom, Incorporated Solar power system for electronic parking meter
US4880097A (en) * 1987-04-16 1989-11-14 Pom Incorporated Park card system for electronic parking meter
US4895238A (en) * 1987-04-16 1990-01-23 Pom, Incorporated Coin discriminator for electronic parking meter
US4823928A (en) * 1987-04-16 1989-04-25 Pom Incorporated Electronic parking meter system
US4967895A (en) * 1987-04-16 1990-11-06 Pom, Incorporated Parameter control system for electronic parking meter
US4936435A (en) * 1988-10-11 1990-06-26 Unidynamics Corporation Coin validating apparatus and method
US5067604A (en) * 1988-11-14 1991-11-26 Bally Manufacturing Corporation Self teaching coin discriminator
US5103957A (en) * 1989-06-15 1992-04-14 Am/Pm Parking Systems, Inc. Programmable electronic parking meter with communications interface
US5060777A (en) * 1990-03-27 1991-10-29 Duncan Industries Parking Control Corp. Low-power device for sorting tokens
US5119916A (en) * 1990-03-27 1992-06-09 Duncan Industries Parking Control Corp. Sensor for measuring the magnetically responsive characteristics of tokens
US5139128A (en) * 1990-03-27 1992-08-18 Ducan Industries Parking Control Corp. Chute for controlling the motion of a token moving by gravity through a token-receiving device
US5244070A (en) * 1992-03-04 1993-09-14 Duncan Industries Parking Control Systems Corp. Dual coil coin sensing apparatus
US5273151A (en) * 1992-03-23 1993-12-28 Duncan Industries Parking Control Systems Corp. Resonant coil coin detection apparatus
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Also Published As

Publication number Publication date Type
GB1154219A (en) 1969-06-04 application
DE1474735A1 (en) 1969-08-28 application

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