Dual coil coin identifier
First Claim
1. A coin identification device comprising:
- means for establishing two magnetic fields, each magnetic field adapted to sequentially oscillate at two or more base frequencies;
means for directing the coin to be identified through the two magnetic fields in a predetermined sequence wherein the flux lines in one of the magnetic fields are substantially parallel to the plane of a coin and sequentially oscillate at the two or more base frequencies as the coin passes through the field, and the flux lines in the other magnetic field are substantially perpendicular to the plane of the coin and sequentially oscillate at the two or more base frequencies as the coin passes through the field; and
processor means for monitoring the magnetic fields for frequency shifts in the base frequencies as the coin passes through them to generate signature signals for the coin and for comparing the signatures to known coin signatures to determine the identity of the coin.
1 Assignment
0 Petitions
Accused Products
Abstract
The coin identification device comprises a gravity fed chute structure having an opening for receiving a coin to be identified, walls to guide the coin as it moves through the chute and an opening for the coin to exit. A wake-up circuit with sensing coils mounted near the chute opening provides an output signal when the presence of a coin is detected. Two coin sensing circuits, each having an oscillator with a particular coil arrangement are used to sense the characteristics of the coin passing through them. The first coin sensing circuit includes a coil arrangement having a coil mounted on the chute with its axis in the direction of the coin path such that the coin will pass through it and forming part of a first oscillator to create lines of flux parallel to the coin path. The second coin sensing circuit includes a coil arrangement having a coil mounted on a U-shaped core with two substantially parallel legs connected at one end by an arm that is mounted about the chute to have the coin pass in the gap between the core legs. The second coil arrangement forms part of a second oscillator to create lines of flux perpendicular to the plane of the coin passing through the chute. The first and second oscillators are adapted to oscillate at one or more base frequencies. The frequency shift of the first oscillator is measured as the coin passes through the first magnetic field and the frequency shift of the second oscillator is measured as the coin passes through the second magnetic field to generate signatures of the coin characteristics. A microprocessor compares the generated signatures to known coin signatures to identity of the coin.
134 Citations
31 Claims
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1. A coin identification device comprising:
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means for establishing two magnetic fields, each magnetic field adapted to sequentially oscillate at two or more base frequencies;
means for directing the coin to be identified through the two magnetic fields in a predetermined sequence wherein the flux lines in one of the magnetic fields are substantially parallel to the plane of a coin and sequentially oscillate at the two or more base frequencies as the coin passes through the field, and the flux lines in the other magnetic field are substantially perpendicular to the plane of the coin and sequentially oscillate at the two or more base frequencies as the coin passes through the field; and
processor means for monitoring the magnetic fields for frequency shifts in the base frequencies as the coin passes through them to generate signature signals for the coin and for comparing the signatures to known coin signatures to determine the identity of the coin. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16)
two oscillators, each oscillator is adapted to sequentially oscillate at two or more base frequencies and has an electromagnet to generate one of the magnetic fields.
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3. A coin identification device as claimed in claim 2 wherein:
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the electromagnet for generating the magnetic field with flux lines parallel to the plane of the coin comprises a hollow coil adapted to have the coin pass through it; and
the electromagnet for generating the magnetic field with flux lines perpendicular to the plane of the coin comprises a U-shaped core having two substantially parallel legs connected at one end by an arm with coil means mounted on the core and adapted to have the coin pass through the gap between the legs of the core.
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4. A coin identification device as claimed in claim 3 wherein the oscillators are adapted to oscillate at substantially the same one or more base frequencies which are in the order of 100 kHz.
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5. A coin identification device as claimed in claim 3 wherein each oscillator is adapted to sequentially oscillate at two distinct base frequencies under the control of the processor means as the coin passes through the magnetic field generated by the respective oscillator.
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6. A coin identification device as claimed in claim 3 wherein shielding is located on the U-shaped core to concentrate the magnetic flux in the gap between the core legs.
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7. A coin identification device as claimed in claim 2 wherein the means for directing the coin comprises a gravity fed chute structure having an opening for receiving the coin, walls to guide the coin as it moves downward and an opening for the coin to exit.
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8. A coin identification device as claimed in claim 7 wherein:
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the electromagnet for generating the magnetic field with flux lines parallel to the plane of the coin comprises a hollow coil adapted to have the coin pass through it; and
the electromagnet for generating the magnetic field with flux lines perpendicular to the plane of the coin comprises a U-shaped core having two substantially parallel legs connected at one end by an arm with coil means mounted on the core and adapted to have the coin pass through the gap between the legs of the core.
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9. A coin identification device as claimed in claim 8 wherein the chute includes an offset located along the coin path between the chute opening and the electromagnets to stabilize the coin before the coin passes through the electromagnets.
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10. A coin identification device as claimed in claim 8 wherein the oscillators are adapted to oscillate at substantially the same base frequencies.
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11. A coin identification device as claimed in claim 8 wherein each oscillator is adapted to sequentially oscillate at two distinct base frequencies under the control of the processor means as the coin passes through the magnetic field generated by the respective oscillator.
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12. A coin identification device as claimed in claim 8 wherein shielding is located on the U-shaped core to concentrate the magnetic flux in the gap between the core legs.
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13. A coin identification device as claimed in claim 2 wherein the processor means monitors the frequency shift of the oscillators as the coin passes through the magnetic fields generated by the respective oscillators.
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14. A coin identification device as claimed in claim 13 wherein the processor means generates signature signals as a function of the maximum percent frequency shift of the oscillators from their base frequencies.
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15. A coin identification device as claimed in claim 13 wherein the oscillators are adapted to oscillate at substantially the same base frequencies.
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16. A coin identification device as claimed in claim 13 wherein each oscillator is adapted to sequentially oscillate at two distinct base frequencies under the control of the processor means as the coin passes through the magnetic field generated by the respective oscillator.
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17. A coin identification device comprising:
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a gravity fed chute structure having an opening for receiving a coin to be identified, walls to guide the coin as it moves through the chute and an opening for the coin to exit;
an oscillator adapted to sequentially oscillate at two or more base frequencies and including an electromagnet having a hollow coil mounted about the chute to have the coin pass through it;
an oscillator adapted to sequentially oscillate at two or more base frequencies and including an electromagnet having a U-shaped core with two substantially parallel legs connected at one end by an arm and coil means mounted on the core, the U-shaped core mounted about the chute to have the coin pass in the gap between the core legs; and
processor means for monitoring the frequency shifts of the oscillators from their two or more base frequencies as the coin passes through their respective magnetic fields to generate three or more signatures for the coin, and for comparing the signatures to known coin signatures to determine the identity of the coin. - View Dependent Claims (18, 19, 20, 21)
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22. A coin identification process comprising:
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(a) establishing two spatially separated magnetic fields adapted to sequentially oscillate at two or more base frequencies;
(b) directing the coin to be identified through one of the magnetic fields with a plane of the coin substantially parallel to the flux lines while the field sequentially oscillates at the two or more frequencies and through the other magnetic field with the plane of the coin substantially perpendicular to the flux lines while the field sequentially oscillates at the two or more frequencies;
(c) monitoring the flux lines parallel to the plane of the coin and the flux lines perpendicular to the plane of the coin for base frequency shifts as the coin passes through them to provide signatures representing characteristics of the coin; and
(d) comparing the acquired signatures to known coin signatures to determine the identity of the coin. - View Dependent Claims (23, 24, 25, 26, 27, 28, 29, 30, 31)
(b1) the coin is first directed through the oscillating magnetic field with the plane of the coin substantially parallel to the flux lines; and
(b2) the coin is subsequently directed through the oscillating magnetic field with the plane of the coin substantially perpendicular to the flux lines.
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25. A coin identification process as claimed in claim 22 wherein in step (a) includes:
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(a1) switching one of the oscillating magnetic fields ON during at least the period that the coin is passing through it;
(a2) switching the one of the oscillating magnetic fields OFF;
(a3) switching the other of the oscillating magnetic fields ON during at least the period that the coin is passing through it; and
(a4) switching the other of the oscillating magnetic fields OFF.
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26. A coin identification process as claimed in claim 25 wherein in step (a1) includes:
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(a11) causing the one of the oscillating magnetic fields to oscillate at a frequency f1 during an initial portion of the one ON period; and
(a12) causing the one of the oscillating magnetic fields to oscillate at a frequency f2 during the remaining portion of the one ON period.
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27. A coin identification process as claimed in claim 26 wherein in step (a3) includes:
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(a31) causing the other of the oscillating magnetic fields to oscillate at a frequency f3 during an initial portion of the other ON period; and
(a32) causing the other of the oscillating magnetic fields to oscillate at a frequency f4 during the remaining portion of the other ON period.
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28. A coin identification process as claimed in claim 27 wherein f1=f3, f2=f4 and f1=f2.
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29. A coin identification process as claimed in claim 27 wherein f1≢
- f3, f1≢
f4, f2≢
f3 and f2≢
f4.
- f3, f1≢
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30. A coin identification process as claimed in claim 27 wherein step (c) includes:
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(c1) measuring the frequency shift of the one oscillating magnetic field while it oscillates at the frequency f1 to provide a first signature;
(c2) measuring the frequency shift of the one oscillating magnetic field while it oscillates at the frequency f2 to provide a second signature;
(c3) measuring the frequency shift of the other oscillating magnetic field while it oscillates at the frequency f3 to provide a third signature; and
(c4) measuring the frequency shift of the other oscillating magnetic field while it oscillates at the frequency f4 to provide a fourth signature.
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31. A coin identification process as claimed in claim 30 wherein step (d) includes:
- comparing at least three of the acquired signatures to known coin signatures to determine the identity of the coin.
Specification