System and method for measuring a supply of solid ink in a solid ink printer
First Claim
1. A solid ink measurement system comprising:
- a first solid ink feed channel having a keyed opening at a first end of the first solid ink feed channel, a melt plate at a second end of the first solid ink feed channel, a first inner wall, and a second inner wall, the first and second inner walls being opposite one another and generally parallel to one another and both inner walls extending from the first end of the first solid ink feed channel to the second end of the first solid ink feed channel, the first solid ink feed channel having a longitudinal feed direction from the first end of the first solid ink feed channel to the second end of the first solid ink feed channel and a lateral dimension between the first and the second inner walls through which solid ink is moved from the first end of the first solid ink feed channel to the second end of the first solid ink feed channel to deliver the solid ink to the melt plate for melting, and the keyed opening being configured to enable solid ink of only one predetermined color to be inserted into the first solid ink feed channel;
a driving electrode mounted along a substantial length of the first inner wall of the first solid ink feed channel to position the driving electrode proximate to solid ink within the lateral dimension between the first inner wall and the second inner wall of the first solid ink feed channel as the solid ink moves along the longitudinal feed direction of the first solid ink feed channel;
a sensing electrode mounted along a substantial length of the second inner wall of the first solid ink feed channel to position the sensing electrode proximate to solid ink within the lateral dimension between the first inner wall and the second inner wall of the first solid ink feed channel as the solid ink moves along the longitudinal feed direction of the first solid ink feed channel to enable air and solid ink within the first solid ink feed channel to form a dielectric for a single capacitor between the driving electrode and the sensing electrode;
an AC source switch;
an AC voltage source coupled to the AC source switch, the AC source switch being configured to couple the AC voltage source selectively to the driving electrode to generate an electrical field from the driving electrode only while the AC voltage source is coupled to the driving electrode by the AC source switch; and
a capacitance measurement circuit coupled to the sensing electrode to receive an electrical signal induced in the sensing electrode by the electrical field generated by the driving electrode, the capacitance measurement circuit being configured to identify an amount of solid ink in the first feed channel that corresponds to the electrical signal received from the sensing electrode.
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Abstract
A solid ink printer includes a solid ink measurement system that helps ensure an adequate supply of solid ink is in the feed channels delivering solid ink to a melting device within a printer. The solid ink measurement system includes a driving electrode mounted along a substantial length of a first structure of a first solid ink feed channel, a sensing electrode mounted along a substantial length of a second structure of the first solid ink feed channel, the sensing electrode being opposite and generally parallel to the driving electrode, an AC voltage source coupled to the driving electrode to generate an electrical field emitted from the driving electrode, and a capacitance measurement circuit coupled to the sensing electrode to receive an electrical signal induced in the sensing electrode by the electrical field generated by the driving electrode, the capacitance measurement circuit being configured to identify an amount of solid ink in the first feed channel that corresponds to the electrical signal received from the sensing electrode.
10 Citations
15 Claims
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1. A solid ink measurement system comprising:
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a first solid ink feed channel having a keyed opening at a first end of the first solid ink feed channel, a melt plate at a second end of the first solid ink feed channel, a first inner wall, and a second inner wall, the first and second inner walls being opposite one another and generally parallel to one another and both inner walls extending from the first end of the first solid ink feed channel to the second end of the first solid ink feed channel, the first solid ink feed channel having a longitudinal feed direction from the first end of the first solid ink feed channel to the second end of the first solid ink feed channel and a lateral dimension between the first and the second inner walls through which solid ink is moved from the first end of the first solid ink feed channel to the second end of the first solid ink feed channel to deliver the solid ink to the melt plate for melting, and the keyed opening being configured to enable solid ink of only one predetermined color to be inserted into the first solid ink feed channel; a driving electrode mounted along a substantial length of the first inner wall of the first solid ink feed channel to position the driving electrode proximate to solid ink within the lateral dimension between the first inner wall and the second inner wall of the first solid ink feed channel as the solid ink moves along the longitudinal feed direction of the first solid ink feed channel; a sensing electrode mounted along a substantial length of the second inner wall of the first solid ink feed channel to position the sensing electrode proximate to solid ink within the lateral dimension between the first inner wall and the second inner wall of the first solid ink feed channel as the solid ink moves along the longitudinal feed direction of the first solid ink feed channel to enable air and solid ink within the first solid ink feed channel to form a dielectric for a single capacitor between the driving electrode and the sensing electrode; an AC source switch; an AC voltage source coupled to the AC source switch, the AC source switch being configured to couple the AC voltage source selectively to the driving electrode to generate an electrical field from the driving electrode only while the AC voltage source is coupled to the driving electrode by the AC source switch; and a capacitance measurement circuit coupled to the sensing electrode to receive an electrical signal induced in the sensing electrode by the electrical field generated by the driving electrode, the capacitance measurement circuit being configured to identify an amount of solid ink in the first feed channel that corresponds to the electrical signal received from the sensing electrode. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. An ink loader for a solid ink printer comprising:
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a plurality of solid ink feed channels through which solid ink is delivered to a plurality of melt plates, each solid ink feed channel having a keyed opening at a first end of each solid ink feed channel, a melt plate at a second end of each solid ink feed channel, a first inner wall, and a second inner wall, the first and second inner walls being opposite one another and generally parallel to one another and both inner walls of each solid ink feed channel extending from the first end of each solid ink feed channel to the second end of each solid ink feed channel, each solid ink feed channel having a longitudinal feed direction from the first end of each solid ink feed channel to the second end of each solid ink feed channel and a lateral dimension between the first and the second inner walls of each solid ink feed channel through which solid ink is moved from the first end of each solid ink feed channel to the second end of each solid ink feed channel to deliver solid ink to each melt plate in the plurality of melt plates for melting, each keyed opening at the first end of each solid ink feed channel being configured to enable only one color of solid ink to be inserted into each solid ink feed channel and the color of solid ink that can inserted through the keyed opening of each solid ink feed channel is different than the color of solid ink that can be inserted through the keyed openings of the other solid ink feed channels in the plurality of solid ink feed channels; a plurality of driving electrodes arranged in the plurality of solid ink feed channels, at least one of the driving electrodes being mounted to the first inner wall of at least one solid ink feed channel to position the at least one driving electrode proximate to solid ink moving through the at least one solid ink feed channel; a plurality of sensing electrodes arranged in the plurality of solid ink feed channels, at least one of the sensing electrodes being mounted to the second inner wall of the at least one feed channel to position the at least one sensing electrode proximate to the solid ink moving in the longitudinal feed direction through the at least one solid ink feed channel; an alternating current (AC) voltage source; an AC source switch coupled to the AC voltage source and configured to selectively couple the AC voltage source to the driving electrodes to emit an electric field from the driving electrodes at different times into air and solid ink forming a dielectric in the feed channels of the plurality of feed channels; and a capacitance measurement circuit coupled to the plurality of sensing electrodes to receive electrical signals induced in the sensing electrodes by the electric fields generated by the driving electrodes at different times, the capacitance measurement circuit being configured to identify an amount of solid ink in the solid ink feed channels that correspond to the electrical signals received from the sensing electrodes with reference to a capacitance of a single capacitor formed in each feed channel by the driving electrode and the sensing electrode associated with the inner walls of each feed channel and the solid ink and air between the driving electrode and the sensing electrode associated with the inner walls of each feed channel. - View Dependent Claims (9, 10, 11, 12, 13, 14, 15)
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Specification