Provided is a single infrared emitter dispenser monitor for refrigeration appliance that includes a dispenser that dispenses at least one of water and ice. A vessel detector includes an infrared emitter, a first infrared detector, and a second infrared detector. The infrared emitter emits radiation
Provided is a single infrared emitter dispenser monitor for refrigeration appliance that includes a dispenser that dispenses at least one of water and ice. A vessel detector includes an infrared emitter, a first infrared detector, and a second infrared detector. The infrared emitter emits radiation having an angle of dispersion such that both of the first and second infrared detectors receive the radiation emitted by the infrared emitter. The first infrared detector is arranged more frontward than the second infrared detector. In further examples, an elapsed time between detection signals is compared to a minimum elapsed time, and a dispensing signal is only sent if the elapsed time is greater than the minimum elapsed time. By this configuration, the number of input/output lines running into a control device is reduced, and it is possible to detect a failed emitter if both detector signals fall to zero at the same time.
대표청구항▼
1. A refrigeration appliance, comprising: a cabinet forming an enclosure;a dispenser that dispenses at least one of liquid and ice to an exterior of the enclosure; anda vessel detector including an infrared emitter, a first infrared detector, and a second infrared detector;wherein the infrared emitt
1. A refrigeration appliance, comprising: a cabinet forming an enclosure;a dispenser that dispenses at least one of liquid and ice to an exterior of the enclosure; anda vessel detector including an infrared emitter, a first infrared detector, and a second infrared detector;wherein the infrared emitter emits radiation having an angle of dispersion resulting in a conical area of radiation;wherein the infrared emitter is pointed toward both the first and second infrared detectors and both of the first and second infrared detectors are arranged within the conical area of radiation and receive the radiation emitted by the infrared emitter;wherein the first infrared detector is arranged closer to a front surface of the cabinet than the second infrared detector; andwherein the dispenser, the infrared emitter, and the first and second infrared detectors are arranged such that a vessel blocks the radiation from reaching both the first and second infrared detectors when said vessel is positioned to receive the at least one of liquid and ice from the dispenser. 2. The refrigeration appliance of claim 1 further comprising: a control unit;wherein the control unit controls a level of radiation emitted from the infrared emitter, andwherein the control unit receives a first detection signal from the first infrared detector and a second detection signal from the second infrared detector. 3. The refrigeration appliance of claim 2, wherein the control unit determines when at least one of a first level of radiation based on the first detection signal and a second level of radiation based on the second detection signal is less than a reference level. 4. The refrigeration appliance of claim 2, wherein the radiation emitted from the infrared emitter is modulated by the control unit to produce a square wave. 5. The refrigeration appliance of claim 2, wherein the control unit is configured to measure at least one of a first level of radiation and a second level of radiation through an amplifier circuit during a time when no vessel is detected. 6. The refrigeration appliance of claim 5, wherein the control unit is configured to adjust a reference level based on changes over time in at least one of the first level of radiation and the second level of radiation. 7. A refrigeration appliance, comprising: a cabinet forming an enclosure;a dispenser that dispenses at least one of liquid and ice to an exterior of the enclosure;a vessel detector including an infrared emitter, a first infrared detector, and a second infrared detector; anda control unit;wherein the infrared emitter emits radiation having an angle of dispersion resulting in a conical area of radiation;wherein the infrared emitter is pointed toward both the first and second infrared detectors and both of the first and second infrared detectors are arranged within the conical area of radiation and receive the radiation emitted by the infrared emitter;wherein the dispenser, the infrared emitter, and the first and second infrared detectors are arranged such that a vessel blocks the radiation from reaching both the first and second infrared detectors when said vessel is positioned to receive the at least one of liquid and ice from the dispenser; andwherein the control unit stores a minimum elapsed time;detects a first reduction in a first level of radiation detected by the first infrared detector and a second reduction in a second level of radiation detected by the second infrared detector,determines an elapsed time between the first reduction and the second reduction, andsends a dispense signal to the dispenser based on the elapsed time being greater than the minimum elapsed time. 8. The refrigeration appliance of claim 7, wherein the control unit further determines if the first reduction is detected prior to the second reduction, and sends a dispense signal to the dispenser based on the first reduction being detected prior to the second reduction. 9. The refrigeration appliance of claim 1, wherein the second infrared detector is exposed to an opening of a recess formed in an exterior of the enclosure and the second infrared detector is arranged further back in the recess compared to the first infrared detector. 10. A refrigeration appliance, comprising: a cabinet forming an enclosure;a dispenser that dispenses at least one of liquid and ice to an exterior of the enclosure; anda vessel detector including a single infrared emitter, a first infrared detector, and a second infrared detector;wherein the single infrared emitter emits radiation having an angle of dispersion resulting in a conical area of radiation;wherein the single infrared emitter is pointed toward both the first and second infrared detectors and both of the first and second infrared detectors are arranged within the conical area of radiation and receive the radiation emitted by the single infrared emitter;wherein the first infrared detector is arranged closer to a front surface of the cabinet than the second infrared detector, andwherein the dispenser, the single infrared emitter, and the first and second infrared detectors are arranged such that a vessel blocks the radiation from reaching both the first and second infrared detectors when said vessel is positioned to receive the at least one of liquid and ice from the dispenser.
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