A temperature-controlled beverage dispenser is disclosed, which provides a cold plate having disposed therein beverage lines and refrigerant lines. The refrigerant lines may be connected to a cooling system, such as a heat exchanger, which is configured to remove heat from the cold plate. The bevera
A temperature-controlled beverage dispenser is disclosed, which provides a cold plate having disposed therein beverage lines and refrigerant lines. The refrigerant lines may be connected to a cooling system, such as a heat exchanger, which is configured to remove heat from the cold plate. The beverage lines may be connected to a beverage supply for dispensing a desired beverage. Valves and a pressure sensor in the refrigerant line are connected to a microprocessor. At regular intervals, the microprocessor closes the valves, waits a short time, and then takes a pressure reading, which corresponds to a temperature. If the temperature falls below a desired value, then the cooling system is shut off. This permits the microprocessor to closely control the temperature of the beverage being dispensed.
대표청구항▼
1. A system for controlling temperature of a beverage that is cooled by a cooling system having a compressor, a condenser, a heat-conductive cold plate, and an accumulator, the system comprising: a liquid line valve fluidly positioned downstream of the condenser and upstream of the cold plate;an eva
1. A system for controlling temperature of a beverage that is cooled by a cooling system having a compressor, a condenser, a heat-conductive cold plate, and an accumulator, the system comprising: a liquid line valve fluidly positioned downstream of the condenser and upstream of the cold plate;an evaporator valve fluidly positioned downstream of the cold plate and upstream of the accumulator;a temperature or pressure measuring device configured to detect temperature or pressure, respectively, of the refrigerant disposed between the liquid line valve and evaporator valves,a processor configured to control operation of the compressor and the liquid line and evaporator valves as a function of data received from the measuring device;a memory communicatively coupled to the processor, and containing instructions that when executed instruct the processor to: i) close both the liquid line and the evaporator valves,ii) following a stabilizing period of time, and while both the liquid line and the evaporator valves are closed detect a then-current refrigerant pressure or temperature, and thenii) either (a) open both the liquid line and evaporator valves, and run the compressor if the detected refrigerant pressure or temperature is at or above a high threshold value, or (b) de-energize the compressor if the detected refrigerant pressure or temperature is at or below a low threshold value;wherein the steps i) through ii) are executed periodically while the detected temperature or pressure is/are within an intermediate range between the high threshold value and the low threshold value. 2. The system of claim 1, wherein the low threshold value is between 60 psi and 70 psi, inclusive. 3. The system of claim 1, further comprising: a beverage conduit cooled by the cold plate; anda tap disposed to deliver the beverage after the beverage passes through the beverage conduit. 4. The system of claim 1, further comprising the instructions, when executed, instruct the processor to run the compressor during the stabilizing period of time. 5. The system of claim 1, wherein the high threshold value is between 65 psi and 81 psi. 6. The system of claim 1, wherein the low threshold value is between 62.5 psi and 78.5 psi. 7. The system of claim 1, wherein the high threshold value is between 27.1° F. and 37.5° F. 8. The system of claim 1, wherein the low threshold value is between 25.5° F. and 35.9° F.
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이 특허에 인용된 특허 (7)
Teague, Merritt T.; Renken, Richard K.; Landers, Jerry L., Beverage dispenser with integral ice maker.
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