IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0401969
(2009-03-11)
|
등록번호 |
US-8091372
(2012-01-10)
|
발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
1 인용 특허 :
20 |
초록
▼
A heat pump defrost system for efficiently defrosting an outdoor coil while simultaneously operating the heat pump in a normal heating manner. The heat pump defrost system generally includes a primary flow circuit including an indoor heat exchanger, an outdoor heat exchanger, a compressor connected
A heat pump defrost system for efficiently defrosting an outdoor coil while simultaneously operating the heat pump in a normal heating manner. The heat pump defrost system generally includes a primary flow circuit including an indoor heat exchanger, an outdoor heat exchanger, a compressor connected thereto and a reverse valve for toggling a direction of refrigerant flow therethrough, and an auxiliary flow circuit for deicing the outdoor heat exchanger. The auxiliary flow circuit includes a valve for connecting the auxiliary flow circuit to the primary flow circuit, a heat sink in line with the auxiliary flow circuit, wherein the heat sink stores defrost fluid within the auxiliary flow circuit, at least one thermostat to read an outdoor ambient temperature and a control unit for operatively engaging the valve to direct the hot gas from the compressor of the primary circuit within the auxiliary flow circuit and the heat pump according to the outdoor ambient temperature for deicing the outdoor heat exchanger.
대표청구항
▼
1. An air source heat pump for heating and cooling an indoor space comprising a primary flow circuit including an indoor heat exchanger, an outdoor heat exchanger, a compressor connected thereto and a reverse valve for toggling a direction of refrigerant flow therethrough, and an auxiliary flow circ
1. An air source heat pump for heating and cooling an indoor space comprising a primary flow circuit including an indoor heat exchanger, an outdoor heat exchanger, a compressor connected thereto and a reverse valve for toggling a direction of refrigerant flow therethrough, and an auxiliary flow circuit using a defrost fluid for deicing said outdoor heat exchanger, comprising: a valve for connecting said auxiliary flow circuit to said primary flow circuit;a heat sink in line with said auxiliary flow circuit, wherein said heat sink stores at least a portion of said defrost fluid within said auxiliary flow circuit;at least one thermostat to read an outdoor ambient temperature; anda control unit for operatively engaging said valve to direct hot gas from said compressor within said auxiliary flow circuit to heat said defrost fluid according to said outdoor ambient temperature;wherein said heated defrost fluid is channeled through said auxiliary flow circuit for deicing said outdoor heat exchanger. 2. The heat pump of claim 1, wherein said auxiliary flow circuit operates substantially independently of said primary flow circuit. 3. The heat pump of claim 1, wherein said auxiliary flow circuit operates simultaneously with said primary flow circuit. 4. The heat pump of claim 1, wherein said at least one thermostat includes a second thermostat for reading a temperature of said heat sink. 5. The heat pump of claim 4, wherein said control unit toggles said valve according to said temperature of said heat sink. 6. The heat pump of claim 1, including a sensor positioned proximate said outdoor heat exchanger for detecting ice buildup upon said outdoor heat exchanger. 7. The heat pump of claim 6, wherein said sensor is comprised of an air pressure switch. 8. The heat pump of claim 6, including a pump in line with said auxiliary flow circuit to direct defrost fluid from said heat sink towards said outdoor heat exchanger according to said ice buildup reading of said sensor. 9. The heat pump of claim 8, wherein said control unit activates said pump. 10. The heat pump of claim 1, including a desuperheater inline with said auxiliary flow circuit for heating a defrost fluid. 11. The heat pump of claim 10, wherein said desuperheater is positioned within said heat sink. 12. The heat pump of claim 1, wherein said auxiliary flow circuit includes a first portion intertwined with said outdoor heat exchanger. 13. The heat pump of claim 12, wherein said auxiliary flow circuit includes a second portion to return reconnect said first portion with said heat sink to form a circulating loop for defrost fluid within said auxiliary flow circuit. 14. A method of deicing an outdoor heat exchanger of an air source heat pump, comprising: reading an outdoor ambient temperature;determining if said outdoor ambient temperature is below a first predetermined temperature;providing a heat sink to store defrost fluid prior to deicing;toggling a valve to input hot gas into said heat sink if said outdoor ambient temperature is below said first predetermined temperature;heating said defrost fluid with said hot gas;sensing a condition indicative of ice buildup upon said outdoor heat exchanger;activating a pump fluidly connected to said heat sink;circulating said defrost fluid through an auxiliary flow circuit; andheating said outdoor heat exchanger to remove said sensed ice buildup upon said outdoor heat exchanger. 15. The method of claim 14, including the steps of: reading a temperature of a heat sink;determining if said temperature of said heat sink is below a second predetermined temperature;toggling said valve to input said hot gas into said heat sink if said outdoor ambient temperature is below said first predetermined temperature and said temperature of said heat sink is below said second predetermined temperature. 16. The method of claim 14, including a desuperheater to heat said defrost fluid stored in said heat sink. 17. The method of claim 14, wherein said first predetermined temperature is slightly above a water freezing temperature. 18. An air source heat pump for heating and cooling an indoor space comprising a primary flow circuit including an indoor heat exchanger, an outdoor heat exchanger, a compressor connected thereto, a pair of air handling means for directing hot or cold air from said indoor heat exchanger and said outdoor heat exchanger and a reverse valve for toggling a direction of refrigerant flow therethrough, and an auxiliary flow circuit for deicing said outdoor heat exchanger, comprising: a valve for connecting said auxiliary flow circuit to said primary flow circuit;a heat sink in line with said auxiliary flow circuit, wherein said heat sink stores at least a portion of defrost fluid within said auxiliary flow circuit;a first thermostat to read an outdoor ambient temperature;a control unit for operatively engaging said valve to direct hot gas from said compressor within said auxiliary flow circuit according to said outdoor ambient temperature for deicing said outdoor heat exchanger;wherein said auxiliary flow circuit includes a first portion intertwined with said outdoor heat exchanger;wherein said auxiliary flow circuit includes a second portion to return reconnect said first portion with said heat sink to form a circulating loop for said defrost fluid within said auxiliary flow circuit;wherein said auxiliary flow circuit operates simultaneously with said primary flow circuit;a sensor positioned proximate said outdoor heat exchanger for detecting ice buildup upon said outdoor heat exchanger;wherein said sensor is comprised of an air pressure switch;a pump in line with said auxiliary flow circuit to direct said defrost fluid from said heat sink towards said outdoor heat exchanger according to said ice buildup reading of said sensor;wherein said control unit activates said pump; anda desuperheater inline with said auxiliary flow circuit for heating said defrost fluid. 19. The heat pump of claim 18, including a second thermostat for reading a temperature of said heat sink. 20. The heat pump of claim 19, wherein said control unit toggles said valve according to said temperature of said heat sink.
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