IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0371572
(2009-02-13)
|
등록번호 |
US-8422870
(2013-04-16)
|
발명자
/ 주소 |
- Nelson, Jonathan D.
- Tsai, Craig Lung-Pei
- Kern, Jeffrey Alan
- Rodriguez, Eliel Fresco
- Beyerle, Michael T.
- Watkins, Derek Lee
- Hamel, Timothy Allen
- Zentner, Martin
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
15 인용 특허 :
34 |
초록
▼
A heat pump water heater and systems and methods for its control are disclosed. The systems are configured to heat water within a water storage tank of a heat pump water heater wherein a controller within the system is operatively connected to a plurality of heat sources including at least one elect
A heat pump water heater and systems and methods for its control are disclosed. The systems are configured to heat water within a water storage tank of a heat pump water heater wherein a controller within the system is operatively connected to a plurality of heat sources including at least one electric heating element and a heat pump and sensors in order to selectively energize one of the plurality of heat sources. The controller is configure to process data representative of the temperature of water within the tank near the top of the water storage tank, and rate of water flowing out of the water storage tank, in order to automatically selectively energize the heat sources. The selection of heat sources by the controller is determined by a mode of operation selected by the user and the data processed by the controller in view of the selected mode of operation.
대표청구항
▼
1. A heat pump water heater comprising: a water storage tank;a heat pump, comprising a sealed system including a compressor an evaporator, a condenser and a refrigerant configured for refrigerant flow from compressor to condenser to evaporator and back to the compressor, wherein the condenser is pos
1. A heat pump water heater comprising: a water storage tank;a heat pump, comprising a sealed system including a compressor an evaporator, a condenser and a refrigerant configured for refrigerant flow from compressor to condenser to evaporator and back to the compressor, wherein the condenser is positioned in a heat exchange relationship with the water storage tank for heating the contents of the tank, wherein the heat pump condenser includes a side portion wrapped around the exterior of the water storage tank side wall and a bottom portion arranged proximate to and in a heat exchange relationship with the bottom wall of the water storage tank, wherein the bottom portion includes the condenser inlet, whereby the refrigerant flows first through the bottom portion of the condenser before flowing through the side portion;a first electric resistance heater positioned proximate the upper region of the water storage tank;a first temperature sensor positioned proximate the top of the water storage tank; anda controller operatively connected to the first temperature sensor and including an event flow module configured to receive and process data representative of temperature readings measured by the first temperature sensor in order to determine if water is flowing from the water storage tank, wherein the controller is operatively connected to the heat pump and the first electric resistance heater, the controller being further configured to automatically select and energize at least one of the heat pump and the first electric resistance heater in response to the temperature readings measured by the first temperature sensor. 2. The heat pump water heater of claim 1 wherein the first temperature sensor is positioned on the exterior of the water storage tank side wall. 3. The heat pump water heater of claim 1 wherein the heat pump condenser is wrapped around the exterior of the water storage tank side wall, wherein the inlet of the condenser is positioned proximate the lower portion of the water storage tank side wall, whereby refrigerant flow through the condenser is initiated through the condenser proximate the lower portion of the water storage tank side wall. 4. The heat pump water heater of claim 3 wherein the heat pump condenser includes a portion arranged proximate to and in a heat exchange relationship with the bottom wall of the water storage tank, wherein flow through the portion of the heat pump condenser that engages the bottom wall of the water storage tank occurs following flow through the portion of the condenser wrapped around the exterior of the water storage tank side wall. 5. The heat pump water heater of claim 1 including a second electric resistance heater, positioned in proximity to the bottom of the water storage tank, and, wherein the event flow module within the controller is configured to process information representative of temperature readings measured by the first temperature sensor to determine the rate at which the temperature of water in proximity to the first temperature sensor declines, wherein the energizing of at least one of the heat pump, the first electric resistance heater, and the second electric resistance heater by the controller is automatically selected based on the rate at which the temperature of the water being measured declines. 6. The heat pump water heater of claim 1 wherein the event flow module is further configured to process the data representative of the temperature of water in the tank in order to estimate the amount of water flowing into the water storage tank. 7. The heat pump water heater of claim 1 including a flow meter that is operatively connected to the controller and positioned in association with a water inlet line for measuring the amount of water flowing into the water storage tank. 8. The heat pump water heater of claim 1 including a flow meter that is operatively connected to the controller and positioned in association with a water outlet line for measuring the amount of water flowing from the water storage tank. 9. The heat pump water heater of claim 1 including a second temperature sensor that is operatively connected to the controller and positioned to measure the temperature of water flowing into the water storage tank, wherein the controller further processes data representative of temperature of water flowing into the water storage tank, wherein the controller is further configured to automatically select and energize at least one of the heat pump and the at least one electric resistance heater in response to information received from the first temperature sensor and the second temperature sensor. 10. The heat pump water heater of claim 1 including a second temperature sensor positioned at the inlet of a condenser and a third temperature sensor positioned at the outlet of the condenser, wherein the controller is operatively connected to the first, second and third temperature sensors, the heat pump and the at least one electric resistance heater, wherein the controller is configured to process information received from the first, second and third temperature sensors to selectively automatically energize and de-energize at least one of the first electric resistance heater and the heat pump in response to the information received from the first, second and third temperature sensors. 11. The heat pump water heater of claim 1 wherein the heat pump condenser is positioned proximate to and in heat exchange relationship with the side and bottom of the water storage tank. 12. The heat pump water heater of claim 2 wherein the controller is further configured to automatically select and energize one of the heat pump and the first electric resistance heater in response to processing temperature readings measured by the temperature sensor and a selected mode of operation. 13. A method of heating water within a water storage tank of a heat pump water heater wherein a controller is operatively connected to a heat pump, heating elements and a first temperature sensor positioned near the top of the water storage tank, the method comprising: receiving temperature readings transmitted by the first sensor;processing the temperature readings transmitted by the first sensor in order to determine a drop in temperature of water near the top of the water storage tank below a threshold temperature; andselecting and energizing at least one of the heat pump and the electric heating elements in response to the drop in temperature of water near the top of the water storage tank below the threshold temperature; andprior to selecting and energizing the at least one of the heat pump and the electric heating elements, automatically determining, by the controller, whether the water level within the water storage tank is at a sufficient level to allow a heating sequence to begin by performing the following steps: initiating the condenser of the heat pump for a defined period of time,processing the temperature readings received from the sensor positioned to measure the temperature of the water storage tank in order to determine whether the temperature of the water storage tank has increased to a level that exceeds a defined increase level, andupon a determination that the temperature of the water storage tank has exceeded a defined level, disabling the heating sequence and transmitting a signal indicating that an insufficient level of water is within the water storage tank. 14. The method of claim 13 wherein the step of determining a drop in temperature of water near the top of the water storage tank below a threshold temperature comprises comparing the temperature readings transmitted by the first sensor to the threshold temperature. 15. The method of claim 14 further comprising: energizing a lower heating element when the temperature readings transmitted reflect a drop in temperature below a first preset level; andenergizing an upper heating element when the temperature readings transmitted reflect a drop in temperature of a second preset level. 16. The method of claim 15 further comprising energizing a heat pump system lower heating element when the temperature readings transmitted reflect a drop in temperature below a second preset level. 17. The method of claim 14 further including the steps of: measuring the flow of water into the water storage tank at a water inlet line;processing data representative of the flow of water into the water storage tank along with data representative of a drop in temperature of water near the top of the water storage tank below a defined set point temperature;determining which of an upper heating element and a lower heating element positioned within the water storage tank is to be energized; andenergizing one of the upper heating element and the lower heating element positioned within the water storage tank. 18. The method of claim 13 wherein flow through the condenser tubing, which is wrapped around the exterior of the water storage tank side wall and extends from the lower portion to the upper portion of the water storage tank side wall, is initiated at a point on the condenser tubing contacting the lower portion of the water storage tank side wall and flows through the condenser tubing up through the condenser tubing in contact with the upper portion of the water storage tank side wall. 19. The method of claim 18 wherein the condenser tubing includes a return flow wherein, following flow through the condenser tubing in contact with the side wall of the water storage tank, flow is continued through condenser tubing in contact with the bottom wall of the water storage tank. 20. A heat pump water heater comprising: a water storage tank;a heat pump positioned wherein the heat pump condenser is positioned in contact with the side and bottom of the water storage tank, wherein the heat pump condenser includes a side portion wrapped around the exterior of the water storage tank side wall and a bottom portion arranged proximate to and in a heat exchange relationship with the bottom wall of the water storage tank, wherein the bottom portion includes the condenser inlet, whereby the refrigerant flows first through the bottom portion of the condenser before flowing through the side portion;a pair of electric resistance heaters, wherein a first electric resistance heater is positioned within the water storage tank in proximity to the bottom portion of the water storage tank, and a second electric resistance heater is positioned within the water storage tank in proximity to the top of the water storage tank;a temperature sensor positioned to determine the temperature of water within and in proximity to the top of the water storage tank;a controller configured to: process information representative of temperature readings measured by the temperature sensor to detect a change in the temperature of water in the water storage tank, wherein the controller is operative to automatically energize one or more of the heat pump, the first electric resistance heater, and the second electric resistance heater in response to the change of the temperature of water in the water storage tank, andprior to energizing one or more of the heat pump, the first electric resistance heater, and the second electric resistance heater, automatically determine whether the water level within the water storage tank is at a sufficient level to allow a heating sequence to begin by being configured to: initiate the condenser of the heat pump for a defined period of time,process the temperature readings received from the sensor positioned to measure the temperature of the water storage tank in order to determine whether the temperature of the water storage tank has increased to a level that exceeds a defined increase level,upon a determination that the temperature of the water storage tank has exceeded a defined level, disable the heating sequence, andtransmit a signal indicating that an insufficient level of water is within the water storage tank. 21. A heat pump water heater comprising: a water storage tank;a heat pump, comprising a sealed system including a compressor an evaporator, a condenser and a refrigerant configured for refrigerant flow from compressor to condenser to evaporator and back to the compressor, wherein the condenser is positioned in a heat exchange relationship with the water storage tank for heating the contents of the tank;a first electric resistance heater positioned proximate the upper region of the water storage tank;a first temperature sensor positioned proximate the top of the water storage tank; anda controller operatively connected to the first temperature sensor and including an event flow module configured to receive and process data representative of temperature readings measured by the first temperature sensor in order to determine if water is flowing from the water storage tank, wherein the controller is operatively connected to the heat pump and the first electric resistance heater, the controller being further configured to automatically select and energize at least one of the heat pump and the first electric resistance heater in response to the temperature readings measured by the first temperature sensor,wherein the heat pump condenser is wrapped around the exterior of the water storage tank side wall, wherein the inlet of the condenser is positioned proximate the lower portion of the water storage tank side wall, whereby refrigerant flow through the condenser is initiated through the condenser proximate the lower portion of the water storage tank side wall,wherein the heat pump condenser includes a portion arranged proximate to and in a heat exchange relationship with the bottom wall of the water storage tank, wherein flow through the portion of the heat pump condenser that engages the bottom wall of the water storage tank occurs following flow through the portion of the condenser wrapped around the exterior of the water storage tank side wall.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.