Claims
- 1. An improved heat pump water heater of the type having a water tank with an exterior surface and defining a water chamber, a top on the water tank with at least one opening therethrough in communication with the water chamber, and a heat pump of the type having a compressor, the compressor being in fluid communication with a condenser assembly via a first refrigerant conduit, the condenser assembly being in fluid communication with an expansion device through a second refrigerant conduit, the expansion device being in fluid communication with an evaporator through a third refrigerant conduit, the evaporator being in fluid communication with the compressor through a forth refrigerant conduit and control means therefor, the improvement comprising:disposing the condenser assembly through the opening in the top of the water tank and into the water chamber, the condenser assembly comprising an elongate outer body having a closed bottom end and an open and opposed upper end in flow communication with the first refrigerant conduit, and an elongate inner body disposed within the outer body and having an open bottom end and a closed and opposed top end in flow communication with the second refrigerant conduit.
- 2. An improved heat pump water heater as claimed in claim 1 wherein the compressor, the first refrigerant conduit, the expansion device, the second refrigerant conduit, the expansion valve, the evaporator, the third refrigerant conduit, the fourth refrigerant conduit and the control means are disposed on the water tank.
- 3. An improved heat pump water heater as claimed in claim 1 and further comprising a housing disposed on the top of the water tank and containing therein the compressor. An improved heat pump water heater as claimed in claim 1 wherein the compressor, the first refrigerant conduit, the expansion device, the second refrigerant conduit, the expansion valve, the evaporator, the third refrigerant conduit, the fourth refrigerant conduit and the control means are disposed on the water tank.
- 4. An improved heat pump water heater as claimed in claim 1 wherein the outer body and the inner body are constructed of copper.
- 5. An improved heat pump water heater of the type having a water tank with an exterior surface and defining a water chamber, a top on the water tank with at least one opening therethrough in communication with the water chamber and a heat pump of the type having a compressor being in fluid communication with a condenser assembly via a first refrigerant conduit, the condenser assembly being in fluid communication with an expansion device through, a second refrigerant conduit, the expansion device being in fluid communication with an evaporator through a third refrigerant conduit, the evaporator being in fluid communication with the compressor through a fourth refrigerant conduit and control means therefor, the condenser assembly being disposed through the opening into the water chamber and comprising an outer body having a closed bottom, an opposed upper end which is in flow communication with the first refrigerant conduit and an inner body disposed within the outer body and having an open bottom and an opposed top which is in flow communication with the second refrigerant conduit, the improvement comprising:a water tank constructed of a first metal and wherein the outer body is constructed of a second metal which is capable of corroding at a rate greater than the rate of corrosion of the first metal.
- 6. An improved heat pump water heater as claimed in claim 5 wherein the second metal is selected from the group consisting of aluminum, magnesium or zinc.
- 7. An improved heat pump water heater as claimed in claim 5 wherein the inner body is formed of copper.
- 8. An improved heat pump water heater of the type having a water tank with an exterior surface and being formed of a first metal and defining a water chamber, a top on the water tank with at least one opening therethrough for an anode rod to be disposed within the water chamber and a heat pump of the type having a compressor being in fluid communication with a condenser assembly via a first refrigerant conduit, the condenser assembly being in fluid communication with an expansion device through a second refrigerant conduit, the expansion device being in fluid communication with an evaporator through a third refrigerant conduit, the evaporator being in fluid communication with the compressor through a fourth refrigerant conduit and control and means therefor, the improvement comprising:the condenser assembly comprising an outer body formed of a second metal capable of corroding at a rate greater than the rate of corrosion of the first metal and having a closed bottom, an opposed upper end which is in flow communication with the first refrigerant conduit and an inner body disposed within the outer body and having an open bottom and an opposed top which is in flow communication with the second refrigerant conduit.
- 9. An improved heat pump water heater as claimed in claim 8 wherein the compressor, the first refrigerant conduit, the expansion valve, the second refrigerant conduit, the expansion valve, the evaporator, the third refrigerant conduit and the fourth refrigerant conduit are disposed on the water tank.
- 10. An improved heat pump water heater as claimed in claim 8 wherein the second metal is selected from the group consisting of aluminum, magnesium or zinc.
- 11. An improved heat pump water heater as claimed in claim 8 wherein the inner body is formed of copper.
- 12. A condenser assembly for an improved heat pump water heater of the type having a water tank with an exterior surface and defining a water chamber, a top on the water tank with at least one opening therethrough in communication with the water chamber and a heat pump of the type having a compressor, said compressor being in fluid communication with the condenser assembly via a first refrigerant conduit, the condenser assembly being in fluid communication with an expansion device through a second refrigerant conduit, the expansion device being in fluid communication with an evaporator through a third refrigerant conduit, the evaporator being in fluid communication with the compressor through a fourth refrigerant conduit and control means therefor, the improvement comprising:disposing the condenser assembly within the water chamber through the opening in the top of the water tank, the condenser assembly comprising an elongate outer body having a closed bottom end and an open and opposed upper end in flow communication with the first refrigerant conduit, and an elongate inner body disposed within the outer body and having an open bottom end and an open and opposed top end in flow communication with the second refrigerant conduit.
- 13. A condenser assembly for an improved heat pump water heater of the type having a water tank with an exterior surface and being formed of a first metal and defining a water chamber, a top on the water tank with at least one opening therethrough for an anode rod to be disposed within the water chamber and a heat pump of the type having a compressor being in fluid communication with the condenser assembly via a first refrigerant conduit, the condenser assembly being in fluid communication with an expansion device through a second refrigerant conduit, the expansion device being in fluid communication with an evaporator through a third refrigerant conduit, the evaporator being in fluid communication with the compressor through a fourth refrigerant conduit, the improvement comprising:the condenser assembly comprising an outer body formed of a second metal capable of corroding at a rate greater than the rate of corrosion of the first metal and having a closed bottom, an opposed upper end which is in flow communication with the first refrigerant conduit and an inner body disposed within the outer body and having an open bottom and an opposed top which is in flow communication with the second refrigerant conduit.
- 14. An improved heat pump water heater as claimed in claim 13 wherein the second metal is selected from the group consisting of aluminum, magnesium or zinc.
- 15. An improved heat pump water heater as claimed in claim 13 wherein the inner body is formed of copper.
- 16. A method of constructing a heat pump water heater of the type having a water tank formed of a first metal and defining a water chamber, a top on the water tank with at least one opening therethrough for an anode rod to be disposed within the water chamber and a heat pump of the type having a compressor being in fluid communication with a condenser assembly via a first refrigerant conduit, the condenser assembly being in fluid communication with an expansion device through a second refrigerant conduit, the expansion device being in fluid communication with an evaporator through a third refrigerant conduit, the evaporator being in fluid communication with the compressor through a fourth refrigerant conduit and control means therefor, comprising the steps of:a. removing the anode rod from the water tank; and b. inserting through the opening the condenser assembly, wherein the condenser assembly comprises an outer body formed of a second metal capable of corroding at a rate greater than the rate of corrosion of the first metal and having a closed bottom, an opposed upper end which is in flow communication with the first refrigerant conduit and an inner body disposed within the outer body and having an open bottom and an opposed top which is in flow communication with the second refrigerant conduit, whereby heat from the refrigerant in the first refrigerant conduit is transferred through the outer body to the water in the water tank and the refrigerant then travels through the inner body into the second refrigerant line.
- 17. A method of constructing a heat pump water heater of the type having a water tank defining a water chamber, a top on the water tank with at least one opening therethrough and a heat pump of the type having a compressor, said compressor being in fluid communication with a condenser assembly via a first refrigerant conduit, the condenser assembly being in fluid communication with an expansion device through a second refrigerant conduit, the expansion device being in fluid communication with an evaporator through a third refrigerant conduit and the evaporator being in fluid communication with the compressor through a fourth refrigerate conduit and control means therefor, comprising the steps of:a. inserting the condenser assembly through the opening in the top of the water tank, wherein the condenser assembly comprises an elongate outer body having a closed bottom end and an open and opposed upper end in flow communication with the first refrigerant conduit, and an elongate inner body disposed within the outer body and having an open bottom end and an open and opposed top end in flow communication with the second refrigerant conduit; and b. disposing the compressor, the first refrigerant conduit expansion device, the second refrigerant conduit evaporator, the third refrigerant conduit, the fourth refrigerant conduit, and the control means within a housing on top of the water tank, whereby heat from the refrigerant passed through the first refrigerant conduit is transferred through the outer body to the water in the water tank, and the refrigerant then travels through the inner body into the second refrigerant line.
GOVERNMENT LICENSE RIGHTS
This invention was made with Government support under Contract No. DE-AC05-96OR22464 awarded by the U.S. Department of Energy to Lockheed Martin Energy Research Corp. and Contract No. DE-AC05-84OR21400 awarded by the U.S. Department of Energy to Lockheed Martin Energy Systems, Inc., and the Government has certain rights in this invention.
US Referenced Citations (8)
Foreign Referenced Citations (1)
Number |
Date |
Country |
724409 |
Feb 1955 |
GB |
Non-Patent Literature Citations (1)
Entry |
Althouse et al.; Modern Refrigeration And Air Conditioning; The Goodheart-Willcox Co., Inc., p. 492, 1996. |