A selectively controllable valve is arranged in a refrigeration circuit which interconnects the evaporator and the condenser and is controlled so that a pressure differential is built up across the valve. The valve is selectively opened to allow “batches” of working fluid to pass therethrough. In so
A selectively controllable valve is arranged in a refrigeration circuit which interconnects the evaporator and the condenser and is controlled so that a pressure differential is built up across the valve. The valve is selectively opened to allow “batches” of working fluid to pass therethrough. In some embodiments, the working fluid which is allowed to pass through the valve, is heated in a chamber to increase the amount of pressure on the downstream side of the valve. This produces expanded pressurized working fluid which increases the pressure in the condenser and forces previously condensed and liquefied working fluid through a flow restricting transfer device into an evaporator. Condensation of the just heated gas in the condenser subsequently reduces the pressure on the downstream side of the valve and establishes conditions suitable for the passage of a further amount of gaseous working fluid while itself becoming liquid to be forced through the flow restricting transfer device. Quick repetition of these cycles establishes a dynamic flow conditions and maintains the flow of liquefied working fluid into the evaporator. In other embodiments, the pressure differential is produced and/or augmented by pump such as a piston pump, or a combination of the pump and the heating chamber. If sufficient condensation can be induced using the operation of the condenser or by some other means and the required pressure differential developed, then both the heater and the pump can, depending on the circumstances and the cooling capacity that is required, be omitted. The flow of liquid working fluid from the condenser is transferred to the evaporator via either a capillary tube or a selectively controllable valve arrangement which can also posses pumping characteristics if so desired.
대표청구항▼
1. A refrigeration system using working fluid in a closed-loop circuit, comprising:a condenser; an evaporator; a working fluid transfer device downstream of the condenser and fluidly connecting the condenser to the evaporator; a pressurization assembly providing motive force for moving the working f
1. A refrigeration system using working fluid in a closed-loop circuit, comprising:a condenser; an evaporator; a working fluid transfer device downstream of the condenser and fluidly connecting the condenser to the evaporator; a pressurization assembly providing motive force for moving the working fluid through the closed-loop circuit, the pressurization assembly downstream of the evaporator and fluidly connecting the evaporator to the condenser, the pressurization assembly including a heating chamber for heating the working fluid, a flow-control device for intermittently controlling a flow of the working fluid into the heating chamber, and a pump for receiving the working fluid from the evaporator and providing a predetermined amount of the working fluid at a predetermined pressure through the flow-control device and into the heating chamber; and a controller for selectively controlling the operation of the flow-control device. 2. The refrigeration system according to claim 1, wherein the controller operates the heating chamber, the flow-control device, and the pump to maintain a substantially even pressure differential between the pressurization assembly and the condenser, the evaporator, and the working fluid transfer device.3. The refrigeration system according to claim 1, further comprising a sensor arrangement connected to the controller, the operation of the pressurization assembly is controlled by the controller in response to input from the sensor arrangement.4. The refrigeration system according to claim 3, wherein the sensor arrangement includes a first pressure sensor positioned upstream of the valve, andupon the first pressure sensor indicating a pressure below a first selected amount, the controller activating the pump and the flow-control device to introduce the predetermined amount of the working fluid into the heating chamber. 5. The refrigeration system according to claim 4, wherein the flow-control device is a one-way valve.6. The refrigeration system according to claim 4, wherein the heating chamber includes a heating unit, andupon activation of the flow-control device, the controller increasing heating produced by the heating unit. 7. The refrigeration system according to claim 6, wherein the sensor arrangement includes a second pressure sensor positioned downstream of the valve, andupon the second pressure sensor indicating a pressure above a second selected amount, the controller reducing heating produced by the heating unit. 8. The refrigeration system according to claim 3, wherein the sensor arrangement includes a temperature sensor positioned downstream of the valve.9. The refrigeration system according to claim 1, wherein the working fluid transfer device is a capillary tube.10. The refrigeration system according to claim 1, further comprising a dryer downstream of the condenser and fluidly connecting the condenser to the working fluid transfer device.11. The refrigeration system according to claim 1, further comprising a defrosting heater positioned at a downstream end of the working fluid transfer device.12. A method of operating a refrigeration system using working fluid in a closed-loop circuit, comprising the steps of:cooling and condensing the working fluid; expanding the condensed working fluid; removing heat with the expanded working fluid; and batching the working fluid used for removing heat to move the working fluid through the closed-loop circuit, wherein the batching includes the separate steps of providing a predetermined amount of the working fluid at a predetermined pressure, intermittently controlling a flow of the working fluid, and heating the provided working fluid. 13. The method of operating a refrigeration system according to claim 12, wherein the batching maintains a substantially even pressure differential between the step of batching and the steps of cooling and condensing the fluid, expanding the fluid, removing the heating with the fluid.14. The method of operating a refrigeration system according to claim 13, wherein upon a pressure of the working fluid prior to batching drops below a first selected amount, the flow of the working fluid is controlled to provide the predetermined amount of working fluid at the predetermined pressure to be heated.15. The method of operating a refrigeration system according to claim 14, wherein upon provision of the predetermined amount of working fluid, heating of the working fluid increases.16. The method of operating a refrigeration system according to claim 15, wherein upon the a pressure of the working fluid being heated rises above a second selected amount, heating of the working fluid decreases.
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이 특허에 인용된 특허 (18)
Ohashi Kotaro (Tokyo JPX), Air conditioning system including pump driven by waste heat.
Lee Ron C. (Bloomsbury NJ) Heil Michael D. (Hoboken NJ) Downey Michael T. (Bridgewater NJ) Barrasso Michael J. (Westfield NJ), Cryogenic vapor recovery process and system.
Webster Sherwood F. (Washington DC), Method and apparatus for gas conditioning by low-temperature vaporization and compression of refrigerants, specifically.
Cheron Jacques (Maisons Laffitte FRX) Rojey Alexandre (Garches FRX), Process for producing cold and/or heat by using a non-azeotropic mixture of fluids in a cycle with ejector.
Allen ; deceased Reed R. (825 S. Wolfe Rd. late of Sunnyvale CA) Allen ; heir by Mary G. (825 S. Wolfe Rd. Sunnyvale CA 94086), Refrigeration apparatus and method.
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