Refrigerant system with multi-speed scroll compressor and economizer circuit
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F25B-041/00
F25B-049/00
F25B-001/00
출원번호
UP-0302909
(2005-12-14)
등록번호
US-7721562
(2010-06-14)
발명자
/ 주소
Lifson, Alexander
Taras, Michael F.
출원인 / 주소
Scroll Technologies
대리인 / 주소
Carlson, Gaskey & Olds
인용정보
피인용 횟수 :
4인용 특허 :
2
초록▼
A scroll compressor is provided with a multiple-speed motor. A control selects a speed for operating the motor, along with selecting between several available options for the system capacity adjustment to meet external load demands in a most efficient and reliable manner. The disclosed embodiment in
A scroll compressor is provided with a multiple-speed motor. A control selects a speed for operating the motor, along with selecting between several available options for the system capacity adjustment to meet external load demands in a most efficient and reliable manner. The disclosed embodiment includes an economizer circuit, an unloader function, and an optional suction modulation valve. By utilizing each of these features in combination with the multi-speed motor for the compressor, the present invention is better able to tailor provided capacity to desired capacity.
대표청구항▼
What is claimed is: 1. A refrigerant system comprising: at least one compressor having a multi-speed drive for providing multiple speeds for said compressor, and said compressor being provided with a suction port, an intermediate pressure port and discharge port; a condenser downstream of said comp
What is claimed is: 1. A refrigerant system comprising: at least one compressor having a multi-speed drive for providing multiple speeds for said compressor, and said compressor being provided with a suction port, an intermediate pressure port and discharge port; a condenser downstream of said compressor, a main expansion device downstream of said condenser, an evaporator downstream of said main expansion device, with an economizer circuit containing an economizer expansion device and an economizer heat exchanger and positioned intermediate to said condenser and said evaporator, said economizer circuit selectively returning a tapped refrigerant to said compressor; a control for selectively operating said economizer circuit to deliver a tapped refrigerant through said economizer heat exchanger, and back to said compressor, and said control also selecting a speed of said compressor to achieve various levels of capacity, said control being programmed to select between available modes of operation, said available modes of operation including at least operation with said economizer circuit operational, and without said economizer circuit operational, and said control first selecting a mode to best achieve desired conditions for an environment to be conditioned, then varying a speed of the motor if further variation is required to meet the desired conditions; and there is a suction modulation valve located downstream of said evaporator and its operation is one of the modes of operation. 2. The refrigerant system as set forth in claim 1, wherein a multi-speed drive is a two-speed drive. 3. The refrigerant system as set forth in claim 1, wherein said compressor is a scroll compressor. 4. The refrigerant system as set forth in claim 1, wherein said tapped refrigerant is returned to said intermediate compression port. 5. The refrigerant system as set forth in claim 1, wherein the delivery of said tapped refrigerant is controlled by a flow control device. 6. The refrigerant system as set forth in claim 1, wherein said control operates under an operational mode sequence to utilize the multi-speed drive and the economizer circuit based on efficiency and reliability considerations. 7. A refrigerant system comprising: at least one compressor having a multi-speed drive for providing multiple speeds for said compressor, and said compressor being provided with a suction port, an intermediate pressure port and discharge port; a condenser downstream of said compressor, a main expansion device downstream of said condenser, an evaporator downstream of said main expansion device, with an economizer circuit containing an economizer expansion device and an economizer heat exchanger and positioned intermediate to said condenser and said evaporator, said economizer circuit selectively returning a tapped refrigerant to said compressor; a control for selectively operating said economizer circuit to deliver a tapped refrigerant through said economizer heat exchanger, and back to said compressor, and said control also selecting a speed of said compressor to achieve various levels of capacity, said control being programmed to select between available modes of operation, said available modes of operation including at least operation with said economizer circuit operational, and without said economizer circuit operational, and said control first selecting a mode to best achieve desired conditions for an environment to be conditioned, then varying a speed of the motor if further variation is required to meet the desired conditions; and wherein a bypass port is also provided for said compressor to selectively bypass at least a portion of partially compressed refrigerant from said compressor back to a suction line for said compressor and its operation is one of the available modes. 8. The refrigerant system as set forth in claim 7, wherein said bypass port and said intermediate pressure port are provided by the same port. 9. The refrigerant system as set forth in claim 8, wherein said bypass port selectively communicates an intermediate pressure line receiving said tapped refrigerant back to a suction line leading to said compressor. 10. The refrigerant system as set forth in claim 7, wherein the delivery of said bypass refrigerant is controlled by a flow control device. 11. A method of operating a refrigerant system having at least one multi-speed compressor and at least one economizer circuit; first determining a desired load on said refrigerant system, and determining whether said economizer circuit should be engaged to meet said desired load or should be left off as possible modes of operation; then varying a speed of said compressor to meet said desired load if further variation is required to meet the desired conditions; and wherein said compressor is further provided with an unloader function, and both said unloader function and said economizer circuits providing modes to meet said desired load. 12. The method as said forth in claim 11, wherein the multi-speed compressor is a two-speed compressor. 13. The method as set forth in claim 11, wherein a control operates said economizer circuit and said multi-speed compressor utilizing an operation mode sequence based upon efficiency and reliability considerations. 14. A method of operating a refrigerant system having at least one multi-speed compressor and at least one economizer circuit; first determining a desired load on said refrigerant system, and determining whether said economizer circuit should be engaged to meet said desired load or should be left off as possible modes of operation; then varying a speed of said compressor to meet said desired load if further variation is required to meet the desired conditions; and wherein a suction modulation valve is also provided, and is actuated as one of the modes to vary the operational function of the refrigerant system to meet said desired load.
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이 특허에 인용된 특허 (2)
Alexander Lifson, Method and apparatus for the control of economizer circuit flow for optimum performance.
Lifson Alexander ; Karpman Boris, Method of optimizing cooling capacity, energy efficiency and reliability of a refrigeration system during temperature pull down.
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