IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0369444
(1995-01-06)
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발명자
/ 주소 |
- Sjoholm Lars I. (Burnsville MN) Kwon Sung L. (Burnsville MN) Taylor David H. (Minneapolis MN) Erickson Lee J. (Eagan MN) Freund Peter W. (Bloomington MN)
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출원인 / 주소 |
- Thermo King Corporation (Minneapolis MN 02)
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인용정보 |
피인용 횟수 :
10 인용 특허 :
0 |
초록
▼
A refrigeration system of the type having an economizer cycle is provided with a null cycle, in addition to heating and cooling cycles, without shutting a compressor prime mover down, to preserve air flow in a conditioned space. First, second and third controllable valves respectively: (1) select ma
A refrigeration system of the type having an economizer cycle is provided with a null cycle, in addition to heating and cooling cycles, without shutting a compressor prime mover down, to preserve air flow in a conditioned space. First, second and third controllable valves respectively: (1) select main and auxiliary condensers, (2) open and close a liquid line, and (3) open and close a line which provides a warm liquid to an economizer heat exchanger. The valves are controlled in at least one predetermined open/close pattern during a null cycle, and preferably in a plurality of selectable predetermined open/close patterns, to provide a null cycle at any instant which substantially matches the net heat gain or loss taking place in the conditioned space. Thus, the temperature of the served space will be more apt to remain in a null temperature range close to set point, providing smoother and more accurate control over the temperature of the conditioned space for longer shelf life of perishables stored therein. The system achieves the latter by controlling cooling circulation in the compressor oil cooler.
대표청구항
▼
A method of operating a refrigeration system which achieves and holds a predetermined set point temperature in a conditioned space via cooling and heating cycles, with the refrigeration system including a refrigerant compressor which includes a suction port, an intermediate pressure port, and a disc
A method of operating a refrigeration system which achieves and holds a predetermined set point temperature in a conditioned space via cooling and heating cycles, with the refrigeration system including a refrigerant compressor which includes a suction port, an intermediate pressure port, and a discharge port, a compressor prime mover, a hot gas compressor discharge line, first and second hot gas lines, first controllable valve means having first and second positions which respectively connect the hot gas compressor discharge line to the first and second hot gas lines, a main condenser connected to the first hot gas line, an evaporator associated with the conditioned space, an evaporator expansion valve, an auxiliary condenser associated with the conditioned space which is connected to the second hot gas line, economizer heat exchanger means having first and second refrigerant flow paths, including a shell defining a portion of the second refrigerant flow path, with the shell having an inlet and an outlet, an economizer expansion valve connected to the shell inlet to control the rate of refrigerant flow through the second refrigerant flow path, a main liquid line which connects the main condenser to the evaporator expansion valve via the first refrigerant flow path of the economizer heat exchanger means, an auxiliary liquid line which connects the auxiliary condenser to the economizer heat exchanger means, a main suction line which connects the evaporator to the suction port of the compressor, an auxiliary suction line which connects the shell outlet to the intermediate pressure port of the compressor, and second controllable valve means having first and second positions which respectively block and unblock the main liquid line, with the shell having oil thereon carried into the system by the compressor, characterized by the steps of: connecting a drain line from a low point of the shell to a higher point of the auxiliary suction line, directing the drain line upwardly in heat exchange relation with the auxiliary liquid line, to provide a percolating effect and lifting force for the liquid refrigerant-oil mixture, returning compressor oil in the shell, along with a metered flow of liquid refrigerant, to the compressor via the drain line, whereby oil removal from the shell improves heat transfer efficiency between the first and second refrigerant flow paths of the economizer heat exchanger, and the metered flow of liquid refrigerant into the compressor limits the discharge temperature of the compressor.
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