IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0826516
(2010-06-29)
|
등록번호 |
US-8590327
(2013-11-26)
|
우선권정보 |
JP-2008-237039 (2008-09-16); JP-2009-211299 (2009-09-14) |
발명자
/ 주소 |
- Tobe, Ryuzo
- Sakurai, Tetsuo
- Tsuruma, Ryuichi
|
출원인 / 주소 |
- Panasonic Healthcare Co., Ltd.
|
대리인 / 주소 |
McDermott Will & Emery LLP
|
인용정보 |
피인용 횟수 :
2 인용 특허 :
3 |
초록
▼
A refrigerating apparatus for keeping an inside of a storage at a predetermined low-temperature state includes first and second refrigerant circuits including compressors, condensers, decompressors, and evaporators, connected circularly with pipings to form refrigerating cycles, the circuit having a
A refrigerating apparatus for keeping an inside of a storage at a predetermined low-temperature state includes first and second refrigerant circuits including compressors, condensers, decompressors, and evaporators, connected circularly with pipings to form refrigerating cycles, the circuit having a first or second refrigerant sealed therein as a working refrigerant, a first sensor which detects a temperature of a cascade condenser constituted by integrating the evaporator of the first refrigerant circuit and the condenser of the second refrigerant circuit in a heat exchangeable manner, first and second controllers which control operation performances of the first and second compressors in a variable manner based on first and second sensor detected temperatures in order that the first and second sensor detected temperatures are first and second temperatures, respectively, and a second sensor which detects a temperature inside the storage.
대표청구항
▼
1. A refrigerating apparatus for keeping a temperature inside a storage at a predetermined low-temperature state, the refrigerating apparatus comprising: a first refrigerant circuit including a first compressor, a first condenser, a first decompressor, and a first evaporator, connected circularly wi
1. A refrigerating apparatus for keeping a temperature inside a storage at a predetermined low-temperature state, the refrigerating apparatus comprising: a first refrigerant circuit including a first compressor, a first condenser, a first decompressor, and a first evaporator, connected circularly with a first piping to form a refrigerating cycle, the first refrigerant circuit having a first refrigerant sealed therein as a working refrigerant;a second refrigerant circuit including a second compressor, a second condenser, a second decompressor, and a second evaporator, connected circularly with a second piping to form a refrigerating cycle, the second refrigerant circuit having a second refrigerant sealed therein as a working refrigerant, a cascade condenser being constituted by integrating the first evaporator and the second condenser in a heat-exchangeable manner;a first sensor configured to detect a temperature of the first refrigerant in a vicinity of an outlet of the first evaporator;a second sensor configured to detect a temperature inside the storage; anda single controller configured to control an operation performance of the first compressor in a variable manner based on the temperature detected by the first sensor in order that the temperature detected by the first sensor is a first temperature, andto control an operation performance of the second compressor in a variable manner based on the temperature detected by the second sensor in order that the temperature detected by the second sensor is a second temperature, wherein the single controller is configured to start up the first compressor before the second compressor, and to start up the second compressor when the temperature detected by the first sensor decreases below a predetermined temperature. 2. The refrigerating apparatus according to claim 1, wherein the first compressor is a rotation-type refrigerant compressor whose operation performance can be controlled in a variable manner by varying the number of revolutions thereof, andthe second compressor is a rotation-type refrigerant compressor whose operation performance can be controlled in a variable manner by varying the number of revolutions thereof. 3. The refrigerating apparatus according to claim 2, wherein the single controller controls the number of revolutions of the first compressor to be increased when the temperature detected by the first sensor increases above a predetermined temperature higher than the first temperature, and controls the number of revolutions of the first compressor to be decreased when the temperature detected by the first sensor decreases below a predetermined temperature lower than the first temperature. 4. The refrigerating apparatus according to claim 3, wherein the single controller controls the number of revolutions of the second compressor to be increased when the temperature detected by the second sensor increases above a predetermined temperature higher than the second temperature, and controls the number of revolutions of the second compressor to be decreased when the temperature detected by the second sensor decreases below a predetermined temperature lower than the second temperature.
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