IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0591855
(2009-12-03)
|
등록번호 |
US-8312731
(2012-11-20)
|
우선권정보 |
JP-2008-315654 (2008-12-11) |
발명자
/ 주소 |
- Tomioka, Satoshi
- Tamura, Hideya
- Ito, Tetsuya
- Matsunaga, Takahiro
- Kurokawa, Takamitsu
- Sanada, Shintaro
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
2 인용 특허 :
9 |
초록
▼
A refrigeration apparatus includes an outdoor unit having a first compressor and a second compressor connected in parallel with each other, a first oil separator attached to the first compressor and connected to a suction pipe of the second compressor via a first oil return piping including a pressu
A refrigeration apparatus includes an outdoor unit having a first compressor and a second compressor connected in parallel with each other, a first oil separator attached to the first compressor and connected to a suction pipe of the second compressor via a first oil return piping including a pressure reducing device, and a second oil separator attached to the second compressor and connected to a suction pipe of the first compressor via a second oil return piping including a pressure reducing device. The suction pipes of the first and second compressors are connected together. The first compressor is a variable-speed compressor, and the second compressor is a constant-speed compressor. A solenoid valve selectively forming a bypass circuit with respect to the pressure reducing device, is connected in parallel with the pressure reducing device of the first oil return piping. The solenoid valve is opened when the first compressor is restarted.
대표청구항
▼
1. A refrigeration apparatus, comprising: an outdoor unit including at least a first compressor and a second compressor, which are connected in parallel with each other, wherein the first compressor is a variable-speed compressor in which a rotational speed is variable due to inverter control, and t
1. A refrigeration apparatus, comprising: an outdoor unit including at least a first compressor and a second compressor, which are connected in parallel with each other, wherein the first compressor is a variable-speed compressor in which a rotational speed is variable due to inverter control, and the second compressor is a constant-speed compressor in which a rotational speed is constant,a first oil separator attached to the first compressor and connected to a suction pipe of the second compressor via a first oil return piping including a pressure reducing means,a second oil separator attached to the second compressor and connected to a suction pipe of the first compressor via a second oil return piping including a pressure reducing means, the suction pipes of the first and second compressors being connected together, anda solenoid valve that selectively forms a bypass circuit with respect to the pressure reducing means, connected in parallel with the pressure reducing means of the first oil return piping, said solenoid valve being opened when the first compressor is restarted. 2. The refrigeration apparatus according to claim 1, wherein an electronic expansion valve is used in place of a parallel circuit of the pressure reducing means and the solenoid valve in the first oil return piping. 3. A method for controlling a refrigeration apparatus, the refrigeration unit comprising an outdoor unit including at least a first compressor and a second compressor, which are connected in parallel with each other, wherein the first compressor is a variable-speed compressor in which a rotational speed is variable due to inverter control, and the second compressor is a constant-speed compressor in which a rotational speed is constant; a first oil separator attached to the first compressor and connected to a suction pipe of the second compressor via a first oil return piping including a pressure reducing means; and a second oil separator attached to the second compressor and connected to a suction pipe of the first compressor via a second oil return piping including a pressure reducing means, the suction pipes of the first and second compressors being connected together; and a solenoid valve that selectively forms a bypass circuit with respect to the pressure reducing means, connected in parallel with the pressure reducing means of the first oil return piping, said method comprising: turning on the solenoid valve in restarting the first compressor after operation of the first and second compressors has been stopped, to form a bypass circuit and to cause a discharge side and a suction side of the first compressor to be in an approximately equalized state; and thereafter restarting the first compressor. 4. The method for controlling a refrigeration apparatus according to claim 3, wherein an electronic expansion valve is used in place of a parallel circuit of the pressure reducing means and the solenoid valve in the first oil return piping; in restarting the first compressor after the operation of the first and second compressors has been stopped, the solenoid valve is fully opened to cause the discharge side and the suction side of the first compressor to be in an approximately equalized state; and thereafter the first compressor is restarted. 5. A refrigeration apparatus, comprising: an outdoor unit including at least a first compressor and a second compressor, which are connected in parallel with each other, wherein the first compressor is a variable-speed compressor in which a rotational speed is variable due to inverter control, and the second compressor is a constant-speed compressor in which a rotational speed is constant,a first oil separator attached to the first compressor and connected to a suction pipe of the second compressor via a first oil return piping,a second oil separator attached to the second compressor and connected to a suction pipe of the first compressor via a second oil return piping including a pressure reducing device, the suction pipes of the first and second compressors being connected together, andan electric expansion valve, or a combination of another pressure reducing device and a solenoid valve arranged parallel to each other, disposed in the first oil return piping, the solenoid valve selectively forming a bypass circuit with respect to the another pressure reducing device, said electric expansion valve or the solenoid valve being opened when the first compressor is restarted to cause a discharge side and a suction side of the first compressor approximately equal to each other.
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