Rotary hermetic compressor and refrigeration cycle system
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F03C-002/00
F04C-002/00
출원번호
US-0302393
(2005-12-14)
등록번호
US-7290994
(2007-11-06)
우선권정보
JP-2003-177155(2003-06-20)
발명자
/ 주소
Kitaichi,Shoichiro
Watanabe,Norihisa
Tominaga,Takeshi
Takashima,Kazu
Kawabe,Isao
Suzuki,Masayuki
출원인 / 주소
Toshiba Carrier Corporation
대리인 / 주소
Pillsbury Winthrop Shaw Pittman, LLP
인용정보
피인용 횟수 :
14인용 특허 :
5
초록▼
A vane of a first cylinder is compressed and urged by a spring member. A vane of a second cylinder is compressed and urged corresponding to a differential pressure between an intra-casing pressure guided into a vane chamber and a suction pressure or discharge pressure guided to the cylinder chamber.
A vane of a first cylinder is compressed and urged by a spring member. A vane of a second cylinder is compressed and urged corresponding to a differential pressure between an intra-casing pressure guided into a vane chamber and a suction pressure or discharge pressure guided to the cylinder chamber. A pressure shift mechanism which guides the suction pressure or discharge pressure has a branch pipe having a one end connected to a high pressure side of the refrigeration cycle, an other end connected to a suction pipe, and a first on-off valve in a midway portion, and a second on-off valve or a check valve which is provided in the suction pipe on a side upstream of a connection portion of the branch pipe and on a side downstream of an oil returning opening in an accumulator.
대표청구항▼
What is claimed is: 1. A rotary hermetic compressor for use in a refrigeration cycle, in which an electric motor section and a rotary compression mechanism section to be coupled to the electric motor section are accommodated, a refrigerant evaporated in a vaporizer is drawn into the compression mec
What is claimed is: 1. A rotary hermetic compressor for use in a refrigeration cycle, in which an electric motor section and a rotary compression mechanism section to be coupled to the electric motor section are accommodated, a refrigerant evaporated in a vaporizer is drawn into the compression mechanism section through an accumulator, and a refrigerant gas compressed therein is once discharged into a hermetic casing, thereby to create an intra-casing high pressure, wherein the compression mechanism section comprises: a first cylinder and a second cylinder which each includes a cylinder chamber wherein an eccentric roller is eccentrically rotatably accommodated; and vanes which are respectively provided in the first cylinder and the second cylinder wherein front end portions thereof are each compressed and urged to contact a peripheral surface of the eccentric roller to thereby bisectionally separate the cylinder chamber along a rotation direction of the eccentric roller, and vane chambers which accommodate rear side end portions of the respective vanes, the vane provided in the first cylinder is compressed and urged by a spring member disposed in the vane chamber, the vane provided in the second cylinder is compressed and urged corresponding to a differential pressure between the intra-casing pressure guided into the vane chamber and a suction pressure or discharge pressure guided to the cylinder chamber, and a guide guiding the suction pressure or discharge pressure into the cylinder chamber of the second cylinder comprises: a branch pipe having a one end connected to a high pressure side of the refrigeration cycle, an other end connected to a suction pipe communicating from the accumulator to the cylinder chamber of the second cylinder, and a first on-off valve in a midway portion; and a second on-off valve or a check valve which is provided in the suction pipe on a side upstream of a connection portion with the branch pipe and on a side downstream of an oil returning opening opened to a suction pipe section in the accumulator. 2. A rotary hermetic compressor according to claim 1, wherein the second on-off valve or the check valve which constitutes the guide guiding the suction pressure or discharge pressure into the cylinder chamber of the second cylinder is provided to have a predetermined distance from a juncture portion with the suction pipe for the accumulator. 3. A rotary hermetic compressor according to claim 1, wherein the second on-off valve or the check valve which constitutes the guide guiding the suction pressure or discharge pressure into the cylinder chamber of the second cylinder is provided between the hermetic casing and the accumulator and within a projected area formed with tangential lines of an external peripheral surface of the hermetic casing and an external peripheral surface of the accumulator. 4. A rotary hermetic compressor according to claim 1, wherein the suction pipe communicating to the cylinder chamber of the second cylinder is bisectionally separated in a midway portion, a separated suction pipe on one side is fixedly secured to the accumulator, a separated suction pipe on the other side is fixedly secured to the hermetic casing, and the second on-off valve or the check valve is inserted and fitted in a coupling section of the respective separated suction pipes. 5. A rotary hermetic compressor according to claim 1, wherein the accumulator and the second on-off valve or the check valve are arranged adjacent to one another. 6. A refrigeration cycle system, comprising a refrigeration cycle formed of, a condenser, an expander mechanism, a vaporizer, and the rotary hermetic compressor according to claim 1. 7. A rotary hermetic compressor for use in a refrigeration cycle, in which an electric motor section and a rotary compression mechanism section to be coupled to the electric motor section are accommodated, a refrigerant evaporated in a vaporizer is drawn into the compression mechanism section through an accumulator, and a refrigerant gas compressed therein is once discharged into a hermetic casing, thereby to create an intra-casing high pressure, wherein the compression mechanism section comprises: a first cylinder and a second cylinder which each includes a cylinder chamber wherein an eccentric roller is eccentrically rotatably accommodated; and vanes which are respectively provided in the first cylinder and the second cylinder wherein front end portions thereof are each compressed and urged to contact a peripheral surface of the eccentric roller to thereby bisectionally separate the cylinder chamber along a rotation direction of the eccentric roller, and vane chambers which accommodate rear side end portions of the respective vanes, the vane provided in the first cylinder is compressed and urged by a spring member disposed in the vane chamber, the vane provided in the second cylinder is compressed and urged corresponding to a differential pressure between the intra-casing pressure guided into the vane chamber and a suction pressure or discharge pressure guided to the cylinder chamber, and means for guiding the suction pressure or discharge pressure into the cylinder chamber of the second cylinder comprises: a branch pipe having a one end connected to a high pressure side of the refrigeration cycle, an other end connected to a suction pipe communicating from the accumulator to the cylinder chamber of the second cylinder, and a first on-off valve in a midway portion; and a second on-off valve or a check valve which is provided in the suction pipe on a side upstream of a connection portion of the branch pipe and in a suction pipe section inside the accumulator. 8. A refrigeration cycle system, comprising a refrigeration cycle formed of a condenser, an expander mechanism, a vaporizer, and the rotary hermetic compressor according to claim 7. 9. A rotary hermetic compressor for use in a refrigeration cycle, in which an electric motor section and a rotary compression mechanism section to be coupled to the electric motor section are accommodated, a refrigerant evaporated in a vaporizer is drawn into the compression mechanism section through an accumulator, and a refrigerant gas compressed therein is once discharged into a hermetic casing, thereby to create an intra-casing high pressure, wherein the compression mechanism section comprises: a first cylinder and a second cylinder which each includes a cylinder chamber wherein an eccentric roller is eccentrically rotatably accommodated; and vanes which are respectively provided in the first cylinder and the second cylinder wherein front end portions thereof are each compressed and urged to contact a peripheral surface of the eccentric roller to thereby bisectionally separate the cylinder chamber along a rotation direction of the eccentric roller, and vane chambers which accommodate rear side end portions of the respective vanes, the vane provided in the first cylinder is compressed and urged by a spring member disposed in the vane chamber, the vane provided in the second cylinder is compressed and urged corresponding to a differential pressure between an intra-casing pressure guided into the vane chamber and a suction pressure or discharge pressure guided to the cylinder chamber, and means for guiding the suction pressure or discharge pressure into the cylinder chamber of the second cylinder comprises: a branch pipe having a one end connected to a high pressure side of the refrigeration cycle and another end connected to a refrigerant pipe on a side upstream of a second accumulator; and an on-off valve or a check valve provided in the suction pipe on a side upstream of a connection portion of the branch pipe and in a suction pipe section inside the accumulator. 10. A refrigeration cycle system, comprising a refrigeration cycle formed of a condenser, an expander mechanism, a vaporizer, and the rotary hermetic compressor according to claim 9.
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