Device for supplying secondary air for purifying exhaust gases discharged from internal combustion engine
원문보기
IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0744824
(1976-11-24)
|
우선권정보 |
JP-0157239 (1975-12-25); JP-0034021 (1976-03-26); JP-0060935 (1976-05-26) |
발명자
/ 주소 |
- Kohama, Tokio
- Obayashi, Hideki
- Ozaki, Tadashi
- Nohira, Hidetaka
|
출원인 / 주소 |
- Nippon Soken, Inc., Toyota Jidosha Kogyo Kabushiki Kaisha
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
5 인용 특허 :
3 |
초록
▼
A device for supplying secondary air in proportion to the volume of intake air into the exhaust manifold of an internal combustion engine without any adverse effects on an exhaust gas recirculation system, the device comprising a secondary air supply pipe communicated with the exhaust manifold, mean
A device for supplying secondary air in proportion to the volume of intake air into the exhaust manifold of an internal combustion engine without any adverse effects on an exhaust gas recirculation system, the device comprising a secondary air supply pipe communicated with the exhaust manifold, means for supplying secondary air through the secondary air supply pipe into the exhaust manifold, secondary air control valve means disposed in the secondary air supply pipe for controlling the flow rate of secondary air flowing therethrough, means for detecting the volume of intake air to said engine, means for detecting the volume of the secondary air flowing through the secondary air supply pipe, and means responsive to both the signal representative of the detected volume of intake air and the signal representative of the detected volume of the secondary air supply for controlling the secondary air control valve means in such a way that the secondary air supply may be in proportion to the volume of intake air.
대표청구항
▼
1. A device for supplying secondary air for purifying exhaust gases discharged from an internal combustion engine comprising (a) a secondary air supply pipe in communication with an exhaust manifold or pipe of said engine, (b) means for supplying secondary air through said secondary air supply p
1. A device for supplying secondary air for purifying exhaust gases discharged from an internal combustion engine comprising (a) a secondary air supply pipe in communication with an exhaust manifold or pipe of said engine, (b) means for supplying secondary air through said secondary air supply pipe into said exhaust manifold or pipe, (c) secondary air control valve means disposed in said secondary air supply pipe for controlling the flow rate of the secondary air flowing therethrough, (d) means for detecting the volume of intake air to said engine, (e) means for detecting the volume of the secondary air flowing through said secondary air supply pipe, and (f) means responsive to the signal representative of the detected volume of intake air and the signal representative of the detected volume of secondary air for controlling said secondary air control valve means in such a way that the volume of the secondary air supply may be in proportion to the volume of intake air; said means for controlling said secondary air control valve means comprising: (a) a comparator responsive to said signal representative of the detected volume of intake air and said signal representative of the detected volume of secondary air for generating a control signal, and (b) actuating means responsive to said control signal for controlling said secondary air control valve means; said means for detecting the volume of intake air being adapted to detect the negative pressure at the venturi of a carburetor of said engine, said means for detecting the volume of secondary air is adapted to detect the pressure difference across a restriction means inserted in said secondary air supply pipe, said comparator further includes a negative pressure pipe intercommunicating said actuating means and an intake manifold or pipe of said engine, a vent for communicating said negative pressure pipe with the surrounding atmosphere, and negative pressure control valve means adapted to be displaced in one direction in proportion to the negative pressure at the venturi and in the other direction in proportion to said pressure difference across said restriction means for controlling the opening degree of said vent, and said actuating device is actuated in response to the negative pressure of intake air which is transmitted through said negative pressure pipe and regulated by said negative pressure control valve means; said comparator comprising: (a) a housing, (b) first, second and third diaphragms disposed within said housing for dividing it into four pressure chambers, (c) said negative pressure at said venturi being admitted into a first pressure chamber defined by said housing and said first diaphragm, (d) the pressure at the outlet of said restriction means inserted in said secondary air supply pipe being admitted into a second pressure chamber defined between said first and second diaphragms, (e) the pressure at the inlet of said restriction means being admitted into a third pressure chamber defined between said second and third diaphragms, (f) the atmospheric pressure being admitted into a fourth pressure chamber defined by said housing and said third diaphragm, said fourth pressure chamber being communicated with said negative pressure pipe through a communication port, (g) the pressure acting area of said second diaphragm being smaller than those of said first and third diaphragms, (h) a shaft for interconnecting said first, second and third diaphragms, one end of said shaft being connected to said first diaphragm while the other end being extended into said fourth pressure chamber, and (i) a valve body attached to said other end of said shaft in opposed relation with said communication port for controlling the degree of opening of said communication port. 2. A device as set forth in claim 1, wherein: the pressure acting area of said third diaphragm is larger than that of said first diaphragm. 3. A device as set forth in claim 1, wherein: said comparator further comprises: a fourth diaphragm disposed between said first and second diaphragms for forming a fifth pressure chamber between said first and fourth diaphragms to be communicated with the atmosphere. 4. A device as set forth in claim 3, wherein: the pressure acting area of said fourth diaphragm is the same as that of said third diaphragm. 5. A device as set forth in claim 3, wherein: the pressure acting area of said first diaphragm is larger than that of said third diaphragm. 6. A device as set forth in claim 3, wherein: said comparator further comprises: a restriction disposed in a pipe for admitting the negative pressure at said venturi to said first pressure chamber.
이 특허에 인용된 특허 (3)
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Nakajima Yasuo (Yokosuka JA) Hayashi Yoshimasa (Yokohama JA) Nagumo Shin-Ichi (Yokosuka JA), Afterburning control of internal combustion engine exhaust gas.
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Nakajima Yasuo (Yokosuka JA) Hayashi Yoshimasa (Yokohama JA) Takagi Yasuo (Yokohama JA) Sugihara Kunihiko (Yokohama JA) Aoyama Syunichi (Yokohama JA), Exhaust gas recirculation system with control apparatus for exhaust gas flow control valve.
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Atago Takeshi (Katsuta JA) Hosho Yukio (Katsuta JA) Shimo Shoji (Katsuta JA), Secondary air control device.
이 특허를 인용한 특허 (5)
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Kitamura Kazuhiko (Toyota JPX), Exhaust cleaning fluid control system and vacuum control valve device for use therein.
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Kohama Tokio (Nishio JPX) Obayashi Hideki (Hoi JPX) Ozaki Tadashi (Nishio JPX) Nohira Hidetaka (Mishima JPX), Exhaust gas purifying apparatus for internal combustion engine.
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Weber Olaf,DEX ; Paffrath Holger,DEX, Secondary air system for an internal combustion engine.
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Hao, Yongjiang; Wu, Wenjie; Kippel, Bradly Aaron; Zhang, Jianmin, System and method for reducing back pressure in a gas turbine system.
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Kitamura Kazuhiko (Toyota JPX), Vacuum control valve for exhaust gas cleaning system.
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