Air valve for a fuel supply system
IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0167620
(1980-07-11)
|
우선권정보 |
DE-2933589 (1979-08-18) |
발명자
/ 주소 |
- Fehrenbach Siegfried (Markgrningen DEX)
|
출원인 / 주소 |
- Robert Bosch GmbH (Stuttgart DEX 03)
|
인용정보 |
피인용 횟수 :
8 인용 특허 :
4 |
초록
▼
An air valve for a fuel supply system of an internal combustion engine is proposed, which assures good start-up of the engine and furnishes a fuel-air mixture required for combustion during overrunning. The air valve includes a housing, which is separated by a diaphragm into a first chamber and a se
An air valve for a fuel supply system of an internal combustion engine is proposed, which assures good start-up of the engine and furnishes a fuel-air mixture required for combustion during overrunning. The air valve includes a housing, which is separated by a diaphragm into a first chamber and a second chamber. The first chamber communicates with the intake tube section dowstream of a throttle valve and the second chamber comunicates first with the intake tube upstream of the throttle valve and second with the intake tube downstream of the throttle valve. A valve plate guided by the diaphragm engages a valve seat sheath which is slidably supported in a mouthpiece. A flow cross section is formed between the valve seat sheath and the mouthpiece. Immediately following starting, additional air can bypass the throttle valve for the purpose of improved starting up of the engine. Upon attainment of a certain underpressure, the valve seat sheath is displaced in such a manner that a sealing step closes the flow cross section. At under pressures characterized by overrunning, the valve plate rises from the valve seat sheath and enables the supply of additional air to the engine.
대표청구항
▼
In a fuel supply system of an internal combustion engine having an air intake tube, an arbitrarily actuatable throttle valve disposed in the air intake tube, and a throttle valve bypass connecting the air intake tube upstream of the throttle valve to the air intake tube downstream of the throttle va
In a fuel supply system of an internal combustion engine having an air intake tube, an arbitrarily actuatable throttle valve disposed in the air intake tube, and a throttle valve bypass connecting the air intake tube upstream of the throttle valve to the air intake tube downstream of the throttle valve, an air valve means, connected via an underpressure line to the air intake tube downstream of the throttle valve, for varying the cross-sectional area of the throttle valve bypass in accordance with a differential air pressure between the pressure of air within the air intake tube upstream of the throttle valve and the pressure of air within the air intake tube downstream of the throttle valve, the throttle valve bypass comprising the air valve means, a first line connected between the air valve means and the air intake tube upstream of the throttle valve, and a second line connected between the air valve means and the air intake tube downstream of the throttle valve, and the air valve means comprising: a housing; adiaphragm which divides the housing into a first chamber and a second chamber, the first chamber communicating with the air intake tube downstream of the throttle valve via the underpressure line, and the second chamber communicating with the air intake tube upstream of the throttle valve via the first line; a mouthpiece, projecting into the second chamber, having inner and outer ends defining a passage therebetween, the passage communicating with the air intake tube downstream of the throttle valve via the second line connected to the mouthpiece at its outer end, the mouthpiece including a stop; a valve seat sheath, slidably disposed within the mouthpiece passage for movement in a first direction inwardly toward the diaphragm or in an opposite second direction outwardly from the diaphragm, the valve seat sheath and the mouthpiece defining a flow cross section therebetween connecting the second chamber with the second line, the valve seat sheath including a sealing step which engages the mouthpiece stop to close the flow cross section and determine the innermost position of the valve seat sheath; a starting spring means for exerting a force on the valve seat sheath in the first direction; a movable valve element, disposed in the second chamber and engaging the diaphragm, the valve element and the valve seat sheath defining a valve passage therebetween connecting the second chamber with the second line, the valve element being movable in the second direction to a closed position at which it engages the valve seat sheath and closes the valve passage and the valve element being movable in the first direction from its closed position to reopen the valve passage; first valve spring means for exerting a force on the diaphragm and valve element in the first direction; and second valve spring means for exerting a force on the diaphragm and valve element in the second direction; wherein the starting spring means, the first valve spring means and the second valve spring means are selected so that (1) when the air differential pressure is less than a first predetermined value indicating a non-running or starting condition of the engine, the valve element and valve seat sheath are disposed such that the flow cross section is open and the valve passage closed, (2) when the air differential pressure is at least equal to the first predetermined value but less than a second predetermined value, the valve element and valve seat sheath are disposed such that both the flow cross section and the valve passage are closed, and (3) when the air differential pressure is at least equal to the second predetermined value indicating an engine overrunning condition, the valve element and valve seat sheath are disposed such that the flow cross section is closed and the valve passage is open.
이 특허에 인용된 특허 (4)
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Kinugawa Masumi (Kariya JPX) Omori Norio (Kariya JPX) Sueishi Motoharu (Kariya JPX), Apparatus for controlling rotation speed of engine.
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Yamanaka Minoru (Toyota JPX) Tamura Tooru (Toyota JPX), Compound valve device.
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Rittmannsberger Norbert (Stuttgart DT) Hoelle Hermann (Sonthofen DT) Bertsch Klaus (Backnang DT), Pressure reduction limiter in a combustion engine.
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Sato Toshihiko (Saitama JPX) Ishida Yoichi (Saitama JPX) Iwashita Kanau (Sakado JPX), Secondary air controlling apparatus for internal combustion engines.
이 특허를 인용한 특허 (8)
-
Morita Hideo (Yokohama JPX) Iwasa Yoshio (Nagareyama JPX), Air induction control device for internal combustion engine.
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Fasching George E. (Morgantown WV), Air-flow regulation system for a coal gasifier.
-
Chen Teh-Chih (No. 3 ; Lane 27 ; Wen-Hua Street Tou-Nan Chen ; Yin-Lin Hsien TWX), Air-rich fuel saver.
-
Bonse, Bernhard; Kemmner, Ulrich; Klinkenberg, Reinhard; Knapp, Heinrich; Wissmann, Michael, Apparatus for regulating the idling RPM in an internal combustion engine.
-
Knapp Heinrich (Leonberg DEX) Schillinger Rainer (Stuttgart DEX), Apparatus for regulating the idling rpm of an internal combustion engine.
-
Mazur Richard J. (Northville MI) Tomczak Lawrence W. (Rochester MI) Momin Salim A. (Troy MI) Killen Howard R. (Rochester MI), Automatic idle speed actuator valve.
-
Teruhiko Tobinai JP; Shin-Ichi Ohgane JP; Tamio Aihara JP, Carburetor for stratified type scavenging engine.
-
Monnier, Jean-Pierre, Gas mixers.
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