Method and device for simultaneous regulation of an intake air flow for an internal combustion engine and a secondary air flow in the exhaust system of the same internal combustion engine
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F01N-003/00
F01N-003/32
출원번호
US-0203455
(2001-01-19)
우선권정보
DE-0005888 (2000-02-10)
국제출원번호
PCT/EP01/00603
(2001-01-19)
국제공개번호
WO01/59273
(2001-08-16)
발명자
/ 주소
Paffrath, Holger
Hummel, Karl Ernst
Fischer, Jochem
출원인 / 주소
Filterwork Mann & Hummel GmbH
대리인 / 주소
Crowell & Moring LLP
인용정보
피인용 횟수 :
19인용 특허 :
3
초록▼
A method and an apparatus are described for the simultaneous adjustment of an air intake stream 24 of an internal combustion engine 10 and of a secondary air stream 21 into the exhaust system 12 of the internal combustion engine, the secondary air stream being produced by a compressor 20 which is dr
A method and an apparatus are described for the simultaneous adjustment of an air intake stream 24 of an internal combustion engine 10 and of a secondary air stream 21 into the exhaust system 12 of the internal combustion engine, the secondary air stream being produced by a compressor 20 which is driven by a turbine 18 . The turbine 18 is housed in a bypass duct 16 , the bypass duct being arranged parallel to a throttle valve 14 in the air intake tract 11 of the internal combustion engine. Thus the required amount of secondary air 21 is dependent upon the throttle valve setting. To create compensation for this, a control valve 32 , for example, is created, which is connected through a connecting duct 4 to the secondary air duct 22 . The control valve affects the cross section of the bypass line 16 , so that in the event of an opening of the throttle valve 14 the cross section of the bypass duct can be expanded simultaneously, so that the pressure drop at the turbine, produced by throttle valve opening can be compensate. Alternatively the arrangement of a control valve is possible, which is operated by a control unit. Moreover, a mechanical coupling of the throttle means in the bypass line and the throttle valve is possible. The proposed method achieves the simultaneous adjustment of air intake flow and secondary air flow with reasonable design expense and therefore constitutes an economical solution.
대표청구항▼
1. In an internal combustion engine having an engine air intake tract with a throttle valve disposed therein and a bypass arranged parallel to said engine air intake tract with a turbine disposed therein, and having an exhaust system with a catalytic converter and a secondary air inlet for admitting
1. In an internal combustion engine having an engine air intake tract with a throttle valve disposed therein and a bypass arranged parallel to said engine air intake tract with a turbine disposed therein, and having an exhaust system with a catalytic converter and a secondary air inlet for admitting secondary air into the exhaust system and a compressor driven by said turbine for introducing secondary air through said secondary air inlet, a method of simultaneously regulating a flow of engine air through said intake tract and bypass and a flow of secondary air into said exhaust system comprising adjusting the throttle valve to a defined idling position when the engine is idling. 2. A method according to claim 1, wherein said defined idling position of the throttle valve is a closed position. 3. A method according to claim 2, wherein the throttle valve is maintained in said closed position as long as the internal combustion engine requires less air than a maximum airflow possible through said bypass. 4. An internal combustion engine having an intake tract with a throttle valve disposed therein and an exhaust line with a catalytic converter disposed therein; wherein said intake tract further comprises a bypass for bypassing said throttle valve and a turbine disposed in said bypass so as to be driven by air passing through said bypass; wherein said exhaust line includes a secondary air inlet for introducing secondary air into engine exhaust in the exhaust line; wherein said turbine drives an air compressor having a compressed air outlet communicating with said secondary air inlet; and wherein means are provided for setting the throttle valve to a fixed idling position when the engine is idling so that airflow through the throttle valve and airflow through the bypass provide exactly an air quantity necessary for engine operation at idle and for desired turbine output, wherein said defined idling position of the throttle valve is a closed position, and said means for adjusting the throttle valve comprise a throttle member arranged in said bypass and mechanically coupled with said throttle valve. 5. An internal combustion engine having an intake tract with a throttle valve disposed therein and an exhaust line with a catalytic converter disposed therein; wherein said intake tract further comprises a bypass for bypassing said throttle valve and a turbine disposed in said bypass so as to be driven by air passing through said bypass; wherein said exhaust line includes a secondary air inlet for introducing secondary air into engine exhaust in the exhaust line; wherein said turbine drives an air compressor having a compressed air outlet communicating with said secondary air inlet; and wherein means are provided for setting the throttle valve to a fixed idling position when the engine is idling so that airflow through the throttle valve and airflow through the bypass provide exactly an air quantity necessary for engine operation at idle and for desired turbine output, wherein said throttle member comprises a slide diaphragm, which is arranged so as to displaceable over a connection opening between the intake tract and the bypass, whereby the connection opening can be opened and closed, and wherein said slide diaphragm is connected with the throttle valve via a rack-and-pinion drive. 6. An internal combustion engine having an intake tract with a throttle valve disposed therein and an exhaust line with a catalytic converter disposed therein; wherein said intake tract further comprises a bypass for bypassing said throttle valve and a turbine disposed in said bypass so as to be driven by air passing through said bypass; wherein said exhaust line includes a secondary air inlet for introducing secondary air into engine exhaust in the exhaust line; wherein said turbine drives an air compressor having a compressed air outlet communicating with said secondary air inlet; and wherein means are provided for setting the throttle valve to a fixed idlin g position when the engine is idling so that airflow through the throttle valve and airflow through the bypass provide exactly an air quantity necessary for engine operation at idle and for desired turbine output, the international combustion engine further comprising a regulating valve arranged in said bypass, wherein said regulating valve is equipped with a pneumatic regulating connection that communicates with the secondary air line via a connecting line. 7. An internal combustion engine having an intake tract with a throttle valve disposed therein and an exhaust line with a catalytic converter disposed therein; wherein said intake tract further comprises a bypass for bypassing said throttle valve and a turbine disposed in said bypass so as to be driven by air passing through said bypass; wherein said exhaust line includes a secondary air inlet for introducing secondary air into engine exhaust in the exhaust line; wherein said turbine drives an air compressor having a compressed air outlet communicating with said secondary air inlet; and wherein means are provided for setting the throttle valve to a fixed idling position when the engine is idling so that airflow through the throttle valve and airflow through the bypass provide exactly an air quantity necessary for engine operation at idle and for desired turbine output, the international combustion engine further comprising a control unit comprising:an input for a secondary air signal provided by a sensor in the secondary air line or the exhaust system,an input for a position signal provided by a position sensor on the throttle valve, andan output for a control signal connected with a control valve arranged in the bypass or the secondary air line. 8. An internal combustion engine having an intake tract with a throttle valve disposed therein and an exhaust line with a catalytic converter disposed therein; wherein said intake tract further comprises a bypass for bypassing said throttle valve and a turbine disposed in said bypass so as to be driven by air passing through said bypass; wherein said exhaust line includes a secondary air inlet for introducing secondary air into engine exhaust in the exhaust line; wherein said turbine drives an air compressor having a compressed air outlet communicating with said secondary air inlet; and wherein means are provided for setting the throttle valve to a fixed idling position when the engine is idling so that airflow through the throttle valve and airflow through the bypass provide exactly an air quantity necessary for engine operation at idle and for desired turbine output, the international combustion engine further comprising a second throttle valve for regulating secondary airflow in the secondary air line. 9. An internal combustion engine having an intake tract with a throttle valve disposed therein and an exhaust line with a catalytic converter disposed therein; wherein said intake tract further comprises a bypass for bypassing said throttle valve and a turbine disposed in said bypass so as to be driven by air passing through said bypass; wherein said exhaust line includes a secondary air inlet for introducing secondary air into engine exhaust in the exhaust line; wherein said turbine drives an air compressor having a compressed air outlet communicating with said secondary air inlet; and wherein means are provided for setting the throttle valve to a fixed idling position when the engine is idling so that airflow through the throttle valve and airflow through the bypass provide exactly an air quantity necessary for engine operation at idle and for desired turbine output, the international combustion engine further comprising a secondary bypass line which bypasses the compressor and which can be throttled to regulate the secondary airflow in the secondary air line. 10. An internal combustion engine having an intake tract with a throttle valve disposed therein and an exhaust line with a catalytic converter disposed therein; wherein s aid intake tract further comprises a bypass for bypassing said throttle valve and a turbine disposed in said bypass so as to be driven by air passing through said bypass; wherein said exhaust line includes a secondary air inlet for introducing secondary air into engine exhaust in the exhaust line; wherein said turbine drives an air compressor having a compressed air outlet communicating with said secondary air inlet; and wherein means are provided for setting the throttle valve to a fixed idling position when the engine is idling so that airflow through the throttle valve and airflow through the bypass provide exactly an air quantity necessary for engine operation at idle and for desired turbine output, wherein said secondary air inlet is arranged upstream of the catalytic converter, and a further air inlet into the exhaust line is provided downstream of the catalytic converter, and wherein a control unit is provided for regulating admission of secondary air through said secondary air inlet and through said further air inlet.
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