Exhaust pressure restriction device with bypass passageway
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02B-037/18
F02D-023/00
F02M-025/06
출원번호
US-0696785
(2003-10-30)
발명자
/ 주소
Whiting, Todd Matthew
출원인 / 주소
Deere &
Company
인용정보
피인용 횟수 :
5인용 특허 :
9
초록▼
An exhaust pressure restriction device with bypass passageway is provided. The device comprises a turbocharger having a turbine portion, a restrictor fitting and a bypass fitting. The turbine includes an exhaust gas inlet, a turbine wheel, an exhaust gas outlet and a waste gate valve. The restrictor
An exhaust pressure restriction device with bypass passageway is provided. The device comprises a turbocharger having a turbine portion, a restrictor fitting and a bypass fitting. The turbine includes an exhaust gas inlet, a turbine wheel, an exhaust gas outlet and a waste gate valve. The restrictor fitting comprises an exhaust gas inlet, an exhaust gas outlet and an orifice disposed between the exhaust gas inlet and the exhaust gas outlet. The restrictor fitting is mated to the turbine such that the exhaust inlet of the restrictor fitting communicates with the exhaust outlet of the turbine. The bypass fitting has an exhaust gas inlet, an exhaust gas outlet, and a bypass passageway. The exhaust gas outlet of the bypass fitting is adapted to communicate with the exhaust system of the vehicle and to be matingly fitted to both the restrictor fitting and the turbine. The exhaust gas inlet of the bypass fitting communicates with the exhaust gas outlet of the restrictor fitting, while the bypass passageway communicates with the waste gate of the turbine. The exhaust inlet of the turbine is connected to the exhaust manifold of an internal combustion engine. In operation during the peak torque condition of the engine the waste gate valve is closed so that all exhaust gases engage the turbine wheel, the gas then exits the turbine at the exhaust outlet through the orifice of the restrictor fitting and out the exhaust outlet of the bypass fitting. Because the waste gate is closed no gas is allowed to bypass the restrictor orifice. The size of the orifice is selected to create enough back pressure at the peak torque condition to attain the desired level of negative delta P necessary to drive EGR. As the speed of the engine increases the waste gate valve opens allowing a portion of the exhaust gases to bypass the turbine wheel. This gas is then also routed around the restrictor orifice via the bypass passageway thereby lowering the back pressure because the waste gated gases are not subject to the flow restriction caused by the restrictor fitting. Thus negative delta P at rated speed is reduced so as to improve fuel economy at this critical operating point while still maintaining a level adequate to drive EGR.
대표청구항▼
1. An exhaust pressure restriction device for an internal combustion engine comprising:a turbocharger having a turbine, the turbine having an exhaust gas inlet connected to an exhaust manifold of the internal combustion engine, a turbine wheel drivingly engaging a compressor of the turbocharger, an
1. An exhaust pressure restriction device for an internal combustion engine comprising:a turbocharger having a turbine, the turbine having an exhaust gas inlet connected to an exhaust manifold of the internal combustion engine, a turbine wheel drivingly engaging a compressor of the turbocharger, an exhaust gas outlet; a waste gate valve in communication with the exhaust gas inlet; a restrictor fitting having an exhaust gas inlet, an exhaust gas outlet and a restrictor orifice disposed between the exhaust gas inlet and the exhaust gas outlet, the restrictor fitting being mated to the turbine such that the exhaust inlet of the restrictor fitting is disposed for communication with the exhaust gas outlet of the turbine; and, a bypass fitting having an exhaust gas inlet, an exhaust gas outlet, and a bypass passageway, the bypass fitting being coupled to both the restrictor fitting and the turbocharger such that the exhaust gas inlet of the bypass fitting is disposed for communication with the exhaust gas outlet of the restrictor fitting, and the bypass passageway is disposed for communication with the waste gate valve, and wherein the restrictor fitting and bypass fitting are manufactured as a unitary part which is mounted to the turbine. 2. An exhaust pressure restriction device for an internal combustion engine as described in claim 1 wherein the restrictor fitting and turbine are provided with means for connecting the restrictor fitting to the turbocharger.3. An exhaust pressure restriction device for an internal combustion engine as described in claim 1 wherein the exhaust outlet of the bypass fitting is fitted for communication with an exhaust discharge system of a vehicle.4. An exhaust pressure restriction device for an internal combustion engine as described in claim 1 wherein the bypass fitting, restrictor fitting and turbine are provided with means for connecting the bypass fitting to the restrictor fitting and the turbocharger.5. An exhaust pressure restriction device for an internal combustion engine as described in claim 1 wherein the exhaust gas outlet of the turbine is connected to the exhaust discharge system of the vehicle via the restrictor fitting and bypass fitting.6. An exhaust pressure restriction device for an internal combustion engine as described in claim 1 wherein the waste gate is integrated into the turbine housing.7. An exhaust pressure restriction device for an internal combustion engine as described in claim 1 wherein the waste gate is integrated into the exhaust manifold.8. An exhaust pressure restriction device for an internal combustion engine as described in claim 1 wherein during a peak torque condition of the engine the waste gate valve is closed so that all exhaust gases are routed to the turbine wheel thus driving the compressor, the gases then exit the turbine at the exhaust gas outlet through the restrictor orifice of the restrictor fitting and out the exhaust gas outlet of the bypass fitting.9. An exhaust pressure restriction device for an internal combustion engine as described in claim 8 wherein the size of the restrictor orifice of the restrictor fitting is selected to create enough back pressure at the peak torque condition to attain a desired level of negative delta P necessary to drive exhaust gas recirculation (EGR), wherein delta P is defined as the difference in pressure between the exhaust manifold of the engine and an intake manifold of the engine and a negative delta P represents a higher pressure in the exhaust manifold than in the intake manifold.10. An exhaust pressure restriction device for an internal combustion engine as described in claim 9 wherein as the speed of the engine increases the waste gate valve opens allowing a portion of the exhaust gases to bypass the turbine wheel and the restrictor orifice via the bypass passageway thereby lowering the back pressure, whereby the negative delta P at rated speed full load is reduced so as to improve fuel economy at the rated speed full load operating point while still maintaining a level adequate to drive EGR.11. An exhaust pressure restriction device for an internal combustion engine as described in claim 1 wherein the waste gate valve is selectively opened and closed based upon an operating condition of the engine and when closed all exhaust gases are routed to the turbine wheel thus driving the compressor, the gases then exit the turbine at the exhaust gas outlet through the restrictor orifice of the restrictor fitting and out the exhaust gas outlet of the bypass fitting.12. An exhaust pressure restriction device for an internal combustion engine as described in claim 11 wherein the size of the restrictor orifice of the restrictor fitting is selected to create enough back pressure at a specific operating condition to attain the desired level of negative delta P necessary to drive exhaust gas recirculation (EGR), wherein delta P is defined as the difference in pressure between the exhaust manifold of the engine and an intake manifold of the engine and a negative delta P represents a higher pressure in the exhaust manifold than in the intake manifold.13. An exhaust pressure restriction device for an internal combustion engine as described in claim 12 wherein when the waste gate valve is opened a portion of the exhaust gases are allowed to bypass the turbine wheel and the restrictor orifice via the bypass passageway thereby lowering the back pressure, whereby the negative delta P is reduced.14. An exhaust pressure restriction device for an internal combustion engine comprising:a turbocharger having a turbine, the turbine having an exhaust gas inlet connected to an exhaust manifold of the internal combustion engine, a turbine wheel drivingly engaging a compressor of the turbocharger, an exhaust gas outlet; a waste gate valve in communication with the exhaust gas inlet; a restrictor fitting having an exhaust gas inlet, an exhaust gas outlet and a restrictor orifice disposed between the exhaust gas inlet and the exhaust gas outlet, the restrictor fitting being mated to the turbine such that the exhaust inlet of the restrictor fitting is disposed for communication with the exhaust gas outlet of the turbine; and, a bypass fitting having an exhaust gas inlet, an exhaust gas outlet, and a bypass passageway, the bypass fitting being coupled to both the restrictor fitting and the turbocharger such that the exhaust gas inlet of the bypass fitting is disposed for communication with the exhaust gas outlet of the restrictor fitting, and the bypass passageway is disposed for communication with the waste gate valve, and wherein the restrictor fitting and bypass fitting are integrated into a housing of the turbine. 15. An exhaust press restriction device for an internal combustion engine as described in claim 14 wherein the restrictor fitting and turbine are provided with means for connecting the restrictor fitting to the turbocharger.16. An exhaust pressure restriction device for an internal combustion engine as described in claim 14 wherein the exhaust outlet of the bypass fitting is fitted for communication with an exhaust discharge system of a vehicle.17. An exhaust pressure restriction device for an internal combustion engine as described in claim 14 wherein the bypass fitting, restrictor fitting and turbine are provided with means for connecting the bypass fitting to the restrictor fitting and the turbocharger.18. An exhaust pressure restriction device for an internal combustion engine as described in claim 14 wherein the exhaust gas outlet of the turbine is connected to the exhaust discharge system of the vehicle via the restrictor fitting and bypass fitting.19. An exhaust pressure restriction device for an internal combustion engine as described in claim 14 wherein the waste gate is integrated into the turbine housing.20. An exhaust pressure restriction device for an internal combustion engine as described in claim 14 wherein the waste gate is integrated into the exhaust manifold.21. An exhaust pressure restriction device for an internal combustion engine as described in claim 14 wherein during a peak torque condition of the engine the waste gate valve is closed so that all exhaust gases are routed to the turbine wheel thus driving the compressor, the gases then exit the turbine at the exhaust gas outlet through the restrictor orifice of the restrictor fitting and out the exhaust gas outlet of the bypass fitting.22. An exhaust pressure restriction device for an internal combustion engine as described in claim 21 wherein the size of the restrictor orifice of the restrictor fitting is selected to create enough back pressure at the peak torque condition to attain a desired level of negative delta P necessary to drive exhaust gas recirculation (EGR), wherein delta P is defined as the difference in pressure between the exhaust manifold of the engine and an intake manifold of the engine and a negative delta P represents a higher pressure in the exhaust manifold than in the intake manifold.23. An exhaust pressure restriction device for an internal combustion engine as described in claim 22 wherein as the speed of the engine increases the waste gate valve opens allowing a portion of the exhaust gases to bypass the turbine wheel and the restrictor orifice via the bypass passageway thereby lowering the back pressure, whereby the negative delta P at rated speed full load is reduced so as to improve fuel economy at the rated speed full load operating point while still maintaining a level adequate to drive EGR.24. An exhaust pressure restriction device for an internal combustion engine as described in claim 14 wherein the waste gate valve is selectively opened and closed based upon an operating condition of the engine and when closed all exhaust gases are routed to the turbine wheel thus driving the compressor, the gases then exit the turbine at the exhaust gas outlet through the restrictor orifice of the restrictor fitting and out the exhaust gas outlet of the bypass fitting.25. An exhaust pressure restriction device for an internal combustion engine as described in claim 24 wherein the size of the restrictor orifice of the restrictor fitting is selected to create enough back pressure at a specific operating condition to attain the desired level of negative delta P necessary to drive exhaust gas recirculation (EGR), wherein delta P is defined as the difference in pressure between the exhaust manifold of the engine and an intake manifold of the engine and a negative delta P represents a higher pressure in the exhaust manifold than in the intake manifold.26. An exhaust pressure restriction device for an internal combustion engine as described in claim 25 wherein when the waste gate valve is opened a portion of the exhaust gases are allowed to bypass the turbine wheel and the restrictor orifice via the bypass passageway thereby lowering the back pressure, whereby the negative delta P is reduced.
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