IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0599402
(2008-04-14)
|
등록번호 |
US-8245694
(2012-08-21)
|
우선권정보 |
DE-10 2007 021 327 (2007-05-07) |
국제출원번호 |
PCT/EP2008/054464
(2008-04-14)
|
§371/§102 date |
20091109
(20091109)
|
국제공개번호 |
WO2008/135339
(2008-11-13)
|
발명자
/ 주소 |
- Kuhnke, Dominik
- Vahle, Dirk
|
출원인 / 주소 |
|
인용정보 |
피인용 횟수 :
10 인용 특허 :
8 |
초록
▼
The invention relates to a fuel injection system for an internal combustion engine having a high pressure pump, a high pressure reservoir, a plurality of fuel injectors, a hydraulic pressure booster, and a control valve for actuating the hydraulic pressure booster. The hydraulic pressure booster is
The invention relates to a fuel injection system for an internal combustion engine having a high pressure pump, a high pressure reservoir, a plurality of fuel injectors, a hydraulic pressure booster, and a control valve for actuating the hydraulic pressure booster. The hydraulic pressure booster is provided centrally for all of the fuel injectors. The central hydraulic pressure booster is disposed between the high pressure pump and the high pressure reservoir.
대표청구항
▼
1. A fuel injection system for an internal combustion engine, comprising: a high-pressure pump;a high-pressure reservoir;a plurality of fuel injectors;a central hydraulic pressure booster; anda switching valve for triggering the hydraulic pressure booster, the hydraulic pressure booster being provid
1. A fuel injection system for an internal combustion engine, comprising: a high-pressure pump;a high-pressure reservoir;a plurality of fuel injectors;a central hydraulic pressure booster; anda switching valve for triggering the hydraulic pressure booster, the hydraulic pressure booster being provided for all the fuel injectors, wherein the central hydraulic pressure booster is disposed between the high-pressure pump and the high-pressure reservoir,wherein the central hydraulic pressure booster has a base body in which a hydraulic storage chamber is embodied, and the hydraulic storage chamber communicates hydraulically directly with the high-pressure pump via a pressure booster inlet,wherein there is only one line of communication between the hydraulic storage chamber and the high-pressure pump, andwherein fuel flows from the high-pressure pump to the hydraulic storage chamber without flowing through said switching valve. 2. The fuel injection system as defined by claim 1, wherein in the base body, a high-pressure chamber and a control chamber are embodied and a pressure booster piston is guided axially movably, and the pressure booster piston acts on the high-pressure chamber for pressure boosting and on the control chamber for triggering the pressure booster. 3. The fuel injection system as defined by claim 1, wherein from the high-pressure chamber, a first hydraulic connection, as a high-pressure outlet, leads to the high-pressure reservoir, and a second hydraulic connection leads into the hydraulic storage chamber, the first hydraulic connection having the high-pressure outlet has a first check valve, and the second hydraulic connection has a second check valve, and the first check valve blocks a return flow from the high-pressure reservoir into the high-pressure chamber, and the second check valve blocks an inflow of pressure boosted fuel from the high-pressure chamber into the hydraulic storage chamber. 4. The fuel injection system as defined by claim 2, wherein from the high-pressure chamber, a first hydraulic connection, as a high-pressure outlet, leads to the high-pressure reservoir, and a second hydraulic connection leads into the hydraulic storage chamber, the first hydraulic connection having the high-pressure outlet has a first check valve, and the second hydraulic connection has a second check valve, and the first check valve blocks a return flow from the high-pressure reservoir into the high-pressure chamber, and the second check valve blocks an inflow of pressure boosted fuel from the high-pressure chamber into the hydraulic storage chamber. 5. The fuel injection system as defined by claim 1, wherein the switching valve is associated with the central hydraulic pressure booster in the base body. 6. The fuel injection system as defined by claim 2, wherein the switching valve is associated with the central hydraulic pressure booster in the base body. 7. The fuel injection system as defined by claim 1, wherein the pressure booster piston is embodied with a first pressure booster piston part having a larger diameter and with a second pressure booster piston part with a smaller diameter, the base body has a piston guide body for at least one of the first pressure booster piston part and the second pressure booster piston part, and the piston guide body is surrounded at least partly by an annular chamber which is part of the hydraulic storage chamber. 8. The fuel injection system as defined by claim 2, wherein the pressure booster piston is embodied with a first pressure booster piston part having a larger diameter and with a second pressure booster piston part with a smaller diameter, the base body has a piston guide body for at least one of the first pressure booster piston part and the second pressure booster piston part, and the piston guide body is surrounded at least partly by an annular chamber which is part of the hydraulic storage chamber. 9. The fuel injection system as defined by claim 4, wherein the pressure booster piston is embodied with a first pressure booster piston part having a larger diameter and with a second pressure booster piston part with a smaller diameter, the base body has a piston guide body for at least one of the first pressure booster piston part and the second pressure booster piston part, and the piston guide body is surrounded at least partly by an annular chamber which is part of the hydraulic storage chamber. 10. The fuel injection system as defined by claim 1, wherein a filling line is provided, which branches off from the hydraulic storage chamber and by way of which the control chamber and/or the high-pressure chamber is refilled after a pressure boosting phase. 11. The fuel injection system as defined by claim 9, wherein a filling line is provided, which branches off from the hydraulic storage chamber and by way of which the control chamber and/or the high-pressure chamber is refilled after a pressure boosting phase. 12. The fuel injection system as defined by claim 1, wherein the pressure booster is inactive at pressures below a maximum delivery pressure of the high-pressure pump, and the maximum delivery pressure of the high-pressure pump acts upon the high-pressure reservoir via the hydraulic storage chamber, the check valves, and a high-pressure outlet. 13. The fuel injection system as defined by claim 2, wherein the pressure booster is inactive at pressures below a maximum delivery pressure of the high-pressure pump, and the maximum delivery pressure of the high-pressure pump acts upon the high-pressure reservoir via the hydraulic storage chamber, the check valves, and a high-pressure outlet. 14. The fuel injection system as defined by claim 11, wherein the pressure booster is inactive at pressures below a maximum delivery pressure of the high-pressure pump, and the maximum delivery pressure of the high-pressure pump acts upon the high-pressure reservoir via the hydraulic storage chamber, the check valves, and a high-pressure outlet. 15. The fuel injection system as defined by claim 1, wherein the pressure booster is activated when delivered pressures are above a maximum delivery pressure of the high-pressure pump, and its control chamber communicates for pressure relief with a pressure booster return via the switching valve. 16. The fuel injection system as defined by claim 2, wherein the pressure booster is activated when delivered pressures are above a maximum delivery pressure of the high-pressure pump, and its control chamber communicates for pressure relief with a pressure booster return via the switching valve. 17. The fuel injection system as defined by claim 14, wherein the pressure booster is activated when delivered pressures are above a maximum delivery pressure of the high-pressure pump, and its control chamber communicates for pressure relief with a pressure booster return via the switching valve. 18. A fuel injection system for an internal combustion engine, comprising: a high-pressure pump;a high-pressure reservoir;a plurality of fuel injectors;a central hydraulic pressure booster; anda switching valve for triggering the hydraulic pressure booster, the hydraulic pressure booster being provided for all the fuel injectors, wherein the central hydraulic pressure booster is disposed between the high-pressure pump and the high-pressure reservoir,wherein the central hydraulic pressure booster has a base body in which a hydraulic storage chamber is embodied, and the hydraulic storage chamber communicates hydraulically directly with the high-pressure pump via a pressure booster inlet, andwherein the pressure booster piston is embodied with a first pressure booster piston part having a larger diameter and with a second pressure booster piston part with a smaller diameter, the base body has a piston guide body for at least one of the first pressure booster piston part and the second pressure booster piston part, and the piston guide body is surrounded at least partly by an annular chamber which is part of the hydraulic storage chamber. 19. A fuel injection system for an internal combustion engine, comprising: a high-pressure pump;a high-pressure reservoir;a plurality of fuel injectors;a central hydraulic pressure booster; anda switching valve for triggering the hydraulic pressure booster, the hydraulic pressure booster being provided for all the fuel injectors, wherein the central hydraulic pressure booster is disposed between the high-pressure pump and the high-pressure reservoir,wherein the central hydraulic pressure booster has a base body in which a hydraulic storage chamber, a control chamber, and a high-pressure chamber are embodied, and the hydraulic storage chamber communicates hydraulically directly with the high-pressure pump via a pressure booster inlet, andwherein a filling line is provided, which branches off from the hydraulic storage chamber and by way of which the control chamber and/or the high-pressure chamber is refilled after a pressure boosting phase. 20. The fuel injection system as defined by claim 19, wherein in the base body a pressure booster piston is guided axially movably, and the pressure booster piston acts on the high-pressure chamber for pressure boosting and on the control chamber for triggering the pressure booster.
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