IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0502093
(2006-08-10)
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등록번호 |
US-7406954
(2008-08-05)
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발명자
/ 주소 |
- Breuer,Todd
- Gardner,Robert
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출원인 / 주소 |
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대리인 / 주소 |
Polser Lieder Woodruff & Lucchesi
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인용정보 |
피인용 횟수 :
1 인용 특허 :
18 |
초록
▼
A high-pressure fuel pump (10) used in a fuel system includes an electric motor (14) having a drive shaft (16) to which is attached a pumping element (18). A fuel inlet passage allows low-pressure fuel to be drawn into the pump, and a fuel outlet passage (24) allows high-pressure fuel to be pumped t
A high-pressure fuel pump (10) used in a fuel system includes an electric motor (14) having a drive shaft (16) to which is attached a pumping element (18). A fuel inlet passage allows low-pressure fuel to be drawn into the pump, and a fuel outlet passage (24) allows high-pressure fuel to be pumped to an internal combustion engine (E). A check valve assembly (30) is installed in the outlet passage and includes a check valve (36) which, when the pump is off, blocks an inlet (38) into the outlet passage to prevent fuel flow through the passage and into the pump resulting in a decrease in pressure in the fuel system. When the pump is operating, the check valve is forced away from the inlet to open the valve and allow fuel to freely flow through the passage. The fuel flows both around and through the check valve as it flows through the outlet passage. A retainer (32) seats against a shoulder adjacent an outlet end (44) of the outlet passage, and a spring (34) has one end which seats against the retainer and the other end of which seats against a base of the check valve. Flow of fuel around and through the check valve, when the valve is open, enables quiet operation of the check valve so when the pump is operating, there is no discernible noise or chattering from the check valve.
대표청구항
▼
The invention claimed is: 1. In a high-pressure fuel pump used in the fuel system of automotive vehicles, the pump including an electric motor a drive shaft of which is attached to a pumping element, a fuel inlet passage for low-pressure fuel from a source thereof to be drawn into the pump, a fuel
The invention claimed is: 1. In a high-pressure fuel pump used in the fuel system of automotive vehicles, the pump including an electric motor a drive shaft of which is attached to a pumping element, a fuel inlet passage for low-pressure fuel from a source thereof to be drawn into the pump, a fuel outlet passage through which high-pressure fuel is pumped to an engine of the vehicle, and a check valve assembly installed in the outlet passage comprising: a retainer seated at an outlet end of the outlet passage; a check valve which, when the pump is off, blocks an inlet into the outlet passage to prevent fuel flow through the outlet passage and into the pump, resulting in a decrease in fuel pressure, but, when the pump is operating is forced away from the inlet to open the valve and allow fuel to freely flow through the outlet passage, the fuel flowing both around and through the check valve as it flows through the outlet passage with the flow of fuel around and through the check valve, when the check valve is open, providing for quiet operation of the fuel system so when the pump is operating no discernible noise or chattering is produced by the check valve; and, a spring one end of which seats against the retainer and the other end of which seats against the check valve, the spring being a fully collapsible spring by which, when the check valve is opened it collapses the spring sufficiently that one end of the check valve abuts against the retainer so that the outlet passage is fully opened. 2. The check vaive assembly of claim 1 in which the check valve includes a hollow base and a sealing element spaced from the base so to provide a fuel flow path around the sealing element and through the base when the check valve is open. 3. The check valve assembly of claim 2 in which the sealing element is a hemispherically shaped sealing element. 4. The check valve assembly of claim 3 in which the base comprises a hollow cylinder open at each end so when the check valve is open fuel flowing around the sealing element can flow through the base and out of the outlet passage. 5. The check valve assembly of claim 4 in which the check valve further includes at least one strut extending between the base and the sealing element to space them from each other. 6. The check valve assembly of claim 5 further including a plurality of struts extending between the base and the sealing element, the struts being equidistantly spaced about the check valve. 7. The check valve assembly of claim 4 in which the base has a shoulder formed at its end nearest the sealing element and extending outwardly from an outer sidewall of the base, the diameter of the shoulder being greater than the diameter of the remainder of the base so to form a seat for one end of the spring. 8. The check valve assembly of claim 5 further including a collar attached to one end of the strut and in which the seating element is fitted, there being a space between the base and the collar through which fuel flowing around the sealing element when the check valve is open can flow into and through the base of the check valve. 9. The check valve assembly of claim 1 further including a cap fitting onto one end of the fuel pump and including the fuel outlet passage and the check valve assembly. 10. A high-pressure automotive fuel pump comprising: an electric motor including a drive shaft: a fuel pumping element attached to the drive shaft; an inlet passage by which low-pressure fuel from a source thereof is drawn into the pump; a cap fitting onto one end of the fuel pump and including a pump outlet passage through which high-pressure fuel is pumped to an engine of the vehicle; and, a check valve assembly installed in the outlet passage, the assembly comprising a retainer seated at an outlet end of the outlet passage, a check valve which, when the pump is off, blocks an inlet into the outlet passage to prevent fuel flow through the outlet passage and into the pump resulting in a decrease in fuel pressure, but, when the pump is operating is forced away from the inlet to open the valve and allow fuel to freely flow through the outlet passage, the fuel flowing both around and through the check valve as it flows through the outlet passage with the flow of fuel around and through the check valve, when the valve is open, providing for quiet operation of the fuel system so when the pump is operating no discernible noise or chattering is produced by the check valve, and a spring one end of which seats against the retainer and the other end of which seats against the check valve, the spring being a fully collapsible spring by which, when the check valve is opened, the check valve collapses the spring sufficiently that one end of the check valve abuts against the retainer so that the outlet passage is fully opened. 11. The fuel pump of claim 10 in which the check valve includes a hollow base and a sealing element spaced from the base so to provide a fuel flow path around the sealing element and through the base when the check valve is open. 12. The fuel pump of claim 11 in which the sealing element is a hemispherically shaped sealing element. 13. The fuel pump of claim 12 in which the base comprises a hollow cylinder open at each end so when the check valve is open fuel flowing around the sealing element can flow through the base and out of the outlet passage. 14. The fuel pump of claim 13 in which the check valve further includes at least one leg extending between the base and the sealing element to space them from each other. 15. The fuel pump of claim 14 further including a plurality of legs extending between the base and the sealing element, the legs being equidistantly spaced about a perimeter of the check valve. 16. The fuel pump of claim 15 in which the base has a shoulder formed at its end nearest the sealing element and extending outwardly from an outer sidewall of the base, the diameter of the shoulder being greater than the diameter of the remainder of the base so to form a seat for one end of the spring. 17. The fuel pump of claim 14 further including a collar attached to one end of the leg and in which the sealing element is fitted, there being a space between the base and the collar through which fuel flowing around the sealing element when the check valve is open can flow into and through the base of the check valve. 18. A high-pressure automotive fuel pump comprising: an electric motor including a drive shaft; a fuel pumping element attached to the drive shaft; a fuel inlet passage by which low-pressure fuel from a source thereof is drawn into the pump, and a fuel outlet passage through which high-pressure fuel is pumped to an engine of the vehicle; a retainer seated at an outlet end of the outlet passage; a check valve which, when the pump is off, blocks an inlet into the outlet passage to prevent fuel flow through the outlet passage and into the pump resulting in a decrease in fuel pressure in a fuel system in which the pump is installed, but, when the pump is operating is forced away from the inlet to open the valve and allow fuel to freely flow through the outlet passage, the check valve including a hollow base and a sealing element spaced from the base so to provide a fuel flow path around the sealing element and through the base when the check valve is open, and means for spacing the base and sealing element from each other to provide a fuel flow path around the sealing element and into the base; and, a spring one end of which seats against the retainer and the other end of which seats against the check valve, the flow of fuel around and through the check valve when the valve is open providing for quiet operation of the fuel system so when the pump is operating no discernible noise or chattering is produced by the check valve, the spring being a fully collapsible spring by which, when the check valve is opened, the check valve collapses the spring sufficiently that one end of the check valve abuts against the retainer so that the outlet passage is fully opened. 19. The fuel pump of claim 18 further including a cap fitting onto one end of the fuel pump and including the pump outlet passage. 20. The fuel pump of claim 18 in which the means for spacing includes at least one strut one end of which attaches to the base and the other end of which attaches to a collar which attaches to the sealing element. 21. In a fuel system having a fuel flow path through which fuel flows from a source thereof to a location where the fuel is combusted, a check valve assembly including a check valve having a closed position so, when fuel is not flowing through the path the check valve blocks the path to prevent fuel flow back through the path to the source, thereby preventing a decrease in fuel pressure in the fuel system, but, when fuel is flowing through the path is forced to an open position which allows fuel to freely flow through the path, the check valve assembly further including a hollow base and a sealing element spaced from the base so to provide a fuel flow path around the sealing element and through the base when the check valve is open, means for spacing the base and sealing element from each other to provide a fuel flow path around the sealing element and into the base, and a retainer and a spring one end of which seats against the retainer and the other end of which seats against the check valve, the spring being a fully collapsible spring by which, when the check valve is opened, the check valve collapses the spring sufficiently that one end of the check valve abuts against the retainer so that the outlet passage is fully opened, the flow of fuel around and through the check valve when the valve is open providing for quiet operation of the fuel system with no discernible noise or chattering being produced by the check valve. 22. The check valve assembly of claim 21 in which the source of fuel includes a fuel module and the assembly is installed in the module. 23. The check valve assembly of claim 21 in which the fuel system includes a fuel line extending between the fuel source and the location where the fuel is combusted, and the assembly is installed in the fuel line.
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