IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0802617
(2010-06-10)
|
등록번호 |
US-8495987
(2013-07-30)
|
발명자
/ 주소 |
- Lucas, Robert
- Djordjevic, Ilija
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
2 인용 특허 :
4 |
초록
▼
Pump piston seizures caused by excessive side loads produced by the uneven loading of a large piston return spring are prevented by separating the tappet return function from the piston return function, thereby minimizing the spring force acting on the piston. Preferably, a stronger, heavier load ou
Pump piston seizures caused by excessive side loads produced by the uneven loading of a large piston return spring are prevented by separating the tappet return function from the piston return function, thereby minimizing the spring force acting on the piston. Preferably, a stronger, heavier load outer spring is mounted between the pump body and the tappet, such that it imparts no load and therefore no side loads to the pumping piston. A weaker, lighter load inner spring imparts less side load to the pumping piston than a conventional piston return spring, because the inner spring need not carry any tappet load. During both the pumping and charging strokes of the piston, the piston return spring can assist the tappet return spring, but the tappet return spring does not assist the piston return spring.
대표청구항
▼
1. In a cam-driven high pressure single piston fuel pump having a body, a pumping chamber within the body, a piston with one end in the pumping chamber and another end outside the body, a piston sleeve secured to the body and having a bore in which the piston reciprocates between a retracting motion
1. In a cam-driven high pressure single piston fuel pump having a body, a pumping chamber within the body, a piston with one end in the pumping chamber and another end outside the body, a piston sleeve secured to the body and having a bore in which the piston reciprocates between a retracting motion during which fuel is delivered to the pumping chamber and a pumping motion during which the piston pressurizes fuel in the pumping chamber, a non-hydraulic tappet bearing directly on the cam and directly on the other end of the piston to impart said pumping motion, and a piston return spring biasing the piston toward the tappet, wherein the improvement comprises that the piston return spring seats at the piston and a distinct tappet return spring seats at the tappet such that the tappet spring imparts no load on the piston. 2. The pump of claim 1, wherein a sleeve retainer holds the piston sleeve within the body and each of the piston return spring and the tappet return spring seats directly or indirectly against the sleeve retainer. 3. The pump of claim 2, wherein each of the piston return spring and tappet return spring is an elongated coil spring and the piston return spring is situated coaxially within the tappet return spring. 4. The pump of claim 2, wherein the tappet has a head bearing on the other end of the piston and a shoulder on which the tappet return spring seats. 5. The pump of claim 1, wherein each of the piston return spring and tappet return spring is an elongated coil spring. 6. The pump of claim 5, wherein the tappet has a head bearing on the other end of the piston and a shoulder on which the tappet return spring seats. 7. The pump of claim 1, wherein the tappet has a head bearing on the other end of the piston and a shoulder on which the tappet return spring seats. 8. The pump of claim 1, wherein a sleeve retainer holds the piston sleeve within the body and has an exterior end facing the tappet, said exterior end having an outer annular shoulder where one end of the tappet return spring is seated and said tappet having a shoulder where another end of the tappet return spring is seated. 9. The pump of claim 8, wherein the exterior end face of the sleeve retainer has an inner annular neck through which the piston extends, and a spring retainer is supported by said neck, having an inner, ring portion providing a seat for the piston return spring and an outer rim portion at said shoulder, for maintaining a minimum separation between the springs. 10. In a high pressure single piston fuel pump having a body, a pumping chamber within the body, a piston with one end in the pumping chamber and another end outside the body, a piston sleeve secured to the body and having a bore in which the piston reciprocates between a retracting motion during which fuel is delivered to the pumping chamber and a pumping motion during which the piston pressurizes fuel in the pumping chamber, a tappet bearing on the other end of the piston to impart said pumping motion, and a piston return spring biasing the piston toward the tappet, wherein the improvement comprises that the piston return spring is connected to the piston and not the tappet and a distinct tappet return spring is provided that acts on the tappet and not on the piston. 11. The pump of claim 10, wherein each spring is an elongated coil spring, the piston return spring is coaxially situated within the tappet return spring, and the tappet return spring has a higher spring rate than the piston return spring. 12. The pump of claim 11, wherein a sleeve retainer holds the piston sleeve within the body and each of the piston return spring and the tappet return spring seats directly or indirectly against the sleeve retainer. 13. The pump of claim 10, wherein a sleeve retainer holds the piston sleeve within the body and has an exterior end facing the tappet, said exterior end having an outer annular shoulder where one end of the tappet return spring is seated and said tappet having a shoulder where another end of the tappet return spring is seated. 14. The pump of claim 13, wherein the exterior end face of the sleeve retainer has an inner annular neck through which the piston extends, and a spring retainer is supported by said neck, having an inner, ring portion providing a seat for the piston return spring and an outer rim portion at said shoulder, for maintaining a minimum separation between the springs. 15. In a high pressure single piston fuel pump having a body, a pumping chamber within the body, a piston with one end in the pumping chamber and another end outside the body, which piston reciprocates between a retracting motion away from the pumping chamber and a pumping motion toward the pumping chamber, and a tappet bearing on the other end of the piston and cyclically driven toward the pumping chamber to impart said pumping motion on the piston, and means for retracting the piston and tappet away from the pumping chamber during said retraction motion, wherein the improvement comprises that the means for retracting the tappet are physically and operationally separate and distinct from the means for retracting the piston. 16. The pump of claim 15, wherein the means for retracting the piston is a coil return spring connected to the piston and not the tappet and the means for retracting the tappet is a separate and distinct coil return spring that acts on the tappet and not on the piston. 17. The pump of claim 16, wherein the tappet return spring has a higher spring rate than the piston return spring.
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