A high pressure pump has a fuel passage and a pump chamber. Fuel flows into the pump chamber through the fuel passage. The high pressure pump includes a valve member and a plunger. The valve member is movable along a movable axis in a substantially axial direction of the valve member for controllin
A high pressure pump has a fuel passage and a pump chamber. Fuel flows into the pump chamber through the fuel passage. The high pressure pump includes a valve member and a plunger. The valve member is movable along a movable axis in a substantially axial direction of the valve member for controlling an amount of fuel flowing into the pump chamber through the fuel passage. The plunger is movable substantially along a movable axis in a substantially axial direction of the plunger. The plunger is capable of pressurizing fuel in the pump chamber to discharge fuel in the pump chamber. The movable axis of the valve member is displaced from the movable axis of the plunger substantially in parallel with each other.
대표청구항▼
What is claimed is: 1. A high pressure pump comprising: an inlet member; a pump housing that has an inlet chamber and a compression chamber, fluid being drawn from the inlet member into the compression chamber through the inlet chamber, fluid being pressurized in the compression chamber; an outlet
What is claimed is: 1. A high pressure pump comprising: an inlet member; a pump housing that has an inlet chamber and a compression chamber, fluid being drawn from the inlet member into the compression chamber through the inlet chamber, fluid being pressurized in the compression chamber; an outlet member, through which fluid flows from the compression chamber; and a plunger that is movable in the pump housing for pressurizing fluid in the compression chamber, wherein the inlet chamber has an outer circumferential periphery that includes a discontinuous portion with respect to a circumferential direction of the outer circumferential periphery, and the pump housing has a space on an outer side of the discontinuous portion with respect to the circumferential direction of the outer circumferential periphery, the high pressure pump further comprising: at least one component that is at least partially accommodated in the space. 2. The high pressure pump according to claim 1, wherein the discontinuous portion is a linear portion. 3. The high pressure pump according to claim 2, wherein the linear portion substantially linearly extends from one end of the outer circumferential periphery to an other end of the outer circumferential periphery. 4. The high pressure pump according to claim 1, wherein the inlet chamber is arranged on a substantially opposite side of the plunger with respect to the compression chamber, and the inlet chamber expands outwardly in a radial direction of the compression chamber. 5. The high pressure pump according to claim 4, wherein the space is arranged on a side of the compression chamber with respect to the inlet chamber. 6. The high pressure pump according to claim 1, wherein the at least one component includes a control valve that is capable of communicating the inlet chamber with the compression chamber and is capable of blocking the inlet chamber from the compression chamber for controlling an amount of fluid flowing from the outlet member. 7. The high pressure pump according to claim 6, wherein the control valve includes a valve member and a coil, the valve member is at least partially accommodated in the space, the valve member is capable of communicating the inlet chamber with the compression chamber and is capable of blocking the inlet chamber from the compression chamber, the coil is capable of generating magnetic attractive force for operating the valve member, the coil is arranged on a substantially opposite side of the inlet chamber with respect to the valve member, and the coil is arranged on an outer side of the compression chamber with respect to a radial direction of the compression chamber. 8. The high pressure pump according to claim 1, wherein the at least one component includes a relief valve that controls pressure of fluid in a downstream of the outlet member. 9. The high pressure pump according to claim 4, wherein the inlet member and the outlet member are arranged on a side of the compression chamber with respect to the inlet chamber. 10. The high pressure pump according to claim 9, wherein the at least one component includes a relief valve that controls pressure of fluid in a downstream of the outlet member, and the relief valve is arranged circumferentially between the inlet member and the outlet member. 11. The high pressure pump according to claim 10, wherein the at least one component includes a control valve that includes a valve member and a coil, the valve member is capable of communicating the inlet chamber with the compression chamber and is capable of blocking the inlet chamber from the compression chamber for controlling an amount of fluid flowing from the outlet member, the coil is capable of generating magnetic attractive force for operating the valve member, and the control valve is arranged on a substantially opposite side of the inlet member, the outlet member, and the relief valve with respect to an imaginary plane including a center axis of the plunger. 12. The high pressure pump according to claim 1, wherein the space is on an outer side of the discontinuous portion with respect to a radial direction of the pump housing. 13. The high pressure pump according to claim 1, wherein the outer circumferential periphery of the inlet chamber extends substantially in a circumferential direction of the outer circumferential periphery excluding the discontinuous portion. 14. A high pressure pump comprising: an inlet member; a pump housing that has an inlet chamber and a compression chamber, fluid being drawn from the inlet member into the compression chamber through the inlet chamber, fluid being pressurized in the compression chamber; an outlet member, through which fluid flows from the compression chamber; and a plunger that is movable in the pump housing for pressurizing fluid in the compression chamber, wherein the inlet chamber has a recessed portion, and the pump housing has a space in an outside of the recessed portion, the high pressure pump further comprising: at least one component that is at least partially accommodated in the space. 15. The high pressure pump according to claim 14, wherein the inlet chamber is arranged on a substantially opposite side of the plunger with respect to the compression chamber, and the inlet chamber expands outwardly in a radial direction of the compression chamber. 16. The high pressure pump according to claim 15, wherein the space is arranged on a side of the compression chamber with respect to the inlet chamber. 17. The high pressure pump according to claim 14, wherein the at least one component includes a control valve that is capable of communicating the inlet chamber with the compression chamber and is capable of blocking the inlet chamber from the compression chamber for controlling an amount of fluid flowing from the outlet member. 18. The high pressure pump according to claim 17, wherein the control valve includes a valve member and a coil, the valve member is at least partially accommodated in the space, the valve member is capable of communicating the inlet chamber with the compression chamber and is capable of blocking the inlet chamber from the compression chamber, the coil is capable of generating magnetic attractive force for operating the valve member, the coil is arranged on a substantially opposite side of the inlet chamber with respect to the valve member, and the coil is arranged on an outer side of the compression chamber with respect to a radial direction of the compression chamber. 19. The high pressure pump according to claim 14, wherein the at least one component includes a relief valve that controls pressure of fluid in a downstream of the outlet member. 20. The high pressure pump according to claim 15, wherein the inlet member and the outlet member are arranged on a side of the compression chamber with respect to the inlet chamber. 21. The high pressure pump according to claim 20, wherein the at least one component includes a relief valve that controls pressure of fluid in a downstream of the outlet member, and the relief valve is arranged circumferentially between the inlet member and the outlet member. 22. The high pressure pump according to claim 21, wherein the at least one component includes a control valve that includes a valve member and a coil, the valve member is capable of communicating the inlet chamber with the compression chamber and is capable of blocking the inlet chamber from the compression chamber for controlling an amount of fluid flowing from the outlet member, the coil is capable of generating magnetic attractive force for operating the valve member, and the control valve is arranged on a substantially opposite side of the inlet member, the outlet member, and the relief valve with respect to an imaginary plane including a center axis of the plunger. 23. The high pressure pump according to claim 14, wherein the inlet chamber has an outer circumferential periphery that includes a discontinuous portion with respect to a circumferential direction of the outer circumferential periphery, and the space is located in an outside of the discontinuous portion with respect to the circumferential direction of the outer circumferential periphery. 24. The high pressure pump according to claim 23, wherein the space is on an outer side of the discontinuous portion with respect to a radial direction of the pump housing. 25. The high pressure pump according to claim 23, wherein the outer circumferential periphery of the inlet chamber extends substantially in a circumferential direction of the outer circumferential periphery excluding the discontinuous portion. 26. The high pressure pump according to claim 23, wherein the discontinuous portion is a linear portion that substantially linearly extends from one end of the outer circumferential periphery to an other end of the outer circumferential periphery. 27. A high pressure pump comprising: an inlet member; a pump housing that has an inlet chamber and a compression chamber, fluid being drawn from the inlet member into the compression chamber through the inlet chamber, fluid being pressurized in the compression chamber; an outlet member, through which fluid flows from the compression chamber; and a plunger that is movable in the pump housing for pressurizing fluid in the compression chamber, wherein the inlet chamber has an outer circumferential periphery that includes a linear portion with respect to a circumferential direction of the outer circumferential periphery, the pump housing has a space on a circumferentially outer side of the linear portion, the high pressure pump further comprising: at least one component that is at least partially accommodated in the space. 28. The high pressure pump according to claim 27, wherein the inlet chamber is arranged on a substantially opposite side of the plunger with respect to the compression chamber, and the inlet chamber expands outwardly in a radial direction of the compression chamber. 29. The high pressure pump according to claim 28, wherein the space is arranged on a side of the compression chamber with respect to the inlet chamber. 30. The high pressure pump according to claim 27, wherein the at least one component includes a control valve that is capable of communicating the inlet chamber with the compression chamber and is capable of blocking the inlet chamber from the compression chamber for controlling an amount of fluid flowing from the outlet member. 31. The high pressure pump according to claim 30, wherein the control valve includes a valve member and a coil, the valve member is at least partially accommodated in the space, the valve member is capable of communicating the inlet chamber with the compression chamber and is capable of blocking the inlet chamber from the compression chamber, the coil is capable of generating magnetic attractive force for operating the valve member, the coil is arranged on a substantially opposite side of the inlet chamber with respect to the valve member, and the coil is arranged on an outer side of the compression chamber with respect to a radial direction of the compression chamber. 32. The high pressure pump according to claim 27, wherein the at least one component includes a relief valve that controls pressure of fluid in a downstream of the outlet member. 33. The high pressure pump according to claim 28, wherein the inlet member and the outlet member are arranged on a side of the compression chamber with respect to the inlet chamber. 34. The high pressure pump according to claim 33, wherein the at least one component includes a relief valve that controls pressure of fluid in a downstream of the outlet member, and the relief valve is arranged circumferentially between the inlet member and the outlet member. 35. The high pressure pump according to claim 34, wherein the at least one component includes a control valve that includes a valve member and a coil, the valve member is capable of communicating the inlet chamber with the compression chamber and is capable of blocking the inlet chamber from the compression chamber for controlling an amount of fluid flowing from the outlet member, the coil is capable of generating magnetic attractive force for operating the valve member, and the control valve is arranged on a substantially opposite side of the inlet member, the outlet member, and the relief valve with respect to an imaginary plane including a center axis of the plunger. 36. The high pressure pump according to claim 27, wherein the space is on an outer side of the linear portion with respect to a radial direction of the pump housing. 37. The high pressure pump according to claim 27, wherein the outer circumferential periphery of the inlet chamber extends substantially in a circumferential direction of the outer circumferential periphery excluding the linear portion. 38. The high pressure pump according to claim 27, wherein the linear portion substantially linearly extends from one end of the outer circumferential periphery to an other end of the outer circumferential periphery. 39. A high pressure pump comprising: an inlet member; a pump housing that has an inlet chamber and a compression chamber, the inlet member communicating with the inlet chamber, the inlet chamber being capable of communicating with the compression chamber; an outlet member that is capable of communicating the compression chamber with an outside of the pump housing; and a plunger that is movable in the pump housing, the plunger partially defining the compression chamber, wherein the inlet chamber has an outer circumferential periphery that extends from a first end of the outer circumferential periphery to a second end of the outer circumferential periphery, the first end extends to the second end to form a defining portion that defines a space in the pump housing, the space being located on an outer side of the defining portion with respect to a circumferential direction of the outer circumferential periphery, the high pressure pump further comprising: at least one component that is at least partially accommodated in the space. 40. The high pressure pump according to claim 39, wherein the defining portion is a linear portion that substantially linearly extends from the first end of the outer circumferential periphery to the second end of the outer circumferential periphery. 41. The high pressure pump according to claim 39, wherein the defining portion is a discontinuous portion that extends along a locus, which is in a substantially arch shape. 42. The high pressure pump according to claim 39, wherein the at least one component includes at least one of a control valve and the relief valve. 43. A high pressure pump comprising: an inlet member; a pump housing that has an inlet chamber and a compression chamber, the inlet member communicating with the inlet chamber, the inlet chamber being capable of communicating with the compression chamber; an outlet member that is capable of communicating the compression chamber with an outside of the pump housing; and a plunger that is movable in the pump housing, the plunger partially defining the compression chamber, wherein the inlet chamber has a plurality of outer circumferential peripheries, each of the plurality of outer circumferential peripheries has a first end and a second end, the first end extending to the second end in each of the plurality of outer circumferential peripheries, the first end of one of the plurality of outer circumferential peripheries extends to the second end of an other of the plurality of outer circumferential peripheries to define a defining portion, the one of the plurality of outer circumferential peripheries being circumferentially adjacent to the other of the plurality of outer circumferential peripheries, the defining portion defines a space in the pump housing, the space being located on an outer side of the defining portion with respect to a circumferential direction of the outer circumferential periphery, the high pressure pump further comprising: at least one component that is at least partially accommodated in the space. 44. The high pressure pump according to claim 43, wherein the defining portion is a linear portion that substantially linearly extends from the first end of the outer circumferential periphery to the second end of the outer circumferential periphery. 45. The high pressure pump according to claim 43, wherein the defining portion is a discontinuous portion that extends along a locus, which is in a substantially arch shape. 46. The high pressure pump according to claim 43, wherein the at least one component includes at least one of a control valve and the relief valve.
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이 특허에 인용된 특허 (13)
Wich Thomas J. (Grand Rapids MI), Electromagnetic unit fuel injector.
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