[특허]Radial piston pump with eccentrically driven rolling actuation ring

Stanadyne Corporation

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특허 상세정보

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내보내기 페이스북 공유 트위터 공유 카카오톡 공유

Radial piston pump with eccentrically driven rolling actuation ring

특허상세정보
국가/구분	United States(US) Patent 등록
국제특허분류(IPC7판)	F04B-001/04 F04B-001/00
미국특허분류(USC)	417/273; 417/521; 417/440; 417/307
출원번호	US-0857313 (2004-05-28)
발명자 / 주소	Djordjevic,Ilija
출원인 / 주소	Stanadyne Corporation
대리인 / 주소	Alix, Yale &
인용정보	피인용 횟수 : 6 인용 특허 : 15

초록
▼

An hydraulic head features two or three individual radial pumping pistons and associated pumping chambers, annularly spaced around a cavity in the head where an eccentric drive member with associated outer rolling actuation ring are situated, whereby a rolling interaction is provided between the actuating ring and the inner ends of the pistons for intermittent actuation, and a sliding interaction is provided between the actuation ring and the drive member. The respective inlet and outlet valve trains are also situated in the head, and the head is attachable to an application and/or customer specific mounting plate. The outside diameter of the rolling element is barrel shaped, to compensate for any misalignment of the pistons relative to the drive shaft due, for example, to either tolerance stack up or deflection.

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The invention claimed is: 1. A high pressure radial piston fuel pump comprising: an hydraulic head defining a central cavity for receiving a rotatable drive shaft longitudinally disposed along a drive axis passing through the cavity; a cylindrical drive member rigidly carried by and offset from the drive shaft for eccentric rotation in the cavity about the drive axis as the drive shaft rotates; a substantially cylindrical piston actuation ring annularly mounted around the drive member; bearing means between the drive member and the actuation ring, whereby the actuating ring is supported for freely rotating about the drive member; at least two piston bores extending in the housing to the cavity, each piston bore having a centerline that intersects the actuation ring but is offset (x) from the drive axis as viewed along the drive axis; a piston situated respectively in each piston bore for free reciprocation therein, said piston having an actuated end in the cavity and a pumping end remote from the cavity, wherein the pumping end cooperates with the piston bore to define a pumping chamber; a piston shoe rigidly extending from the actuated end of each piston, and having an actuation surface for maintaining contact with the actuation ring during rotation of the drive shaft; means for biasing each piston toward the cavity; a feed fuel valve train for delivering charging fuel through an inlet passage in the head at a feed pressure to the pumping chamber; a high pressure valve train for delivering pumped fuel to a discharge passage in the head at a high pressure from the pumping chamber; whereby during one complete rotation of the drive shaft, each pumping chamber undergoes a charging phase wherein the associated piston is retracted toward the cavity by the means for biasing, thereby increasing the volume of the pumping chamber to accommodate an inlet quantity of fuel from the inlet valve train, and a discharging phase wherein said associated piston is actuated away from the cavity by the actuation ring, thereby decreasing the volume of the pumping chamber and pressurizing the quantity of fuel for discharge through said discharge valve train; wherein the hydraulic head has a shaft mounting bore coaxial with the drive shaft axis, for receiving one end of the drive shaft, and bearing means for rotationally supporting said one end of the drive shaft; a removable mounting plate is attached to the hydraulic head, said mounting plate having a shaft mounting throughbore for receiving the other end of the drive shaft while exposing said other end for engagement with a source of rotational power, and bearing means for rotationally supporting said other end of the drive shaft; and the actuation ring has an outer surface that is crowned, having a curvature that rises and falls in the direction of the drive shaft axis. 2. The pump of claim 1, wherein the center of the crown radius is in a plane defined by the centerlines of the pumping bores. 3. The pump of claim 1, wherein the center of the crown radius lies in a plane parallel to but offset (z) from the pumping bore centerlines, as viewed perpendicularly to the drive axis. 4. The pump of claim 1, wherein the pump has only two piston bores and associated two pistons, each piston bore has a centerline that intersects the actuation ring but is offset (x) from the drive axis as viewed along the drive axis, and the piston bore centerlines are parallel to each other but offset (y) from each other as viewed perpendicularly to the drive axis. 5. The pump of claim 1, wherein the pump has only three equiangularly spaced apart piston bores and associated three pistons, and each piston bore has a centerline that intersects the actuation ring but is offset from the drive axis as viewed along the drive axis. 6. The pump of claim 5, wherein the discharge phase of the pumping chambers occur sequentially as distinct pumping events and each pumping chamber is fluidly connected to a pre-spill port for delaying the discharge of high pressure fuel through the discharge passage associated with a given pumping chamber, until the discharge of high pressure fuel through the discharge passage associated with the pumping chamber of the preceding pumping event has been completed. 7. The pump of claim 6, including a check valve in the pre-spill port. 8. The pump of claim 5, wherein the piston bore centerlines are offset from each other as viewed perpendicularly to the drive axis. 9. The pump of claim 5, wherein the center of the crown radius is in a plane defined by the centerlines of the pumping bores. 10. The pump of claim 5, wherein the center of the crown radius lies in a plane parallel to but offset from the pumping bore centerlines, as viewed perpendicularly to the drive axis. 11. The pump of claim 1, wherein each piston is a composite having a stem situated in the pumping bore with integral shoe situated in the cavity, and a substantially cylindrical sleeve loosely surrounding the stem and presenting a closed end to the pumping chamber. 12. The pump of claim 1, wherein the piston bore centerlines are parallel to each other but offset (y) from each other as viewed perpendicularly to the drive axis. 13. A high pressure radial piston fuel pump comprising: an hydraulic head defining a central cavity for receiving a rotatable drive shaft longitudinally disposed along a drive axis passing through the cavity; a cylindrical drive member rigidly carried by and offset from the drive shaft for eccentric rotation in the cavity about the drive axis as the drive shaft rotates; a substantially cylindrical piston actuation ring annularly mounted around the drive member, said actuation ring having an outer surface that is crowned, having a curvature that rises and falls in the direction of the drive shaft axis; bearing means between the drive member and the actuation ring, whereby the actuating ring is supported for freely rotating about the drive member; at least two piston bores extending in the housing to the cavity, each piston bore having a centerline that intersects the actuation ring; a piston situated respectively in each piston bore for free reciprocation and rotation therein, said piston having an actuated end in the cavity and a pumping end remote from the cavity, wherein the pumping end cooperates with the piston bore to define a pumping chamber; a piston shoe rigidly extending from the actuated end of each piston, and having an actuation surface for maintaining contact with the actuation ring during rotation of the drive shaft; means for biasing each piston toward the cavity; a feed fuel valve train for delivering charging fuel through an inlet passage in the head at a feed pressure to the pumping chamber; a high pressure valve train for delivering pumped fuel to a discharge passage in the head at a high pressure from the pumping chamber; whereby during one complete rotation of the drive shaft, each pumping chamber undergoes a charging phase wherein the associated piston is retracted toward the cavity by the means for biasing, thereby increasing the volume of the pumping chamber to accommodate an inlet quantity of fuel from the inlet valve train, and a discharging phase wherein said associated piston is actuated away from the cavity by the actuation ring, thereby decreasing the volume of the pumping chamber and pressurizing the quantity of fuel for discharge through said discharge valve train. 14. The pump of claim 13, wherein the center of the crown radius is in a plane defined by the centerlines of the pumping bores. 15. The pump of claim 14, wherein the piston bore centerlines are parallel to each other but offset (y) from each other as viewed perpendicularly to the drive axis. 16. The pump of claim 13, wherein the center of the crown radius lies in a plane parallel to but offset from the pumping bore centerlines, as viewed perpendicularly to the drive axis. 17. The pump of claim 16, where the piston bore centerlines are parallel to each other but offset (y) from each other as viewed perpendicularly to the drive axis. 18. The pump of claim 13, wherein each piston bore has a centerline that intersects the actuation ring but is offset (x) from the drive axis as viewed along the drive axis. 19. A high pressure radial piston fuel pump comprising: an hydraulic head defining a central cavity for receiving a rotatable drive shaft longitudinally disposed along a drive axis passing through the cavity; a cylindrical drive member rigidly carried by and offset from the drive shaft for eccentric rotation in the cavity about the drive axis as the drive shaft rotates; a substantially cylindrical piston actuation ring annularly mounted around the drive member and having an outer surface that is crowned with a curvature that rises and falls in the direction of the drive shaft axis; bearing means between the drive member and the actuation ring, whereby the actuating ring is supported for freely rotating about the drive member; at least two piston bores extending in the housing to the cavity, each piston bore having a centerline that intersects the actuation ring but is offset (x) from the drive axis as viewed along the drive axis; a piston situated respectively in each piston bore, each piston consisting of a solid cylinder of low mass material, such a ceramic, and having an actuated end in the cavity and a pumping end remote from the cavity, wherein the pumping end cooperates with the piston bore to define a pumping chamber and the actuated end maintains contact with the actuation ring during rotation of the drive shaft; a feed fuel valve train for delivering charging fuel through an inlet passage in the head at a feed pressure to the pumping chamber; a high pressure valve train for delivering pumped fuel to a discharge passage in the head at a high pressure from the pumping chamber; whereby during one complete rotation of the drive shaft, each pumping chamber undergoes a charging phase wherein the associated piston is retracts toward the cavity, thereby increasing the volume of the pumping chamber to accommodate an inlet quantity of fuel from the inlet valve train, and a discharging phase wherein said associated piston is actuated away from the cavity by the actuation ring, thereby decreasing the volume of the pumping chamber and pressurizing the quantity of fuel for discharge through said discharge valve train.

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Radial piston pump with eccentrically driven rolling actuation ring

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이 특허에 인용된 특허 (15)

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Radial piston pump with eccentrically driven rolling actuation ring

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이 특허에 인용된 특허 (15)

이 특허를 인용한 특허 (6)

IPC 상위 출원인

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IPC 상세정보(version : 201201)

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