A sleeve valve assembly. The assembly includes a valve seat, a sleeve valve and an oil path-defining piece. The sleeve valve includes a distal end with a cavity. The distal end contacts the valve seat when the sleeve valve is located in a closed position. The oil path-defining piece includes an inle
A sleeve valve assembly. The assembly includes a valve seat, a sleeve valve and an oil path-defining piece. The sleeve valve includes a distal end with a cavity. The distal end contacts the valve seat when the sleeve valve is located in a closed position. The oil path-defining piece includes an inlet port, an outlet port and a plurality of cooling passages. The flange of the sleeve valve is slidably in contact with the oil path-defining piece such that cooling fluid travelling into the inlet port and through the cooling passages enters into the cavity before exiting out the exit port.
대표청구항▼
1. A sleeve valve assembly for an internal combustion engine, comprising: a cylindrical sleeve valve at least in part defining a combustion chamber of the internal combustion engine, the cylindrical sleeve valve capable of reciprocation along a central axis between a closed position and an open posi
1. A sleeve valve assembly for an internal combustion engine, comprising: a cylindrical sleeve valve at least in part defining a combustion chamber of the internal combustion engine, the cylindrical sleeve valve capable of reciprocation along a central axis between a closed position and an open position, the cylindrical sleeve valve comprising a distal tip that seals a port when the cylindrical sleeve valve is in the closed position; anda plurality of grooves defining a plurality of fluid flow paths for a fluid between an inlet port and an outlet port, wherein the fluid flowing in the plurality of grooves directly contacts an exterior surface of the cylindrical sleeve valve, wherein the exterior of the cylindrical sleeve valve and at least one other engine component form the plurality of grooves, the cylindrical sleeve valve reciprocating relative to the at least one other component between the open position and the closed position. 2. The sleeve valve assembly as in claim 1, wherein the plurality of grooves are oriented along axes parallel to the central axis along which the cylindrical sleeve valve reciprocates. 3. The sleeve valve assembly as in claim 1, wherein the plurality of grooves are oriented along axes forming oblique angles to the central axis along which the cylindrical sleeve valve reciprocates. 4. The sleeve valve assembly as in claim 1, wherein the cylindrical sleeve valve includes a flange spaced radially outward from and surrounding an end portion of the cylindrical sleeve valve, the flange and end portion defining a cavity adjacent the distal tip, the fluid flow path including the cavity to draw heat from the distal tip. 5. The sleeve valve assembly as in claim 1, further comprising a cylindrical fluid path-defining piece at least partially surrounding the cylindrical sleeve valve, the fluid path-defining piece comprising the inlet port, the outlet port, and a cylindrical guide ring positioned between the inlet port and outlet port, the cylindrical guide ring comprising the plurality of grooves. 6. The sleeve valve assembly as in claim 5, wherein the cylindrical guide ring comprises a first guide ring, and the fluid path-defining piece further comprises a second guide ring, a portion of the flange sliding against the second guide ring, and the end portion of the cylindrical sleeve valve sliding against the first guide ring. 7. The sleeve valve assembly as in claim 6, further comprising a seal between the flange and the second guide ring, the seal preventing fluid from the fluid path-defining piece from escaping from between the fluid path-defining piece and the sleeve valve. 8. The sleeve valve assembly as in claim 1, wherein the distal tip comprises an insert for reducing wear on the distal tip. 9. The sleeve valve assembly as in claim 8, wherein the insert comprises at least one of carbon steel, hardened steel, titanium alloys, and copper beryllium. 10. The sleeve valve assembly as in claim 1, wherein the distal tip comprises a coating for reducing wear on the distal tip. 11. The sleeve valve assembly as in claim 10, wherein the coating comprises at least one of chrome plating anodized aluminum oxide, Nikasil, diamond like carbon, flame sprayed hard metal, and a ceramic material. 12. The sleeve valve assembly as in claim 1, wherein the distal tip seals the port by contacting a valve seat. 13. The sleeve valve assembly as in claim 1, wherein the plurality of grooves comprises a circumferential groove. 14. A method comprising: reciprocating a cylindrical sleeve valve along a central axis between a closed position and an open position, the cylindrical sleeve valve at least in part defining a combustion chamber of an internal combustion engine;sealing a port with a distal tip of the cylindrical sleeve valve when the cylindrical sleeve valve is in the closed position; andcooling the sleeve valve by flowing a fluid through a fluid flow path defined by an inlet port, an outlet port, and a plurality of grooves defining a plurality of fluid flow paths for a fluid between an inlet port and an outlet port, wherein the fluid flowing in the plurality of grooves directly contacts an exterior surface of the cylindrical sleeve valve, wherein the exterior of the cylindrical sleeve valve and at least one other engine component form the plurality of grooves, the cylindrical sleeve valve reciprocating relative to the at least one other component between the open position and the closed position. 15. The method as in claim 14, wherein a cylindrical fluid path-defining piece comprises the inlet port, the outlet port, and a cylindrical guide ring positioned between the inlet port and outlet port, the cylindrical guide ring comprising the plurality of grooves, the cylindrical fluid path-defining piece at least partially surrounding the cylindrical sleeve valve. 16. The method as in claim 15, wherein the cylindrical guide ring comprises a first guide ring, and the fluid path-defining piece further comprises a second guide ring, a portion of the flange sliding against the second guide ring, and the end portion of the cylindrical sleeve valve sliding against the first guide ring. 17. The method as in claim 16, further comprising a seal between the flange and the second guide ring, the seal preventing fluid from the fluid path-defining piece from escaping from between the fluid path-defining piece and the sleeve valve. 18. The method as is claim 14, wherein the plurality of grooves are oriented along axes parallel to the central axis along which the cylindrical sleeve valve reciprocates. 19. The method as is claim 14, wherein the plurality of grooves are oriented along axes forming oblique angles to the central axis along which the cylindrical sleeve valve reciprocates. 20. The method as is claim 14, wherein the cylindrical sleeve valve includes a flange spaced radially outward from and surrounding an end portion of the cylindrical sleeve valve, the flange and end portion defining a cavity adjacent the distal tip, the fluid flow path including the cavity to draw heat from the distal tip. 21. The method as is claim 14, wherein the sealing comprises contacting the distal end with a valve seat. 22. The method as is claim 14, wherein the distal tip comprises an insert for reducing wear on the distal tip. 23. The method as is claim 22, wherein the insert comprises at least one of carbon steel, hardened steel, titanium alloys, and copper beryllium. 24. The method as is claim 14, wherein the distal tip comprises a coating for reducing wear on the distal tip. 25. The method as is claim 24, wherein the coating comprises at least one of chrome plating anodized aluminum oxide, Nikasil, diamond like carbon, flame sprayed hard metal, and a ceramic material.
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