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The present invention is directed to a semi-rotating valve assembly that may be used in conjunction with an internal combustion engine. The semi-rotating valve of the present invention comprises a valve shaft disposed substantially within a valve housing, wherein the valve shaft is configured to rot

The present invention is directed to a semi-rotating valve assembly that may be used in conjunction with an internal combustion engine. The semi-rotating valve of the present invention comprises a valve shaft disposed substantially within a valve housing, wherein the valve shaft is configured to rotate less than 360 degrees with respect to the valve housing to selectively open and close the valve. The reduced rotation of the valve shaft reduces friction, heat and wear. An interlocking sealing mechanism that may be used in conjunction with the semi-rotating valve of the present invention, along with means for cooling the valve, also are disclosed. Further, means for varying an aperture size associated with the valve also are provided, wherein the means for varying is configured to compensate for differences in engine speed to further improve efficiency and reduce fuel consumption and emissions.

대표청구항 ▼

1. Apparatus suitable for regulating flow, and which may be used in conjunction with an internal combustion engine, the apparatus comprising: a valve body having a first side port disposed in a first lateral surface of the valve body, a second side port disposed in a second lateral surface of the va

1. Apparatus suitable for regulating flow, and which may be used in conjunction with an internal combustion engine, the apparatus comprising: a valve body having a first side port disposed in a first lateral surface of the valve body, a second side port disposed in a second lateral surface of the valve shaft, and a passage extending between the first side port and the second side port;means for actuating coupled to the valve body comprising a rocker arm operatively coupled to a camshaft; a first sprocket operatively coupled to the rocker arm; a second sprocket coupled to the valve body; and a linkage coupled between the first sprocket and the second sprocket; anda valve housing having a bore, wherein the valve body is configured to be disposed substantially within the bore, wherein the valve body is configured to rotate less than 360 degrees with respect to the valve housing to regulate flow.2. The apparatus of claim 1 further including means for actuating configured to rotate the valve body less than 360 degrees in a first direction to achieve an open state.3. The apparatus of claim 2 wherein the second side port of the valve body is configured to at least partially overlap with an intake port of an internal combustion engine in the open state.4. The apparatus of claim 2 wherein the second side port of the valve-body is configured to at least partially overlap with an exhaust port of an internal combustion engine in the open state.5. The apparatus of claim 2 wherein the means for actuating is configured to rotate the valve body less than 360 degrees in an opposing direction to achieve a closed state.6. The apparatus of claim 5 wherein the second side port of the valve body does not overlap with an intake port of an internal combustion engine in the closed state.7. The apparatus of claim 5 wherein the second side port of the valve body does not overlap with an exhaust port of an internal combustion engine in the closed state.8. The apparatus of claim 5 wherein the means configured to rotate comprises at least one spring operatively coupled to the valve body, the spring configured to return the valve shaft to the closed state.9. The apparatus of claim 1 wherein the means for actuating comprises a camshaft.10. The apparatus of claim 9 wherein the means for actuating further comprises a rocker arm operatively coupled to the camshaft.11. The apparatus of claim 1 wherein the rocker arm further comprises a slot, the apparatus further comprising a pin coupling the first sprocket to the rocker arm, wherein the pin is configured for a sliding motion within the slot.12. The apparatus of claim 1 wherein the means for actuating comprises at least one solenoid.13. The apparatus of claim 1 wherein the means for actuating is electrically powered.14. The apparatus of claim 1 wherein the means for actuating is hydraulically powered.15. The apparatus of claim 1 wherein the means for actuating is pneumatically powered.16. A method for regulating flow of products for combustion in an internal combustion engine, the method comprising:rotating an intake aperture in a cylindrical valve body in an intake passage less than 360 degrees to introduce a flow of products for combustion into a combustion chamber of the internal combustion engine;rotating the intake aperture in a cylindrical valve body in an intake passage less than 360 degrees to achieve a closed state after the introduce products for combustion into a combustion chamber of the internal combustion engine;rotating an exhaust aperture in a cylindrical valve body in an exhaust passage less than 360 degrees to exhaust a flow of burnt products of combustion from the combustion chamber of the internal combustion engine;rotating the exhaust aperture in a cylindrical valve body in an exhaust passage less than 360 degrees to achieve a closed state after exhausting burnt products of combustion from the combustion chamber of the internal combustion engine; andvarying the degrees of rotation of at least one cylindrical valve body to regulate flow with the combustion chamber.17. The method of claim 16 including the further step of using a camshaft for each of said steps of rotating.18. The method of claim 17 further comprising:providing a rocker arm having a first end operatively coupled to the camshaft and a second end operatively coupled to the valve body; andactuating the rocker arm by said camshaft to effect rotation of the valve body.19. The method of claim 18 further comprising:providing a first sprocket operatively coupled to the rocker arm;providing a second sprocket operatively coupled to the valve shaft, whereby the first sprocket is coupled to the second sprocket using a linkage; andactuating the first sprocket and the second sprocket to effect rotation of the valve shaft.20. The method of claim 16 further comprising providing means for actuating operatively coupled to the valve body, the means for actuating configured to cause the valve shaft to rotate less than 360 degrees with respect to the valve housing.21. The method of claim 20 wherein the method further includes effecting rotation of the valve body by selectively actuating a solenoid.22. The method of claim 20 wherein the method further comprising effecting rotation of the valve body in an opposing direction, using a spring, to achieve a closed state.23. The method of claim 20 further comprising:providing means for varying an aperture size, the means for varying operatively coupled to the valve body; andactuating the means for varying to vary a degree of rotation of the valve body.24. The method of claim 23 wherein the means for varying comprises a solenoid, the method further comprising selectively actuating the solenoid to vary a degree of rotation of the valve shaft.25. The method of claim 23 wherein the means for varying comprises a plurality of mechanical connecting elements, the method further comprising selectively actuating the plurality of mechanical connecting elements to vary a degree of rotation of the valve body.26. The method of claim 23 further comprising:providing a connecting rod coupled to the means for varying, the connecting rod having a first end coupled to the means for actuating and a second end coupled to the valve body; andactuating the connecting rod to vary a degree of rotation of the valve body.27. The method of claim 16 further comprising providing an interlocking sealing mechanism disposed substantially between the valve body and the valve housing.28. The method of claim 16 further comprising providing at least one cooling passage disposed substantially adjacent the bore of the valve housing.29. Apparatus suitable for regulating intake into a cylinder of an internal combustion engine, and further regulating exhaust from the cylinder, the apparatus comprising:an intake valve body having a first side port disposed in a first lateral surface of the intake valve body, a second side port disposed in a second lateral surface of the intake valve body, and a passage extending between the first side port and the second side port;an exhaust valve body having a first side port disposed in a first lateral surface of the exhaust valve body, a second side port disposed in a second lateral surface of the exhaust valve body, and a passage extending between the first side port and the second side port;an intake valve housing having a bore, wherein the intake valve body is configured to be disposed substantially within the bore of the intake valve housing;means for actuating the intake valve body and the exhaust valve body;an exhaust valve housing having a bore, wherein the exhaust valve body is configured to be disposed substantially within the bore of the exhaust valve housing, wherein the intake valve body is configured to rotate less than 360 degrees with respect to the intake valve housing, and the exhaust valve is configured to rotate less than 360 degrees with respect to the exhaust valve housing; andmeans for varying an aperture size coupled to the intake valve body.30. The apparatus of claim 29 wherein the means for varying comprises a solenoid.31. Apparatus suitable for regulating intake into a cylinder of an internal combustion engine, and further regulating exhaust from the cylinder, the apparatus comprising:an intake valve body having a first side port disposed in a first lateral surface of the intake valve body, a second side port disposed in a second lateral surface of the intake valve body, and a passage extending between the first side port and the second side port;an exhaust valve body having a first side port disposed in a first lateral surface of the exhaust valve body, a second side port disposed in a second lateral surface of the exhaust valve body, and a passage extending between the first side port and the second side port;an intake valve housing having a bore, wherein the intake valve body is configured to be disposed substantially within the bore of the intake valve housing;means for actuating the intake valve body and the exhaust valve body an exhaust valve housing having a bore, wherein the exhaust valve body is configured to be disposed substantially within the bore of the exhaust valve housing, wherein the intake valve body is configured to rotate less than 360 degrees with respect to the intake valve housing, and the exhaust valve is configured to rotate less than 360 degrees with respect to the exhaust valve housing; andmeans for varying an aperture size coupled to the exhaust valve body.32. The apparatus of claim 31 wherein the means for varying comprises a solenoid.33. Apparatus suitable for varying an aperture size associated with a valve, the apparatus comprising:a valve body having a first side port disposed in a first lateral surface of the valve body, a second side port disposed in a second lateral surface of the valve body, and a passage extending between the first side port and the second side port;a valve housing having a bore, wherein the valve body is configured to be disposed substantially within the bore; andmeans configured to vary a degree of rotation of the valve body for varying an aperture size associated with the valve body based on overlap of the first side port and an intake passage of an internal combustion engine.34. The apparatus of claim 33 wherein the means for varying comprises a solenoid.35. The apparatus of claim 33 wherein the means for varying comprises a pneumatically powered actuator.36. The apparatus of claim 33 wherein the means for varying comprises a hydraulically powered actuator.37. Apparatus suitable for varying an aperture size associated with a valve, the apparatus comprising:a valve body having a first side port disposed in a first lateral surface of the valve body, a second side port disposed in a second lateral surface of the valve body, and a passage extending between the first side port and the second side port;a valve housing having a bore, wherein the valve body is configured to be disposed substantially within the bore; andmeans configured to vary a degree of rotation of the valve body for varying an aperture size associated with the valve shaft based on overlap of the first side port and an exhaust passage of an internal combustion engine.38. The apparatus of claim 37 wherein the means for varying comprises a solenoid.39. The apparatus of claim 37 wherein the means for varying comprises a pneumatically powered actuator.40. The apparatus of claim 37 wherein the means for varying comprises a hydraulically powered actuator.41. Apparatus suitable for varying an aperture size associated with a valve, the apparatus comprising:a valve body having a first side port disposed in a first lateral surface of the valve body, a second side port disposed in a second lateral surface of the valve body, and a passage extending between the first side port and the second side port;a valve housing having a bore, wherein the valve body is configured to be disposed substantially within the bore; andmeans configured to vary a degree of rotation of the valve body for varying an aperture size associated with the valve body based on overlap of the first second port and an intake port of an internal combustion engine.42. The apparatus of claim 41 wherein the means for varying comprises a solenoid.43. The apparatus of claim 41 wherein the means for varying comprises a pneumatically powered actuator.44. The apparatus of claim 41 wherein the means for varying comprises a hydraulically powered actuator.45. Apparatus suitable for varying an aperture size associated with a valve, the apparatus comprising:a valve body having a first side port disposed in a first lateral surface of the valve body, a second side port disposed in a second lateral surface of the valve body, and a passage extending between the first side port and the second side port;a valve housing having a bore, wherein the valve body is configured to be disposed substantially within the bore; andmeans configured to vary a degree of rotation of the valve body for varying an aperture size associated with the valve body based on overlap of the second side port and an exhaust port of an internal combustion engine.46. The apparatus of claim 45 wherein the means for varying comprises a solenoid.47. The apparatus of claim 45 wherein the means for varying comprises a pneumatically powered actuator.48. The apparatus of claim 45 wherein the means for varying comprises a hydraulically powered actuator.49. Apparatus suitable for varying an aperture size associated with a valve, the apparatus comprising:a valve body having a first side port disposed in a first lateral surface of the valve body, a second side port disposed in a second lateral surface of the valve body, and a passage extending between the first side port and the second side port;a valve housing having a bore, wherein the valve body is configured to be disposed substantially within the bore;means for actuating the valve body, the means for actuating configured to cause the valve body to rotate less than 360 degrees with respect to the valve housing, and the means for actuating comprises: a camshaft having at least one cam;a rocker arm having a slot, wherein the camshaft is operatively coupled to the rocker arm; anda pin disposed for sliding movement within the slot, the pin coupled between the rocker arm and the connecting rod; andmeans to vary the degree of rotation of the valve body for varying an aperture size associated with the valve body, the means for varying being coupled to a connecting rod having a first end coupled to the means for actuating and a second end coupled to the valve body, and wherein the means for varying an aperture size is configured to influence a longitudinal distance that the connecting rod travels and thereby effect rotation of the valve body.50. The apparatus of claim 49 wherein the means for varying is configured to effect a longitudinal positioning of the pin within the slot.51. The apparatus of claim 50 wherein the longitudinal positioning of the pin within the slot affects the aperture size.52. The apparatus of claim 51 wherein an increase in aperture size is achieved when the pin is disposed a further distance from a pivot point of the rocker arm.53. The apparatus of claim 51 wherein a reduction in aperture size is achieved when the pin is disposed a closer distance to a pivot point of the rocker arm.