Claims
- 1. An internal combustion engine, comprising:
a reciprocable piston; a combustion chamber disposed on a first side of the piston; a crankcase disposed on a second side of the piston opposite to the first side; a valve operating system comprising;
a cam; an engine valve movable in response to movement of the cam; and a centrifugally-responsive vacuum release mechanism disposed adjacent the cam, wherein the valve is at least partially opened in response to movement of the centrifugally-responsive vacuum release mechanism, while the piston is moving toward the crankcase and away from the combustion chamber.
- 2. The engine of claim 1, wherein the vacuum release mechanism is pivotably attached to the cam to pivot between an engaged position and a disengaged position.
- 3. The engine of claim 2, wherein the vacuum release mechanism includes:
an engaging portion having a cam surface that engages a cam follower when the vacuum release mechanism is in the engaged position; and a flyweight portion having sufficient mass to move the cam surface in response to engine speed.
- 4. The engine of claim 3, wherein the vacuum release mechanism pivots about a pivot axis disposed between the engaging portion and the flyweight portion.
- 5. The engine of claim 3, wherein the flyweight portion has a mass that is greater than the mass of the engaging portion.
- 6. The engine of claim 3, wherein the engaging portion extends beyond the cam in a radial direction when the vacuum release mechanism is in the engaged position.
- 7. The engine of claim 3, wherein the cam surface is arc-shaped.
- 8. The engine of claim 3, wherein the cam surface is disposed near an end of the engaging portion opposite the bridging portion.
- 9. The engine of claim 1, wherein the vacuum release mechanism is substantially L-shaped.
- 10. The engine of claim 1, further comprising a slot formed in the cam, wherein the vacuum release mechanism is disposed within the slot, and the slot is partially defined by a back surface that bears load forces imparted on the vacuum release mechanism by a cam follower.
- 11. The engine of claim 1, wherein the vacuum release mechanism includes:
a beam having a cam surface that engages a cam follower at engine starting speeds; and a blocking member, movable between an engaged position and a disengaged position, that engages the beam at engine starting speeds.
- 12. The engine of claim 11, wherein the beam is cantilevered.
- 13. The engine of claim 11, wherein the blocking member comprises a tab disposed between the beam and a cam shaft when the blocking member is in the engaged position.
- 14. The engine of claim 11, wherein the blocking member is pivotably coupled to a cam shaft.
- 15. The engine of claim 11, wherein the blocking member prevents a cam follower from fully deflecting the beam when the blocking member is in the engaged position.
- 16. The engine of claim 11, wherein the vacuum release mechanism is disposed at a position adjacent the cam such that the cam surface may engage a cam follower while the piston is moving toward the crankcase and away from the combustion chamber.
- 17. The engine of claim 11, wherein the cam surface separates the cam follower from the cam when the blocking member is in the engaged position.
- 18. The engine of claim 11, wherein a spring biases the blocking member toward the engaged position.
- 19. The engine of claim 11, wherein the blocking member is in the engaged position when the engine is operating at starting speeds.
- 20. The engine of claim 11, wherein the blocking member moves to the disengaged position when the engine reaches normal operating speeds.
- 21. The engine of claim 11, wherein a cam follower deflects the beam when the blocking member is in the disengaged position.
- 22. The engine of claim 11, wherein the beam includes a bracket disposed at an end of the beam opposite the cam surface.
- 23. The engine of claim 22, wherein a gear is interconnected to the cam shaft, and the bracket is interconnected to the gear.
- 24. The engine of claim 23, wherein at least one melted nub is used to interconnect the bracket to the gear.
- 25. The engine of claim 1, further comprising:
a cam shaft interconnected to the cam; a gear interconnected to the cam shaft; and a yoke pivotably coupled to the gear, wherein the centrifugally-responsive vacuum release mechanism is interconnected to the yoke.
- 26. The engine of claim 25, wherein the yoke is pivotable between an engaged position and a disengaged position.
- 27. The engine of claim 26, wherein the vacuum release mechanism includes a tab that extends outward from the yoke, and the vacuum release mechanism engages a cam follower when the yoke is in the engaged position.
- 28. The engine of claim 26 wherein the vacuum release mechanism extends beyond the cam when the yoke is in the engaged position.
- 29. The engine of claim 26, wherein the vacuum release mechanism separates a cam follower from the cam when the yoke is in the engaged position.
- 30. The engine of claim 26, wherein the yoke includes a centrifugally-responsive compression release member.
- 31. The engine of claim 30, wherein the compression release member engages a cam follower, and separates the cam follower from the cam when the yoke is in the engaged position.
- 32. The engine of claim 25, wherein the yoke is substantially U-shaped and includes:
a tab portion near the curved, closed end of the U-shaped yoke; and a flyweight portion near the near the open end of the yoke, the flyweight portion having sufficient mass to move the yoke in response to engine speed.
- 33. The engine of claim 32, wherein the yoke pivots about a pivot axis disposed between the tab portion and the flyweight portion.
- 34. The engine of claim 32, wherein the yoke at least partially surrounds the cam shaft.
- 35. The engine of claim 25, wherein the yoke is substantially U-shaped and includes a curved closed end and an open end, and the vacuum release mechanism includes a bulge that extends outward from the closed end.
- 36. The engine of claim 35, wherein the bulge of the vacuum release mechanism is substantially planar with the closed end.
- 37. The engine of claim 35, wherein the yoke includes at least two legs that extend between the closed end and the open end, and each leg has a recess.
- 38. The engine of claim 37, wherein the recesses are U-shaped.
- 39. The engine of claim 37, further comprising a pin retaining the yoke to the gear, the pin having a middle portion extending through the recesses, and two end portions extending into apertures in the gear.
- 40. The engine of claim 39, wherein the pin is at least partially disposed in the recess and the yoke pivots about the pin.
- 41. The engine of claim 39, wherein the pin is C-shaped.
- 42. The engine of claim 39, wherein the apertures extend in the axial direction of the gear.
- 43. The engine of claim 1, further comprising:
a cam shaft about which the cam rotates; and a pin that interconnects the vacuum release mechanism to at least one of a cam gear and a cam lobe, wherein the pin is substantially transverse and non-intersecting to the cam shaft.
Parent Case Info
[0001] This patent application claims priority from the earlier U.S. patent application Ser. No. 09/782,468 filed Feb. 9, 2001, which is incorporated herein by reference.
Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
09782468 |
Feb 2001 |
US |
Child |
10096456 |
Mar 2002 |
US |