Claims
- 1. An anti-rotation device for a scroll compressor, such scroll compressor including a housing, a stationary scroll element mounted within such housing substantially stationary with respect to such housing, such stationary scroll element including a stationary spiral flange, an orbiting scroll element disposed within such housing, such orbiting scroll element including an orbiting spiral flange, such stationary and orbiting spiral flanges being intermeshed and nested with one another to define a spiraling compression pocket therebetween, each of such stationary and orbiting scroll elements having a substantially central axis, and an orbital drive mechanism for driving such central axis of such orbiting scroll element in an orbit at a radius or orbit about such central axis of such stationary scroll element, said anti-rotation device comprising:at least one anti-rotation bearing assembly for maintaining such orbiting scroll element substantially non-rotational with respect to such stationary scroll element during such orbit of such orbiting scroll element about such stationary scroll element, said at least one anti-rotation bearing assembly comprising: a first bearing element mounted substantially stationary with respect to such stationary scroll element; a second bearing element mounted on said orbiting scroll element; and an offset crank member; said offset crank member including a first shaft portion rotatably engaging said first bearing element mounted substantially stationary with respect to such stationary scroll and a second shaft portion rotatably engaging said second bearing element mounted on such orbiting scroll element, said first and second shaft portions of said offset crank member being separated from one another by a radially offset distance.
- 2. An anti-rotation device for a scroll compressor according to claim 1, wherein:said first bearing element includes a first rotational bearing component; said second bearing element includes a second rotational bearing component; and said radially offset distance separating said first and second shaft portions of said offset crank member is substantially equal to such radius of orbit of such central axis of such orbiting scroll element about such central axis of such stationary scroll element.
- 3. An anti-rotation device for a scroll compressor according to claim 2, wherein each of said first and second rotational bearing components includes a substantially sealed pre-lubricated bearing assembly.
- 4. An anti-rotation device for a scroll compressor according to claim 2, said anti-rotation device for a scroll compressor additionally including:a bushing member rotationally engaged with said second rotational bearing component mounted on such orbiting scroll element; said second shaft portion of said offset crank member engaging said bushing member.
- 5. An anti-rotation device for a scroll compressor according to claim 4, said anti-rotation device for a scroll compressor additionally including a substantially non-rotational connection between said bushing member and said second shaft portion of said offset crank member.
- 6. An anti-rotation device for a scroll compressor according to claim 5, wherein said substantially non-rotational connection between said bushing member and said second shaft portion of said offset crank member includes a conically tapered portion provided on said second shaft portion, said conically tapered portion provided on said second shaft portion non-rotatably engaging a recess provided in said bushing member.
- 7. An anti-rotation device for a scroll compressor according to claim 1, wherein said first and second shaft portions of said offset crank member are disposed substantially in parallel.
- 8. An anti-rotation device for a scroll compressor according to claim 1, wherein said anti-rotation device for a scroll compressor additionally includes at least a plurality of said anti-rotation bearing assemblies, said plurality of said anti-rotation bearing assemblies being angularly spaced from one another around such central axis of such stationary scroll element.
- 9. An anti-rotation device for a scroll compressor according to claim 1, wherein said anti-rotation device for a scroll compressor additionally includes at least three of said anti-rotation bearing assemblies, said at least three of said anti-rotation assemblies being substantially equally angularly spaced from one another around such central axis of such stationary scroll element at consecutive angular displacements of substantially about 120 degrees.
- 10. An anti-rotation device for a scroll compressor according to claim 9, wherein said radially offset distance separating said first and second shaft portions of said offset crank member and such radius of orbit of such central axis of such orbiting scroll element about such central axis of such stationary scroll element are both substantially equal to about 0.4 inch.
- 11. An anti-rotation device for a scroll compressor according to claim 9, wherein a central axis of rotation of each of said first shaft portions of each of said offset crank members is disposed radially outward from such central axis of such stationary scroll element by a distance equal to substantially about 5 inches.
- 12. In a scroll compressor including a housing, a stationary scroll element disposed within such housing substantially stationary with respect to such housing, such stationary scroll element including a stationary spiral flange, an orbiting scroll element disposed within such housing, such orbiting scroll element including an orbiting spiral flange, such stationary and orbiting spiral flanges being intermeshed and nested with one another to define a spiraling compression pocket therebetween, each of such stationary and orbiting scroll elements having a substantially central axis, and an orbital drive mechanism for driving such central axis of such orbiting scroll element in an orbit at a radius of orbit about such central axis of such stationary scroll element, an improved anti-rotation device, said improved anti-rotation device comprising at least one anti-rotation bearing assembly for maintaining such central axis of such orbiting scroll element substantially non-rotational with respect to such central axis of such stationary scroll element during such orbit of such central axis of such orbiting scroll element about such central axis of such stationary scroll element, said at least one anti-rotation bearing assembly including:a first bearing element mounted substantially stationary with respect to such stationary scroll element; a second bearing element mounted on said orbiting scroll element; and an offset crank member; said offset crank member including a first shaft portion rotatably engaged with said first bearing element mounted substantially stationary with respect to such stationary scroll and a second shaft portion rotatably engaged with said second bearing element mounted on such orbiting scroll element, said second shaft portion of said offset crank member being disposed at a radial offset with respect to said first shaft portion of said offset crank member.
- 13. An improved anti-rotation device for a scroll compressor according to claim 12, wherein:each of said first and second bearing elements include a rotational bearing component and wherein said radial offset of said first and second shaft portions of said offset crank member is substantially equal to such radius of such orbit of such central axis of such orbiting scroll element about such central axis of such stationary scroll element; and said first and second shaft portions of said offset crank member are disposed substantially in parallel.
- 14. An improved anti-rotation device for a scroll compressor according to claim 12, said anti-rotation device for a scroll compressor additionally including:a bushing member rotationally mounted within said second bearing element mounted on such orbiting scroll element; said second shaft portion of said offset crank member engaging said bushing member in a substantially non-rotational connection thereto; and said substantially non-rotational connection including a conically tapered portion provided on said second shaft portion, said conically tapered portion provided on said second shaft portion non-rotatably engaging a recess provided in said bushing member.
- 15. An improved anti-rotation device for a scroll compressor according to claim 12, wherein:said anti-rotation device for a scroll compressor additionally includes at least three of said anti-rotation bearing assemblies, said at least three of said anti-rotation assemblies being substantially equally angularly spaced from one another around such central axis of such orbiting scroll element about such central axis of such stationary scroll element at consecutive angular displacements of substantially about 120 degrees; said radial offset of said first and second shaft portions of said offset crank member and such radius of such orbit of such central axis of such orbiting scroll element about such central axis of such stationary scroll element are both substantially equal to about 0.4 inch; and a central axis of rotation of each of said first shaft portions of said offset crank members is radially disposed with respect to such central axis of such stationary scroll element by a distance substantially equal to about 5 inches.
- 16. A scroll compressor including an anti-rotation device, comprising:a housing; a stationary scroll element mounted within said housing substantially stationary with respect to said housing, said stationary scroll element including a stationary spiral flange; an orbiting scroll element disposed within said housing, said orbiting scroll element including an orbiting spiral flange; said stationary and orbiting spiral flanges being intermeshed and nested with one another to define a spiraling compression pocket therebetween; each of said stationary and orbiting scroll elements having a substantially central axis; orbital drive means for driving said central axis of said orbiting scroll element in an orbit at a radius of orbit about said central axis of said stationary scroll element; and an anti-rotation device for maintaining said orbiting scroll element substantially non-rotational with respect to said stationary scroll element during orbiting of said central axis of said orbiting scroll element about said central axis of said stationary scroll element, said anti-rotation device including: at least one anti-rotation bearing assembly for interconnecting said orbiting scroll element to and positioning said orbiting scroll element with respect to said stationary scroll element, said at least one anti-rotation bearing assembly including: a first bearing element mounted substantially stationary with respect to said stationary scroll element; a second bearing element mounted on said orbiting scroll element; and an offset crank member; said offset crank member including a first shaft portion rotatably engaged with said first bearing element mounted substantially stationary with respect to said stationary scroll and a second shaft portion rotatably engaged with said second bearing element mounted on said orbiting scroll element, said first and second shaft portions of said offset crank member being separated by a radially offset distance.
- 17. A scroll compressor including an anti-rotation device according to claim 16, wherein:each of said first and second bearing elements includes a rotational bearing assembly; said radially offset distance separating said first and second shaft portions of said offset crank member is substantially equal to said radius of orbit of said central axis of said orbiting scroll element about said central axis of said stationary scroll element; and said first and second shaft portions of said offset crank member are disposed substantially in parallel.
- 18. A scroll compressor including an anti-rotation device according to claim 16, wherein said first and second bearing elements each include a substantially sealed pre-lubricated bearing assembly.
- 19. A scroll compressor including an anti-rotation device according to claim 16, additionally including:a bushing member rotationally engaging said second bearing element mounted on said orbiting scroll element; said second shaft portion of said offset crank member connecting to said bushing member.
- 20. A scroll compressor including an anti-rotation device according to claim 19, additionally including a substantially non-rotational connection between said second shaft portion of said offset crank member and said bushing member.
- 21. A scroll compressor including an anti-rotation device according to claim 20, wherein said substantially non-rotational connection between said second shaft portion of said offset crank member and said bushing member includes a conically tapered portion provided on said second shaft portion, said conically tapered portion provided on said second shaft portion substantially non-rotatably engaging a recess provided in said bushing member.
- 22. A scroll compressor including an anti-rotation device according to claim 16, wherein said anti -rotation device additionally includes at least a plurality of said anti-rotation bearing assemblies, said plurality of said anti-rotation bearing assemblies being angularly spaced from one another about said central axis of said stationary scroll element.
- 23. A scroll compressor including an anti-rotation device according to claim 16, wherein said anti-rotation device additionally includes at least three of said anti-rotation bearing assemblies, said at least three of said anti-rotation assemblies being substantially equally angularly spaced from one another around said central axis of said stationary scroll element at consecutive angular displacements of substantially about 120 degrees.
- 24. A scroll compressor including an anti-rotation device according to claim 16, wherein said first and second shaft portions of said offset crank member are radially offset with respect to one another by a distance substantially equal to said radius of orbit of said central axis of said orbiting scroll element about said central axis of said stationary scroll element.
- 25. A scroll compressor including an anti-rotation device according to claim 24, wherein said radial offset of said first and second shaft portions of said offset crank member and said radius of orbit of said central axis of said orbiting scroll element about said central axis of said stationary scroll element are both substantially equal to about 0.4 inch.
- 26. A scroll compressor including an anti-rotation device according to claim 23, wherein a central axis of rotation of each of said first shaft portions of said offset crank members is radially offset from said central axis of said stationary scroll element by a distance substantially equal to about 5 inches.
CROSS-REFERENCES TO RELATED APPLICATIONS
The present application is directed to similar subject matter as is disclosed in the following U.S. Patent Applications:
“Oiless Rotary Scroll Air Compressor Crankshaft Assembly”, U.S. patent application Ser. No. 09/584,324, filed on Jun. 1, 2000 by Michael V. Kazakis and Charlie E. Jones;
“Oiless Rotary Scroll Air Compressor Antirotation Lubrication Mechanism”, U.S. patent application Ser. No. 09/584,710, filed on Jun. 1, 2000 by Michael V. Kazakis and Charlie E. Jones;
“Oiless Rotary Scroll Air Compressor Axial Loading Support for Orbiting Member”, U.S. patent application Ser. No. 09/583,698 filed on Jun. 1, 2000 by Michael V. Kazakis and Charlie E. Jones;
“Oiless Rotary Scroll Air Compressor Tipseal Assembly”, U.S. patent application Ser. No. 09/584,323 , filed on Jun. 1, 2000 by Michael V. Kazakis and Charlie E. Jones; and
“Oiless Rotary Scroll Air Compressor Air Inlet Valve”, U.S. patent application Ser. No. 09/584,709, filed on Jun. 1, 2000 by Michael V. Kazakis and Charlie E. Jones.
The subject matter disclosed in each of the above cross-referenced copending U.S. patent applications is hereby expressly incorporated by reference with the same effect as if fully set forth herein.
US Referenced Citations (12)
Foreign Referenced Citations (2)
Number |
Date |
Country |
38152 A1 |
Oct 1981 |
EP |
91544 A1 |
Oct 1983 |
EP |