A solid-lubricated ball, roller, or plain bearing assembly with solid rings made of solid lubricant loosely fitted inside the bearing envelope for replenishing the solid-lubricant films on the bearing contacting surfaces for the life of the bearing without the need for any re-lubrication. A method i
A solid-lubricated ball, roller, or plain bearing assembly with solid rings made of solid lubricant loosely fitted inside the bearing envelope for replenishing the solid-lubricant films on the bearing contacting surfaces for the life of the bearing without the need for any re-lubrication. A method is also provided for mounting all-ceramic bearing rings on metal shafts and housings for operation at extremely high temperatures and solid-lubricant idler gears to replenish lubricant films on gear teeth. Cages may be used at extremely high speeds or with very large ceramic balls or rollers and when used the cages require pocket clearances in the circumferential direction several times larger than in the axial direction.
대표청구항▼
1. A solid lubricated bearing assembly, comprising: rotatable bearing elements;an outer member having a generally radially inwardly facing inner annular race adapted to receive the rotatable bearing elements for rotating motion thereof relative to the outer member;an inner member having a generally
1. A solid lubricated bearing assembly, comprising: rotatable bearing elements;an outer member having a generally radially inwardly facing inner annular race adapted to receive the rotatable bearing elements for rotating motion thereof relative to the outer member;an inner member having a generally radially outwardly facing outer annular race adapted to receive the rotatable bearing elements for rotating motion thereof relative to the inner member, the rotatable bearing elements being retained between the inner race and the outer race; anda first element of solid-lubricant material retained close to the rotatable bearing elements for (a) making occasional, non-continuous contact with at least one of the rotatable bearing elements and (b) depositing solid lubricant wear debris to create a solid lubricant film on at least one of the rotatable bearing elements as the bearing elements rotate relative to the races. 2. The bearing assembly of claim 1, wherein the first element of solid-lubricant material is circumferentially positioned around the inner member and between the inner member and the rotatable bearing elements. 3. The bearing assembly of claim 1, further comprising: a second element of solid-lubricant material retained close to the rotatable bearing elements for (a) making occasional, non-continuous contact with at least one of the rotatable bearing elements and (b) depositing solid lubricant wear debris to create a solid lubricant film on at least one of the rotatable bearing elements as the rotatable bearing elements rotate relative to the races. 4. The bearing assembly of claim 3, wherein the rotatable bearing elements are cylindrical rollers having a first end and a second end. 5. The bearing assembly of claim 4, wherein the first element of solid-lubricant material is positioned along the first end of the cylindrical rollers and the second element of solid-lubricant material is positioned along the second end of the cylindrical rollers. 6. The bearing assembly of claim 1, wherein the first element of solid-lubricant material is positioned to one side of the rotatable bearing elements axially. 7. The bearing assembly of claim 1, wherein the rotatable bearing elements are tapered rollers having a first end which tapers into a second end. 8. The bearing assembly of claim 7, wherein the first end of the tapered roller has a radius that is larger than the radius of the second end of the tapered roller, and the first element of solid-lubricant material is positioned along the first end of the tapered rollers. 9. The bearing assembly of claim 1, wherein the outer member and inner member are made of a ceramic material. 10. The bearing assembly of claim 1, further comprising: a sealing member circumferentially positioned between the outer member and the inner member for containing the solid-lubricant wear debris within the bearing assembly and inhibiting entry of contaminants into the bearing assembly. 11. The bearing assembly of claim 1, further comprising: a cage circumferentially positioned between the rotatable bearing elements for maintaining the rotatable bearing elements in spaced relation to one another while permitting rotation of the rotatable bearing elements in the races. 12. The bearing assembly of claim 11, wherein the cage pocket is larger in the orbital direction than it is in the axial direction. 13. The bearing assembly of claim 1, wherein the rotatable bearing elements, the outer member, and the inner member are comprised of low-coefficient of expansion ceramic material, the bearing assembly comprising: a housing comprised of non-ceramic material with a higher coefficient of expansion than the low-coefficient of expansion ceramic material, the housing configured to support the outer member, the housing including two tapered housing support members adapted to receive and coupled to the outer member by mating with similarly tapered faces of the outer member;a shaft comprised of non-ceramic material with a higher coefficient of expansion than the low-coefficient of expansion ceramic material, the shaft configured to support the inner member, the shaft including two tapered shaft support members adapted to receive and coupled to the inner member by mating with similarly tapered faces of the inner member;wherein the tapered mating surfaces are pre-coated with a solid lubricant material and allowed to slide relative to each other to accommodate the difference in thermal expansion between (a) the bearing elements, the outer member, and the inner member, each comprised of low-coefficient of expansion ceramic material and (b) the housing and shaft, each comprised of non-ceramic material with a higher coefficient of expansion than the low-coefficient of expansion ceramic material. 14. The bearing assembly of claim 13, further comprising: one or more springs between the inner member and one of the tapered shaft support members; andone or more springs between the outer member and one of the tapered housing support members. 15. The bearing assembly of claim 13, wherein the angles of the tapers have the same coincident apex on the centerline of the bearing assembly, which angles allow for a thermal expansion in the radial direction of the housing and shaft support members that is substantially in the same proportion as the thermal expansion of the housing and support members in the axial direction. 16. The bearing assembly of claim 13, wherein the housing is adapted to provide (a) a radial gap between an outer surface of the outer member and an inner surface of the housing and (b) a radial gap between the inner surface of the inner member and an outer surface of the shaft, the gap allowing space for the mating surfaces to slide relative to each other to accommodate the difference in thermal expansion without the addition of significant compressive forces on the outer or inner member. 17. The bearing assembly of claim 13, wherein the first element of solid-lubricant material is circumferentially positioned between the outer member and the inner member. 18. The bearing assembly of claim 1, wherein the first element of solid-lubricant material is in the shape of a continuous non-broken solid ring. 19. The bearing assembly of claim 1, wherein the first element of solid-lubricant material is contained with the bearing assembly by a shield fitted to the bearing assembly. 20. The bearing assembly of claim 1, wherein the wear debris is comprised primarily of substantially sub-micron size particles. 21. The bearing assembly of claim 1, wherein the solid lubricant film created on the at least one of the rotatable bearing elements by the depositing of the solid lubricant wear debris is on the order of a few millionths of an inch thick. 22. The bearing assembly of claim 1, wherein the rotatable bearing elements are ceramic. 23. The bearing assembly of claim 1, wherein the first element of solid-lubricant material is positioned substantially to one side of at least one of the rotatable bearing elements axially. 24. The bearing assembly of claim 1, wherein the rotatable bearing elements are arranged in a single row and the first element of solid-lubricant material is positioned substantially between the bearing elements and a sealing member.
Andres Todd E. (Houston TX) Alvarez Edwardo (Houston TX) Cooper William M. (Clinton NJ) Hughes O. Richard (Chatham Township ; Morris County NJ) Whiteside Wendell G. (Houston TX), Self lubricating polybenzimidazole shaped articles.
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