A split bearing generally includes first and second bearing halves each having complementary partial shaft receiving portions, wherein the first and second bearing halves are substantially identically configured. The split bearing further includes means for releasably coupling the first and second b
A split bearing generally includes first and second bearing halves each having complementary partial shaft receiving portions, wherein the first and second bearing halves are substantially identically configured. The split bearing further includes means for releasably coupling the first and second bearing halves together, such that when coupled, the complementary partial shaft receiving portions of the first and second bearing halves define a center bearing thru-hole for receiving a shaft, and when decoupled, the first and second bearing halves can be removed from the shaft.
대표청구항▼
1. A split bearing configured to be received on a shaft having a length, the split bearing selectively split-able for installation or removal from the shaft without bearing travel along the length of the shaft, comprising: (a) first and second bearing halves each having complementary partial shaft r
1. A split bearing configured to be received on a shaft having a length, the split bearing selectively split-able for installation or removal from the shaft without bearing travel along the length of the shaft, comprising: (a) first and second bearing halves each having complementary partial shaft receiving portions, wherein the first and second bearing halves are substantially identically configured;(b) at least first and second fasteners extending from the first bearing half and received within the second bearing half for releasably coupling the first and second bearing halves together, such that when coupled, the complementary partial shaft receiving portions of the first and second bearing halves define a center bearing thru-hole having a first end and a second end for receiving the shaft extending from the first end to the second end of the center bearing thru-hole, and when decoupled, the first and second bearing halves can be removed from the shaft; and(c) first and second countersunk bores in the first bearing half, each having an opening and an interior shoulder, the countersunk bores being sized and configured to accept the first and second fasteners, each having a head and a body such that the fasteners extend from the first bearing half and are received within the second bearing half, and when coupled, the fastener heads abut the shoulders in the first and second countersunk bores, the fastener heads do not extend beyond the openings in the first bearing half, and the fasteners are entirely embedded within the spherical split bearing. 2. The split bearing of claim 1, further comprising an attachment device for releasably securing the split bearing in a specific position along the shaft or within a housing. 3. The split bearing of claim 2, wherein the attachment device is a pin. 4. The split bearing of claim 1, wherein the second bearing half includes first and second retention holes for receiving the first and second fasteners extending from the first bearing half. 5. The split bearing of claim 1, wherein the split bearing is substantially spherical in shape. 6. The split bearing of claim 1, wherein the first and second bearing halves are substantially identically configured. 7. The split bearing of claim 1, wherein the complementary partial shaft receiving portions are arcuate portions, such that the center bearing thru-hole is circular. 8. The split bearing of claim 1, wherein the first and second bearing halves are made from a material capable of withstanding a temperature of at least 400 degrees Fahrenheit. 9. The split bearing of claim 1, wherein the first and second bearing halves are made from polytetrafluoroethylene. 10. A spherical split bearing configured to be received on a shaft having a length, the split bearing selectively split-able for installation or removal from the shaft without bearing travel along the length of the shaft, comprising: (a) first and second bearing halves each having complementary partial shaft receiving portions;(b) at least first and second fasteners extending from the first bearing half and received within the second bearing half for releasably coupling the first and second bearing halves together, such that when coupled, the complementary partial shaft receiving portions of the first and second bearing halves define a center bearing thru-hole having a first end and a second end for receiving the shaft extending from the first end to the second end of the center bearing thru-hole, and when decoupled, the first and second bearing halves can be removed from the shaft;(c) first and second countersunk bores in the first bearing half, each having an opening and an interior shoulder, the countersunk bores being sized and configured to accept the first and second fasteners, each having a head and a body such that the fasteners extend from the first bearing half and are received within the second bearing half, and when coupled, the fastener heads abut the shoulders in the first and second countersunk bores, the fastener heads do not extend beyond the openings in the first bearing half, and the fasteners are entirely embedded within the spherical split bearing; and(d) an attachment device for releasably securing the split bearing in a specific position along the shaft. 11. An assembly of a spherical split bearing and a shaft, the split bearing selectively split-able for installation or removal from the shaft without bearing travel along the length of the shaft, comprising: (a) the shaft having a length and a circular cross-section normal to a longitudinal axis of the shaft;(b) first and second bearing halves each having complementary partial shaft receiving portions, wherein the first bearing half includes first and second bores configured to receive fasteners, each having a head and a body such that the fasteners extend from the first bearing half and are received within the second bearing half, wherein the first and second bores are countersunk bores, each having an opening and an interior shoulder, the bores being sized and configured to each accept the fasteners; and(c) the fasteners releasably coupling the first and second bearing halves together by extending through the first and second bores of the first bearing half and being received in the second bearing half, wherein the fastener heads abut the shoulders in the first and second countersunk bores, the fastener heads do not extend beyond the openings in the first bearing half, and the fasteners are entirely embedded within the spherical split bearing;wherein, when releasably coupled, the complementary partial shaft receiving portions of the first and second bearing halves define a center bearing thru-hole having a first end and a second end for receiving the shaft extending from the first end to the second end of the center bearing thru-hole, and when decoupled, the first and second bearing halves can be removed from the shaft. 12. The split bearing of claim 11, further comprising an attachment device for releasably securing the split bearing in a specific position along the shaft or within a housing. 13. The split bearing of claim 11, wherein the attachment device is a pin. 14. The split bearing of claim 11, wherein the second bearing half includes first and second retention holes for receiving the first and second fasteners extending from the first bearing half. 15. The split bearing of claim 11, wherein the first and second bearing halves are substantially identically configured. 16. The split bearing of claim 11, wherein the complementary partial shaft receiving portions are arcuate portions, such that the center bearing thru-hole is circular. 17. The split bearing of claim 11, wherein the first and second bearing halves are made from a material capable of withstanding a temperature of at least 400 degrees Fahrenheit. 18. The split bearing of claim 11, wherein the first and second bearing halves are made from polytetrafluoroethylene.
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이 특허에 인용된 특허 (9)
Putnam Rex D. (P.O. Box 39 ; 211 Industrial Ave. Bronson MI 49028), Hitch ball.
Braginsky Mikhail (1350 Nicollet Ave. ; Apt. 1701 Minneapolis MN 55403) Dashevsky Leon (3518 Pilgrim La. N. Plymouth MN 55441), Process for the production of hollow ball bearings.
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