IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0793957
(2010-06-04)
|
등록번호 |
US-8561258
(2013-10-22)
|
발명자
/ 주소 |
- Breyer, Scott T.
- Stoehr, Kyle C.
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
3 인용 특허 :
28 |
초록
▼
Embodiments of the present invention provide a hubless caster that is at least as aesthetically pleasing as prior art hubless casters but that is significantly more durable. In one aspect, a hubless caster is provided that includes a frame member having two opposed sides. A generally ring-shaped mou
Embodiments of the present invention provide a hubless caster that is at least as aesthetically pleasing as prior art hubless casters but that is significantly more durable. In one aspect, a hubless caster is provided that includes a frame member having two opposed sides. A generally ring-shaped mount portion projects from at least one of the two opposed sides of the frame member. In some embodiments, the hubless caster has the following three components mounted on the mount portion, in sequence moving radially outwardly from the mount portion: a) an annular backbone member defining an inner bearing race, b) a rolling element, and c) a wheel defining an outer bearing race.
대표청구항
▼
1. A hubless caster comprising a frame member having two opposed sides from at least one of which projects a generally ring-shaped mount portion, the hubless caster having the following three components mounted on the mount portion, in sequence moving radially outwardly from the mount portion: a) an
1. A hubless caster comprising a frame member having two opposed sides from at least one of which projects a generally ring-shaped mount portion, the hubless caster having the following three components mounted on the mount portion, in sequence moving radially outwardly from the mount portion: a) an annular backbone member defining an inner bearing race, b) a rolling element, and c) a wheel defining an outer bearing race, such that the hubless caster is configured so that the rolling element rolls against the annular backbone member and not against the mount portion, whereby the annular backbone member protects the mount portion. 2. The hubless caster of claim 1, wherein the annular backbone member, the rolling element, and the wheel have a force-distributing assembly configuration characterized by the backbone member, the rolling element, and the wheel all having substantially the same width, such that force transferred between the wheel and the annular backbone member is distributed over substantially an entire width of the rolling element. 3. The hubless caster of claim 1, wherein the annular backbone member is carried against, but is not joined to, the mount portion. 4. The hubless caster of claim 3, wherein the annular backbone member comprises a metal, and the mount portion of the frame member comprises a polymer. 5. The hubless caster of claim 1, wherein the annular backbone member comprises a steel ring. 6. The hubless caster of claim 1, wherein the caster has two generally ring-shaped mount portions projecting respectively from the two opposed sides of the frame member, wherein on each mount portion the following three components are mounted, in sequence moving radially outwardly from the mount portion: a) the annular backbone member defining the inner bearing race, b) the rolling element, and c) the wheel defining the outer bearing race. 7. The hubless caster of claim 1, wherein the rolling element includes a retainer and a plurality of rollers, the retainer having receptacles in which the rollers are received, such that the rollers roll against the annular backbone member and not against the mount portion. 8. The hubless caster of claim 7, wherein said rollers each have a cylindrical shape. 9. A durable low profile hubless caster, the caster having a hubless roller assembly with an outer wheel radius and a radial thickness, the radial thickness of the hubless roller assembly being less than half as great as the outer wheel radius such that the hubless caster has a profile ratio of less than 0.5 and yet the hubless caster has a dynamic load rating of at least 150 pounds, the hubless caster comprising a frame member having two opposed sides from at least one of which projects a generally ring-shaped mount portion, the hubless caster having the following three components mounted on the mount portion, in sequence moving radially outwardly from the mount portion: a) an annular backbone member defining an inner bearing race, b) a rolling element, and c) a wheel, such that the hubless caster is configured so that the rolling element rolls against the annular backbone member and not against the mount portion, whereby the annular backbone member protects the mount portion. 10. The hubless caster of claim 9, wherein the profile ratio is less than 0.4. 11. The hubless caster of claim 9, wherein the load rating is at least 200 pounds. 12. The hubless caster of claim 11, wherein the load rating is at least 400 pounds. 13. The hubless caster of claim 9, wherein the annular backbone member, the rolling element, and the wheel have a force-distributing assembly configuration characterized by the backbone member, the rolling element, and the wheel all having substantially the same width, such that force transferred between the wheel and the annular backbone member is distributed over substantially an entire width of the rolling element. 14. The hubless caster of claim 9, wherein the annular backbone member comprises a steel ring. 15. A hubless caster comprising a frame member having two opposed sides from at least one of which projects a generally ring-shaped mount portion, the hubless caster having the following three components mounted on the mount portion, in sequence moving radially outwardly from the mount portion: a) an annular backbone member defining an inner bearing race, b) a rolling element, and c) a wheel defining an outer bearing race, the hubless caster being provided with a roller-retention end cap, the end cap being joined to the mount portion so as to retain the annular backbone member, rolling element, and wheel on the frame member. 16. The hubless caster of claim 15, wherein the end cap remains in a non-rotating configuration even when the wheel of the hubless caster is rotating. 17. The hubless caster of claim 15, wherein the frame member and the end cap both comprise a polymer, and an ultrasonic weld joins the end cap to the mount portion. 18. The hubless caster of claim 15, wherein a liner ring is nested within a central opening of the hubless caster, and the end cap retains the liner ring on the hubless caster. 19. The hubless caster of claim 18, wherein the frame member and the mount portion are both defined by a single body, and the end cap retains the liner ring against a generally cylindrical interior wall defined by said body. 20. The hubless caster of claim 15, wherein the frame member is a central frame member, and two generally ring-shaped mount portions project respectively from the two opposed sides of the central frame member, wherein on each mount portion the following three components are mounted, in sequence moving radially outwardly from the mount portion: a) the annular backbone member defining the inner bearing race, b) the rolling element, and c) the wheel defining the outer bearing race; the hubless caster being provided with two roller-retention end caps each joined to one of the mount portions so as to retain each annular backbone member, rolling element, and wheel on the central frame member. 21. A hubless caster comprising a frame member having two opposed sides from at least one of which projects a generally ring-shaped mount portion, the mount portion comprising a polymer, the hubless caster having the following three components mounted on the mount portion, in sequence moving radially outwardly from the mount portion: a) an annular backbone member defining an inner bearing race, b) a rolling element, and c) a wheel, such that the hubless caster is configured so that the rolling element rolls against the annular backbone member and not against the mount portion, whereby the annular backbone member protects the mount portion. 22. The hubless caster of claim 21, wherein the rolling element comprises a plurality of rollers, such that the rollers roll against the annular backbone member and not against the mount portion. 23. The hubless caster of claim 22, wherein said rollers each have a cylindrical shape. 24. A hubless caster comprising a frame member having two opposed sides from at least one of which projects a generally ring-shaped mount portion, the mount portion comprising a polymer, the hubless caster having the following three components mounted on the mount portion, in sequence moving radially outwardly from the mount portion: a) an annular backbone member defining an inner bearing race, b) a rolling element, and c) a wheel, the hubless caster being provided with a roller-retention end cap, the end cap being joined to the mount portion so as to retain the annular backbone member, rolling element, and wheel on the frame member, wherein the end cap remains in a non-rotating configuration even when the wheel of the hubless caster is rotating. 25. The hubless caster of claim 24, wherein the rolling element comprises a plurality of rollers, such that the rollers roll against the annular backbone member and not against the mount portion. 26. The hubless caster of claim 24, wherein the annular backbone member comprises a steel ring.
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