Mounting rings and methods for mounting structures to shafts are provided. The rings and methods may be used to mount other rings or housings to a shaft. The rings are characterized by having flexible inner diameters that can deflect under a radial load. The radial deflection of the inner diameter p
Mounting rings and methods for mounting structures to shafts are provided. The rings and methods may be used to mount other rings or housings to a shaft. The rings are characterized by having flexible inner diameters that can deflect under a radial load. The radial deflection of the inner diameter permits the rings to deflect and engage an outer diameter of a shaft. The engagement of the rings with a shaft provides at least some resistance to movement, for example, rotation and/or axial displacement, of the shaft relative to the ring and structure. In one aspect, the ring has a closed, hollow, construction, for example, a circular, oval, or polygonal closed, hollow construction. The ring may include a plurality of indentations, such as slots, on the inside diameter of the ring that may relieve at least some of the circumferential stress in the ring. Methods for using the rings to mount a structure to a shaft are also disclosed.
대표청구항▼
1. A ring for mounting a structure to a shaft, the ring comprising: a first portion having a first surface adapted to mount the structure to the ring; anda radially inner portion being deformable to accommodate movement of the shaft in response to a load from the shaft; two radially extending portio
1. A ring for mounting a structure to a shaft, the ring comprising: a first portion having a first surface adapted to mount the structure to the ring; anda radially inner portion being deformable to accommodate movement of the shaft in response to a load from the shaft; two radially extending portions extending substantially parallel to one another and substantially perpendicular to an axial direction through the ring prior to mounting, said radially extending portions connecting said inner portion and said first portion, said radially extending portions, said inner portion and said first portion bounding an internal cavity, said cavity deformable in response to the load such that said inner portion and said first portion move closer to each other;the radially inner portion comprising an inner surface having a plurality of indentations to engage and rigidly mount the ring to the shaft wherein the structure rotates with the shaft; andthe radially inner surface having the plurality of indentations being flexible for flexibly engaging the shaft to substantially prevent the rotation of the shaft relative to the ring under a load. 2. The ring as recited in claim 1, wherein the ring comprises a metallic ring made from one or more of iron, steel, aluminum, nickel, and titanium. 3. The ring as recited in claim 1, wherein the plurality of indentations comprises a plurality of one of slits, slots, and holes. 4. The ring as recited in claim 3, wherein the plurality of slits comprises a plurality of axial slits. 5. The ring as recited in claim 1, wherein the ring provides at least some fluid sealing. 6. The ring as recited in claim 1, wherein the ring comprises one of a circular, an oval, and a polygonal cross-section. 7. The ring as recited in claim 1, wherein the radially inner surface having the plurality of indentations is for flexibly engaging the shaft to substantially prevent the rotation of the shaft relative to the ring under a load of at least 600 foot-pounds of torque. 8. The ring as recited in claim 1, wherein the ring further comprises a closed, hollow cross section. 9. The ring as recited in claim 8, wherein the closed, hollow cross section comprises a cross section in a plane which passes substantially through an axis of the ring and the plane is oriented substantially parallel to the axis of the ring. 10. The ring as recited in claim 9, wherein the closed, hollow cross section comprises a circular, closed, hollow cross section. 11. The ring as recited in claim 8, wherein the closed, hollow cross section comprises a circular, closed, hollow cross section. 12. The ring as recited in claim 1, wherein the radially inner surface is configured to flexibly engage the shaft to substantially prevent the rotation of the shaft relative to the ring under a load of at least 100 foot-pounds of torque. 13. The ring as recited in claim 1, wherein the plurality of indentations comprise edges, and wherein the edges are for contacting the shaft and providing at least some resistance to the rotation of the shaft relative to the ring. 14. The ring of claim 1, wherein said first portion is narrower in an axial direction relative to the shaft than said inner portion. 15. The ring of claim 1, wherein said inner surface is deformable to provide a friction fit to substantially prevent the rotation of the shaft relative to the ring. 16. The ring of claim 1, wherein said plurality of indentations is substantially aligned relative to each other such that longitudinal dimensions of said plurality of indentations are axially aligned relative to the shaft.
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이 특허에 인용된 특허 (36)
Hellmann John V. (Anderson IN), Annular molded article secured to a shaft.
Snyder, Sr., Ronald R.; Wilk, Jr., Charles E.; Thau, Jr., Lawrence W.; Dole, Douglas R.; Carom, Terrance M., Mechanical pipe coupling derived from a standard fitting.
Balsells Peter J. (Santa Ana CA), Radially mounted spring to connect, lock and unlock, and for snap-on fastening, and for mechanical, electromagnetic shie.
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