Embodiments of the invention relate generally to dynamoelectric machines and, more particularly, to bore connectors for dynamoelectric machines. In one embodiment, the invention provides a bore connector for a shaft of a dynamoelectric machine, the bore connector comprising: a pair of elongate conne
Embodiments of the invention relate generally to dynamoelectric machines and, more particularly, to bore connectors for dynamoelectric machines. In one embodiment, the invention provides a bore connector for a shaft of a dynamoelectric machine, the bore connector comprising: a pair of elongate connector bodies, each having a substantially hemispherical shape in cross section and at least one of which having: a radially opening aperture including an inner surface, at least a portion of which is threaded; and a threaded member having a threaded outer surface compatible with the threaded inner surface of the aperture, the threaded member being threadable into and out of the aperture.
대표청구항▼
1. A bore connector for a shaft of a dynamoelectric machine, the bore connector comprising: a pair of elongate connector bodies, each having a substantially hemispherical shape in cross section and at least one of which having: a radially opening aperture including an inner surface, at least a porti
1. A bore connector for a shaft of a dynamoelectric machine, the bore connector comprising: a pair of elongate connector bodies, each having a substantially hemispherical shape in cross section and at least one of which having: a radially opening aperture including an inner surface, at least a portion of which is threaded; anda threaded member having a threaded outer surface compatible with the threaded inner surface of the aperture, the threaded member being threadable into and out of the aperture. 2. The bore connector of claim 1, further comprising: a rigid separator disposable between the pair of elongate bodies,wherein at least one of the threaded members is moveable within the aperture and against the rigid separator to move at least one of the elongate connector bodies away from the rigid separator. 3. The bore connector of claim 1, wherein the inner surface of the radially opening aperture includes: a first portion extending inward from an arcuate outer surface of the elongate body; anda second portion extending inward from a substantially planar inner surface of the elongate body to a termination of the first portion. 4. The bore connector of claim 3, wherein the first portion has a first diameter and the second portion has a second diameter greater than the first diameter. 5. The bore connector of claim 4, wherein the first portion is unthreaded and the second portion is threaded. 6. The bore connector of claim 4, wherein the threaded member has a diameter substantially equal to the second diameter of the second portion, such that the threaded member is threadable into and out of the second portion. 7. The bore connector of claim 6, wherein the threaded member is not threadable into or out of the first portion. 8. The bore connector of claim 1, wherein the threaded member includes a surface for interfacing a device for threading the threaded member into or out of the aperture. 9. A bore connector for a shaft of a dynamoelectric machine, the bore connector comprising: a pair of elongate connector bodies, each having a substantially hemispherical shape in cross-section, at least one of which having: a radial opening aperture extending from an arcuate outer surface of the elongate connector body through to a substantially planar inner surface of the elongate connector body; andan insert device disposed along the inner surface of the elongate connector body, the insert device including: a body having an internally threaded aperture substantially aligned with the radial opening aperture; anda threaded member having an outer threaded surface compatible with the internally threaded aperture, the threaded member being threadable into and out of the internally threaded aperture. 10. The bore connector of claim 9, further comprising: a rigid separator disposable between the pair of elongate bodies,wherein the threaded member is moveable within the internally threaded aperture of the insert device and against the rigid separator to move at least one of the elongate connector bodies away from the rigid separator. 11. The bore connector of claim 9, wherein the radial opening aperture has a first diameter and the internally threaded aperture of the insert device has a second diameter greater than the first diameter. 12. The bore connector of claim 11, wherein the threaded members has a diameter substantially equal to the second diameter. 13. The bore connector of claim 9, wherein the threaded members includes a surface for interfacing a device for threading the threaded member into or out of the internally threaded aperture of the insert device. 14. A bore connector for a shaft of a dynamoelectric machine, the bore connector comprising: a pair of elongate connector bodies, each having a substantially hemispherical shape in cross-section, at least one of which has a radially opening aperture including an inner surface, at least a portion of which is threaded. 15. The bore connector of claim 14, further comprising: a rigid separator disposable between the pair of elongate bodies. 16. The bore connector of claim 15, wherein the radially opening aperture is compatible with a threaded member, the threaded member being threadable into the radially opening aperture and against the rigid separator to move at least one of the elongate connector bodies away from the rigid separator. 17. The bore connector of claim 14, wherein the inner surface of the radially opening aperture includes: a first portion extending inward from an arcuate outer surface of the elongate body; anda second portion extending inward from a substantially planar inner surface of the elongate body to a termination of the first portion. 18. The bore connector of claim 17, wherein the first portion has a first diameter and the second portion has a second diameter greater than the first diameter. 19. The bore connector of claim 14, wherein the radially opening aperture extends from an arcuate outer surface of the elongate connector body through to a substantially planar inner surface of the elongate body and the at least one elongate connector body includes: an insert device disposed along the inner surface of the elongate connector body, the insert device including: a body having an internally threaded aperture substantially aligned with the radial opening aperture. 20. The bore connector of claim 19, wherein the radial opening aperture has a first diameter and the internally threaded aperture of the insert device has a second diameter greater than the first diameter.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (10)
Robert Gerald Hamilton ; Leonard Paul Squillacioti ; Ronald Joseph Zawoysky ; Thomas Richard Blakelock, Apparatus and methods for providing an electrical connection between a bore copper and field windings of a dynamoelectric machine.
Hopeck James Frederick ; Harrington Marcus Edward ; Jones Steven William ; Douglass Patrick Brian, Electrical connection between and a method of installation of a main terminal and a bore copper of a dynamoelectric machine.
Keck Richard J. (Schenectady NY) O\Brien Kirk G. (Schenectady NY) Bigelow Michael J. (Schenectady NY), Generator rotor collector terminal stud hydrogen seal.
Irwin, Patricia Chapman; Foley, Peter John; Hopeck, James Frederick; Longwell, Ronald Irving, Powder coated terminal stud assemblies and methods of fabricating.
Shih True T. (Schenectady NY) Archibald James B. (Schenectady NY) Jenkins Thomas B. (Schenectady NY) Rink ; Jr. Frederick J. (Clifton Park NY) Rasmussen Paul C. (Scahaghticoke NY) Hopeck James F. (Me, Resilient connectors for a generator/motor rotor.
Thomas Richard Blakelock ; Jeffrey Donald Evans ; Leonard Paul Squillacioti, Tool for the installation of a terminal stud adapter in a generator rotor and methods therefor.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.