Systems, methods, and apparatus for shorting slip rings of an induction motor
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H01R-039/08
H01R-039/42
출원번호
US-0985100
(2011-01-05)
등록번호
US-8674581
(2014-03-18)
발명자
/ 주소
Toledo, Thiago Arouca
Kawasaki, Nelson
Darbha, Radhakrishna
출원인 / 주소
General Electric Company
대리인 / 주소
Sutherland Asbill & Brennan LLP
인용정보
피인용 횟수 :
0인용 특허 :
45
초록▼
Systems, methods, and apparatus associated for lifting brushes and shorting slip rings are provided. One embodiment may include a shaft in operable communication with a WRIM rotor; multiple slip rings positioned radially around the shaft and in electrical communication with rotor windings of the WRI
Systems, methods, and apparatus associated for lifting brushes and shorting slip rings are provided. One embodiment may include a shaft in operable communication with a WRIM rotor; multiple slip rings positioned radially around the shaft and in electrical communication with rotor windings of the WRIM; multiple brushes adapted for selective contact with a respective one of the plurality of slip rings. In addition, the system may include multiple selectively activating electrical contacts in electrical communication with respective terminals of the rotor windings of the WRIM; and an actuating mechanism in operable communication with the brushes and the electrical contacts. When the actuating mechanism is actuated, the electrical contacts create electrical shorts between the slip rings and the rotor windings of the WRIM and the plurality of brushes are lifted from contacting the plurality of slip rings.
대표청구항▼
1. A system for shorting slip rings of an induction motor, comprising: a shaft in operable communication with a wound rotor induction motor (WRIM) rotor;a plurality of slip rings positioned radially around the shaft and in electrical communication with rotor windings of the WRIM and in selective com
1. A system for shorting slip rings of an induction motor, comprising: a shaft in operable communication with a wound rotor induction motor (WRIM) rotor;a plurality of slip rings positioned radially around the shaft and in electrical communication with rotor windings of the WRIM and in selective communication with a plurality of brushes,a plurality of brush shafts corresponding to the plurality of brushes, each brush shaft having a brush holder comprising: an arm having a first arm end and a second arm end, the first arm end having an opening and the second arm end having a housing configured to secure the brush, wherein the opening comprises a collar for securing the brush holder around the brush shaft;a spring connecting the arm and the collar, wherein the spring is adjustable to adjust the angle position of the brush with respect to a slip ring; anda sliding shaft configured to pass through the spring and having a first sliding shaft end and a second sliding shaft end, the first sliding shaft end slidably attached to the collar and the second sliding shaft end fixedly attached to the arm;a plurality of selectively activating electrical contacts in electrical communication with respective terminals of the rotor windings of the WRIM, wherein the plurality of electrical contacts comprises a plurality of slip ring contacts and a corresponding plurality of contact connectors, wherein each of the plurality of contact connectors is positioned and selectively engages a corresponding one of the plurality of slip ring contacts; andan actuating mechanism in operable communication with at least a portion of the plurality of electrical contacts, wherein, when the actuating mechanism is actuated, at least a portion of the plurality of contact connectors moves in an axial direction defined along the shaft to engage the corresponding plurality of electrical contacts to create electrical shorts between at least a portion of the plurality of slip rings and at least a portion of the rotor windings of the WRIM. 2. The system of claim 1, wherein the plurality of electrical contacts are in a fixed relationship with the shaft and rotate with the plurality of slip rings, and wherein the plurality of contact connectors are positioned radially around the shaft and rotate with the plurality of slip rings. 3. The system of claim 1, wherein the actuating mechanism further comprises a translation mechanism to translate rotational movement of the plurality of contact connectors to axial movement, wherein, when the actuating mechanism is actuated, the plurality of contact connectors continue to rotate with the slip rings and move in the axial direction toward the corresponding plurality of slip ring contacts. 4. The system of claim 1, wherein each of the plurality of slip ring contacts comprises a post extending in the axial direction toward the plurality of contact connectors. 5. The system of claim 1, wherein each of the plurality of contact connectors comprises a sleeve extending in the axial direction toward the plurality of slip ring contacts, wherein each of the plurality of contact connectors is positioned and slidably fits over a respective one of the plurality of slip ring contacts. 6. The system of claim 5, wherein each of the plurality of contact connectors further comprises a slit formed at least partially along an outer wall of the sleeve, wherein the slit is operable to provide selective expansion and compression of the sleeve. 7. The system of claim 6, wherein each of the plurality of contact connectors further comprises a compression ring positioned over the sleeve, wherein the compression ring is operable to exert an inward radial pressure on the sleeve. 8. The system of claim 1, wherein the actuating mechanism is driven by one of: (a) an electric motor; or (b) a manually operated drive. 9. The system of claim 1, wherein the actuating mechanism is operated by a controller, wherein, when the WRIM achieves a predetermined threshold, the controller causes the actuating mechanism to move the contact connectors in the axial direction to engage the corresponding plurality of slip ring contacts to create electrical shorts between at least a portion of the plurality of slip rings and at least a portion of the rotor windings of the WRIM. 10. The system of claim 1, wherein, when the actuating mechanism is actuated, the plurality of brushes are lifted from contacting the plurality of slip rings. 11. A method for selectively shorting slip rings of an induction motor, comprising: providing a plurality of slip rings positioned radially around a shaft in operable communication with a wound rotor induction motor (WRIM) rotor, wherein the plurality of slip rings are in electrical communication with rotor windings of the WRIM and in selective communication with a plurality of brushes;providing a plurality of brush shafts corresponding to the plurality of brushes, each brush rush shaft having a brush holder comprising: an arm having a first arm end and a second arm end, the first arm end having an opening and the second arm end having a housing configured to secure the brush, wherein the opening comprises a collar for securing the brush holder around the brush shaft;a spring connecting the arm and the collar, wherein the spring is adjustable to adjust the angle position of the brush with respect to a slip ring; anda sliding shaft configured to pass through the spring and having a first sliding shaft end and a second sliding shaft end, the first sliding shaft end slidably attached to the collar and the second sliding shaft end fixedly attached to the arm; andselectively creating electrical shorts between at least a portion of the plurality of slip rings and at least a portion of the rotor windings of the WRIM by moving a plurality of contact connectors in an axial direction defined along the shaft to engage a corresponding plurality of electrical contacts in electrical communication with respective terminals of the rotor windings of the WRIM. 12. The method of claim 11, wherein each of the plurality of slip ring contacts is fixed radially around the shaft and rotates with the plurality of slip rings, and wherein each of the plurality of contact connectors is fixed radially around the shaft and rotates with the plurality of slip rings. 13. The method of claim 12, wherein selectively creating electrical shorts between at least a portion of the plurality of slip rings and at least a portion of the rotor windings of the WRIM further comprises translating the rotational movement of the plurality of contact connectors to axial movement while the plurality of contact connectors continue to rotate with the slip rings and move in the axial direction toward the corresponding plurality of slip ring contacts. 14. The method of claim 11, further comprising, upon creating the electrical shorts, selectively lifting at least a portion of the plurality of brushes from at least a portion of the plurality of slip rings. 15. The method of claim 11, wherein each of the plurality of slip ring contacts comprises a post extending in the axial direction toward the plurality of contact connectors. 16. The method of claim 11, wherein each of the plurality of contact connectors comprises a sleeve extending in the axial direction toward the plurality of slip ring contacts, wherein each of the plurality of contact connectors is positioned and slidably fits over a respective one of the plurality of slip ring contacts. 17. The method of claim 16, wherein each of the plurality of contact connectors further comprises a slit formed at least partially along an outer wall of the sleeve, wherein the slit is operable to provide selective expansion and compression of the sleeve. 18. The method of claim 11, wherein the plurality of contact connectors are moved in the axial direction by an actuating mechanism driven by one of: (a) an electric motor; or (b) a manually operated drive. 19. The method of claim 11, wherein the plurality of contact connectors are moved in the axial direction by an actuating mechanism operated by a controller, wherein, when the WRIM achieves a predetermined threshold, the controller causes the actuating mechanism to move the contact connectors in the axial direction to engage the corresponding plurality of slip ring contacts to create electrical shorts between at least a portion of the plurality of slip rings and at least a portion of the rotor windings of the WRIM. 20. A system for shorting slip rings of an induction motor, comprising: a plurality of slip rings in electrical communication with rotor windings of an induction motor and in selective communication with a plurality of brushes;a plurality of brush shafts corresponding to the plurality of brushes, each brush shaft having a brush holder comprising: an arm having a first arm end and a second arm end, the first arm end having an opening and the second arm end having a housing configured to secure the brush, wherein the opening comprises a collar for securing the brush holder around the brush shaft;a spring connecting the arm and the collar, wherein the spring is adjustable to adjust the angle position of the brush with respect to a slip ring; anda sliding shaft configured to pass through the spring and having a first sliding shaft end and a second sliding shaft end, the first sliding shaft end slidably attached to the collar and the second sliding shaft end fixedly attached to the arm;a plurality of electrical contacts in electrical communication with respective terminals of rotor windings of the induction motor, wherein the plurality of electrical contacts comprises a plurality of slip ring contacts and a corresponding plurality of contact connectors, and wherein each of the plurality of contact connectors is positioned and selectively engages a corresponding one of the plurality of slip ring contacts; andan actuating mechanism in operable communication with the plurality of electrical contacts, wherein, when the actuating mechanism is actuated, at least a portion of the plurality of contact connectors moves in an axial direction defined approximately along a shaft of the induction motor to engage the corresponding plurality of electrical contacts to create electrical shorts between at least a portion of the plurality of slip rings and at least a portion of the rotor windings of the induction motor.
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