IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0424869
(2009-04-16)
|
등록번호 |
US-8330311
(2012-12-11)
|
발명자
/ 주소 |
- Ramsey, Gary
- Sortore, Christopher
- Field, Robert Jett
- Iannello, Victor
- Treubert, Kirk
- Hanson, Mark
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
3 인용 특허 :
158 |
초록
▼
A machine is provided, including a magnetic thrust bearing having a rotor portion, a stator portion, and a housing. The housing substantially surrounds the stator portion and the rotor portion. The rotor portion includes a thrust disk adapted to be circumferentially attached to a rotor and to rotate
A machine is provided, including a magnetic thrust bearing having a rotor portion, a stator portion, and a housing. The housing substantially surrounds the stator portion and the rotor portion. The rotor portion includes a thrust disk adapted to be circumferentially attached to a rotor and to rotate with the rotor. The thrust disk defines a thrust disk first side and a thrust disk second side, the first side being opposite to the second side.
대표청구항
▼
1. A machine, comprising: a magnetic thrust bearing, comprising: a rotor portion;a stator portion; anda housing substantially surrounding said stator portion and said rotor portion;said rotor portion comprising: a thrust disk adapted to be circumferentially attached to a rotor and to rotate with the
1. A machine, comprising: a magnetic thrust bearing, comprising: a rotor portion;a stator portion; anda housing substantially surrounding said stator portion and said rotor portion;said rotor portion comprising: a thrust disk adapted to be circumferentially attached to a rotor and to rotate with the rotor, said thrust disk defining a thrust disk first side and a thrust disk second side, and said thrust disk first side opposing said thrust disk second side; andsaid stator portion comprising: a first thrust electromagnet and an opposing second thrust electromagnet, said first thrust electromagnet adapted to be separated by a first gap from said thrust disk first side, and said opposing second thrust electromagnet adapted to be separated by a second gap from said thrust disk second side;a first touchdown surface adapted to prevent contact between said first thrust electromagnet and any rotating component of said rotor portion;a second touchdown surface adapted to prevent contact between said opposing second thrust electromagnet and any rotating component of said rotor portion;an electronic controller adapted to control said first thrust electromagnet and said opposing second thrust electromagnet; said electronic controller comprising an amplifier adapted to increase apparent power provided to an electromagnetic coil comprised by said stator portion;a first annular heat sink located adjacent to an annular power circuit board, said first annular heat sink adapted to conduct heat substantially radially, outwardly, and away from a plurality of power transistors, said plurality of power transistors mounted on said first annular heat sink; andan annular processor circuit board adapted to produce a net force that substantially centers said rotor between said first thrust electromagnet and said opposing second thrust electromagnet, said annular processor circuit board physically separated from, and electrically shielded from, said annular power circuit board. 2. The machine of claim 1, further comprising: an axial sensor located adjacent one of said first and second touchdown surfaces, said axial sensor adapted to provide a signal indicative of an approximate axial position of the rotor with respect to said magnetic thrust bearing. 3. The machine of claim 1, further comprising: a plurality of axial sensors located adjacent one of said first and second touchdown surfaces and radially distributed around a rotational axis of said rotor portion, each axial sensor of said plurality of axial sensors adapted to provide a signal indicative of an approximate axial position of the rotor with respect to said magnetic thrust bearing. 4. The machine of claim 1, further comprising: a first rotation sensor substantially surrounded by said housing and adapted to be separated from the rotor by a rotation sensing gap, said first rotation sensor adapted to detect an approximate rotational speed of the rotor with respect to said stator portion. 5. The machine of claim 1, wherein: said amplifier is one of a plurality of switch-type pulse-width modulated amplifiers comprised by said stator portion, each of said switch-type pulse-width modulated amplifiers adapted to increase apparent power provided to a corresponding electromagnetic coil comprised by said stator portion, said plurality of switch-type pulse-width modulated amplifiers and said plurality of electromagnetic coils located substantially within said housing. 6. The machine of claim 1, wherein: said electronic controller is adapted to substantially center said rotor between said first thrust electromagnet and said opposing second thrust electromagnet. 7. The machine of claim 1, wherein: said electronic controller is adapted to control a pulse-width signal input to the amplifier that provides currents provided to said first thrust electromagnet and said opposing second thrust electromagnet, said currents adapted to produce the net force that substantially centers said rotor between said first thrust electromagnet and said opposing second thrust electromagnet. 8. The machine of claim 1, wherein: said electronic controller is adapted to control a position of said rotor in response to a received rotor position signal. 9. The machine of claim 1, wherein: said electronic controller is adapted to, via a network connection, receive control programming adjustments from a sender external to said machine and/or transmit control reports to a recipient external to said machine. 10. The machine of claim 1, wherein: said electronic controller is adapted to, via an Ethernet connection, receive control programming adjustments from a sender external to said machine and/or transmit control reports to a recipient external to said machine. 11. The machine of claim 1, wherein: said electronic controller comprises an annular circuit board located adjacent one of said first thrust electromagnet and said opposing second thrust electromagnet. 12. The machine of claim 1, wherein: said annular processor circuit board comprises a digital signal processor adapted to determine a pulse-width input signal to the amplifier that produces a current provided to said first thrust electromagnet, said current adapted to control a magnetic flux level for said first thrust electromagnet. 13. The machine of claim 1, wherein: said annular processor circuit board comprises a digital signal processor adapted to determine a pulse-width input signal to the amplifier that supplies currents to said first thrust electromagnet and said opposing second thrust electromagnet, said currents adapted to produce the net force that substantially centers said rotor between said first thrust electromagnet and said opposing second thrust electromagnet, said currents based on an axial position of said rotor. 14. The machine of claim 1, wherein: said annular processor circuit board comprises a digital signal processor adapted to determine a pulse-width input signal to the amplifier that supplies currents to said first thrust electromagnet and said opposing second thrust electromagnet, said currents based on a desired flux level for each of said first thrust electromagnet and said opposing second thrust electromagnet. 15. The machine of claim 1, wherein: said annular power circuit board is comprised by said stator portion, and said annular power circuit board is adapted to provide electrical power to each of said first thrust electromagnet and said opposing second thrust electromagnet. 16. The machine of claim 1, wherein: said annular power circuit board is comprised by said stator portion, and said annular power circuit board is adapted to provide switching signals to the plurality of power transistors that are adapted to supply currents to said first thrust electromagnet and said opposing second thrust electromagnet. 17. The machine of claim 1, wherein: said first annular heat sink is adapted to conduct heat away from said first thrust electromagnet. 18. The machine of claim 1, further comprising: a pair of opposing annular cover plates comprised by said housing, at least one of said opposing annular cover plates defining a power aperture adapted to snugly surround an electrical power conduit. 19. The machine of claim 1, further comprising: an annular spacer comprised by said stator portion, said annular spacer adapted to maintain an predetermined axial spacing between said first thrust electromagnet and said opposing second thrust electromagnet, said annular spacer defining at least one axial aperture adapted to at least partially surround a power conduit associated with at least one of said first thrust electromagnet and said opposing second thrust electromagnet and/or a communication conduit associated with at least one of said first thrust electromagnet and said opposing second thrust electromagnet. 20. The machine of claim 1, wherein: said first touchdown surface is embedded in said first thrust electromagnet. 21. The machine of claim 1, wherein: said machine comprises the rotor. 22. A machine, comprising: a magnetic thrust bearing, comprising: a rotor portion;a stator portion; anda housing substantially surrounding said stator portion and said rotor portion,said rotor portion comprising: a thrust disk adapted to be circumferentially attached to a rotor and to rotate with the rotor, said thrust disk defining a thrust disk first side and a thrust disk second side, and said first side opposing said second side, andsaid stator portion comprising: a first thrust electromagnet and an opposing second thrust electromagnet, said first thrust electromagnet adapted to be separated by a first gap from said thrust disk first side, said opposing second thrust electromagnet adapted to be separated by a second gap from said thrust disk second side;an annular power circuit board adapted to provide switching signals to a plurality of power transistors to provide electrical power to each of said first thrust electromagnet and said opposing second thrust electromagnet;a first annular heat sink located adjacent said annular power circuit board, said first annular heat sink adapted to conduct heat away from said first thrust electromagnet and away from said plurality of power transistors, said plurality of power transistors mounted on said first annular heat sink; andan annular processor circuit board adapted to produce a net force that substantially centers said rotor portion between said first thrust electromagnet and said opposing second thrust electromagnet, said annular processor circuit board physically separated from, and electrically shielded from, said annular power circuit board. 23. A machine, comprising: a magnetic thrust bearing, comprising: a rotor portion;a stator portion; anda housing substantially surrounding said stator portion and said rotor portion,said rotor portion comprising: a thrust disk adapted to be circumferentially attached to a rotor and to rotate with the rotor, said thrust disk defining a thrust disk first side and a thrust disk second side, and said thrust disk first side opposing said thrust disk second side, andsaid stator portion comprising: a first thrust electromagnet and an opposing second thrust electromagnet, said first thrust electromagnet adapted to be separated by a first gap from said thrust disk first side, said opposing second thrust electromagnet adapted to be separated by a second gap from said thrust disk second side;an annular power circuit board adapted to provide switching signals to a plurality of power transistors to provide electrical power to each of said first thrust electromagnet and said opposing second thrust electromagnet;a first annular heat sink located adjacent said annular power circuit board, said first annular heat sink adapted to conduct heat away from said first thrust electromagnet and away from said plurality of power transistors; andan annular processor circuit board adapted to produce a net force that substantially centers said rotor between said first thrust electromagnet and said opposing second thrust electromagnet, said annular processor circuit board physically separated from, and electrically shielded from, said annular power circuit board.
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