IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0339160
(2006-01-25)
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등록번호 |
US-7571597
(2009-08-25)
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발명자
/ 주소 |
|
출원인 / 주소 |
- Honeywell International Inc.
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대리인 / 주소 |
Ingrassia Fisher & Lorenz, P.C.
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인용정보 |
피인용 횟수 :
9 인용 특허 :
19 |
초록
▼
A system and method for precisely controlling lubricant supply flow to one or more rotating machines in an aircraft includes a motor, a pump, and a motor control unit. The motor is coupled to receive motor speed commands and, in response to the commands, rotates at the commanded motor speed and supp
A system and method for precisely controlling lubricant supply flow to one or more rotating machines in an aircraft includes a motor, a pump, and a motor control unit. The motor is coupled to receive motor speed commands and, in response to the commands, rotates at the commanded motor speed and supplies a drive force to the pump. The pump, upon receipt of the drive force, draws lubricant from a lubricant source and supplies it to a rotating machine. The motor control unit determines a scheduled lubricant supply pressure based at least in part on lubricant temperature, rotating machine rotational speed, and one or more aircraft operating conditions, and to supplies the motor speed commands to the motor that cause the pump to supply lubricant at the scheduled lubricant supply pressure.
대표청구항
▼
I claim: 1. An aircraft lubrication supply system, comprising: a motor coupled to receive motor speed commands representative of a commanded motor speed and operable, in response thereto, to rotate at the commanded motor speed and supply a drive force; a pump having at least a fluid inlet and a flu
I claim: 1. An aircraft lubrication supply system, comprising: a motor coupled to receive motor speed commands representative of a commanded motor speed and operable, in response thereto, to rotate at the commanded motor speed and supply a drive force; a pump having at least a fluid inlet and a fluid outlet, the fluid inlet adapted to couple to a lubricant source, the pump coupled to receive the drive force from the motor and configured, in response thereto, to draw lubricant from the lubricant source into the fluid inlet and supply lubricant, via the fluid outlet, to a rotating machine; a lubricant filter having a filter inlet and a filter outlet, the filter inlet coupled to receive at least a portion of the lubricant supplied via the pump fluid outlet, the lubricant filter configured to filter the lubricant received thereby and discharge filtered lubricant via the filter outlet; a filter inlet pressure sensor disposed upstream of the filter inlet, the filter inlet pressure sensor configured to sense filter inlet pressure and supply a filter inlet pressure signal representative thereof; a filter outlet pressure sensor disposed downstream of the filter outlet, the filter outlet pressure sensor configured to sense filter outlet pressure and supply a filter outlet pressure signal representative thereof; a motor control unit coupled to receive the filter inlet pressure signal, the filter outlet pressure signal, one or more signals representative of lubricant temperature, a signal representative of rotating machine rotational speed, and one or more signals representative of aircraft operating conditions, the motor control unit operable to: (i) determine a scheduled lubricant supply pressure based at least in part on the lubricant temperature, the rotating machine rotational speed, and the one or more aircraft operating conditions, (ii) supply motor speed commands to the motor that cause the pump to supply lubricant at the scheduled lubricant supply pressure, (iii) implement a closed-loop pressure control law that uses a pressure feedback signal to determine actual lubricant supply pressure, (iv) compare the actual lubricant supply pressure to the scheduled lubricant supply pressure, and (v) determine operability of the filter outlet pressure sensor, wherein the motor control unit uses the filter outlet pressure signal as the pressure feedback signal if the filter outlet pressure sensor is determined to be operating properly and uses the filter inlet pressure signal as the pressure feedback signal if the filter outlet pressure sensor is determined to not be operating properly. 2. The system of claim 1, wherein the motor control unit is further operable to (i) determine a pressure drop across the filter based on the sensed filter inlet pressure and sensed filter outlet pressures and (ii) store one or more values representative of thereof. 3. The system of claim 2, wherein the motor control unit is further operable, upon determining that the filter outlet pressure sensor is not operating properly, to determine lubricant supply pressure based on filter inlet pressure and a stored value representative of the determined pressure drop across the filter. 4. The system of claim 1, further comprising: a rotational speed sensor configured to sense motor rotational speed and supply a speed feedback signal representative thereof to the motor control unit. 5. The system of claim 4, wherein the motor control unit selectively implements either the closed-loop pressure control law, which uses the pressure feedback signal to determine actual lubricant supply pressure, or a closed-loop speed control law, which uses the speed feedback signal to determine actual motor rotational speed. 6. The system of claim 1, wherein the one or more signals representative of aircraft operating conditions include: a signal representative of aircraft altitude; and a signal representative of aircraft attitude. 7. The system of claim 1, further comprising: an altitude sensor configured to sense aircraft altitude and supply the signal representative thereof; and an attitude sensor configured to sense aircraft attitude and supply the signal representative thereof. 8. The system of claim 1, wherein: the one or more signals representative of lubricant temperature includes a signal representative of a bearing sump lubricant exit temperature; and wherein the motor control unit selectively implements either the closed-loop pressure control law, which uses the lubricant supply pressure feedback signal to determine actual lubricant supply pressure, or a closed-loop temperature control law, which uses the bearing sump lubricant exit temperature as a feedback signal. 9. The system of claim 1, wherein: the aircraft lubrication supply system is adapted to be installed in an aircraft having a cooling system with a cooling load; the motor control unit is further adapted to receive a signal representative of the cooling load; and the motor control unit is further operable to determine the scheduled lubricant supply pressure based at least additionally in part on the cooling load. 10. The system of claim 1, wherein: the aircraft lubrication supply system is adapted to be installed in an aircraft having an electrical system with an electrical system load; the motor control unit is further adapted to receive a signal representative of the electrical system load; and the motor control unit is further operable to determine the scheduled lubricant supply pressure based at least additionally in part on the electrical system load. 11. An aircraft lubrication supply system, comprising: a motor coupled to receive motor speed commands representative of a commanded motor speed and operable, in response thereto, to rotate at the commanded motor speed and supply a drive force; a pump having at least a fluid inlet and a fluid outlet, the fluid inlet adapted to couple to a lubricant source, the pump coupled to receive the drive force from the motor and configured, in response thereto, to draw lubricant from the lubricant source into the fluid inlet and supply lubricant, via the fluid outlet, to a rotating machine; a lubricant filter having a filter inlet and a filter outlet, the filter inlet coupled to receive at least a portion of the lubricant supplied via the pump fluid outlet, the lubricant filter configured to filter the lubricant received thereby and discharge filtered lubricant via the filter outlet; and a filter outlet pressure sensor disposed downstream of the filter outlet, the filter outlet pressure sensor configured to sense filter outlet pressure and supply a pressure feedback signal representative thereof; a rotational speed sensor configured to sense motor rotational speed and supply a speed feedback signal representative thereof; and a motor control unit coupled to receive one or more signals representative of lubricant temperature, a signal representative of rotating machine rotational speed, one or more signals representative of aircraft operating conditions, the speed feedback signal, and the pressure feedback signal, the motor control unit operable to: (i) determine a scheduled lubricant supply pressure based at least in part on lubricant temperature, the rotating machine rotational speed, and the one or more aircraft operating conditions, (ii) supply motor speed commands to the motor that cause the pump to supply lubricant at the scheduled lubricant supply pressure, (iii) determine actual lubricant supply pressure, (iv) compare the actual lubricant supply pressure to the scheduled lubricant supply pressures, (v) determine operability of the filter outlet pressure sensor, and (vi) implement a closed-loop speed control law, which uses the speed feedback signal to determine actual motor rotational speed, if the filter outlet pressure sensor is determined to be inoperable.
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