Automatic distributed heating system for a ram air turbine power train
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F01D-025/10
B64D-041/00
출원번호
US-0588950
(2012-08-17)
등록번호
US-9296487
(2016-03-29)
발명자
/ 주소
Larson, Jr., Michael E.
출원인 / 주소
Hamilton Sunstrand Corporation
대리인 / 주소
Mican, Stephen G.
인용정보
피인용 횟수 :
0인용 특허 :
6
초록▼
A distributed heating system for a power train of a ram air turbine, which ram air turbine has a stowed position and a deployed position, has at least one electrical resistance heater element, with each electrical resistance heater element located proximate at least one respective lubrication surfac
A distributed heating system for a power train of a ram air turbine, which ram air turbine has a stowed position and a deployed position, has at least one electrical resistance heater element, with each electrical resistance heater element located proximate at least one respective lubrication surface for the power train; and an electrical controller for coupling electrical power to each electrical resistance heater element when the ram air turbine is in the stowed position and ambient temperature falls below a desired level.
대표청구항▼
1. A distributed heating system for a power train of a ram air turbine, which ram air turbine has a stowed position and a deployed position, comprising: multiple electrical resistance heater elements, with each electrical resistance heater element mounted on lubrication surfaces for the power train;
1. A distributed heating system for a power train of a ram air turbine, which ram air turbine has a stowed position and a deployed position, comprising: multiple electrical resistance heater elements, with each electrical resistance heater element mounted on lubrication surfaces for the power train; andan electrical controller that directs power to energize each electrical resistance heater element to heat the lubricant to a temperature that reduces the viscosity of the lubricant in order to enhance lubrication of the power train;the electrical resistance heater elements being energized when the ram air turbine is in the stowed position and ambient temperatures causes the viscosity of the lubricant to be above acceptable levels. 2. The distributed heating system of claim 1, wherein the power train comprises a gear box with bearings and a gear set. 3. The distributed heating system of claim 1, wherein the power train comprises a drive line. 4. The distributed heating system of claim 1, wherein the power train comprises an electrical generator. 5. The distributed heating system of claim 1, wherein the power train comprises a hydraulic pump. 6. The distributed heating system of claim 1, wherein each lubrication surface comprises a lubrication surface of bearings in the power train. 7. The distributed heating system of claim 1, wherein each lubrication surface comprises a lubrication surface of gears in the power train. 8. The distributed heating system of claim 1, wherein each electrical resistance heater element is of the flexible circuit type. 9. The distributed heating system of claim 1, wherein each electrical resistance heater element is of the resistance wire type. 10. The distributed heating system of claim 1, wherein each electrical resistance heater element mounts along a surface of the power train proximate at least one respective lubrication surface for the power train. 11. The distributed heating system of claim 1, wherein the electrical controller receives the electrical power from an electrical power supply line, couples the electrical power to each electrical resistance heater unit by means of an electrical wiring line, monitors an ambient temperature signal that it receives from an electrical temperature signal line and monitors a ram air turbine deployment signal that it receives from a deployment signal line. 12. A distributed heating system for a power train of a ram air turbine, which ram air turbine has a stowed position and a deployed position, comprising: multiple electrical resistance heater elements, with each electrical resistance heater element mounted along a surface of the power train proximate at least a respective one of multiple lubrication surfaces for the power train;an electrical wiring line to interconnect each electrical resistance heater element; andan electrical controller that monitors an ambient temperature signal received from a temperature signal line and a ram air turbine deployment signal received from a deployment signal line for coupling electrical power received from an electrical power supply line to the electrical wiring line to feed the electrical power to each electrical resistance heater element to heat a section of the power train proximate at least the respective one of its lubrication surfaces to a temperature that reduces the viscosity of the lubricant in order to enhance lubrication of the power train when the ram air turbine is in the stowed position and ambient temperatures causes the viscosity of the lubricant to be above acceptable levels. 13. The distributed heating system of claim 12, wherein the power train comprises a gear box with bearings and a gear set. 14. The distributed heating system of claim 12, wherein the power train comprises a drive line. 15. The distributed heating system of claim 12, wherein the power train comprises an electrical generator. 16. The distributed heating system of claim 12, wherein the power train comprises a hydraulic pump. 17. The distributed heating system of claim 12, wherein each lubrication surface comprises a lubrication surface of bearings in the power train. 18. The distributed heating system of claim 12, wherein each lubrication surface comprises a lubrication surface of gears in the power train. 19. The distributed heating system of claim 12, wherein each electrical resistance heater element is of the flexible circuit type. 20. The distributed heating system of claim 12, wherein each electrical resistance heater element is of the resistance wire type.
Walsh Richard E. (Rockford IL) Legault Craig S. (Rockford IL), Method and apparatus for deploying ram air turbine and lubricating gear drive therefrom.
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