Torsion lock encoder device for internal combustion engine
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02B-075/06
F02B-075/32
F02D-041/34
F02P-007/073
F02P-007/067
출원번호
US-0133416
(2008-06-05)
등록번호
US-8100104
(2012-01-24)
발명자
/ 주소
Widdall, Leon A.
Williams, Rick L.
Morgan, Patrick B.
출원인 / 주소
Ford Global Technologies
대리인 / 주소
Drouillard, Jerome R.
인용정보
피인용 횟수 :
0인용 특허 :
11
초록▼
An internal combustion engine crankshaft assembly includes a crankshaft having an output device, such as a flywheel or crankshaft damper, fastened to the crankshaft. An electronic engine control device is positioned between the crankshaft and the output device. The electronic engine control device i
An internal combustion engine crankshaft assembly includes a crankshaft having an output device, such as a flywheel or crankshaft damper, fastened to the crankshaft. An electronic engine control device is positioned between the crankshaft and the output device. The electronic engine control device includes a generally planar base which contacts both the output device and the crankshaft. The planar base is coated with a pressure-responsive friction-promoting material which causes the output device to be torsionally locked with respect to the crankshaft.
대표청구항▼
1. An internal combustion engine crankshaft assembly, comprising: a crankshaft having a plurality of output ends:a power transmission device fastened to at least one of said plurality of output ends; anda sensor wheel positioned between said at least one output end and said power transmission device
1. An internal combustion engine crankshaft assembly, comprising: a crankshaft having a plurality of output ends:a power transmission device fastened to at least one of said plurality of output ends; anda sensor wheel positioned between said at least one output end and said power transmission device, with said sensor wheel comprising:a generally planar base having a first side in contact with said output end, and a second side in contact with said power transmission device;an integral, ring-shaped sensor element circumscribing said generally planar base; anda pressure-responsive, friction-promoting material applied to both of said first side and said second side of said sensor wheel, whereby said power transmission device is torsionally locked with respect to said at least one output end. 2. An internal combustion engine crankshaft assembly according to claim 1, wherein said power transmission device comprises a flywheel. 3. An internal combustion engine crankshaft assembly according to claim 1, wherein said power transmission device comprises a crankshaft damper. 4. An internal combustion engine crankshaft assembly according to claim 1, wherein said output end comprises an output flange. 5. An internal combustion engine crankshaft assembly according to claim 1, wherein said output end comprises a crankshaft damper mounting stub. 6. An internal combustion engine crankshaft assembly according to claim 1, wherein said friction-promoting material comprises a diamond-filled nickel phosphate coating. 7. An internal combustion engine crankshaft assembly, comprising: a crankshaft having an output flange;a flywheel fastened to said output flange; anda sensor wheel positioned between said output flange and said flywheel, with said sensor wheel comprising:a generally planar base having a first side in contact with said output flange, and a second side in contact with said flywheel;an integral, ring-shaped sensor element circumscribing said generally planar base; anda pressure-responsive, friction-promoting material applied to both of said first side and said second side of said sensor wheel, whereby said flywheel is torsionally locked with respect to said crankshaft flange. 8. A crankshaft assembly according to claim 7, wherein said output flange is configured as a right, circular, truncated cylinder. 9. A crankshaft assembly according to claim 7, wherein said generally planar base of said sensor wheel is configured as an annulus having a pilot bore which is engaged with a pilot formed on said crankshaft. 10. A crankshaft assembly according to claim 7, wherein said friction-promoting material comprises a mineral-based particulate. 11. A crankshaft assembly according to claim 7, wherein said friction-promoting material comprises a crystalline diamond composition. 12. A crankshaft assembly according to claim 7, wherein said sensor wheel comprises a toothed encoder wheel incorporated in a spark timing control system of an engine. 13. A crankshaft assembly according to claim 7, wherein said sensor wheel comprises a crankshaft position encoder wheel for an electronic engine control system. 14. A crankshaft assembly according to claim 7, wherein said flywheel comprises a flexplate. 15. A crankshaft assembly according to claim 7, wherein said flywheel and said sensor wheel are fastened to said output flange by threaded fasteners. 16. An internal combustion engine crankshaft assembly, comprising: a crankshaft having an output flange;a flywheel fastened to said output flange; andan electronic engine control device positioned between said output flange and said flywheel, with said control device comprising:a generally planar base having a first side in contact with said output flange, and a second side in contact with said flywheel; anda pressure-responsive, friction-promoting material applied to both of said first side and said second side of said control device, whereby said flywheel is torsionally locked with respect to said crankshaft flange. 17. A crankshaft assembly according to claim 16, wherein said engine control device comprises a crankshaft position encoder which is essential to operation of at least one of the spark timing and fuel injection timing of an engine. 18. A crankshaft assembly according to claim 16, wherein said friction-promoting material comprises an abrasive composition. 19. A crankshaft assembly according to claim 16, wherein said friction-promoting material comprises a crystalline diamond composition. 20. A crankshaft assembly according to claim 17, wherein said encoder is essential to operation of a compression ignition engine fuel injection system. 21. An internal combustion engine crankshaft assembly, comprising: a crankshaft having a crankshaft damper mounting stub;a crankshaft damper fastened to said crankshaft damper mounting stub; andan electronic engine control device positioned between said crankshaft damper mounting stub and said crankshaft damper, with said control device comprising:a generally planar base having a first side in contact with said crankshaft damper mounting stub, and a second side in contact with said crankshaft damper; anda pressure-responsive, friction-promoting material applied to both of said first side and said second side of said control device, whereby said crankshaft damper is torsionally locked with respect to said crankshaft damper mounting stub. 22. A crankshaft assembly according to claim 21, wherein said engine control device comprises a rotary position encoder wheel.
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이 특허에 인용된 특허 (11)
Haller James Michael, Cam phaser position detection.
Anderson Warren A. (1874 Main Road Tiverton RI 02878), Mechanism of improving the regulation of rotary power sources subject to intermittent short term overload.
Puskorius Gintaras Vincent (Redford MI) Feldkamp Lee Albert (Plymouth MI), Nonlinear dynamic transform for correction of crankshaft acceleration having torsional oscillations.
Branchereau,Bernard, Rotary shaft dynamic seal provided with an angular encoder device, a device including such a seal, and a method of fabricating such a seal.
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