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특허 상세정보

Hybrid motor unit with energy storage

국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판) B60K-025/00   
미국특허분류(USC) 180/66B ; 60/616 ; 60/624 ; 60/712
출원번호 US-0560573 (1975-03-21)
발명자 / 주소
인용정보 피인용 횟수 : 38  인용 특허 : 0
초록

An automotive engine unit comprises an internal combustion engine adapted to meet the power requirements of a vehicle under steady speed running conditions, a hot air turbine unit of higher power output than the internal combustion engine adapted to meet the additional power requirements for accelerating the vehicle, an air compressor driven directly or indirectly by power supplied by the internal combustion engine, and an air storage reservoir. During acceleration of the vehicle, air from the reservoir is fed to the turbine through a heat exchanger wher...

대표
청구항

An engine unit comprising an internal combustion engine, an air compressor requiring a mean power input substantially less than the maximum power output of the engine, a hot-air turbine having a maximum power output substantially greater than the maximum power output of the engine, gear boxes matching the outputs of the engine and the turbine to a common load, an air receiver connected to recieve air from the compressor, means transmitting power from the engine to the compressor, valve means connected between the receiver and the turbine to deliver air f...

이 특허를 인용한 특허 피인용횟수: 38

  1. Fogelstrom,Kenneth A.. Air brake system monitoring for pre-trip inspection. USP2008047363127.
  2. Kesseli, James B.; Nash, James S.. Ceramic-to-metal turbine shaft attachment. USP2015069051873.
  3. Baldwin, Matthew Stephen. Ceramic-to-metal turbine volute attachment for a gas turbine engine. USP20181010094288.
  4. Johnson John M. (Amboy IN). Compressed air propulsion system for a vehicle. USP1986064596119.
  5. Frey William L. (303 Ivory Ave. Pittsburgh PA 15214). Coupling. USP1984014426892.
  6. Donnelly, Frank Wegner; Dewis, David William. Dispatchable power from a renewable energy facility. USP2014108866334.
  7. Alexander, Nic. Distributed power generation system for surface transport. USP2013078485298.
  8. Bartosch, Stephan; Berger, Jurgen. Drive train comprising an expander driven by fluid or steam. USP2012098261553.
  9. Larson, Gerald L.; O'Malley, Paul W.. Engine based kinetic energy recovery system for vehicles. USP2005086922997.
  10. Latter Albert L. (Marina del Rey CA) Hammond R. Philip (Santa Monica CA) Dooley James L. (Santa Monica CA). Engine system using liquid air and combustible fuel. USP1982104354565.
  11. Kitani Hiroyuki,JPX ; Nakagawa Yoshinori,JPX. Engine waste heat recovering apparatus. USP2001106305170.
  12. Dewis, David William; Kesseli, James; Donnelly, Frank Wegner; Wolf, Thomas; Upton, Timothy; Watson, John D.. Gas turbine energy storage and conversion system. USP2013088499874.
  13. Dewis, David William; Kesseli, James; Donnelly, Frank Wegner; Wolf, Thomas; Watson, John D.. Gas turbine energy storage and conversion system. USP2014048708083.
  14. Donnelly, Frank Wegner; Dewis, David William. Gas turbine engine configurations. USP2014038669670.
  15. Bates Bradford ; Belaire Richard C. ; Stephan Craig Hammann. Hybrid electric propulsion system using a dual shaft turbine engine. USP1998065762156.
  16. Huber, David J. Hybrid gas turbine and internal combustion engine. USP2012038141360.
  17. Gonzalez Mena,Francisco. Hybrid traction system for vehicles. USP2007057216735.
  18. Hunt Hugh S. (12219 River Rd. Potomac MD 20854). Hybrid vehicles. USP1983094405029.
  19. Hedman,Mats. Internal combustion engine with steam expansion stroke. USP2006016986252.
  20. Chang Jimmy C. K. (215 Powell St. San Francisco CA 94102). Kinetic energy reclaiming system for vehicle. USP1989014798053.
  21. Kesseli, James B.; Baldwin, Matthew Stephen. Metallic ceramic spool for a gas turbine engine. USP2015038984895.
  22. Negre Guy,FRX ; Negre Cyril,FRX. Method and device for additional thermal heating for motor vehicle equipped with pollution-free engine with additional compressed air injection. USP2001106305171.
  23. Bronicki Lucien Y. (Rehovot ILX). Method and means for peaking or peak power shaving. USP1986054590384.
  24. Sneddon, Keith C.. Pneumatic compressor/motor. USP2017119816378.
  25. Domes, Timothy. Pneumatic mechanical power source. USP2015109163507.
  26. Domes, Timothy. Pneumatic mechanical power source. USP2013108561747.
  27. Domes, Timothy J.. Pneumatic mechanical power source. USP2012078225900.
  28. Sneddon, Keith C.. Pneumatic-based drive power for motorized vehicles. USP2018019855835.
  29. Kimes,John W.. Powertrain including a rotary IC engine and a continuously variable planetary gear unit. USP2008127461626.
  30. Suzuki, Makoto. Regenerative catalytic apparatus in hybrid vehicle. USP2004046718758.
  31. Anderson,Donald C.; Lee, III,Edmund S.. Regenerative self propelled vehicles. USP2008087416039.
  32. Saeger, Martin. System and method for braking recuperation in motor vehicle. USP2017059663080.
  33. Wang, Lifeng. System economically using compressed air as an automobile power source and method thereof. USP20190410252607.
  34. Hakala James R.. System for generating electricity in a vehicle. USP2000106138781.
  35. Sneddon, Keith C.. Thermal energy recovery. USP2016019234530.
  36. Jobson,Edward. Thermal energy recovery device. USP2006127152407.
  37. Kay, Steven D.; Shapiro, Jeffrey S.; Hammerquist, Robert E.; Hartney, Steven A.. Variable booster for hybrid pneumatic regenerative system. USP20180710012247.
  38. Ogawa, Ken; Okada, Yasushi; Baba, Tsuyoshi; Ibaraki, Shigeru. Vehicle driving device. USP2005016837049.