IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0032714
(2001-12-26)
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발명자
/ 주소 |
- Kumar, Ajith Kuttannair
- Mesalic, Admir
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출원인 / 주소 |
- General Electric Company, Carl Rowold
|
대리인 / 주소 |
Senniger, Powers, Leavitt & Roedel
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인용정보 |
피인용 횟수 :
79 인용 특허 :
28 |
초록
▼
An energy tender vehicle for use in connection with a hybrid energy locomotive system having an energy storage and regeneration system. The energy storage and regeneration system captures dynamic braking energy, excess motor energy, and externally supplied energy in one or more energy storage subsys
An energy tender vehicle for use in connection with a hybrid energy locomotive system having an energy storage and regeneration system. The energy storage and regeneration system captures dynamic braking energy, excess motor energy, and externally supplied energy in one or more energy storage subsystems, including a flywheel, a battery, an ultra-capacitor, or a combination of such subsystems. In one form, the energy storage and regeneration system is located in the energy tender vehicle. The energy tender vehicle is optionally equipped with traction motors. In one form, the energy tender is configured to operate without any power connections to the locomotive. An energy management system is responsive to power storage and power transfer parameters, including data indicative of present and future track profile information, to determine present and future electrical energy storage and supply requirements. The energy management system controls the storage and regeneration of energy accordingly.
대표청구항
▼
An energy tender vehicle for use in connection with a hybrid energy locomotive system having an energy storage and regeneration system. The energy storage and regeneration system captures dynamic braking energy, excess motor energy, and externally supplied energy in one or more energy storage subsys
An energy tender vehicle for use in connection with a hybrid energy locomotive system having an energy storage and regeneration system. The energy storage and regeneration system captures dynamic braking energy, excess motor energy, and externally supplied energy in one or more energy storage subsystems, including a flywheel, a battery, an ultra-capacitor, or a combination of such subsystems. In one form, the energy storage and regeneration system is located in the energy tender vehicle. The energy tender vehicle is optionally equipped with traction motors. In one form, the energy tender is configured to operate without any power connections to the locomotive. An energy management system is responsive to power storage and power transfer parameters, including data indicative of present and future track profile information, to determine present and future electrical energy storage and supply requirements. The energy management system controls the storage and regeneration of energy accordingly. ically ignitable primer as well as a propellant charge powder. 10. Ammunition in accordance with claim 9, wherein inside said double can underneath said partition wall in the direction of the launcher tube bottom, a disc having venting bores is arranged. 11. Ammunition in accordance with claim 10, wherein said venting bores are covered with rupture foil. 12. Ammunition in accordance with claim 11, wherein predetermined breaking points are provided in said double can outer wall in a range of said active mass. 13. Ammunition in accordance with claim 12, wherein on the front end thereof a protective cap extending over the launcher tube is provided. 14. Ammunition in accordance with claim 1, wherein said active mass includes smoke-generation pressed bodies and IR radiation emitting flares. 15. Ammunition in accordance with claim 1, wherein said double can is closed on its front-end side with a lid sealed by an O-ring. 16. Ammunition in accordance with claim 15, wherein said lid is fixed by crimping on said O-ring, flanging of the front-end double can end, and creasing in front of the lid. 17. Ammunition in accordance with claim 1, wherein said detonation separator charge includes igniter means for igniting said active mass and separating said double can, as well as a delay element. 18. Ammunition in accordance with claim 1, wherein said ejection charge is fastened on a side of said partition wall facing a launcher tube bottom. 19. Ammunition in accordance with claim 1, wherein said ejection charge includes an electrically ignitable primer as well as a propellant charge powder. 20. Ammunition in accordance with claim 1, wherein inside said double can underneath said partition wall in a direction of a launcher tube bottom, a disc having venting bores is arranged. 21. Ammunition in accordance with claim 20, wherein said venting bores are covered with rupture foil. 22. Ammunition in accordance with claim 1, wherein predetermined breaking points are provided in said double can outer wall in a range of said active mass. 23. Ammunition in accordance with claim 1, wherein on the front end thereof a protective cap extending over the launcher tube is provided. 24. Ammunition for smoke generation for protection of combat vehicles, including: a shell, at least one active mass arranged therein, at least one detonation separator charge, at least one ejection charge for ejecting said ammunition from a launcher tube, and electrical contact means for igniting said ejection charge, wherein said shell is formed as an integral two-chamber double can having a partition wall shared by both chambers, wherein a wall thickness of said partition wall is greater than a wall thickness of an outer wall of said double can, wherein an end of said double can located in a direction of a front-end launcher tube muzzle is closed gas-tight with a lid fixed by crimping on an O-ring, flanging of the front-end double can end, and creasing in front of the lid, and wherein inside said double can underneath said partition wall in a direction of the launcher tube bottom, a disc having venting bores is arranged, wherein said venting bores are covered with rupture foil. 25. Ammunition for smoke generation for protection of combat vehicles, including: a shell, at least one active mass arranged therein, at least one detonation separator charge, at least one ejection charge for ejecting said ammunition from a launcher tube, and electrical contact means for igniting said ejection charge, wherein said shell is formed as an integral two-chamber double can having a partition wall shared by both chambers, wherein a wall thickness of said partition wall is greater than a wall thickness of an outer wall of said double can, and an end of said double can located in a direction of a front-end launcher tube muzzle is closed gas-tight, wherein said double can is made of an extruded metal, wherein said active mass includes smoke-generation pressed bodies and IR radiation emitti ng flares, and wherein said double can is closed on its front-end side with a lid sealed by an O-ring. 26. Ammunition in accordance with claim 7, wherein said delay element is a pyrotechnical delay element. 27. Ammunition according to claim 5, wherein said double can is formed of copper and/or zinc and/or magnesium and/or silicon and/or manganese. id fixing position. 12. The sheet-fed rotary printing machine according to claim 11, wherein: said framework has bore; and said second form-fitting element is a bolt disposed on said actuating element and, in said fixing position of said actuating element, is at least partially accommodated in said bore of said framework. 13. The sheet-fed rotary printing machine according to claim 12, wherein said bolt has a bevel formed thereon. 14. The sheet-fed rotary printing machine according to claim 5, including a further actuating element fixing said cylinder relative to said framework. 15. The sheet-fed rotary printing machine according to claim 14, wherein: said cylinder has an arm with a recess; said further actuating element is a slide guided on said framework and at least partially engages in said recess to fix said cylinder. 16. The sheet-fed rotary printing machine according to claim 15, wherein said further actuating element is radially displaceable and is resiliently mounted in a tangential direction with respect to said cylinder. 17. The sheet-fed rotary printing machine according to claim 14, wherein said further actuating element is radially displaceable and is resiliently mounted in a tangential direction with respect to said cylinder. 18. The sheet-fed rotary printing machine according to claim 4, including an actuating member movable relative to said actuating element, said actuating member being displaceable axially between: a coupling position, in which said cylinder is coupled to said driving gearwheel; and a fixing position, in which said cylinder is fixed relative to said framework. 19. The sheet-fed rotary printing machine according to claim 10, including a first form-fitting element, said actuating gearwheel being form-fittingly connected to said cylinder, through said first form-fitting element, indirectly through said actuating element in said coupling position of said actuating member. 20. The sheet-fed rotary printing machine according to claim 19, including a second form-fitting element connecting said actuating element to said framework in said fixing position. 21. The sheet-fed rotary printing machine according to claim 20, wherein: said framework has bore; and said second form-fitting element is a bolt disposed on said actuating member and, in said fixing position of said actuating member, is at least partially accommodated in said bore of said framework. 22. The sheet-fed rotary printing machine according to claim 21, wherein: said second form-fitting element is connected to said first form-fitting element; and a latching configuration retains said second form-fitting element on said framework in said fixing position of said actuating member. 23. The sheet-fed rotary printing machine according to claim 22, wherein said second form-fitting element is integral with said first form-fitting element. 24. The sheet-fed rotary printing machine according to claim 4, including an actuating member mounted on said actuating element, said actuating member having: a first form-fitting element; and a second form-fitting element, said actuating member moveable between a coupling position, in which said cylinder is connected to said actuating gearwheel in a rotationally fixed manner through said first form-fitting element, and a fixing position, in which said cylinder is connected to said framework in a rotationally fixed manner through said second form-fitting element. 25. The sheet-fed rotary printing machine according to claim 24, wherein: an actuating configuration has an actuated state and a non-actuated state and is connected to and actuates said actuating member; and a prestressed spring retains said actuating member in one of said coupling position and said fixing position in said non-actuated state of said actuating configuration. 26. The sheet-fed rotary printing machine according to claim 24, wherein: said actuating member is a lever pivotably connected to said ac
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