Gaseous fuel vehicle and automatic vent system
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F16K-017/38
F16K-017/36
출원번호
US-0117873
(2005-04-29)
등록번호
US-7337799
(2008-03-04)
우선권정보
FR-04 04690(2004-04-30)
발명자
/ 주소
Delfino,Antonio
Laurent,Daniel
Macherel,Philippe
출원인 / 주소
Conception Et Developpement Michelin S.A.
Paul Scherrer Institut
대리인 / 주소
Fitzpatrick, Cella, Harper & Scinto
인용정보
피인용 횟수 :
8인용 특허 :
16
초록▼
A vehicle (1) equipped with a tank (2) for storage of a fluid under pressure on the vehicle, the tank being connected to at least one vent channel (3 and 33), the vent channel leading to a discharge orifice (34), the vent channel being connected to the tank by means of at least one safety valve, whe
A vehicle (1) equipped with a tank (2) for storage of a fluid under pressure on the vehicle, the tank being connected to at least one vent channel (3 and 33), the vent channel leading to a discharge orifice (34), the vent channel being connected to the tank by means of at least one safety valve, wherein in that the safety valve is a thermal release valve (5), normally closed and capable of opening spontaneously under the effect of a rise in temperature, the safety valve being installed in a predefined zone of the vehicle and the discharge orifice being remote from the predefined zone.
대표청구항▼
The invention claimed is: 1. A vehicle comprising a tank for storage of a fluid under pressure on the vehicle, the tank being connected to at least one vent channel, each vent channel leading to a discharge orifice, each vent channel being connected to the tank by means of at least one safety valve
The invention claimed is: 1. A vehicle comprising a tank for storage of a fluid under pressure on the vehicle, the tank being connected to at least one vent channel, each vent channel leading to a discharge orifice, each vent channel being connected to the tank by means of at least one safety valve, wherein each safety valve includes a thermal release valve that is normally closed and capable of opening spontaneously in response to a rise in temperature, each safety valve being installed in a respective predefined zone of the vehicle and the discharge orifice being remote from each respective predefined zone, wherein the thermal release valve includes a release element with a disk-shaped pellet formed of a shape memory alloy such that, when the pellet is subjected for the first time to a rise in temperature beyond a predefined threshold temperature, the release element adopts a memorized shape in a thermally irreversible manner, and wherein the adoption of the memorized shape causes the pellet to apply a force that opens the thermal release valve. 2. The vehicle according to claim 1, wherein the thermal release valve is adjacent to the tank. 3. The vehicle according to claim 1, wherein the discharge orifice is situated on the vehicle in a zone on an opposite side of the vehicle from the thermal release valve. 4. The vehicle according to claim 1, wherein the thermal release valve comprises a ball cooperating with a seat, a spring pushing the ball against the seat, and a piston interposed between the ball and the pellet, such that the piston pushes the ball out of the seat when the pellet passes from the first shape to the memorized shape. 5. The vehicle according to claim 1, wherein the release element of the thermal release valve includes a capsule that is destructible when heated. 6. The vehicle according to claim 1, wherein the pellet has an approximately flat shape at ambient temperature. 7. A vehicle comprising a tank for storage of a fluid under pressure on the vehicle, the tank being connected to at least one vent channel, each vent channel leading to a discharge orifice, each vent channel being connected to the tank by means of at least one safety valve, wherein each safety valve includes a thermal release valve that is normally closed and capable of opening spontaneously in response to a rise in temperature, each safety valve being installed in a respective predefined zone of the vehicle and the discharge orifice being remote from each respective predefined zone, wherein the tank includes an assembly of interconnected cells to ensure circulation of the fluid necessary for use of the vehicle, and wherein at least two cells are each branched at a vent channel, each of the at least two cells being connected to the vent channel by means of at least two safety valves, one of the two safety valves being the thermal release valve, and the other of the two safety valve being a pressure threshold valve that opens automatically beyond a predefined pressure threshold, and wherein the thermal release valve includes a release element formed of a shape memory alloy, such that the release element adopts a memorized shape in a thermally irreversible manner when heated above a predetermined temperature, and wherein the adoption of the memorized shape causes the release element to apply a force that opens the thermal release valve. 8. The vehicle according to claim 1, further comprising a floor, wherein the thermal release valve is installed under the floor and wherein the discharge orifice leads to the surface of the vehicle opposite the floor. 9. The vehicle according to claim 1, further comprising a fuel cell, wherein the tank ensures storage of gaseous hydrogen. 10. A vehicle comprising a tank for storage of a fluid under pressure on the vehicle, the tank being connected to at least one vent channel, each vent channel leading to a discharge orifice, each vent channel being connected to the tank by means of at least one safety valve, wherein each safety valve includes a thermal release valve that normally closed and capable of opening spontaneously in response to a rise in temperature, each safety valve being installed in a respective predefined zone of the vehicle and the discharge orifice being remote from each respective predefined zone, wherein the thermal release valve includes a release mechanism that utilizes a release element produced from a shape memory alloy configured so that the release element assumes a first approximately flat shape at ambient temperature and, when the release element is subjected for the first time to a rise in temperature above a predefined threshold temperature, the release element adopts a memorized spherical cap shape in a thermally irreversible manner, and wherein the adoption of the memorized spherical cap shape produces an applied force that opens the thermal release valve. 11. The vehicle according to claim 10, wherein the thermal release valve includes a ball cooperating with a seat and a spring pushing the ball against the seat in order to keep the valve in the normally closed position at ambient temperature, and wherein the release element includes a pellet made of a shape memory alloy, the release mechanism further including a piston interposed between the ball and the pellet, the piston pushing the ball out of the seat when the pellet passes from the first shape to the memorized shape, in response to a thrust exercised by the pellet.
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이 특허에 인용된 특허 (16)
Abe,Noriyuki; Furuya,Junichi, Fuel injection control apparatus for internal combustion engine and method thereof, and fuel injection valve.
Sciullo Dino V. (Pittsburgh PA) Borland Robin N. (McMurray PA) Daniels James R. (McDonald PA), Piston-type thermally or pressure activated relief device.
Lhymn Chang ; Lhymn Jane Lee, Thermally activated pressure relief valve or fuse plug for protecting pressurized devices from over pressure due to fire.
Delfino, Antonio, Electrically powered vehicle having a fuel cell comprising a sodium chlorate decomposition reactor for supplying the cell with oxygen.
Delfino, Antonio, System for producing and supplying hydrogen and sodium chlorate, comprising a sodium chloride electrolyser for producing sodium chlorate.
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