USRE49476EActiveUtilityPatentIndex 55
Fuel cell vehicle
Est. expiryMar 8, 2037(~10.7 yrs left)· nominal 20-yr term from priority
Inventors:AISHIMA TETSUJI
Y02T90/40H01M 8/04014H01M 50/20H01M 8/04029B60K 2001/003B60K 15/07Y02E60/10B60K 2015/03414B60Y 2400/202B60L 58/33B60L 3/0053H01M 8/0606B60L 50/72B60K 2015/0634B60K 2015/03315B60L 50/50B60K 1/00H01M 8/2465B60Y 2306/01Y02E60/50H01M 8/04074B60L 50/71Y02T10/70H01M 8/04201B60K 15/03006B60Y 2306/05B60K 2015/0635B60L 3/0007H01M 8/04089H01M 2250/30Y02B90/10
55
PatentIndex Score
0
Cited by
22
References
7
Claims
Abstract
A fuel cell vehicle comprising: a hydrogen tank which is mounted on the vehicle so as to have a center axis generally parallel to a front/rear direction of the vehicle; a high-voltage electric component which is positioned either forward or rearward of the hydrogen tank and which operates on high voltage; an aftercooler placed between the hydrogen tank and the high-voltage electric component to cool compressed air; and a fuel cell stack which is supplied with the cooled compressed air.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1. A fuel cell vehicle comprising:
a hydrogen tank which is mounted on the vehicle so as to have a center axis generally substantially parallel to a front/rear direction of the vehicle;
a high-voltage electric component which is positioned either forward or rearward of the hydrogen tank and which operates on high voltage;
an aftercooler placed between the hydrogen tank and the high-voltage electric component on a common plane, wherein the aftercooler, the hydrogen tank and the high-voltage electric component are in the common plane, and the common plane is substantially parallel to the front/rear direction of the vehicle, wherein the high-voltage electric component aftercooler is adapted to cool compressed air; and
a fuel cell stack which is supplied with the cooled compressed air.
2. The fuel cell vehicle in accordance with claim 1 , further comprising
a front room formed forward of a cabin, wherein
the high-voltage electric component is housed in the front room, and
the hydrogen tank is positioned rearward of the high-voltage electric component.
3. The fuel cell vehicle in accordance with claim 2 , wherein
the high-voltage electric component is an air compressor for feeding compressed air into the aftercooler, and
the fuel cell stack is housed in the front room,
the fuel cell vehicle further comprising an oxidizing gas supply path which is connected to a rear face of the fuel cell stack and which allows the cooled compressed air to flow therethrough.
4. The fuel cell vehicle in accordance with claim 3 , wherein
the air compressor is placed downward of the fuel cell stack.
5. The fuel cell vehicle in accordance with claim 1 , wherein
the high-voltage electric component is an air compressor for feeding compressed air into the aftercooler.
6. The fuel cell vehicle in accordance with claim 1 , wherein
the aftercooler is mounted in such an inclined posture that its bottom face intersects the front/rear direction.
7. The fuel cell vehicle in accordance with claim 1 , further comprising
a center tunnel which is an under-floor space formed by swelling of a floor of a cabin of the fuel cell vehicle, wherein
the hydrogen tank is placed within the center tunnel.Cited by (0)
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