A fuel cell system to be mounted on an electric vehicle such as a hybrid vehicle or an electric vehicle. Cooling water is supplied from a cooling water inlet of a stack manifold, flows through a fuel cell stack, and returns to the stack manifold. A groove is formed on the rear surface side of the st
A fuel cell system to be mounted on an electric vehicle such as a hybrid vehicle or an electric vehicle. Cooling water is supplied from a cooling water inlet of a stack manifold, flows through a fuel cell stack, and returns to the stack manifold. A groove is formed on the rear surface side of the stack manifold, constituting, together with a terminal, a cooling water channel. The cooling water flows through the cooling water channel, and is discharged to the outside from a cooling water outlet. The cooling water channel is formed extending from the rear side to the front side of the vehicle, and warms an end plate. A pipe length of the cooling water channel to a radiator mounted in a front part of the vehicle is reduced.
대표청구항▼
1. A fuel cell system, comprising: a fuel cell stack comprising a plurality of cells being stacked;a plate terminal provided at an end part of the fuel cell stack in a stacking direction;a stack manifold adjacent to the terminal; andan end plate adjacent to the stack manifold,whereinthe stack manifo
1. A fuel cell system, comprising: a fuel cell stack comprising a plurality of cells being stacked;a plate terminal provided at an end part of the fuel cell stack in a stacking direction;a stack manifold adjacent to the terminal; andan end plate adjacent to the stack manifold,whereinthe stack manifold is disposed between the terminal and the end plate,a groove is formed on a surface of the stack manifold, the surface being opposed to the terminal, wherein the groove includes a rib that tapers towards a water outlet in a direction towards a front side of the vehicle where a radiator is mounted,the groove, the terminal, and the end plate together form a channel containing cooling water that flows in the fuel cell stack and circulates outside the fuel cell stack, wherein the terminal covers the groove and is in direct contact with the channel containing cooling water, andthe channel in the groove of the stack manifold is formed such that, in a state in which the fuel cell system is mounted on a vehicle, the cooling water flows inside the channel in the groove of the stack manifold from a rear side of the vehicle to the front side of the vehicle where the radiator is mounted. 2. The fuel cell system according to claim 1, wherein a downstream end part of a cooling water channel penetrates the stack manifold and the end plate, and is connected to a cooling water outlet formed on the end plate, andthe cooling water is discharged to outside of the end plate without contacting the end plate. 3. The fuel cell system according to claim 1, wherein a rib is formed along the groove on the surface of the stack manifold, the surface being opposed to the terminal. 4. The fuel cell system according to claim 1, wherein a cathode gas inlet and a cathode gas outlet are formed on the stack manifold, anda rib for adjusting a flowing amount of cathode gas is formed in at least either one of the cathode gas inlet and the cathode gas outlet. 5. The fuel cell system according to claim 1, wherein a hole for discharging air contained in the cooling water is formed on an end part of the stack manifold at a position at a height equal to or higher than an upstream end part of the cooling water channel. 6. The fuel cell system according to claim 1, wherein a cooling water outlet for discharging the cooling water to the outside, a cathode gas inlet, and a cathode gas outlet are formed on the end plate, andthe cooling water outlet, the cathode gas inlet, and the cathode gas outlet are formed concentrated on the front side of a vehicle in a state in which the fuel cell system is mounted on the vehicle. 7. The fuel cell system according to claim 2, wherein, in a state in which the system is mounted on a vehicle, the end plate is electrically connected to a frame of the vehicle.
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이 특허에 인용된 특허 (6)
James M. D'Aleo ; Charles M. Carlstrom, Jr. ; Russel H. Marvin ; Michael M. Walsh ; Norman Peschke ; Gary D. Antonelli, Clamping system for a fuel cell stack.
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