This disclosure relates to an energy storage arrangement for a vehicle. In particular, the energy storage arrangement includes a battery unit provided in an intermediate space between adjacent fluid tanks. Relative to the above-discussed prior art, this disclosure provides an improved energy storage arrangement which uses the otherwise unused intermediate space between two adjacent fluid tanks. Thus, this disclosure provides a space-saving, efficient, and cost-effective arrangement.

This disclosure relates to an energy storage arrangement for a vehicle. In particular, the energy storage arrangement includes a battery unit provided in an intermediate space between adjacent fluid tanks. Relative to the above-discussed prior art, this disclosure provides an improved energy storage arrangement which uses the otherwise unused intermediate space between two adjacent fluid tanks. Thus, this disclosure provides a space-saving, efficient, and cost-effective arrangement.

A fuel cell vehicle includes a fuel cell stack, a fuel tank, a body-side mounting portion, a main fuel pipe, a securing mechanism, and an elastic pipe. The fuel cell stack is disposed in a front section of the fuel cell vehicle. The fuel tank is disposed in a rear section of the fuel cell vehicle. The main fuel pipe connects the fuel tank and the body-side mounting portion. The elastic pipe is connected to the fuel cell stack at a first end of the elastic pipe and connected, via the securing mechanism, to the body-side mounting portion at a second end of the elastic pipe opposite to the first end such that the second end of the elastic pipe is disengaged from the body-side mounting portion when a load larger than a predetermined threshold load is applied to the securing mechanism.

A fuel cell vehicle includes a fuel cell stack, a fuel tank, a body-side mounting portion, a main fuel pipe, a securing mechanism, and an elastic pipe. The fuel cell stack is disposed in a front section of the fuel cell vehicle. The fuel tank is disposed in a rear section of the fuel cell vehicle. The main fuel pipe connects the fuel tank and the body-side mounting portion. The elastic pipe is connected to the fuel cell stack at a first end of the elastic pipe and connected, via the securing mechanism, to the body-side mounting portion at a second end of the elastic pipe opposite to the first end such that the second end of the elastic pipe is disengaged from the body-side mounting portion when a load larger than a predetermined threshold load is applied to the securing mechanism.

The invention relates to an emergency vehicle (1), especially fire truck, comprising: a vehicle body (2); at least two wheel pairs (3) having respectively at least two wheels (6), which are disposed on the vehicle body (2); an accumulator (10) for storage of electrical energy; a secondary energy unit (7) for conversion of an energy stored in a fuel into electrical energy; at least one electric motor (11).

The secondary energy unit (7) is disposed on a carrier frame (14), wherein the carrier frame (14) is received in modular and detachable manner on the vehicle body (2).

A vehicle includes a body, a fuel cell stack supported by the body for tilting relative thereto, a pivoting system and at least one control module. The fuel cell stack includes a fuel cell operable to generate electrical energy using fuel and exhaust water as a byproduct, and an exhaust water drainage port in fluid communication with the fuel cell. The pivoting system is mechanically connected between the body and the fuel cell stack, and operable to selectively tilt the fuel cell stack relative to the body. The at least one control module is communicatively connected to the pivoting system, and configured to operate the pivoting system in response to an inclination event associated with the body being tilted away from the exhaust water drainage port. By the operation of the pivoting system, the fuel cell stack is tilted relative to the body toward the exhaust water drainage port.

There is provided a fuel cell vehicle equipped with a fuel cell. The fuel cell vehicle comprises a fuel gas supply piping located in floor of the fuel cell vehicle and configured to supply a fuel gas to the fuel cell; an exhaust drainage piping located under the floor and configured to discharge an exhaust gas and water from the fuel cell; a muffler located below the fuel gas supply piping in a direction of gravity and connected with the exhaust drainage piping; and an undercover located below the muffler and provided to cover the floor, the undercover having a gap along a front-rear direction of the fuel cell vehicle formed between a front wheel of the fuel cell vehicle. The muffler is placed on any straight line that passes through the fuel gas supply pipe and that connects any point of a contact area in which the front wheel is in contact with ground surface with the gap in a view of a left-right direction of the fuel cell vehicle.

There is provided a fuel cell vehicle equipped with a fuel cell. The fuel cell vehicle comprises a fuel gas supply piping located in floor of the fuel cell vehicle and configured to supply a fuel gas to the fuel cell; an exhaust drainage piping located under the floor and configured to discharge an exhaust gas and water from the fuel cell; a muffler located below the fuel gas supply piping in a direction of gravity and connected with the exhaust drainage piping; and an undercover located below the muffler and provided to cover the floor, the undercover having a gap along a front-rear direction of the fuel cell vehicle formed between a front wheel of the fuel cell vehicle. The muffler is placed on any straight line that passes through the fuel gas supply pipe and that connects any point of a contact area in which the front wheel is in contact with ground surface with the gap in a view of a left-right direction of the fuel cell vehicle.

A fuel cell vehicle includes a front compartment and a metallic dash panel in a front side of the vehicle. The front compartment houses a fuel cell stack, a gas-liquid separator, and a fuel gas pump. The dash panel is disposed between the front compartment and a cabin to partition them. The fuel gas pump is mounted to a lower portion of a stack frame in a state of projecting from the stack frame toward the dash panel side. The gas-liquid separator is mounted to a lower portion of the fuel gas pump in a state of projecting from the stack frame and the fuel gas pump toward the dash panel side. The fuel gas pump is made of metal, and the gas-liquid separator is made of resin.

A fuel cell vehicle includes a front compartment and a metallic dash panel in a front side of the vehicle. The front compartment houses a fuel cell stack, a gas-liquid separator, and a fuel gas pump. The dash panel is disposed between the front compartment and a cabin to partition them. The fuel gas pump is mounted to a lower portion of a stack frame in a state of projecting from the stack frame toward the dash panel side. The gas-liquid separator is mounted to a lower portion of the fuel gas pump in a state of projecting from the stack frame and the fuel gas pump toward the dash panel side. The fuel gas pump is made of metal, and the gas-liquid separator is made of resin.