The present invention relates to a power car (10) for a high-speed train, comprising a body (12) and at least one power car of said body, said body comprising a roof (19) and a floor (20); the traction motor being arranged below said floor, the body further comprising an equipment room (24) defined between said roof and said floor, said technical room including: electrical equipment (33) for controlling the traction motor; and at least one fan device (34) of said electrical equipment.

The ventilation device comprises: an air intake sheath (36), forming a closed pipe between an inlet (38) and an outlet (40) open on the equipment room; and a fan (42) arranged between the inlet and the outlet, so as to create an overpressure in the technical room.

A power converter includes a chassis having attached thereto a holding fixture for mounting the chassis to a mounting portion in a suspended manner. The holding fixture includes a first member attached to a first surface of the chassis which faces the mounting portion, and a second member attached to the first member and a second surface of the chassis that adjoins the first surface.

A body (1) for a rail vehicle (100) comprising a control panel (4) for controlling the rail vehicle (100). The control panel (4) has a rest position and an operational position and, in the rest position, is located in a control panel holder (41) while, in the operational position, is at least partially located outside the control panel holder (41) such that control elements (42) are accessible for operation.

A body (1) for a rail vehicle (100) comprising a control panel (4) for controlling the rail vehicle (100). The control panel (4) has a rest position and an operational position and, in the rest position, is located in a control panel holder (41) while, in the operational position, is at least partially located outside the control panel holder (41) such that control elements (42) are accessible for operation.

A cooling device for a railroad vehicle that cools a heat generating body housed in a storage box set on the floor of the railroad vehicle includes a heat conduction plate configuring a part of a side surface of the storage box, the heat generating body being mounted on one surface side of the heat conduction plate, a plurality of heat pipes inclined to project from the other surface side to an upper side of the heat conduction plate, a plurality of fins fixed to the plurality of heat pipes, and a cover that includes opening sections, and covers the cooling device. A total of areas of the opening sections located on the base side of the heat pipes is formed larger than a total of areas of the opening sections located on the distal end portion side of the heat pipes.

A driver cabin for an urban railway vehicle, the driver cabin extending in a longitudinal driving direction and including: a cabin chassis including at least one main shock-absorbing area having a longitudinal extend defined between a front plane oriented transversally to the longitudinal driving direction and a rear plane oriented transversally to the longitudinal driving direction, the main shock-absorbing area being able to deform in case of a shock between an initial state and a shock-absorbed state, so that in the shock-absorbed state the longitudinal extend of the main shock-absorbing area is reduced about a predefined compression distance; an electrical equipment compartment storing at least one stiff electrical element carrying electronic components. The electrical equipment compartment is located inside the main shock-absorbing area.

A driver cabin for an urban railway vehicle, the driver cabin extending in a longitudinal driving direction and including: a cabin chassis including at least one main shock-absorbing area having a longitudinal extend defined between a front plane oriented transversally to the longitudinal driving direction and a rear plane oriented transversally to the longitudinal driving direction, the main shock-absorbing area being able to deform in case of a shock between an initial state and a shock-absorbed state, so that in the shock-absorbed state the longitudinal extend of the main shock-absorbing area is reduced about a predefined compression distance; an electrical equipment compartment storing at least one stiff electrical element carrying electronic components. The electrical equipment compartment is located inside the main shock-absorbing area.

A process for manufacturing a base board of a high-speed rail equipment cabin using a composite material is disclosed. The composite material includes: aramid honeycomb, PET foam, 3K twill carbon fiber flame retardant prepreg, unidirectional carbon fiber flame retardant prepreg, glass fiber flame retardant prepreg, aramid flame retardant prepreg, and 300 g/cm.sup.2 single component medium temperature curing blue epoxy adhesive. The process includes manufacturing a base-board main plate (1), a base-board handle (2) and two base-board sliders (3). While installation, the base-board handle (2) is stuck to one side of the base-board main plate (1), and the two base-board sliders (3) are respectively stuck to another two opposite sides of the base-board main plate (1). The weight of the base board made from the composite material is 35%-40% lower than the base board made from the aluminum alloy material, which leads to a good prospect of application.

According to some embodiments, there is provided an air conditioning system for a vehicle. The vehicle may be a locomotive. The air conditioning system includes a combination module for mounting in or on a vehicle. The combination module includes a condenser coil and a compressor assembly. The compressor assembly includes an electric motor. The combination module may be mounted to cover a hole in an outer wall or floor of the vehicle, such that air enters the hole ventilates the condenser coil. The system also includes at least one air handler for mounting in a cab of the vehicle, remote from combination module. Each air handler comprises a respective evaporator coil. A combination module including a compressor assembly is also provided. A method for installing the combination module is also provided.

A rail vehicle includes a plurality of items of equipment provided within a compartment, an air-conditioner that conditions air flowing within the items of equipment or within a housing that accommodates the items of equipment, and a duct that delivers air between the air-conditioner and the items of equipment and having a portion extending within the compartment in a forward/rearward direction of a vehicle, in a position close to a wall of the compartment.