An on-track work or rescue vehicle for fire-fighting and/or the rescue of persons in tunnels or subway tubes has a drive which can be operated for at least a limited duration without ambient air. A liquid tank is arranged on the work or rescue vehicle. A fan blower with a fluid spraying device is connected to the liquid tank for producing a spray mist. The work or rescue vehicle is a traction vehicle for pulling or pushing other rail vehicles. A work or rescue vehicle of this type can move to a fire source under the protection of the spray mist blown into the tunnel or subway tube and, if required, pull or push a damaged rail vehicle from a danger zone.

A valve for controlling a fluid flow includes a valve body, a shutter component configured to be able to transition from an open position allowing the circulation of fluid, to a closed position preventing the circulation of fluid. The component is characterized in that it includes a fixed conical support integral with the valve body, a conjugate conical flap rotationally movable relative to the fixed support, and fluid passage apertures respectively arranged in the conical flap and in the fixed support, and an actuator of the shutter component adapted to be able to control the position of the shutter component.

An air-conditioning duct in a passenger car of transportation which is extended in a vehicle length direction in a ceiling portion of the passenger car utilized by the general public and receives conditioned air from an air-conditioning apparatus regulating a temperature of the air to guide the conditioned air into an inside of the passenger car. The air-conditioning duct in a passenger car has a non-uniform distribution configuration which makes the discharge volume of the conditioned air from the air-conditioning duct into the inside of the passenger car different and non-uniform among the respective regions of the inside of the passenger car.

An air-conditioning duct in a passenger car of transportation which is extended in a vehicle length direction in a ceiling portion of the passenger car utilized by the general public and receives conditioned air from an air-conditioning apparatus regulating a temperature of the air to guide the conditioned air into an inside of the passenger car. The air-conditioning duct in a passenger car has a non-uniform distribution configuration which makes the discharge volume of the conditioned air from the air-conditioning duct into the inside of the passenger car different and non-uniform among the respective regions of the inside of the passenger car.

A vehicle air-conditioning apparatus is installed at an upper portion of a vehicle and includes an apparatus main body which includes an outdoor unit chamber and an indoor unit chamber, a compressor, a first heat exchanger, an outdoor blower, a second heat exchanger, an indoor blower, and an electrical component box which houses an inverter that controls the compressor. A return port for taking in in-vehicle air is provided at a lower portion of the indoor unit chamber, and the electrical component box is installed in a space inside the indoor unit chamber so as to be close to the ceiling of the indoor unit chamber, the space defined above the return port.

A vehicle cooling system may include a cooling circuit for cooling at least one main component of a vehicle. The cooling circuit may include at least one cooler through which cooling air is flowable and at least two fan chambers adjoined to an outlet side of the at least one cooler. The at least two fan chambers may each include a respective fan arranged therein, a respective main outlet and a respective ancillary outlet. The vehicle cooling system may also include at least one waste air channel that may be connected to the respective ancillary outlets of the at least two fan chambers. The vehicle cooling system may further include at least one control device configured to control a cross-section of each of the respective ancillary outlets and to enable operation of the vehicle cooling system in a normal operating state and in at least two emergency operating states.

A deterioration diagnosis apparatus includes: a measurement condition storage unit in which first measurement conditions under which measurement is performed for diagnosing a state of a device installed on a train are stored; a measurement condition determination unit determining whether or not the first measurement conditions meet second measurement conditions in operation data that has been acquired from the train and includes a measurement result indicating the state of the device, the second measurement conditions being conditions under which the measurement result has been obtained; a difference condition extraction unit extracting a difference between the first measurement conditions and the second measurement conditions when it is determined that there is inconsistency between the first measurement conditions and the second measurement conditions; a control command generation unit generating a control command for eliminating the difference; and a control command transmission unit transmitting the control command to the train.

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.

The application relates to roof segments for constructing a roof of a carriage body for a rail vehicle for passenger transport, in particular for use in short-haul operation, such as underground and suburban trains, the rail vehicles or the train units formed by same must be accelerated and decelerated at short intervals. The roof segments are designed in the form of plates, shells or half-shells and consist of an outer wall and an inner wall at a distance to same. At least two roof segments are configured in such a way that the protruding region of the outer wall or inner wall of one roof segment is interlockingly, force-lockingly and/or integrally connected to the non-protruding region of the outer wall or inner wall of the neighbouring roof segment. The roof segments consist at least partially of a fibre-reinforced plastic composite.

A device for managing the electrical energy consumption of a set of passenger transport vehicles comprises: —means for receiving a set of consumption information representative of the electrical energy consumed at a given time by the vehicles, —means for determining an overall consumption, from the consumption information received, and —means for generating a set of commands intended respectively for a subset of vehicles selected from among the vehicles of the set according to the service status thereof, the commands being generated to modify the operation of at least one air conditioning system of the vehicles so as to reduce the value of the determined overall consumption to a predefined value. The invention is applicable in passenger transport vehicles powered by an electrical network, such as rail transport vehicles, for example trains, subways, trams, trolleybuses, etc.