An adjustment device for a track conditioning unit has a measuring unit for determining a lateral offset of a rail, travelled on by a rail vehicle, relative to an effective range of a track conditioning unit or a measuring unit for determining the relative position of a bogie with respect to the rail car body. The adjustment device contains a determining unit for determining an actuation command for an actuation unit in accordance with the determined lateral offset between the effective range of the track conditioning unit and the rail. Part of the adjustment device for the track conditioning unit is also an actuation unit for actuating an actuator unit of the track-conditioning unit with an adjustment command which is generated on the basis of the actuation command. The actuator unit adjusts an effective range of the track conditioning unit on the basis of the adjustment command.

Examples for a traction system are provided. In one example, the traction system includes a nozzle coupled to an air source and configured to be selectively aimed toward a determined portion of a rail surface of a rail, and a conduit configured to supply pressurized air from the air source to the nozzle, the nozzle flexibly coupled thereto. The nozzle is configured for the aim of the nozzle to be controlled to change its aiming direction in response to a change in curvature of the rail, whereby a stream of air from the nozzle impacts the determined portion during movement of the vehicle through the curvature of the rail.

Examples for a traction system are provided. In one example, the traction system includes a nozzle coupled to an air source and configured to be selectively aimed toward a determined portion of a rail surface of a rail, and a conduit configured to supply pressurized air from the air source to the nozzle, the nozzle flexibly coupled thereto. The nozzle is configured for the aim of the nozzle to be controlled to change its aiming direction in response to a change in curvature of the rail, whereby a stream of air from the nozzle impacts the determined portion during movement of the vehicle through the curvature of the rail.

A sandbox for rail vehicles, of a type comprising a sand container, on the bottom of which there is a hollow body which presents one or several openings through which sand flows out towards an ejector assembly beneath by passing through an outlet hole controlled by an axially sliding vertical shutter located inside the hollow body is provided. The shutter translates between a lower position in which the output hole is closed and an upper, maximum opening position, whereby the shutter features a cylindrical shape and its lower end functionally cooperates with a ring shaped, sealing coaxial seat, corresponding to the outlet hole of the container.

A system and method herein relate to vehicle control by adjusting a torque distribution of the vehicle. The system includes a first motor configured to provide a torque to a first wheel, and a delivery system configured to controllably apply a traction control compound to a route on which the first wheel is configured to travel. The system also includes a controller circuit having one or more processors. The controller circuit is configured to control the delivery system to apply the traction control compound to the route based on a monitored temperature of the first motor.

A windscreen for housing a sanding system, a railway vehicle with a sanding system, and a method for installing a sanding system in a railway vehicle are described. The windscreen includes a first shell element and a second shell element, the first shell element being detachably connected to the second shell element, wherein the first and second shell elements, when assembled, form an interior space. A container is in communication with a sanding system for housing material used when the sanding system is in operation, wherein the container is configured to be positioned in the interior space formed by the first and second shell elements of the windscreen.

A sanding system for a rail vehicle includes a housing of a cellular wheel sluice having an inlet located at the top and an outlet located at the bottom, a pivotably mounted cellular wheel having a plurality of cells, and a motor that is coupled with the cellular wheel. The sanding system further includes a container connected to the inlet of the cellular wheel sluice for receiving brake sand, or a feed line connected to the inlet of the cellular wheel sluice for transporting brake sand, and a discharge line connected to the outlet of the cellular wheel sluice for transporting brake sand. The motor for driving the cellular wheel is thereby arranged above the inlet.

A system for controlling a consist of rail vehicles or other vehicles includes a control unit electrically coupled to a first rail vehicle in the consist, the control unit having a processor and being configured to receive signals representing a presence and position of one or more tractive effort systems on-board the first vehicle and other rail vehicles in the consist, and a set of instructions stored in a non-transient medium accessible by the processor, the instructions configured to control the processor to create a optimization schedule that manages the use of the one or more tractive effort systems based on the presence and position of the tractive effort systems within the consist.

The invention relates a sandbox for rail vehicles, of a type comprising a sand container, on the bottom of which there is a hollow body which presents one or several openings through which sand flows out towards an ejector assembly beneath by passing through an outler hole controlled by an axially sliding vertical shutter located inside said hollow body and means handling and controlling said shutter which cause its translation between a lower position in which said output hole is closed and an upper, maximum opening position, whereby said shutter features a cylindrical shape and its lower end functionally cooperates with a ring shaped, sealing coaxial seat, corresponding to said outlet hole of said container.

A windscreen for housing a sanding system, a railway vehicle with a sanding system, and a method for installing a sanding system in a railway vehicle are described. The windscreen includes a first shell element and a second shell element, the first shell element being detachably connected to the second shell element, wherein the first and second shell elements, when assembled, form an interior space. A container is in communication with a sanding system for housing material used when the sanding system is in operation, wherein the container is configured to be positioned in the interior space formed by the first and second shell elements of the windscreen.