A device and method control dispensing of adhesion-increasing agent of a rail vehicle. At least one wheel speed sensor and/or wheel acceleration sensor and/or wheel torque sensor measures the wheel speed or wheel rotational speed and/or the wheel acceleration of a particular wheel and/or the wheel torque acting on the wheel. A measuring unit determines the vehicle speed and/or the acceleration in the vehicle longitudinal direction of the entire rail vehicle. A calculation unit ascertains the ratio of the wheel speed or wheel rotational speed of the wheel and the speed of the rail vehicle and/or the ratio of the wheel acceleration and the acceleration in the longitudinal direction of the rail vehicle and/or the ratio between the target torque and the actual torque acting on the wheel; a change in ratio is used to control dispensing of the adhesion-increasing agent.

A sand spreading system for a rail vehicle with driveable and/or brakeable rail wheels. The sand spreading system includes a sand box for storing spreading sand, a sand staircase which is fastened to the sand box for the compressed-air-controlled metering of the output of spreading sand, and a sand outlet tube which is connected to the sand staircase via a sand hose and opens in front of a rail wheel. By a heating device for generating a hot air flow passing through the spreading sand being integrated in the sand staircase, the spreading sand can be kept dry and pourable even in the wet and frost, and therefore the function of the sand staircase and hence the effective operation of the rail vehicle are assured.

A fluid control device includes a first conduit having a first end and a second end, and a first fluid that moves within the first conduit between the first end and the second end. The first conduit includes an interior surface defining a cavity of the first conduit. The fluid control device includes a second conduit having a third end and a fourth end, and a second fluid that moves within the second conduit between the third and fourth ends. At least a portion of the second conduit extends within the cavity of the first conduit. The first fluid is separate from the second fluid as the first fluid moves within the first conduit and the second fluid moves within the second conduit.

A diagnostic apparatus for a sand metering device for a sanding system for a rail vehicle includes a detection device and an evaluation device. The detection device is designed to detect at least one parameter of the sand metering device of the sanding system and to provide a detection signal representing the parameter. The evaluation device is designed to output a metering error signal using the detection signal, which metering error signal indicates a malfunction of the sand metering device if the parameter deviates from a target parameter.

A method for actuating a track conditioning unit or a wheel flange lubricating system of a rail vehicle. The track conditioning unit provides auxiliary agent to sub-regions of a rail on which the rail vehicle is travelling, in order to increase friction between the wheel and the rail. A wheel flange lubricating system provides a fluid to a wheel sub-region of the rail vehicle or to a rail sub-region, in order to reduce friction between the wheel and the rail. A relative movement between a railcar body and a bogie of the rail vehicle is detected using path measurement, in order to detect a bend in the track. Based on the path measurement, the track conditioning unit or the wheel flange lubricating system is actuated in a targeted manner according to the bend, such that the auxiliary agent or fluid is applied in a resource-saving yet effective manner.

A method for actuating a track conditioning unit or a wheel flange lubricating system of a rail vehicle. The track conditioning unit provides auxiliary agent to sub-regions of a rail on which the rail vehicle is travelling, in order to increase friction between the wheel and the rail. A wheel flange lubricating system provides a fluid to a wheel sub-region of the rail vehicle or to a rail sub-region, in order to reduce friction between the wheel and the rail. A relative movement between a railcar body and a bogie of the rail vehicle is detected using path measurement, in order to detect a bend in the track. Based on the path measurement, the track conditioning unit or the wheel flange lubricating system is actuated in a targeted manner according to the bend, such that the auxiliary agent or fluid is applied in a resource-saving yet effective manner.

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 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 method for analyzing a scattering material located at a contact point between a rail and a wheel of a rail vehicle wherein the scattering material improves the force closure between the rail and the wheel. The method reads in a motion signal that represents a motion of the wheel caused by the scattering material located on the rail and evaluates the motion signal to analyze the scattering material located on the rail.

A method for analyzing a scattering material located at a contact point between a rail and a wheel of a rail vehicle wherein the scattering material improves the force closure between the rail and the wheel. The method reads in a motion signal that represents a motion of the wheel caused by the scattering material located on the rail and evaluates the motion signal to analyze the scattering material located on the rail.